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view src/share/vm/ci/ciMethodData.hpp @ 1145:e018e6884bd8

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6631166: CMS: better heuristics when combatting fragmentation Summary: Autonomic per-worker free block cache sizing, tunable coalition policies, fixes to per-size block statistics, retuned gain and bandwidth of some feedback loop filters to allow quicker reactivity to abrupt changes in ambient demand, and other heuristics to reduce fragmentation of the CMS old gen. Also tightened some assertions, including those related to locking. Reviewed-by: jmasa
author ysr
date Wed, 23 Dec 2009 09:23:54 -0800
parents d1605aabd0a1
children c18cbe5936b8
line wrap: on
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/*
 * Copyright 2001-2008 Sun Microsystems, Inc.  All Rights Reserved.
 * 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.
 *
 */

class ciBitData;
class ciCounterData;
class ciJumpData;
class ciReceiverTypeData;
class ciRetData;
class ciBranchData;
class ciArrayData;
class ciMultiBranchData;
class ciArgInfoData;

typedef ProfileData ciProfileData;

class ciBitData : public BitData {
public:
  ciBitData(DataLayout* layout) : BitData(layout) {};
};

class ciCounterData : public CounterData {
public:
  ciCounterData(DataLayout* layout) : CounterData(layout) {};
};

class ciJumpData : public JumpData {
public:
  ciJumpData(DataLayout* layout) : JumpData(layout) {};
};

class ciReceiverTypeData : public ReceiverTypeData {
public:
  ciReceiverTypeData(DataLayout* layout) : ReceiverTypeData(layout) {};

  void set_receiver(uint row, ciKlass* recv) {
    assert((uint)row < row_limit(), "oob");
    set_intptr_at(receiver0_offset + row * receiver_type_row_cell_count,
                  (intptr_t) recv);
  }

  ciKlass* receiver(uint row) {
    assert((uint)row < row_limit(), "oob");
    ciObject* recv = (ciObject*)intptr_at(receiver0_offset + row * receiver_type_row_cell_count);
    assert(recv == NULL || recv->is_klass(), "wrong type");
    return (ciKlass*)recv;
  }

  // Copy & translate from oop based ReceiverTypeData
  virtual void translate_from(ProfileData* data) {
    translate_receiver_data_from(data);
  }
  void translate_receiver_data_from(ProfileData* data);
#ifndef PRODUCT
  void print_data_on(outputStream* st);
  void print_receiver_data_on(outputStream* st);
#endif
};

class ciVirtualCallData : public VirtualCallData {
  // Fake multiple inheritance...  It's a ciReceiverTypeData also.
  ciReceiverTypeData* rtd_super() { return (ciReceiverTypeData*) this; }

public:
  ciVirtualCallData(DataLayout* layout) : VirtualCallData(layout) {};

  void set_receiver(uint row, ciKlass* recv) {
    rtd_super()->set_receiver(row, recv);
  }

  ciKlass* receiver(uint row) {
    return rtd_super()->receiver(row);
  }

  // Copy & translate from oop based VirtualCallData
  virtual void translate_from(ProfileData* data) {
    rtd_super()->translate_receiver_data_from(data);
  }
#ifndef PRODUCT
  void print_data_on(outputStream* st);
#endif
};


class ciRetData : public RetData {
public:
  ciRetData(DataLayout* layout) : RetData(layout) {};
};

class ciBranchData : public BranchData {
public:
  ciBranchData(DataLayout* layout) : BranchData(layout) {};
};

class ciArrayData : public ArrayData {
public:
  ciArrayData(DataLayout* layout) : ArrayData(layout) {};
};

class ciMultiBranchData : public MultiBranchData {
public:
  ciMultiBranchData(DataLayout* layout) : MultiBranchData(layout) {};
};

class ciArgInfoData : public ArgInfoData {
public:
  ciArgInfoData(DataLayout* layout) : ArgInfoData(layout) {};
};

// ciMethodData
//
// This class represents a methodDataOop in the HotSpot virtual
// machine.

class ciMethodData : public ciObject {
  CI_PACKAGE_ACCESS

private:
  // Size in bytes
  int _data_size;
  int _extra_data_size;

  // Data entries
  intptr_t* _data;

  // Cached hint for data_before()
  int _hint_di;

  // Is data attached?  And is it mature?
  enum { empty_state, immature_state, mature_state };
  u_char _state;

  // Set this true if empty extra_data slots are ever witnessed.
  u_char _saw_free_extra_data;

  // Support for interprocedural escape analysis
  intx              _eflags;          // flags on escape information
  intx              _arg_local;       // bit set of non-escaping arguments
  intx              _arg_stack;       // bit set of stack-allocatable arguments
  intx              _arg_returned;    // bit set of returned arguments

  // Maturity of the oop when the snapshot is taken.
  int _current_mileage;

  // Coherent snapshot of original header.
  methodDataOopDesc _orig;

  ciMethodData(methodDataHandle h_md);
  ciMethodData();

  // Accessors
  int data_size() const { return _data_size; }
  int extra_data_size() const { return _extra_data_size; }
  intptr_t * data() const { return _data; }

  methodDataOop get_methodDataOop() const {
    if (handle() == NULL) return NULL;
    methodDataOop mdo = (methodDataOop)get_oop();
    assert(mdo != NULL, "illegal use of unloaded method data");
    return mdo;
  }

  const char* type_string()                      { return "ciMethodData"; }

  void print_impl(outputStream* st);

  DataLayout* data_layout_at(int data_index) const {
    assert(data_index % sizeof(intptr_t) == 0, "unaligned");
    return (DataLayout*) (((address)_data) + data_index);
  }

  bool out_of_bounds(int data_index) {
    return data_index >= data_size();
  }

  // hint accessors
  int      hint_di() const  { return _hint_di; }
  void set_hint_di(int di)  {
    assert(!out_of_bounds(di), "hint_di out of bounds");
    _hint_di = di;
  }
  ciProfileData* data_before(int bci) {
    // avoid SEGV on this edge case
    if (data_size() == 0)
      return NULL;
    int hint = hint_di();
    if (data_layout_at(hint)->bci() <= bci)
      return data_at(hint);
    return first_data();
  }


  // What is the index of the first data entry?
  int first_di() { return 0; }

  ciArgInfoData *arg_info() const;

public:
  bool is_method_data()  { return true; }
  bool is_empty() { return _state == empty_state; }
  bool is_mature() { return _state == mature_state; }

  int creation_mileage() { return _orig.creation_mileage(); }
  int current_mileage()  { return _current_mileage; }

  void load_data();

  // Convert a dp (data pointer) to a di (data index).
  int dp_to_di(address dp) {
    return dp - ((address)_data);
  }

  // Get the data at an arbitrary (sort of) data index.
  ciProfileData* data_at(int data_index);

  // Walk through the data in order.
  ciProfileData* first_data() { return data_at(first_di()); }
  ciProfileData* next_data(ciProfileData* current);
  bool is_valid(ciProfileData* current) { return current != NULL; }

  // Get the data at an arbitrary bci, or NULL if there is none.
  ciProfileData* bci_to_data(int bci);
  ciProfileData* bci_to_extra_data(int bci, bool create_if_missing);

  uint overflow_trap_count() const {
    return _orig.overflow_trap_count();
  }
  uint overflow_recompile_count() const {
    return _orig.overflow_recompile_count();
  }
  uint decompile_count() const {
    return _orig.decompile_count();
  }
  uint trap_count(int reason) const {
    return _orig.trap_count(reason);
  }
  uint trap_reason_limit() const { return _orig.trap_reason_limit(); }
  uint trap_count_limit()  const { return _orig.trap_count_limit(); }

  // Helpful query functions that decode trap_state.
  int has_trap_at(ciProfileData* data, int reason);
  int has_trap_at(int bci, int reason) {
    return has_trap_at(bci_to_data(bci), reason);
  }
  int trap_recompiled_at(ciProfileData* data);
  int trap_recompiled_at(int bci) {
    return trap_recompiled_at(bci_to_data(bci));
  }

  void clear_escape_info();
  bool has_escape_info();
  void update_escape_info();

  void set_eflag(methodDataOopDesc::EscapeFlag f);
  void clear_eflag(methodDataOopDesc::EscapeFlag f);
  bool eflag_set(methodDataOopDesc::EscapeFlag f) const;

  void set_arg_local(int i);
  void set_arg_stack(int i);
  void set_arg_returned(int i);
  void set_arg_modified(int arg, uint val);

  bool is_arg_local(int i) const;
  bool is_arg_stack(int i) const;
  bool is_arg_returned(int i) const;
  uint arg_modified(int arg) const;

  // Code generation helper
  ByteSize offset_of_slot(ciProfileData* data, ByteSize slot_offset_in_data);
  int      byte_offset_of_slot(ciProfileData* data, ByteSize slot_offset_in_data) { return in_bytes(offset_of_slot(data, slot_offset_in_data)); }

#ifndef PRODUCT
  // printing support for method data
  void print();
  void print_data_on(outputStream* st);
#endif
};