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Java example source code file (c1_FrameMap_x86.hpp)

This example Java source code file (c1_FrameMap_x86.hpp) is included in the alvinalexander.com "Java Source Code Warehouse" project. The intent of this project is to help you "Learn Java by Example" TM.

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Java - Java tags/keywords

cpu_x86_vm_c1_framemap_x86_hpp, lir_opr, lir_oprfact::double_cpu, lir_oprfact\:\:single_cpu, register, usecompressedclasspointers, usecompressedoops, vmreg, xmmregister

The c1_FrameMap_x86.hpp Java example source code

/*
 * Copyright (c) 1999, 2013, Oracle and/or its affiliates. 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 Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA
 * or visit www.oracle.com if you need additional information or have any
 * questions.
 *
 */

#ifndef CPU_X86_VM_C1_FRAMEMAP_X86_HPP
#define CPU_X86_VM_C1_FRAMEMAP_X86_HPP

//  On i486 the frame looks as follows:
//
//  +-----------------------------+---------+----------------------------------------+----------------+-----------
//  | size_arguments-nof_reg_args | 2 words | size_locals-size_arguments+numreg_args | _size_monitors | spilling .
//  +-----------------------------+---------+----------------------------------------+----------------+-----------
//
//  The FPU registers are mapped with their offset from TOS; therefore the
//  status of FPU stack must be updated during code emission.

 public:
  static const int pd_c_runtime_reserved_arg_size;

  enum {
    nof_xmm_regs = pd_nof_xmm_regs_frame_map,
    nof_caller_save_xmm_regs = pd_nof_caller_save_xmm_regs_frame_map,
    first_available_sp_in_frame = 0,
#ifndef _LP64
    frame_pad_in_bytes = 8,
    nof_reg_args = 2
#else
    frame_pad_in_bytes = 16,
    nof_reg_args = 6
#endif // _LP64
  };

 private:
  static LIR_Opr      _caller_save_xmm_regs [nof_caller_save_xmm_regs];

  static XMMRegister _xmm_regs[nof_xmm_regs];

 public:
  static LIR_Opr receiver_opr;

  static LIR_Opr rsi_opr;
  static LIR_Opr rdi_opr;
  static LIR_Opr rbx_opr;
  static LIR_Opr rax_opr;
  static LIR_Opr rdx_opr;
  static LIR_Opr rcx_opr;
  static LIR_Opr rsp_opr;
  static LIR_Opr rbp_opr;

  static LIR_Opr rsi_oop_opr;
  static LIR_Opr rdi_oop_opr;
  static LIR_Opr rbx_oop_opr;
  static LIR_Opr rax_oop_opr;
  static LIR_Opr rdx_oop_opr;
  static LIR_Opr rcx_oop_opr;

  static LIR_Opr rsi_metadata_opr;
  static LIR_Opr rdi_metadata_opr;
  static LIR_Opr rbx_metadata_opr;
  static LIR_Opr rax_metadata_opr;
  static LIR_Opr rdx_metadata_opr;
  static LIR_Opr rcx_metadata_opr;

#ifdef _LP64

  static LIR_Opr  r8_opr;
  static LIR_Opr  r9_opr;
  static LIR_Opr r10_opr;
  static LIR_Opr r11_opr;
  static LIR_Opr r12_opr;
  static LIR_Opr r13_opr;
  static LIR_Opr r14_opr;
  static LIR_Opr r15_opr;

  static LIR_Opr  r8_oop_opr;
  static LIR_Opr  r9_oop_opr;

  static LIR_Opr r11_oop_opr;
  static LIR_Opr r12_oop_opr;
  static LIR_Opr r13_oop_opr;
  static LIR_Opr r14_oop_opr;

  static LIR_Opr  r8_metadata_opr;
  static LIR_Opr  r9_metadata_opr;

  static LIR_Opr r11_metadata_opr;
  static LIR_Opr r12_metadata_opr;
  static LIR_Opr r13_metadata_opr;
  static LIR_Opr r14_metadata_opr;

#endif // _LP64

  static LIR_Opr long0_opr;
  static LIR_Opr long1_opr;
  static LIR_Opr fpu0_float_opr;
  static LIR_Opr fpu0_double_opr;
  static LIR_Opr xmm0_float_opr;
  static LIR_Opr xmm0_double_opr;

#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, Register r2) {
    return LIR_OprFact::double_cpu(cpu_reg2rnr(r), cpu_reg2rnr(r2));
  }
  static LIR_Opr as_pointer_opr(Register r) {
    return LIR_OprFact::single_cpu(cpu_reg2rnr(r));
  }
#endif // _LP64

  // VMReg name for spilled physical FPU stack slot n
  static VMReg fpu_regname (int n);

  static XMMRegister nr2xmmreg(int rnr);

  static bool is_caller_save_register (LIR_Opr opr) { return true; }
  static bool is_caller_save_register (Register r) { return true; }

  static LIR_Opr caller_save_xmm_reg_at(int i) {
    assert(i >= 0 && i < nof_caller_save_xmm_regs, "out of bounds");
    return _caller_save_xmm_regs[i];
  }

  static int adjust_reg_range(int range) {
    // Reduce the number of available regs (to free r12) in case of compressed oops
    if (UseCompressedOops || UseCompressedClassPointers) return range - 1;
    return range;
  }

  static int nof_caller_save_cpu_regs() { return adjust_reg_range(pd_nof_caller_save_cpu_regs_frame_map); }
  static int last_cpu_reg()             { return adjust_reg_range(pd_last_cpu_reg);  }
  static int last_byte_reg()            { return adjust_reg_range(pd_last_byte_reg); }

#endif // CPU_X86_VM_C1_FRAMEMAP_X86_HPP

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