oop.inline.hpp 30.1 KB
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/*
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 * Copyright 1997-2008 Sun Microsystems, Inc.  All Rights Reserved.
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 * DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
 *
 * This code is free software; you can redistribute it and/or modify it
 * under the terms of the GNU General Public License version 2 only, as
 * published by the Free Software Foundation.
 *
 * This code is distributed in the hope that it will be useful, but WITHOUT
 * 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.
 *
 * Please contact Sun Microsystems, Inc., 4150 Network Circle, Santa Clara,
 * CA 95054 USA or visit www.sun.com if you need additional information or
 * have any questions.
 *
 */

// Implementation of all inlined member functions defined in oop.hpp
// We need a separate file to avoid circular references

inline void oopDesc::release_set_mark(markOop m) {
  OrderAccess::release_store_ptr(&_mark, m);
}

inline markOop oopDesc::cas_set_mark(markOop new_mark, markOop old_mark) {
  return (markOop) Atomic::cmpxchg_ptr(new_mark, &_mark, old_mark);
}

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inline klassOop oopDesc::klass() const {
  if (UseCompressedOops) {
    return (klassOop)decode_heap_oop_not_null(_metadata._compressed_klass);
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  } else {
    return _metadata._klass;
  }
}

inline klassOop oopDesc::klass_or_null() const volatile {
  // can be NULL in CMS
  if (UseCompressedOops) {
    return (klassOop)decode_heap_oop(_metadata._compressed_klass);
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  } else {
    return _metadata._klass;
  }
}

inline int oopDesc::klass_gap_offset_in_bytes() {
  assert(UseCompressedOops, "only applicable to compressed headers");
  return oopDesc::klass_offset_in_bytes() + sizeof(narrowOop);
}

inline oop* oopDesc::klass_addr() {
  // Only used internally and with CMS and will not work with
  // UseCompressedOops
  assert(!UseCompressedOops, "only supported with uncompressed oops");
  return (oop*) &_metadata._klass;
}

inline narrowOop* oopDesc::compressed_klass_addr() {
  assert(UseCompressedOops, "only called by compressed oops");
  return (narrowOop*) &_metadata._compressed_klass;
}

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inline void oopDesc::set_klass(klassOop k) {
  // since klasses are promoted no store check is needed
  assert(Universe::is_bootstrapping() || k != NULL, "must be a real klassOop");
  assert(Universe::is_bootstrapping() || k->is_klass(), "not a klassOop");
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  if (UseCompressedOops) {
    oop_store_without_check(compressed_klass_addr(), (oop)k);
  } else {
    oop_store_without_check(klass_addr(), (oop) k);
  }
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}

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inline int oopDesc::klass_gap() const {
  return *(int*)(((intptr_t)this) + klass_gap_offset_in_bytes());
}

inline void oopDesc::set_klass_gap(int v) {
  if (UseCompressedOops) {
    *(int*)(((intptr_t)this) + klass_gap_offset_in_bytes()) = v;
  }
}

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inline void oopDesc::set_klass_to_list_ptr(oop k) {
  // This is only to be used during GC, for from-space objects, so no
  // barrier is needed.
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  if (UseCompressedOops) {
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    _metadata._compressed_klass = encode_heap_oop(k);  // may be null (parnew overflow handling)
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  } else {
    _metadata._klass = (klassOop)k;
  }
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}

inline void   oopDesc::init_mark()                 { set_mark(markOopDesc::prototype_for_object(this)); }
inline Klass* oopDesc::blueprint()           const { return klass()->klass_part(); }

inline bool oopDesc::is_a(klassOop k)        const { return blueprint()->is_subtype_of(k); }

inline bool oopDesc::is_instance()           const { return blueprint()->oop_is_instance(); }
inline bool oopDesc::is_instanceRef()        const { return blueprint()->oop_is_instanceRef(); }
inline bool oopDesc::is_array()              const { return blueprint()->oop_is_array(); }
inline bool oopDesc::is_objArray()           const { return blueprint()->oop_is_objArray(); }
inline bool oopDesc::is_typeArray()          const { return blueprint()->oop_is_typeArray(); }
inline bool oopDesc::is_javaArray()          const { return blueprint()->oop_is_javaArray(); }
inline bool oopDesc::is_symbol()             const { return blueprint()->oop_is_symbol(); }
inline bool oopDesc::is_klass()              const { return blueprint()->oop_is_klass(); }
inline bool oopDesc::is_thread()             const { return blueprint()->oop_is_thread(); }
inline bool oopDesc::is_method()             const { return blueprint()->oop_is_method(); }
inline bool oopDesc::is_constMethod()        const { return blueprint()->oop_is_constMethod(); }
inline bool oopDesc::is_methodData()         const { return blueprint()->oop_is_methodData(); }
inline bool oopDesc::is_constantPool()       const { return blueprint()->oop_is_constantPool(); }
inline bool oopDesc::is_constantPoolCache()  const { return blueprint()->oop_is_constantPoolCache(); }
inline bool oopDesc::is_compiledICHolder()   const { return blueprint()->oop_is_compiledICHolder(); }

inline void*     oopDesc::field_base(int offset)        const { return (void*)&((char*)this)[offset]; }

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template <class T> inline T* oopDesc::obj_field_addr(int offset) const { return (T*)field_base(offset); }
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inline jbyte*    oopDesc::byte_field_addr(int offset)   const { return (jbyte*)   field_base(offset); }
inline jchar*    oopDesc::char_field_addr(int offset)   const { return (jchar*)   field_base(offset); }
inline jboolean* oopDesc::bool_field_addr(int offset)   const { return (jboolean*)field_base(offset); }
inline jint*     oopDesc::int_field_addr(int offset)    const { return (jint*)    field_base(offset); }
inline jshort*   oopDesc::short_field_addr(int offset)  const { return (jshort*)  field_base(offset); }
inline jlong*    oopDesc::long_field_addr(int offset)   const { return (jlong*)   field_base(offset); }
inline jfloat*   oopDesc::float_field_addr(int offset)  const { return (jfloat*)  field_base(offset); }
inline jdouble*  oopDesc::double_field_addr(int offset) const { return (jdouble*) field_base(offset); }
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inline address*  oopDesc::address_field_addr(int offset) const { return (address*) field_base(offset); }


// Functions for getting and setting oops within instance objects.
// If the oops are compressed, the type passed to these overloaded functions
// is narrowOop.  All functions are overloaded so they can be called by
// template functions without conditionals (the compiler instantiates via
// the right type and inlines the appopriate code).

inline bool oopDesc::is_null(oop obj)       { return obj == NULL; }
inline bool oopDesc::is_null(narrowOop obj) { return obj == 0; }

// Algorithm for encoding and decoding oops from 64 bit pointers to 32 bit
// offset from the heap base.  Saving the check for null can save instructions
// in inner GC loops so these are separated.

inline narrowOop oopDesc::encode_heap_oop_not_null(oop v) {
  assert(!is_null(v), "oop value can never be zero");
  address heap_base = Universe::heap_base();
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  uint64_t pd = (uint64_t)(pointer_delta((void*)v, (void*)heap_base, 1));
  assert(OopEncodingHeapMax > pd, "change encoding max if new encoding");
  uint64_t result = pd >> LogMinObjAlignmentInBytes;
  assert((result & CONST64(0xffffffff00000000)) == 0, "narrow oop overflow");
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  return (narrowOop)result;
}

inline narrowOop oopDesc::encode_heap_oop(oop v) {
  return (is_null(v)) ? (narrowOop)0 : encode_heap_oop_not_null(v);
}

inline oop oopDesc::decode_heap_oop_not_null(narrowOop v) {
  assert(!is_null(v), "narrow oop value can never be zero");
  address heap_base = Universe::heap_base();
  return (oop)(void*)((uintptr_t)heap_base + ((uintptr_t)v << LogMinObjAlignmentInBytes));
}

inline oop oopDesc::decode_heap_oop(narrowOop v) {
  return is_null(v) ? (oop)NULL : decode_heap_oop_not_null(v);
}

inline oop oopDesc::decode_heap_oop_not_null(oop v) { return v; }
inline oop oopDesc::decode_heap_oop(oop v)  { return v; }

// Load an oop out of the Java heap as is without decoding.
// Called by GC to check for null before decoding.
inline oop       oopDesc::load_heap_oop(oop* p)          { return *p; }
inline narrowOop oopDesc::load_heap_oop(narrowOop* p)    { return *p; }

// Load and decode an oop out of the Java heap into a wide oop.
inline oop oopDesc::load_decode_heap_oop_not_null(oop* p)       { return *p; }
inline oop oopDesc::load_decode_heap_oop_not_null(narrowOop* p) {
  return decode_heap_oop_not_null(*p);
}

// Load and decode an oop out of the heap accepting null
inline oop oopDesc::load_decode_heap_oop(oop* p) { return *p; }
inline oop oopDesc::load_decode_heap_oop(narrowOop* p) {
  return decode_heap_oop(*p);
}

// Store already encoded heap oop into the heap.
inline void oopDesc::store_heap_oop(oop* p, oop v)                 { *p = v; }
inline void oopDesc::store_heap_oop(narrowOop* p, narrowOop v)     { *p = v; }

// Encode and store a heap oop.
inline void oopDesc::encode_store_heap_oop_not_null(narrowOop* p, oop v) {
  *p = encode_heap_oop_not_null(v);
}
inline void oopDesc::encode_store_heap_oop_not_null(oop* p, oop v) { *p = v; }

// Encode and store a heap oop allowing for null.
inline void oopDesc::encode_store_heap_oop(narrowOop* p, oop v) {
  *p = encode_heap_oop(v);
}
inline void oopDesc::encode_store_heap_oop(oop* p, oop v) { *p = v; }

// Store heap oop as is for volatile fields.
inline void oopDesc::release_store_heap_oop(volatile oop* p, oop v) {
  OrderAccess::release_store_ptr(p, v);
}
inline void oopDesc::release_store_heap_oop(volatile narrowOop* p,
                                            narrowOop v) {
  OrderAccess::release_store(p, v);
}

inline void oopDesc::release_encode_store_heap_oop_not_null(
                                                volatile narrowOop* p, oop v) {
  // heap oop is not pointer sized.
  OrderAccess::release_store(p, encode_heap_oop_not_null(v));
}

inline void oopDesc::release_encode_store_heap_oop_not_null(
                                                      volatile oop* p, oop v) {
  OrderAccess::release_store_ptr(p, v);
}

inline void oopDesc::release_encode_store_heap_oop(volatile oop* p,
                                                           oop v) {
  OrderAccess::release_store_ptr(p, v);
}
inline void oopDesc::release_encode_store_heap_oop(
                                                volatile narrowOop* p, oop v) {
  OrderAccess::release_store(p, encode_heap_oop(v));
}

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// These functions are only used to exchange oop fields in instances,
// not headers.
inline oop oopDesc::atomic_exchange_oop(oop exchange_value, volatile HeapWord *dest) {
  if (UseCompressedOops) {
    // encode exchange value from oop to T
    narrowOop val = encode_heap_oop(exchange_value);
    narrowOop old = (narrowOop)Atomic::xchg(val, (narrowOop*)dest);
    // decode old from T to oop
    return decode_heap_oop(old);
  } else {
    return (oop)Atomic::xchg_ptr(exchange_value, (oop*)dest);
  }
}

inline oop oopDesc::atomic_compare_exchange_oop(oop exchange_value,
                                                volatile HeapWord *dest,
                                                oop compare_value) {
  if (UseCompressedOops) {
    // encode exchange and compare value from oop to T
    narrowOop val = encode_heap_oop(exchange_value);
    narrowOop cmp = encode_heap_oop(compare_value);

    narrowOop old = (narrowOop) Atomic::cmpxchg(val, (narrowOop*)dest, cmp);
    // decode old from T to oop
    return decode_heap_oop(old);
  } else {
    return (oop)Atomic::cmpxchg_ptr(exchange_value, (oop*)dest, compare_value);
  }
}

// In order to put or get a field out of an instance, must first check
// if the field has been compressed and uncompress it.
inline oop oopDesc::obj_field(int offset) const {
  return UseCompressedOops ?
    load_decode_heap_oop(obj_field_addr<narrowOop>(offset)) :
    load_decode_heap_oop(obj_field_addr<oop>(offset));
}
inline void oopDesc::obj_field_put(int offset, oop value) {
  UseCompressedOops ? oop_store(obj_field_addr<narrowOop>(offset), value) :
                      oop_store(obj_field_addr<oop>(offset),       value);
}
inline void oopDesc::obj_field_raw_put(int offset, oop value) {
  UseCompressedOops ?
    encode_store_heap_oop(obj_field_addr<narrowOop>(offset), value) :
    encode_store_heap_oop(obj_field_addr<oop>(offset),       value);
}
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inline jbyte oopDesc::byte_field(int offset) const                  { return (jbyte) *byte_field_addr(offset);    }
inline void oopDesc::byte_field_put(int offset, jbyte contents)     { *byte_field_addr(offset) = (jint) contents; }

inline jboolean oopDesc::bool_field(int offset) const               { return (jboolean) *bool_field_addr(offset); }
inline void oopDesc::bool_field_put(int offset, jboolean contents)  { *bool_field_addr(offset) = (jint) contents; }

inline jchar oopDesc::char_field(int offset) const                  { return (jchar) *char_field_addr(offset);    }
inline void oopDesc::char_field_put(int offset, jchar contents)     { *char_field_addr(offset) = (jint) contents; }

inline jint oopDesc::int_field(int offset) const                    { return *int_field_addr(offset);        }
inline void oopDesc::int_field_put(int offset, jint contents)       { *int_field_addr(offset) = contents;    }

inline jshort oopDesc::short_field(int offset) const                { return (jshort) *short_field_addr(offset);  }
inline void oopDesc::short_field_put(int offset, jshort contents)   { *short_field_addr(offset) = (jint) contents;}

inline jlong oopDesc::long_field(int offset) const                  { return *long_field_addr(offset);       }
inline void oopDesc::long_field_put(int offset, jlong contents)     { *long_field_addr(offset) = contents;   }

inline jfloat oopDesc::float_field(int offset) const                { return *float_field_addr(offset);      }
inline void oopDesc::float_field_put(int offset, jfloat contents)   { *float_field_addr(offset) = contents;  }

inline jdouble oopDesc::double_field(int offset) const              { return *double_field_addr(offset);     }
inline void oopDesc::double_field_put(int offset, jdouble contents) { *double_field_addr(offset) = contents; }

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inline address oopDesc::address_field(int offset) const              { return *address_field_addr(offset);     }
inline void oopDesc::address_field_put(int offset, address contents) { *address_field_addr(offset) = contents; }

inline oop oopDesc::obj_field_acquire(int offset) const {
  return UseCompressedOops ?
             decode_heap_oop((narrowOop)
               OrderAccess::load_acquire(obj_field_addr<narrowOop>(offset)))
           : decode_heap_oop((oop)
               OrderAccess::load_ptr_acquire(obj_field_addr<oop>(offset)));
}
inline void oopDesc::release_obj_field_put(int offset, oop value) {
  UseCompressedOops ?
    oop_store((volatile narrowOop*)obj_field_addr<narrowOop>(offset), value) :
    oop_store((volatile oop*)      obj_field_addr<oop>(offset),       value);
}
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inline jbyte oopDesc::byte_field_acquire(int offset) const                  { return OrderAccess::load_acquire(byte_field_addr(offset));     }
inline void oopDesc::release_byte_field_put(int offset, jbyte contents)     { OrderAccess::release_store(byte_field_addr(offset), contents); }

inline jboolean oopDesc::bool_field_acquire(int offset) const               { return OrderAccess::load_acquire(bool_field_addr(offset));     }
inline void oopDesc::release_bool_field_put(int offset, jboolean contents)  { OrderAccess::release_store(bool_field_addr(offset), contents); }

inline jchar oopDesc::char_field_acquire(int offset) const                  { return OrderAccess::load_acquire(char_field_addr(offset));     }
inline void oopDesc::release_char_field_put(int offset, jchar contents)     { OrderAccess::release_store(char_field_addr(offset), contents); }

inline jint oopDesc::int_field_acquire(int offset) const                    { return OrderAccess::load_acquire(int_field_addr(offset));      }
inline void oopDesc::release_int_field_put(int offset, jint contents)       { OrderAccess::release_store(int_field_addr(offset), contents);  }

inline jshort oopDesc::short_field_acquire(int offset) const                { return (jshort)OrderAccess::load_acquire(short_field_addr(offset)); }
inline void oopDesc::release_short_field_put(int offset, jshort contents)   { OrderAccess::release_store(short_field_addr(offset), contents);     }

inline jlong oopDesc::long_field_acquire(int offset) const                  { return OrderAccess::load_acquire(long_field_addr(offset));       }
inline void oopDesc::release_long_field_put(int offset, jlong contents)     { OrderAccess::release_store(long_field_addr(offset), contents);   }

inline jfloat oopDesc::float_field_acquire(int offset) const                { return OrderAccess::load_acquire(float_field_addr(offset));      }
inline void oopDesc::release_float_field_put(int offset, jfloat contents)   { OrderAccess::release_store(float_field_addr(offset), contents);  }

inline jdouble oopDesc::double_field_acquire(int offset) const              { return OrderAccess::load_acquire(double_field_addr(offset));     }
inline void oopDesc::release_double_field_put(int offset, jdouble contents) { OrderAccess::release_store(double_field_addr(offset), contents); }

inline int oopDesc::size_given_klass(Klass* klass)  {
  int lh = klass->layout_helper();
  int s  = lh >> LogHeapWordSize;  // deliver size scaled by wordSize

  // lh is now a value computed at class initialization that may hint
  // at the size.  For instances, this is positive and equal to the
  // size.  For arrays, this is negative and provides log2 of the
  // array element size.  For other oops, it is zero and thus requires
  // a virtual call.
  //
  // We go to all this trouble because the size computation is at the
  // heart of phase 2 of mark-compaction, and called for every object,
  // alive or dead.  So the speed here is equal in importance to the
  // speed of allocation.

  if (lh <= Klass::_lh_neutral_value) {
    // The most common case is instances; fall through if so.
    if (lh < Klass::_lh_neutral_value) {
      // Second most common case is arrays.  We have to fetch the
      // length of the array, shift (multiply) it appropriately,
      // up to wordSize, add the header, and align to object size.
      size_t size_in_bytes;
#ifdef _M_IA64
      // The Windows Itanium Aug 2002 SDK hoists this load above
      // the check for s < 0.  An oop at the end of the heap will
      // cause an access violation if this load is performed on a non
      // array oop.  Making the reference volatile prohibits this.
      // (%%% please explain by what magic the length is actually fetched!)
      volatile int *array_length;
      array_length = (volatile int *)( (intptr_t)this +
                          arrayOopDesc::length_offset_in_bytes() );
      assert(array_length > 0, "Integer arithmetic problem somewhere");
      // Put into size_t to avoid overflow.
      size_in_bytes = (size_t) array_length;
      size_in_bytes = size_in_bytes << Klass::layout_helper_log2_element_size(lh);
#else
      size_t array_length = (size_t) ((arrayOop)this)->length();
      size_in_bytes = array_length << Klass::layout_helper_log2_element_size(lh);
#endif
      size_in_bytes += Klass::layout_helper_header_size(lh);

      // This code could be simplified, but by keeping array_header_in_bytes
      // in units of bytes and doing it this way we can round up just once,
      // skipping the intermediate round to HeapWordSize.  Cast the result
      // of round_to to size_t to guarantee unsigned division == right shift.
      s = (int)((size_t)round_to(size_in_bytes, MinObjAlignmentInBytes) /
        HeapWordSize);

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      // UseParNewGC, UseParallelGC and UseG1GC can change the length field
      // of an "old copy" of an object array in the young gen so it indicates
      // the grey portion of an already copied array. This will cause the first
      // disjunct below to fail if the two comparands are computed across such
      // a concurrent change.
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      // UseParNewGC also runs with promotion labs (which look like int
      // filler arrays) which are subject to changing their declared size
      // when finally retiring a PLAB; this also can cause the first disjunct
      // to fail for another worker thread that is concurrently walking the block
      // offset table. Both these invariant failures are benign for their
      // current uses; we relax the assertion checking to cover these two cases below:
      //     is_objArray() && is_forwarded()   // covers first scenario above
      //  || is_typeArray()                    // covers second scenario above
      // If and when UseParallelGC uses the same obj array oop stealing/chunking
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      // technique, we will need to suitably modify the assertion.
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      assert((s == klass->oop_size(this)) ||
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             (Universe::heap()->is_gc_active() &&
              ((is_typeArray() && UseParNewGC) ||
               (is_objArray()  && is_forwarded() && (UseParNewGC || UseParallelGC || UseG1GC)))),
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             "wrong array object size");
    } else {
      // Must be zero, so bite the bullet and take the virtual call.
      s = klass->oop_size(this);
    }
  }

  assert(s % MinObjAlignment == 0, "alignment check");
  assert(s > 0, "Bad size calculated");
  return s;
}


inline int oopDesc::size()  {
  return size_given_klass(blueprint());
}

inline bool oopDesc::is_parsable() {
  return blueprint()->oop_is_parsable(this);
}

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inline void update_barrier_set(void* p, oop v) {
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  assert(oopDesc::bs() != NULL, "Uninitialized bs in oop!");
  oopDesc::bs()->write_ref_field(p, v);
}

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inline void update_barrier_set_pre(void* p, oop v) {
  oopDesc::bs()->write_ref_field_pre(p, v);
}

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template <class T> inline void oop_store(T* p, oop v) {
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  if (always_do_update_barrier) {
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    oop_store((volatile T*)p, v);
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  } else {
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    update_barrier_set_pre(p, v);
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    oopDesc::encode_store_heap_oop(p, v);
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    update_barrier_set(p, v);
  }
}

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template <class T> inline void oop_store(volatile T* p, oop v) {
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  update_barrier_set_pre((void*)p, v);
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  // Used by release_obj_field_put, so use release_store_ptr.
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  oopDesc::release_encode_store_heap_oop(p, v);
  update_barrier_set((void*)p, v);
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}

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template <class T> inline void oop_store_without_check(T* p, oop v) {
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  // XXX YSR FIX ME!!!
  if (always_do_update_barrier) {
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    oop_store(p, v);
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  } else {
    assert(!Universe::heap()->barrier_set()->write_ref_needs_barrier(p, v),
           "oop store without store check failed");
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    oopDesc::encode_store_heap_oop(p, v);
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  }
}

// When it absolutely has to get there.
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template <class T> inline void oop_store_without_check(volatile T* p, oop v) {
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  // XXX YSR FIX ME!!!
  if (always_do_update_barrier) {
    oop_store(p, v);
  } else {
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    assert(!Universe::heap()->barrier_set()->write_ref_needs_barrier((T*)p, v),
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           "oop store without store check failed");
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    oopDesc::release_encode_store_heap_oop(p, v);
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  }
}

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// Should replace *addr = oop assignments where addr type depends on UseCompressedOops
// (without having to remember the function name this calls).
inline void oop_store_raw(HeapWord* addr, oop value) {
  if (UseCompressedOops) {
    oopDesc::encode_store_heap_oop((narrowOop*)addr, value);
  } else {
    oopDesc::encode_store_heap_oop((oop*)addr, value);
  }
}
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// Used only for markSweep, scavenging
inline bool oopDesc::is_gc_marked() const {
  return mark()->is_marked();
}

inline bool oopDesc::is_locked() const {
  return mark()->is_locked();
}

inline bool oopDesc::is_unlocked() const {
  return mark()->is_unlocked();
}

inline bool oopDesc::has_bias_pattern() const {
  return mark()->has_bias_pattern();
}

inline bool check_obj_alignment(oop obj) {
  return (intptr_t)obj % MinObjAlignmentInBytes == 0;
}


// used only for asserts
inline bool oopDesc::is_oop(bool ignore_mark_word) const {
  oop obj = (oop) this;
  if (!check_obj_alignment(obj)) return false;
  if (!Universe::heap()->is_in_reserved(obj)) return false;
  // obj is aligned and accessible in heap
  // try to find metaclass cycle safely without seg faulting on bad input
  // we should reach klassKlassObj by following klass link at most 3 times
  for (int i = 0; i < 3; i++) {
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    obj = obj->klass_or_null();
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    // klass should be aligned and in permspace
    if (!check_obj_alignment(obj)) return false;
    if (!Universe::heap()->is_in_permanent(obj)) return false;
  }
  if (obj != Universe::klassKlassObj()) {
    // During a dump, the _klassKlassObj moved to a shared space.
    if (DumpSharedSpaces && Universe::klassKlassObj()->is_shared()) {
      return true;
    }
    return false;
  }

  // Header verification: the mark is typically non-NULL. If we're
  // at a safepoint, it must not be null.
  // Outside of a safepoint, the header could be changing (for example,
  // another thread could be inflating a lock on this object).
  if (ignore_mark_word) {
    return true;
  }
  if (mark() != NULL) {
    return true;
  }
  return !SafepointSynchronize::is_at_safepoint();
}


// used only for asserts
inline bool oopDesc::is_oop_or_null(bool ignore_mark_word) const {
  return this == NULL ? true : is_oop(ignore_mark_word);
}

#ifndef PRODUCT
// used only for asserts
inline bool oopDesc::is_unlocked_oop() const {
  if (!Universe::heap()->is_in_reserved(this)) return false;
  return mark()->is_unlocked();
}
#endif // PRODUCT

inline void oopDesc::follow_header() {
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  if (UseCompressedOops) {
    MarkSweep::mark_and_push(compressed_klass_addr());
  } else {
    MarkSweep::mark_and_push(klass_addr());
  }
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}

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inline void oopDesc::follow_contents(void) {
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  assert (is_gc_marked(), "should be marked");
  blueprint()->oop_follow_contents(this);
}


// Used by scavengers

inline bool oopDesc::is_forwarded() const {
  // The extra heap check is needed since the obj might be locked, in which case the
  // mark would point to a stack location and have the sentinel bit cleared
  return mark()->is_marked();
}

// Used by scavengers
inline void oopDesc::forward_to(oop p) {
  assert(Universe::heap()->is_in_reserved(p),
         "forwarding to something not in heap");
  markOop m = markOopDesc::encode_pointer_as_mark(p);
  assert(m->decode_pointer() == p, "encoding must be reversable");
  set_mark(m);
}

// Used by parallel scavengers
inline bool oopDesc::cas_forward_to(oop p, markOop compare) {
  assert(Universe::heap()->is_in_reserved(p),
         "forwarding to something not in heap");
  markOop m = markOopDesc::encode_pointer_as_mark(p);
  assert(m->decode_pointer() == p, "encoding must be reversable");
  return cas_set_mark(m, compare) == compare;
}

// Note that the forwardee is not the same thing as the displaced_mark.
// The forwardee is used when copying during scavenge and mark-sweep.
// It does need to clear the low two locking- and GC-related bits.
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inline oop oopDesc::forwardee() const {
  return (oop) mark()->decode_pointer();
}
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inline bool oopDesc::has_displaced_mark() const {
  return mark()->has_displaced_mark_helper();
}

inline markOop oopDesc::displaced_mark() const {
  return mark()->displaced_mark_helper();
}

inline void oopDesc::set_displaced_mark(markOop m) {
  mark()->set_displaced_mark_helper(m);
}

// The following method needs to be MT safe.
inline int oopDesc::age() const {
  assert(!is_forwarded(), "Attempt to read age from forwarded mark");
  if (has_displaced_mark()) {
    return displaced_mark()->age();
  } else {
    return mark()->age();
  }
}

inline void oopDesc::incr_age() {
  assert(!is_forwarded(), "Attempt to increment age of forwarded mark");
  if (has_displaced_mark()) {
    set_displaced_mark(displaced_mark()->incr_age());
  } else {
    set_mark(mark()->incr_age());
  }
}


inline intptr_t oopDesc::identity_hash() {
  // Fast case; if the object is unlocked and the hash value is set, no locking is needed
  // Note: The mark must be read into local variable to avoid concurrent updates.
  markOop mrk = mark();
  if (mrk->is_unlocked() && !mrk->has_no_hash()) {
    return mrk->hash();
  } else if (mrk->is_marked()) {
    return mrk->hash();
  } else {
    return slow_identity_hash();
  }
}

inline void oopDesc::oop_iterate_header(OopClosure* blk) {
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  if (UseCompressedOops) {
    blk->do_oop(compressed_klass_addr());
  } else {
    blk->do_oop(klass_addr());
  }
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}

inline void oopDesc::oop_iterate_header(OopClosure* blk, MemRegion mr) {
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  if (UseCompressedOops) {
    if (mr.contains(compressed_klass_addr())) {
      blk->do_oop(compressed_klass_addr());
    }
  } else {
    if (mr.contains(klass_addr())) blk->do_oop(klass_addr());
  }
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}

inline int oopDesc::adjust_pointers() {
  debug_only(int check_size = size());
  int s = blueprint()->oop_adjust_pointers(this);
  assert(s == check_size, "should be the same");
  return s;
}

inline void oopDesc::adjust_header() {
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  if (UseCompressedOops) {
    MarkSweep::adjust_pointer(compressed_klass_addr());
  } else {
    MarkSweep::adjust_pointer(klass_addr());
  }
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}

#define OOP_ITERATE_DEFN(OopClosureType, nv_suffix)                        \
                                                                           \
inline int oopDesc::oop_iterate(OopClosureType* blk) {                     \
  SpecializationStats::record_call();                                      \
  return blueprint()->oop_oop_iterate##nv_suffix(this, blk);               \
}                                                                          \
                                                                           \
inline int oopDesc::oop_iterate(OopClosureType* blk, MemRegion mr) {       \
  SpecializationStats::record_call();                                      \
  return blueprint()->oop_oop_iterate##nv_suffix##_m(this, blk, mr);       \
}

ALL_OOP_OOP_ITERATE_CLOSURES_1(OOP_ITERATE_DEFN)
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ALL_OOP_OOP_ITERATE_CLOSURES_2(OOP_ITERATE_DEFN)

#ifndef SERIALGC
#define OOP_ITERATE_BACKWARDS_DEFN(OopClosureType, nv_suffix)              \
                                                                           \
inline int oopDesc::oop_iterate_backwards(OopClosureType* blk) {           \
  SpecializationStats::record_call();                                      \
  return blueprint()->oop_oop_iterate_backwards##nv_suffix(this, blk);     \
}
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ALL_OOP_OOP_ITERATE_CLOSURES_1(OOP_ITERATE_BACKWARDS_DEFN)
ALL_OOP_OOP_ITERATE_CLOSURES_2(OOP_ITERATE_BACKWARDS_DEFN)
#endif // !SERIALGC
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inline bool oopDesc::is_shared() const {
  return CompactingPermGenGen::is_shared(this);
}

inline bool oopDesc::is_shared_readonly() const {
  return CompactingPermGenGen::is_shared_readonly(this);
}

inline bool oopDesc::is_shared_readwrite() const {
  return CompactingPermGenGen::is_shared_readwrite(this);
}