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view src/cpu/sparc/vm/c1_FrameMap_sparc.hpp @ 453:c96030fff130

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6684579: SoftReference processing can be made more efficient Summary: For current soft-ref clearing policies, we can decide at marking time if a soft-reference will definitely not be cleared, postponing the decision of whether it will definitely be cleared to the final reference processing phase. This can be especially beneficial in the case of concurrent collectors where the marking is usually concurrent but reference processing is usually not. Reviewed-by: jmasa
author ysr
date Thu, 20 Nov 2008 16:56:09 -0800
parents a61af66fc99e
children fc2c71045ada
line wrap: on
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/*
 * Copyright 1999-2006 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.
 *
 */

 public:

  enum {
    nof_reg_args = 6,   // registers o0-o5 are available for parameter passing
    first_available_sp_in_frame = frame::memory_parameter_word_sp_offset * BytesPerWord,
    frame_pad_in_bytes = 0
  };

  static const int pd_c_runtime_reserved_arg_size;

  static LIR_Opr G0_opr;
  static LIR_Opr G1_opr;
  static LIR_Opr G2_opr;
  static LIR_Opr G3_opr;
  static LIR_Opr G4_opr;
  static LIR_Opr G5_opr;
  static LIR_Opr G6_opr;
  static LIR_Opr G7_opr;
  static LIR_Opr O0_opr;
  static LIR_Opr O1_opr;
  static LIR_Opr O2_opr;
  static LIR_Opr O3_opr;
  static LIR_Opr O4_opr;
  static LIR_Opr O5_opr;
  static LIR_Opr O6_opr;
  static LIR_Opr O7_opr;
  static LIR_Opr L0_opr;
  static LIR_Opr L1_opr;
  static LIR_Opr L2_opr;
  static LIR_Opr L3_opr;
  static LIR_Opr L4_opr;
  static LIR_Opr L5_opr;
  static LIR_Opr L6_opr;
  static LIR_Opr L7_opr;
  static LIR_Opr I0_opr;
  static LIR_Opr I1_opr;
  static LIR_Opr I2_opr;
  static LIR_Opr I3_opr;
  static LIR_Opr I4_opr;
  static LIR_Opr I5_opr;
  static LIR_Opr I6_opr;
  static LIR_Opr I7_opr;

  static LIR_Opr SP_opr;
  static LIR_Opr FP_opr;

  static LIR_Opr G0_oop_opr;
  static LIR_Opr G1_oop_opr;
  static LIR_Opr G2_oop_opr;
  static LIR_Opr G3_oop_opr;
  static LIR_Opr G4_oop_opr;
  static LIR_Opr G5_oop_opr;
  static LIR_Opr G6_oop_opr;
  static LIR_Opr G7_oop_opr;
  static LIR_Opr O0_oop_opr;
  static LIR_Opr O1_oop_opr;
  static LIR_Opr O2_oop_opr;
  static LIR_Opr O3_oop_opr;
  static LIR_Opr O4_oop_opr;
  static LIR_Opr O5_oop_opr;
  static LIR_Opr O6_oop_opr;
  static LIR_Opr O7_oop_opr;
  static LIR_Opr L0_oop_opr;
  static LIR_Opr L1_oop_opr;
  static LIR_Opr L2_oop_opr;
  static LIR_Opr L3_oop_opr;
  static LIR_Opr L4_oop_opr;
  static LIR_Opr L5_oop_opr;
  static LIR_Opr L6_oop_opr;
  static LIR_Opr L7_oop_opr;
  static LIR_Opr I0_oop_opr;
  static LIR_Opr I1_oop_opr;
  static LIR_Opr I2_oop_opr;
  static LIR_Opr I3_oop_opr;
  static LIR_Opr I4_oop_opr;
  static LIR_Opr I5_oop_opr;
  static LIR_Opr I6_oop_opr;
  static LIR_Opr I7_oop_opr;

  static LIR_Opr in_long_opr;
  static LIR_Opr out_long_opr;

  static LIR_Opr F0_opr;
  static LIR_Opr F0_double_opr;

  static LIR_Opr Oexception_opr;
  static LIR_Opr Oissuing_pc_opr;

 private:
  static FloatRegister  _fpu_regs [nof_fpu_regs];

 public:

#ifdef _LP64
  static LIR_Opr as_long_opr(Register r) {
    return LIR_OprFact::double_cpu(cpu_reg2rnr(r), cpu_reg2rnr(r));
  }
  static LIR_Opr as_pointer_opr(Register r) {
    return LIR_OprFact::double_cpu(cpu_reg2rnr(r), cpu_reg2rnr(r));
  }
#else
  static LIR_Opr as_long_opr(Register r) {
    return LIR_OprFact::double_cpu(cpu_reg2rnr(r->successor()), cpu_reg2rnr(r));
  }
  static LIR_Opr as_pointer_opr(Register r) {
    return as_opr(r);
  }
#endif
  static LIR_Opr as_float_opr(FloatRegister r) {
    return LIR_OprFact::single_fpu(r->encoding());
  }
  static LIR_Opr as_double_opr(FloatRegister r) {
    return LIR_OprFact::double_fpu(r->successor()->encoding(), r->encoding());
  }

  static FloatRegister nr2floatreg (int rnr);

  static VMReg fpu_regname (int n);

  static bool is_caller_save_register (LIR_Opr  reg);
  static bool is_caller_save_register (Register r);