templateTable_x86_32.cpp 115.2 KB
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/*
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 * Copyright (c) 1997, 2011, Oracle and/or its affiliates. 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.
 *
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 * 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.
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 *
 */

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#include "precompiled.hpp"
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#include "asm/assembler.hpp"
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#include "interpreter/interpreter.hpp"
#include "interpreter/interpreterRuntime.hpp"
#include "interpreter/templateTable.hpp"
#include "memory/universe.inline.hpp"
#include "oops/methodDataOop.hpp"
#include "oops/objArrayKlass.hpp"
#include "oops/oop.inline.hpp"
#include "prims/methodHandles.hpp"
#include "runtime/sharedRuntime.hpp"
#include "runtime/stubRoutines.hpp"
#include "runtime/synchronizer.hpp"
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#ifndef CC_INTERP
#define __ _masm->

//----------------------------------------------------------------------------------------------------
// Platform-dependent initialization

void TemplateTable::pd_initialize() {
  // No i486 specific initialization
}

//----------------------------------------------------------------------------------------------------
// Address computation

// local variables
static inline Address iaddress(int n)            {
  return Address(rdi, Interpreter::local_offset_in_bytes(n));
}

static inline Address laddress(int n)            { return iaddress(n + 1); }
static inline Address haddress(int n)            { return iaddress(n + 0); }
static inline Address faddress(int n)            { return iaddress(n); }
static inline Address daddress(int n)            { return laddress(n); }
static inline Address aaddress(int n)            { return iaddress(n); }

static inline Address iaddress(Register r)       {
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  return Address(rdi, r, Interpreter::stackElementScale());
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}
static inline Address laddress(Register r)       {
  return Address(rdi, r, Interpreter::stackElementScale(), Interpreter::local_offset_in_bytes(1));
}
static inline Address haddress(Register r)       {
  return Address(rdi, r, Interpreter::stackElementScale(), Interpreter::local_offset_in_bytes(0));
}

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static inline Address faddress(Register r)       { return iaddress(r); }
static inline Address daddress(Register r)       { return laddress(r); }
static inline Address aaddress(Register r)       { return iaddress(r); }
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// expression stack
// (Note: Must not use symmetric equivalents at_rsp_m1/2 since they store
// data beyond the rsp which is potentially unsafe in an MT environment;
// an interrupt may overwrite that data.)
static inline Address at_rsp   () {
  return Address(rsp, 0);
}

// At top of Java expression stack which may be different than rsp().  It
// isn't for category 1 objects.
static inline Address at_tos   () {
  Address tos = Address(rsp,  Interpreter::expr_offset_in_bytes(0));
  return tos;
}

static inline Address at_tos_p1() {
  return Address(rsp,  Interpreter::expr_offset_in_bytes(1));
}

static inline Address at_tos_p2() {
  return Address(rsp,  Interpreter::expr_offset_in_bytes(2));
}

// Condition conversion
static Assembler::Condition j_not(TemplateTable::Condition cc) {
  switch (cc) {
    case TemplateTable::equal        : return Assembler::notEqual;
    case TemplateTable::not_equal    : return Assembler::equal;
    case TemplateTable::less         : return Assembler::greaterEqual;
    case TemplateTable::less_equal   : return Assembler::greater;
    case TemplateTable::greater      : return Assembler::lessEqual;
    case TemplateTable::greater_equal: return Assembler::less;
  }
  ShouldNotReachHere();
  return Assembler::zero;
}


//----------------------------------------------------------------------------------------------------
// Miscelaneous helper routines

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// Store an oop (or NULL) at the address described by obj.
// If val == noreg this means store a NULL

static void do_oop_store(InterpreterMacroAssembler* _masm,
                         Address obj,
                         Register val,
                         BarrierSet::Name barrier,
                         bool precise) {
  assert(val == noreg || val == rax, "parameter is just for looks");
  switch (barrier) {
#ifndef SERIALGC
    case BarrierSet::G1SATBCT:
    case BarrierSet::G1SATBCTLogging:
      {
        // flatten object address if needed
        // We do it regardless of precise because we need the registers
        if (obj.index() == noreg && obj.disp() == 0) {
          if (obj.base() != rdx) {
            __ movl(rdx, obj.base());
          }
        } else {
          __ leal(rdx, obj);
        }
        __ get_thread(rcx);
        __ save_bcp();
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        __ g1_write_barrier_pre(rdx /* obj */,
                                rbx /* pre_val */,
                                rcx /* thread */,
                                rsi /* tmp */,
                                val != noreg /* tosca_live */,
                                false /* expand_call */);
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        // Do the actual store
        // noreg means NULL
        if (val == noreg) {
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          __ movptr(Address(rdx, 0), NULL_WORD);
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          // No post barrier for NULL
        } else {
          __ movl(Address(rdx, 0), val);
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          __ g1_write_barrier_post(rdx /* store_adr */,
                                   val /* new_val */,
                                   rcx /* thread */,
                                   rbx /* tmp */,
                                   rsi /* tmp2 */);
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        }
        __ restore_bcp();

      }
      break;
#endif // SERIALGC
    case BarrierSet::CardTableModRef:
    case BarrierSet::CardTableExtension:
      {
        if (val == noreg) {
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          __ movptr(obj, NULL_WORD);
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        } else {
          __ movl(obj, val);
          // flatten object address if needed
          if (!precise || (obj.index() == noreg && obj.disp() == 0)) {
            __ store_check(obj.base());
          } else {
            __ leal(rdx, obj);
            __ store_check(rdx);
          }
        }
      }
      break;
    case BarrierSet::ModRef:
    case BarrierSet::Other:
      if (val == noreg) {
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        __ movptr(obj, NULL_WORD);
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      } else {
        __ movl(obj, val);
      }
      break;
    default      :
      ShouldNotReachHere();

  }
}

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Address TemplateTable::at_bcp(int offset) {
  assert(_desc->uses_bcp(), "inconsistent uses_bcp information");
  return Address(rsi, offset);
}


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void TemplateTable::patch_bytecode(Bytecodes::Code bc, Register bc_reg,
                                   Register temp_reg, bool load_bc_into_bc_reg/*=true*/,
                                   int byte_no) {
  if (!RewriteBytecodes)  return;
  Label L_patch_done;

  switch (bc) {
  case Bytecodes::_fast_aputfield:
  case Bytecodes::_fast_bputfield:
  case Bytecodes::_fast_cputfield:
  case Bytecodes::_fast_dputfield:
  case Bytecodes::_fast_fputfield:
  case Bytecodes::_fast_iputfield:
  case Bytecodes::_fast_lputfield:
  case Bytecodes::_fast_sputfield:
    {
      // We skip bytecode quickening for putfield instructions when
      // the put_code written to the constant pool cache is zero.
      // This is required so that every execution of this instruction
      // calls out to InterpreterRuntime::resolve_get_put to do
      // additional, required work.
      assert(byte_no == f1_byte || byte_no == f2_byte, "byte_no out of range");
      assert(load_bc_into_bc_reg, "we use bc_reg as temp");
      __ get_cache_and_index_and_bytecode_at_bcp(bc_reg, temp_reg, temp_reg, byte_no, 1);
      __ movl(bc_reg, bc);
      __ cmpl(temp_reg, (int) 0);
      __ jcc(Assembler::zero, L_patch_done);  // don't patch
    }
    break;
  default:
    assert(byte_no == -1, "sanity");
    // the pair bytecodes have already done the load.
    if (load_bc_into_bc_reg) {
      __ movl(bc_reg, bc);
    }
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  }
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  if (JvmtiExport::can_post_breakpoint()) {
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    Label L_fast_patch;
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    // if a breakpoint is present we can't rewrite the stream directly
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    __ movzbl(temp_reg, at_bcp(0));
    __ cmpl(temp_reg, Bytecodes::_breakpoint);
    __ jcc(Assembler::notEqual, L_fast_patch);
    __ get_method(temp_reg);
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    // Let breakpoint table handling rewrite to quicker bytecode
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    __ call_VM(noreg, CAST_FROM_FN_PTR(address, InterpreterRuntime::set_original_bytecode_at), temp_reg, rsi, bc_reg);
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#ifndef ASSERT
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    __ jmpb(L_patch_done);
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#else
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    __ jmp(L_patch_done);
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#endif
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    __ bind(L_fast_patch);
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  }
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#ifdef ASSERT
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  Label L_okay;
  __ load_unsigned_byte(temp_reg, at_bcp(0));
  __ cmpl(temp_reg, (int)Bytecodes::java_code(bc));
  __ jccb(Assembler::equal, L_okay);
  __ cmpl(temp_reg, bc_reg);
  __ jcc(Assembler::equal, L_okay);
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  __ stop("patching the wrong bytecode");
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  __ bind(L_okay);
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#endif
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  // patch bytecode
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  __ movb(at_bcp(0), bc_reg);
  __ bind(L_patch_done);
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}

//----------------------------------------------------------------------------------------------------
// Individual instructions

void TemplateTable::nop() {
  transition(vtos, vtos);
  // nothing to do
}

void TemplateTable::shouldnotreachhere() {
  transition(vtos, vtos);
  __ stop("shouldnotreachhere bytecode");
}



void TemplateTable::aconst_null() {
  transition(vtos, atos);
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  __ xorptr(rax, rax);
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}


void TemplateTable::iconst(int value) {
  transition(vtos, itos);
  if (value == 0) {
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    __ xorptr(rax, rax);
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  } else {
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    __ movptr(rax, value);
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  }
}


void TemplateTable::lconst(int value) {
  transition(vtos, ltos);
  if (value == 0) {
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    __ xorptr(rax, rax);
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  } else {
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    __ movptr(rax, value);
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  }
  assert(value >= 0, "check this code");
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  __ xorptr(rdx, rdx);
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}


void TemplateTable::fconst(int value) {
  transition(vtos, ftos);
         if (value == 0) { __ fldz();
  } else if (value == 1) { __ fld1();
  } else if (value == 2) { __ fld1(); __ fld1(); __ faddp(); // should do a better solution here
  } else                 { ShouldNotReachHere();
  }
}


void TemplateTable::dconst(int value) {
  transition(vtos, dtos);
         if (value == 0) { __ fldz();
  } else if (value == 1) { __ fld1();
  } else                 { ShouldNotReachHere();
  }
}


void TemplateTable::bipush() {
  transition(vtos, itos);
  __ load_signed_byte(rax, at_bcp(1));
}


void TemplateTable::sipush() {
  transition(vtos, itos);
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  __ load_unsigned_short(rax, at_bcp(1));
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  __ bswapl(rax);
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  __ sarl(rax, 16);
}

void TemplateTable::ldc(bool wide) {
  transition(vtos, vtos);
  Label call_ldc, notFloat, notClass, Done;

  if (wide) {
    __ get_unsigned_2_byte_index_at_bcp(rbx, 1);
  } else {
    __ load_unsigned_byte(rbx, at_bcp(1));
  }
  __ get_cpool_and_tags(rcx, rax);
  const int base_offset = constantPoolOopDesc::header_size() * wordSize;
  const int tags_offset = typeArrayOopDesc::header_size(T_BYTE) * wordSize;

  // get type
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  __ xorptr(rdx, rdx);
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  __ movb(rdx, Address(rax, rbx, Address::times_1, tags_offset));

  // unresolved string - get the resolved string
  __ cmpl(rdx, JVM_CONSTANT_UnresolvedString);
  __ jccb(Assembler::equal, call_ldc);

  // unresolved class - get the resolved class
  __ cmpl(rdx, JVM_CONSTANT_UnresolvedClass);
  __ jccb(Assembler::equal, call_ldc);

  // unresolved class in error (resolution failed) - call into runtime
  // so that the same error from first resolution attempt is thrown.
  __ cmpl(rdx, JVM_CONSTANT_UnresolvedClassInError);
  __ jccb(Assembler::equal, call_ldc);

  // resolved class - need to call vm to get java mirror of the class
  __ cmpl(rdx, JVM_CONSTANT_Class);
  __ jcc(Assembler::notEqual, notClass);

  __ bind(call_ldc);
  __ movl(rcx, wide);
  call_VM(rax, CAST_FROM_FN_PTR(address, InterpreterRuntime::ldc), rcx);
  __ push(atos);
  __ jmp(Done);

  __ bind(notClass);
  __ cmpl(rdx, JVM_CONSTANT_Float);
  __ jccb(Assembler::notEqual, notFloat);
  // ftos
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  __ fld_s(    Address(rcx, rbx, Address::times_ptr, base_offset));
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  __ push(ftos);
  __ jmp(Done);

  __ bind(notFloat);
#ifdef ASSERT
  { Label L;
    __ cmpl(rdx, JVM_CONSTANT_Integer);
    __ jcc(Assembler::equal, L);
    __ cmpl(rdx, JVM_CONSTANT_String);
    __ jcc(Assembler::equal, L);
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    __ cmpl(rdx, JVM_CONSTANT_Object);
    __ jcc(Assembler::equal, L);
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    __ stop("unexpected tag type in ldc");
    __ bind(L);
  }
#endif
  Label isOop;
  // atos and itos
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  // Integer is only non-oop type we will see here
  __ cmpl(rdx, JVM_CONSTANT_Integer);
  __ jccb(Assembler::notEqual, isOop);
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  __ movl(rax, Address(rcx, rbx, Address::times_ptr, base_offset));
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  __ push(itos);
  __ jmp(Done);
  __ bind(isOop);
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  __ movptr(rax, Address(rcx, rbx, Address::times_ptr, base_offset));
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  __ push(atos);

  if (VerifyOops) {
    __ verify_oop(rax);
  }
  __ bind(Done);
}

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// Fast path for caching oop constants.
// %%% We should use this to handle Class and String constants also.
// %%% It will simplify the ldc/primitive path considerably.
void TemplateTable::fast_aldc(bool wide) {
  transition(vtos, atos);

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  if (!EnableInvokeDynamic) {
    // We should not encounter this bytecode if !EnableInvokeDynamic.
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    // The verifier will stop it.  However, if we get past the verifier,
    // this will stop the thread in a reasonable way, without crashing the JVM.
    __ call_VM(noreg, CAST_FROM_FN_PTR(address,
                     InterpreterRuntime::throw_IncompatibleClassChangeError));
    // the call_VM checks for exception, so we should never return here.
    __ should_not_reach_here();
    return;
  }

  const Register cache = rcx;
  const Register index = rdx;

  resolve_cache_and_index(f1_oop, rax, cache, index, wide ? sizeof(u2) : sizeof(u1));
  if (VerifyOops) {
    __ verify_oop(rax);
  }
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  Label L_done, L_throw_exception;
  const Register con_klass_temp = rcx;  // same as Rcache
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  __ load_klass(con_klass_temp, rax);
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  __ cmpptr(con_klass_temp, ExternalAddress((address)Universe::systemObjArrayKlassObj_addr()));
  __ jcc(Assembler::notEqual, L_done);
  __ cmpl(Address(rax, arrayOopDesc::length_offset_in_bytes()), 0);
  __ jcc(Assembler::notEqual, L_throw_exception);
  __ xorptr(rax, rax);
  __ jmp(L_done);

  // Load the exception from the system-array which wraps it:
  __ bind(L_throw_exception);
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  __ load_heap_oop(rax, Address(rax, arrayOopDesc::base_offset_in_bytes(T_OBJECT)));
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  __ jump(ExternalAddress(Interpreter::throw_exception_entry()));

  __ bind(L_done);
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}

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void TemplateTable::ldc2_w() {
  transition(vtos, vtos);
  Label Long, Done;
  __ get_unsigned_2_byte_index_at_bcp(rbx, 1);

  __ get_cpool_and_tags(rcx, rax);
  const int base_offset = constantPoolOopDesc::header_size() * wordSize;
  const int tags_offset = typeArrayOopDesc::header_size(T_BYTE) * wordSize;

  // get type
  __ cmpb(Address(rax, rbx, Address::times_1, tags_offset), JVM_CONSTANT_Double);
  __ jccb(Assembler::notEqual, Long);
  // dtos
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  __ fld_d(    Address(rcx, rbx, Address::times_ptr, base_offset));
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  __ push(dtos);
  __ jmpb(Done);

  __ bind(Long);
  // ltos
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  __ movptr(rax, Address(rcx, rbx, Address::times_ptr, base_offset + 0 * wordSize));
  NOT_LP64(__ movptr(rdx, Address(rcx, rbx, Address::times_ptr, base_offset + 1 * wordSize)));
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  __ push(ltos);

  __ bind(Done);
}


void TemplateTable::locals_index(Register reg, int offset) {
  __ load_unsigned_byte(reg, at_bcp(offset));
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  __ negptr(reg);
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}


void TemplateTable::iload() {
  transition(vtos, itos);
  if (RewriteFrequentPairs) {
    Label rewrite, done;

    // get next byte
    __ load_unsigned_byte(rbx, at_bcp(Bytecodes::length_for(Bytecodes::_iload)));
    // if _iload, wait to rewrite to iload2.  We only want to rewrite the
    // last two iloads in a pair.  Comparing against fast_iload means that
    // the next bytecode is neither an iload or a caload, and therefore
    // an iload pair.
    __ cmpl(rbx, Bytecodes::_iload);
    __ jcc(Assembler::equal, done);

    __ cmpl(rbx, Bytecodes::_fast_iload);
    __ movl(rcx, Bytecodes::_fast_iload2);
    __ jccb(Assembler::equal, rewrite);

    // if _caload, rewrite to fast_icaload
    __ cmpl(rbx, Bytecodes::_caload);
    __ movl(rcx, Bytecodes::_fast_icaload);
    __ jccb(Assembler::equal, rewrite);

    // rewrite so iload doesn't check again.
    __ movl(rcx, Bytecodes::_fast_iload);

    // rewrite
    // rcx: fast bytecode
    __ bind(rewrite);
    patch_bytecode(Bytecodes::_iload, rcx, rbx, false);
    __ bind(done);
  }

  // Get the local value into tos
  locals_index(rbx);
  __ movl(rax, iaddress(rbx));
}


void TemplateTable::fast_iload2() {
  transition(vtos, itos);
  locals_index(rbx);
  __ movl(rax, iaddress(rbx));
  __ push(itos);
  locals_index(rbx, 3);
  __ movl(rax, iaddress(rbx));
}

void TemplateTable::fast_iload() {
  transition(vtos, itos);
  locals_index(rbx);
  __ movl(rax, iaddress(rbx));
}


void TemplateTable::lload() {
  transition(vtos, ltos);
  locals_index(rbx);
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  __ movptr(rax, laddress(rbx));
  NOT_LP64(__ movl(rdx, haddress(rbx)));
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}


void TemplateTable::fload() {
  transition(vtos, ftos);
  locals_index(rbx);
  __ fld_s(faddress(rbx));
}


void TemplateTable::dload() {
  transition(vtos, dtos);
  locals_index(rbx);
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  __ fld_d(daddress(rbx));
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}


void TemplateTable::aload() {
  transition(vtos, atos);
  locals_index(rbx);
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  __ movptr(rax, aaddress(rbx));
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}


void TemplateTable::locals_index_wide(Register reg) {
  __ movl(reg, at_bcp(2));
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  __ bswapl(reg);
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  __ shrl(reg, 16);
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  __ negptr(reg);
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}


void TemplateTable::wide_iload() {
  transition(vtos, itos);
  locals_index_wide(rbx);
  __ movl(rax, iaddress(rbx));
}


void TemplateTable::wide_lload() {
  transition(vtos, ltos);
  locals_index_wide(rbx);
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  __ movptr(rax, laddress(rbx));
  NOT_LP64(__ movl(rdx, haddress(rbx)));
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}


void TemplateTable::wide_fload() {
  transition(vtos, ftos);
  locals_index_wide(rbx);
  __ fld_s(faddress(rbx));
}


void TemplateTable::wide_dload() {
  transition(vtos, dtos);
  locals_index_wide(rbx);
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  __ fld_d(daddress(rbx));
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}


void TemplateTable::wide_aload() {
  transition(vtos, atos);
  locals_index_wide(rbx);
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  __ movptr(rax, aaddress(rbx));
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}

void TemplateTable::index_check(Register array, Register index) {
  // Pop ptr into array
  __ pop_ptr(array);
  index_check_without_pop(array, index);
}

void TemplateTable::index_check_without_pop(Register array, Register index) {
  // destroys rbx,
  // check array
  __ null_check(array, arrayOopDesc::length_offset_in_bytes());
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  LP64_ONLY(__ movslq(index, index));
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  // check index
  __ cmpl(index, Address(array, arrayOopDesc::length_offset_in_bytes()));
  if (index != rbx) {
    // ??? convention: move aberrant index into rbx, for exception message
    assert(rbx != array, "different registers");
649
    __ mov(rbx, index);
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  }
  __ jump_cc(Assembler::aboveEqual,
             ExternalAddress(Interpreter::_throw_ArrayIndexOutOfBoundsException_entry));
}


void TemplateTable::iaload() {
  transition(itos, itos);
  // rdx: array
  index_check(rdx, rax);  // kills rbx,
  // rax,: index
  __ movl(rax, Address(rdx, rax, Address::times_4, arrayOopDesc::base_offset_in_bytes(T_INT)));
}


void TemplateTable::laload() {
  transition(itos, ltos);
  // rax,: index
  // rdx: array
  index_check(rdx, rax);
670
  __ mov(rbx, rax);
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  // rbx,: index
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  __ movptr(rax, Address(rdx, rbx, Address::times_8, arrayOopDesc::base_offset_in_bytes(T_LONG) + 0 * wordSize));
  NOT_LP64(__ movl(rdx, Address(rdx, rbx, Address::times_8, arrayOopDesc::base_offset_in_bytes(T_LONG) + 1 * wordSize)));
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}


void TemplateTable::faload() {
  transition(itos, ftos);
  // rdx: array
  index_check(rdx, rax);  // kills rbx,
  // rax,: index
  __ fld_s(Address(rdx, rax, Address::times_4, arrayOopDesc::base_offset_in_bytes(T_FLOAT)));
}


void TemplateTable::daload() {
  transition(itos, dtos);
  // rdx: array
  index_check(rdx, rax);  // kills rbx,
  // rax,: index
  __ fld_d(Address(rdx, rax, Address::times_8, arrayOopDesc::base_offset_in_bytes(T_DOUBLE)));
}


void TemplateTable::aaload() {
  transition(itos, atos);
  // rdx: array
  index_check(rdx, rax);  // kills rbx,
  // rax,: index
700
  __ movptr(rax, Address(rdx, rax, Address::times_ptr, arrayOopDesc::base_offset_in_bytes(T_OBJECT)));
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}


void TemplateTable::baload() {
  transition(itos, itos);
  // rdx: array
  index_check(rdx, rax);  // kills rbx,
  // rax,: index
  // can do better code for P5 - fix this at some point
  __ load_signed_byte(rbx, Address(rdx, rax, Address::times_1, arrayOopDesc::base_offset_in_bytes(T_BYTE)));
711
  __ mov(rax, rbx);
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}


void TemplateTable::caload() {
  transition(itos, itos);
  // rdx: array
  index_check(rdx, rax);  // kills rbx,
  // rax,: index
  // can do better code for P5 - may want to improve this at some point
721
  __ load_unsigned_short(rbx, Address(rdx, rax, Address::times_2, arrayOopDesc::base_offset_in_bytes(T_CHAR)));
722
  __ mov(rax, rbx);
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}

// iload followed by caload frequent pair
void TemplateTable::fast_icaload() {
  transition(vtos, itos);
  // load index out of locals
  locals_index(rbx);
  __ movl(rax, iaddress(rbx));

  // rdx: array
  index_check(rdx, rax);
  // rax,: index
735
  __ load_unsigned_short(rbx, Address(rdx, rax, Address::times_2, arrayOopDesc::base_offset_in_bytes(T_CHAR)));
736
  __ mov(rax, rbx);
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}

void TemplateTable::saload() {
  transition(itos, itos);
  // rdx: array
  index_check(rdx, rax);  // kills rbx,
  // rax,: index
  // can do better code for P5 - may want to improve this at some point
745
  __ load_signed_short(rbx, Address(rdx, rax, Address::times_2, arrayOopDesc::base_offset_in_bytes(T_SHORT)));
746
  __ mov(rax, rbx);
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}


void TemplateTable::iload(int n) {
  transition(vtos, itos);
  __ movl(rax, iaddress(n));
}


void TemplateTable::lload(int n) {
  transition(vtos, ltos);
758 759
  __ movptr(rax, laddress(n));
  NOT_LP64(__ movptr(rdx, haddress(n)));
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}


void TemplateTable::fload(int n) {
  transition(vtos, ftos);
  __ fld_s(faddress(n));
}


void TemplateTable::dload(int n) {
  transition(vtos, dtos);
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  __ fld_d(daddress(n));
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}


void TemplateTable::aload(int n) {
  transition(vtos, atos);
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  __ movptr(rax, aaddress(n));
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}


void TemplateTable::aload_0() {
  transition(vtos, atos);
  // According to bytecode histograms, the pairs:
  //
  // _aload_0, _fast_igetfield
  // _aload_0, _fast_agetfield
  // _aload_0, _fast_fgetfield
  //
  // occur frequently. If RewriteFrequentPairs is set, the (slow) _aload_0
  // bytecode checks if the next bytecode is either _fast_igetfield,
  // _fast_agetfield or _fast_fgetfield and then rewrites the
  // current bytecode into a pair bytecode; otherwise it rewrites the current
  // bytecode into _fast_aload_0 that doesn't do the pair check anymore.
  //
  // Note: If the next bytecode is _getfield, the rewrite must be delayed,
  //       otherwise we may miss an opportunity for a pair.
  //
  // Also rewrite frequent pairs
  //   aload_0, aload_1
  //   aload_0, iload_1
  // These bytecodes with a small amount of code are most profitable to rewrite
  if (RewriteFrequentPairs) {
    Label rewrite, done;
    // get next byte
    __ load_unsigned_byte(rbx, at_bcp(Bytecodes::length_for(Bytecodes::_aload_0)));

    // do actual aload_0
    aload(0);

    // if _getfield then wait with rewrite
    __ cmpl(rbx, Bytecodes::_getfield);
    __ jcc(Assembler::equal, done);

    // if _igetfield then reqrite to _fast_iaccess_0
    assert(Bytecodes::java_code(Bytecodes::_fast_iaccess_0) == Bytecodes::_aload_0, "fix bytecode definition");
    __ cmpl(rbx, Bytecodes::_fast_igetfield);
    __ movl(rcx, Bytecodes::_fast_iaccess_0);
    __ jccb(Assembler::equal, rewrite);

    // if _agetfield then reqrite to _fast_aaccess_0
    assert(Bytecodes::java_code(Bytecodes::_fast_aaccess_0) == Bytecodes::_aload_0, "fix bytecode definition");
    __ cmpl(rbx, Bytecodes::_fast_agetfield);
    __ movl(rcx, Bytecodes::_fast_aaccess_0);
    __ jccb(Assembler::equal, rewrite);

    // if _fgetfield then reqrite to _fast_faccess_0
    assert(Bytecodes::java_code(Bytecodes::_fast_faccess_0) == Bytecodes::_aload_0, "fix bytecode definition");
    __ cmpl(rbx, Bytecodes::_fast_fgetfield);
    __ movl(rcx, Bytecodes::_fast_faccess_0);
    __ jccb(Assembler::equal, rewrite);

    // else rewrite to _fast_aload0
    assert(Bytecodes::java_code(Bytecodes::_fast_aload_0) == Bytecodes::_aload_0, "fix bytecode definition");
    __ movl(rcx, Bytecodes::_fast_aload_0);

    // rewrite
    // rcx: fast bytecode
    __ bind(rewrite);
    patch_bytecode(Bytecodes::_aload_0, rcx, rbx, false);

    __ bind(done);
  } else {
    aload(0);
  }
}

void TemplateTable::istore() {
  transition(itos, vtos);
  locals_index(rbx);
  __ movl(iaddress(rbx), rax);
}


void TemplateTable::lstore() {
  transition(ltos, vtos);
  locals_index(rbx);
857 858
  __ movptr(laddress(rbx), rax);
  NOT_LP64(__ movptr(haddress(rbx), rdx));
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}


void TemplateTable::fstore() {
  transition(ftos, vtos);
  locals_index(rbx);
  __ fstp_s(faddress(rbx));
}


void TemplateTable::dstore() {
  transition(dtos, vtos);
  locals_index(rbx);
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  __ fstp_d(daddress(rbx));
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}


void TemplateTable::astore() {
  transition(vtos, vtos);
878
  __ pop_ptr(rax);
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  locals_index(rbx);
880
  __ movptr(aaddress(rbx), rax);
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}


void TemplateTable::wide_istore() {
  transition(vtos, vtos);
  __ pop_i(rax);
  locals_index_wide(rbx);
  __ movl(iaddress(rbx), rax);
}


void TemplateTable::wide_lstore() {
  transition(vtos, vtos);
  __ pop_l(rax, rdx);
  locals_index_wide(rbx);
896 897
  __ movptr(laddress(rbx), rax);
  NOT_LP64(__ movl(haddress(rbx), rdx));
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}


void TemplateTable::wide_fstore() {
  wide_istore();
}


void TemplateTable::wide_dstore() {
  wide_lstore();
}


void TemplateTable::wide_astore() {
  transition(vtos, vtos);
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  __ pop_ptr(rax);
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  locals_index_wide(rbx);
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  __ movptr(aaddress(rbx), rax);
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}


void TemplateTable::iastore() {
  transition(itos, vtos);
  __ pop_i(rbx);
  // rax,: value
  // rdx: array
  index_check(rdx, rbx);  // prefer index in rbx,
  // rbx,: index
  __ movl(Address(rdx, rbx, Address::times_4, arrayOopDesc::base_offset_in_bytes(T_INT)), rax);
}


void TemplateTable::lastore() {
  transition(ltos, vtos);
  __ pop_i(rbx);
  // rax,: low(value)
  // rcx: array
  // rdx: high(value)
  index_check(rcx, rbx);  // prefer index in rbx,
  // rbx,: index
938 939
  __ movptr(Address(rcx, rbx, Address::times_8, arrayOopDesc::base_offset_in_bytes(T_LONG) + 0 * wordSize), rax);
  NOT_LP64(__ movl(Address(rcx, rbx, Address::times_8, arrayOopDesc::base_offset_in_bytes(T_LONG) + 1 * wordSize), rdx));
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}


void TemplateTable::fastore() {
  transition(ftos, vtos);
  __ pop_i(rbx);
  // rdx: array
  // st0: value
  index_check(rdx, rbx);  // prefer index in rbx,
  // rbx,: index
  __ fstp_s(Address(rdx, rbx, Address::times_4, arrayOopDesc::base_offset_in_bytes(T_FLOAT)));
}


void TemplateTable::dastore() {
  transition(dtos, vtos);
  __ pop_i(rbx);
  // rdx: array
  // st0: value
  index_check(rdx, rbx);  // prefer index in rbx,
  // rbx,: index
  __ fstp_d(Address(rdx, rbx, Address::times_8, arrayOopDesc::base_offset_in_bytes(T_DOUBLE)));
}


void TemplateTable::aastore() {
  Label is_null, ok_is_subtype, done;
  transition(vtos, vtos);
  // stack: ..., array, index, value
969
  __ movptr(rax, at_tos());     // Value
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  __ movl(rcx, at_tos_p1());  // Index
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  __ movptr(rdx, at_tos_p2());  // Array
972 973

  Address element_address(rdx, rcx, Address::times_4, arrayOopDesc::base_offset_in_bytes(T_OBJECT));
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  index_check_without_pop(rdx, rcx);      // kills rbx,
  // do array store check - check for NULL value first
976
  __ testptr(rax, rax);
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  __ jcc(Assembler::zero, is_null);

  // Move subklass into EBX
980
  __ load_klass(rbx, rax);
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  // Move superklass into EAX
982
  __ load_klass(rax, rdx);
983
  __ movptr(rax, Address(rax, objArrayKlass::element_klass_offset()));
984
  // Compress array+index*wordSize+12 into a single register.  Frees ECX.
A
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  __ lea(rdx, element_address);
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  // Generate subtype check.  Blows ECX.  Resets EDI to locals.
  // Superklass in EAX.  Subklass in EBX.
  __ gen_subtype_check( rbx, ok_is_subtype );

  // Come here on failure
  // object is at TOS
  __ jump(ExternalAddress(Interpreter::_throw_ArrayStoreException_entry));

  // Come here on success
  __ bind(ok_is_subtype);
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  // Get the value to store
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  __ movptr(rax, at_rsp());
1000 1001 1002 1003
  // and store it with appropriate barrier
  do_oop_store(_masm, Address(rdx, 0), rax, _bs->kind(), true);

  __ jmp(done);
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  // Have a NULL in EAX, EDX=array, ECX=index.  Store NULL at ary[idx]
  __ bind(is_null);
  __ profile_null_seen(rbx);
1008 1009 1010

  // Store NULL, (noreg means NULL to do_oop_store)
  do_oop_store(_masm, element_address, noreg, _bs->kind(), true);
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  // Pop stack arguments
  __ bind(done);
1014
  __ addptr(rsp, 3 * Interpreter::stackElementSize);
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}


void TemplateTable::bastore() {
  transition(itos, vtos);
  __ pop_i(rbx);
  // rax,: value
  // rdx: array
  index_check(rdx, rbx);  // prefer index in rbx,
  // rbx,: index
  __ movb(Address(rdx, rbx, Address::times_1, arrayOopDesc::base_offset_in_bytes(T_BYTE)), rax);
}


void TemplateTable::castore() {
  transition(itos, vtos);
  __ pop_i(rbx);
  // rax,: value
  // rdx: array
  index_check(rdx, rbx);  // prefer index in rbx,
  // rbx,: index
  __ movw(Address(rdx, rbx, Address::times_2, arrayOopDesc::base_offset_in_bytes(T_CHAR)), rax);
}


void TemplateTable::sastore() {
  castore();
}


void TemplateTable::istore(int n) {
  transition(itos, vtos);
  __ movl(iaddress(n), rax);
}


void TemplateTable::lstore(int n) {
  transition(ltos, vtos);
1053 1054
  __ movptr(laddress(n), rax);
  NOT_LP64(__ movptr(haddress(n), rdx));
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}


void TemplateTable::fstore(int n) {
  transition(ftos, vtos);
  __ fstp_s(faddress(n));
}


void TemplateTable::dstore(int n) {
  transition(dtos, vtos);
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  __ fstp_d(daddress(n));
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}


void TemplateTable::astore(int n) {
  transition(vtos, vtos);
1072
  __ pop_ptr(rax);
1073
  __ movptr(aaddress(n), rax);
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}


void TemplateTable::pop() {
  transition(vtos, vtos);
1079
  __ addptr(rsp, Interpreter::stackElementSize);
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}


void TemplateTable::pop2() {
  transition(vtos, vtos);
1085
  __ addptr(rsp, 2*Interpreter::stackElementSize);
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}


void TemplateTable::dup() {
  transition(vtos, vtos);
  // stack: ..., a
1092 1093
  __ load_ptr(0, rax);
  __ push_ptr(rax);
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  // stack: ..., a, a
}


void TemplateTable::dup_x1() {
  transition(vtos, vtos);
  // stack: ..., a, b
1101 1102 1103 1104 1105
  __ load_ptr( 0, rax);  // load b
  __ load_ptr( 1, rcx);  // load a
  __ store_ptr(1, rax);  // store b
  __ store_ptr(0, rcx);  // store a
  __ push_ptr(rax);      // push b
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  // stack: ..., b, a, b
}


void TemplateTable::dup_x2() {
  transition(vtos, vtos);
  // stack: ..., a, b, c
1113 1114 1115 1116
  __ load_ptr( 0, rax);  // load c
  __ load_ptr( 2, rcx);  // load a
  __ store_ptr(2, rax);  // store c in a
  __ push_ptr(rax);      // push c
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  // stack: ..., c, b, c, c
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  __ load_ptr( 2, rax);  // load b
  __ store_ptr(2, rcx);  // store a in b
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  // stack: ..., c, a, c, c
1121
  __ store_ptr(1, rax);  // store b in c
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  // stack: ..., c, a, b, c
}


void TemplateTable::dup2() {
  transition(vtos, vtos);
  // stack: ..., a, b
1129 1130 1131 1132
  __ load_ptr(1, rax);  // load a
  __ push_ptr(rax);     // push a
  __ load_ptr(1, rax);  // load b
  __ push_ptr(rax);     // push b
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  // stack: ..., a, b, a, b
}


void TemplateTable::dup2_x1() {
  transition(vtos, vtos);
  // stack: ..., a, b, c
1140 1141 1142 1143
  __ load_ptr( 0, rcx);  // load c
  __ load_ptr( 1, rax);  // load b
  __ push_ptr(rax);      // push b
  __ push_ptr(rcx);      // push c
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  // stack: ..., a, b, c, b, c
1145
  __ store_ptr(3, rcx);  // store c in b
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  // stack: ..., a, c, c, b, c
1147 1148
  __ load_ptr( 4, rcx);  // load a
  __ store_ptr(2, rcx);  // store a in 2nd c
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  // stack: ..., a, c, a, b, c
1150
  __ store_ptr(4, rax);  // store b in a
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  // stack: ..., b, c, a, b, c
  // stack: ..., b, c, a, b, c
}


void TemplateTable::dup2_x2() {
  transition(vtos, vtos);
  // stack: ..., a, b, c, d
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  __ load_ptr( 0, rcx);  // load d
  __ load_ptr( 1, rax);  // load c
  __ push_ptr(rax);      // push c
  __ push_ptr(rcx);      // push d
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  // stack: ..., a, b, c, d, c, d
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  __ load_ptr( 4, rax);  // load b
  __ store_ptr(2, rax);  // store b in d
  __ store_ptr(4, rcx);  // store d in b
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  // stack: ..., a, d, c, b, c, d
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  __ load_ptr( 5, rcx);  // load a
  __ load_ptr( 3, rax);  // load c
  __ store_ptr(3, rcx);  // store a in c
  __ store_ptr(5, rax);  // store c in a
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  // stack: ..., c, d, a, b, c, d
  // stack: ..., c, d, a, b, c, d
}


void TemplateTable::swap() {
  transition(vtos, vtos);
  // stack: ..., a, b
1180 1181 1182 1183
  __ load_ptr( 1, rcx);  // load a
  __ load_ptr( 0, rax);  // load b
  __ store_ptr(0, rcx);  // store a in b
  __ store_ptr(1, rax);  // store b in a
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  // stack: ..., b, a
}


void TemplateTable::iop2(Operation op) {
  transition(itos, itos);
  switch (op) {
1191
    case add  :                   __ pop_i(rdx); __ addl (rax, rdx); break;
1192
    case sub  : __ mov(rdx, rax); __ pop_i(rax); __ subl (rax, rdx); break;
1193 1194 1195 1196
    case mul  :                   __ pop_i(rdx); __ imull(rax, rdx); break;
    case _and :                   __ pop_i(rdx); __ andl (rax, rdx); break;
    case _or  :                   __ pop_i(rdx); __ orl  (rax, rdx); break;
    case _xor :                   __ pop_i(rdx); __ xorl (rax, rdx); break;
1197 1198 1199
    case shl  : __ mov(rcx, rax); __ pop_i(rax); __ shll (rax);      break; // implicit masking of lower 5 bits by Intel shift instr.
    case shr  : __ mov(rcx, rax); __ pop_i(rax); __ sarl (rax);      break; // implicit masking of lower 5 bits by Intel shift instr.
    case ushr : __ mov(rcx, rax); __ pop_i(rax); __ shrl (rax);      break; // implicit masking of lower 5 bits by Intel shift instr.
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    default   : ShouldNotReachHere();
  }
}


void TemplateTable::lop2(Operation op) {
  transition(ltos, ltos);
  __ pop_l(rbx, rcx);
  switch (op) {
1209 1210 1211 1212 1213 1214 1215
    case add  : __ addl(rax, rbx); __ adcl(rdx, rcx); break;
    case sub  : __ subl(rbx, rax); __ sbbl(rcx, rdx);
                __ mov (rax, rbx); __ mov (rdx, rcx); break;
    case _and : __ andl(rax, rbx); __ andl(rdx, rcx); break;
    case _or  : __ orl (rax, rbx); __ orl (rdx, rcx); break;
    case _xor : __ xorl(rax, rbx); __ xorl(rdx, rcx); break;
    default   : ShouldNotReachHere();
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  }
}


void TemplateTable::idiv() {
  transition(itos, itos);
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  __ mov(rcx, rax);
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  __ pop_i(rax);
  // Note: could xor rax, and rcx and compare with (-1 ^ min_int). If
  //       they are not equal, one could do a normal division (no correction
  //       needed), which may speed up this implementation for the common case.
  //       (see also JVM spec., p.243 & p.271)
  __ corrected_idivl(rcx);
}


void TemplateTable::irem() {
  transition(itos, itos);
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  __ mov(rcx, rax);
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  __ pop_i(rax);
  // Note: could xor rax, and rcx and compare with (-1 ^ min_int). If
  //       they are not equal, one could do a normal division (no correction
  //       needed), which may speed up this implementation for the common case.
  //       (see also JVM spec., p.243 & p.271)
  __ corrected_idivl(rcx);
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  __ mov(rax, rdx);
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}


void TemplateTable::lmul() {
  transition(ltos, ltos);
  __ pop_l(rbx, rcx);
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  __ push(rcx); __ push(rbx);
  __ push(rdx); __ push(rax);
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  __ lmul(2 * wordSize, 0);
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  __ addptr(rsp, 4 * wordSize);  // take off temporaries
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}


void TemplateTable::ldiv() {
  transition(ltos, ltos);
  __ pop_l(rbx, rcx);
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  __ push(rcx); __ push(rbx);
  __ push(rdx); __ push(rax);
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  // check if y = 0
  __ orl(rax, rdx);
  __ jump_cc(Assembler::zero,
             ExternalAddress(Interpreter::_throw_ArithmeticException_entry));
  __ call_VM_leaf(CAST_FROM_FN_PTR(address, SharedRuntime::ldiv));
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  __ addptr(rsp, 4 * wordSize);  // take off temporaries
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}


void TemplateTable::lrem() {
  transition(ltos, ltos);
  __ pop_l(rbx, rcx);
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  __ push(rcx); __ push(rbx);
  __ push(rdx); __ push(rax);
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  // check if y = 0
  __ orl(rax, rdx);
  __ jump_cc(Assembler::zero,
             ExternalAddress(Interpreter::_throw_ArithmeticException_entry));
  __ call_VM_leaf(CAST_FROM_FN_PTR(address, SharedRuntime::lrem));
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  __ addptr(rsp, 4 * wordSize);
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}


void TemplateTable::lshl() {
  transition(itos, ltos);
  __ movl(rcx, rax);                             // get shift count
  __ pop_l(rax, rdx);                            // get shift value
  __ lshl(rdx, rax);
}


void TemplateTable::lshr() {
  transition(itos, ltos);
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  __ mov(rcx, rax);                              // get shift count
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  __ pop_l(rax, rdx);                            // get shift value
  __ lshr(rdx, rax, true);
}


void TemplateTable::lushr() {
  transition(itos, ltos);
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  __ mov(rcx, rax);                              // get shift count
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  __ pop_l(rax, rdx);                            // get shift value
  __ lshr(rdx, rax);
}


void TemplateTable::fop2(Operation op) {
  transition(ftos, ftos);
  switch (op) {
    case add: __ fadd_s (at_rsp());                break;
    case sub: __ fsubr_s(at_rsp());                break;
    case mul: __ fmul_s (at_rsp());                break;
    case div: __ fdivr_s(at_rsp());                break;
    case rem: __ fld_s  (at_rsp()); __ fremr(rax); break;
    default : ShouldNotReachHere();
  }
  __ f2ieee();
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  __ pop(rax);  // pop float thing off
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}


void TemplateTable::dop2(Operation op) {
  transition(dtos, dtos);

  switch (op) {
    case add: __ fadd_d (at_rsp());                break;
    case sub: __ fsubr_d(at_rsp());                break;
    case mul: {
      Label L_strict;
      Label L_join;
      const Address access_flags      (rcx, methodOopDesc::access_flags_offset());
      __ get_method(rcx);
      __ movl(rcx, access_flags);
      __ testl(rcx, JVM_ACC_STRICT);
      __ jccb(Assembler::notZero, L_strict);
      __ fmul_d (at_rsp());
      __ jmpb(L_join);
      __ bind(L_strict);
      __ fld_x(ExternalAddress(StubRoutines::addr_fpu_subnormal_bias1()));
      __ fmulp();
      __ fmul_d (at_rsp());
      __ fld_x(ExternalAddress(StubRoutines::addr_fpu_subnormal_bias2()));
      __ fmulp();
      __ bind(L_join);
      break;
    }
    case div: {
      Label L_strict;
      Label L_join;
      const Address access_flags      (rcx, methodOopDesc::access_flags_offset());
      __ get_method(rcx);
      __ movl(rcx, access_flags);
      __ testl(rcx, JVM_ACC_STRICT);
      __ jccb(Assembler::notZero, L_strict);
      __ fdivr_d(at_rsp());
      __ jmp(L_join);
      __ bind(L_strict);
      __ fld_x(ExternalAddress(StubRoutines::addr_fpu_subnormal_bias1()));
      __ fmul_d (at_rsp());
      __ fdivrp();
      __ fld_x(ExternalAddress(StubRoutines::addr_fpu_subnormal_bias2()));
      __ fmulp();
      __ bind(L_join);
      break;
    }
    case rem: __ fld_d  (at_rsp()); __ fremr(rax); break;
    default : ShouldNotReachHere();
  }
  __ d2ieee();
  // Pop double precision number from rsp.
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  __ pop(rax);
  __ pop(rdx);
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}


void TemplateTable::ineg() {
  transition(itos, itos);
  __ negl(rax);
}


void TemplateTable::lneg() {
  transition(ltos, ltos);
  __ lneg(rdx, rax);
}


void TemplateTable::fneg() {
  transition(ftos, ftos);
  __ fchs();
}


void TemplateTable::dneg() {
  transition(dtos, dtos);
  __ fchs();
}


void TemplateTable::iinc() {
  transition(vtos, vtos);
  __ load_signed_byte(rdx, at_bcp(2));           // get constant
  locals_index(rbx);
  __ addl(iaddress(rbx), rdx);
}


void TemplateTable::wide_iinc() {
  transition(vtos, vtos);
  __ movl(rdx, at_bcp(4));                       // get constant
  locals_index_wide(rbx);
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  __ bswapl(rdx);                                 // swap bytes & sign-extend constant
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  __ sarl(rdx, 16);
  __ addl(iaddress(rbx), rdx);
  // Note: should probably use only one movl to get both
  //       the index and the constant -> fix this
}


void TemplateTable::convert() {
  // Checking
#ifdef ASSERT
  { TosState tos_in  = ilgl;
    TosState tos_out = ilgl;
    switch (bytecode()) {
      case Bytecodes::_i2l: // fall through
      case Bytecodes::_i2f: // fall through
      case Bytecodes::_i2d: // fall through
      case Bytecodes::_i2b: // fall through
      case Bytecodes::_i2c: // fall through
      case Bytecodes::_i2s: tos_in = itos; break;
      case Bytecodes::_l2i: // fall through
      case Bytecodes::_l2f: // fall through
      case Bytecodes::_l2d: tos_in = ltos; break;
      case Bytecodes::_f2i: // fall through
      case Bytecodes::_f2l: // fall through
      case Bytecodes::_f2d: tos_in = ftos; break;
      case Bytecodes::_d2i: // fall through
      case Bytecodes::_d2l: // fall through
      case Bytecodes::_d2f: tos_in = dtos; break;
      default             : ShouldNotReachHere();
    }
    switch (bytecode()) {
      case Bytecodes::_l2i: // fall through
      case Bytecodes::_f2i: // fall through
      case Bytecodes::_d2i: // fall through
      case Bytecodes::_i2b: // fall through
      case Bytecodes::_i2c: // fall through
      case Bytecodes::_i2s: tos_out = itos; break;
      case Bytecodes::_i2l: // fall through
      case Bytecodes::_f2l: // fall through
      case Bytecodes::_d2l: tos_out = ltos; break;
      case Bytecodes::_i2f: // fall through
      case Bytecodes::_l2f: // fall through
      case Bytecodes::_d2f: tos_out = ftos; break;
      case Bytecodes::_i2d: // fall through
      case Bytecodes::_l2d: // fall through
      case Bytecodes::_f2d: tos_out = dtos; break;
      default             : ShouldNotReachHere();
    }
    transition(tos_in, tos_out);
  }
#endif // ASSERT

  // Conversion
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  // (Note: use push(rcx)/pop(rcx) for 1/2-word stack-ptr manipulation)
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  switch (bytecode()) {
    case Bytecodes::_i2l:
      __ extend_sign(rdx, rax);
      break;
    case Bytecodes::_i2f:
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      __ push(rax);          // store int on tos
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      __ fild_s(at_rsp());   // load int to ST0
      __ f2ieee();           // truncate to float size
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      __ pop(rcx);           // adjust rsp
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      break;
    case Bytecodes::_i2d:
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      __ push(rax);          // add one slot for d2ieee()
      __ push(rax);          // store int on tos
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      __ fild_s(at_rsp());   // load int to ST0
      __ d2ieee();           // truncate to double size
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      __ pop(rcx);           // adjust rsp
      __ pop(rcx);
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      break;
    case Bytecodes::_i2b:
      __ shll(rax, 24);      // truncate upper 24 bits
      __ sarl(rax, 24);      // and sign-extend byte
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      LP64_ONLY(__ movsbl(rax, rax));
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      break;
    case Bytecodes::_i2c:
      __ andl(rax, 0xFFFF);  // truncate upper 16 bits
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      LP64_ONLY(__ movzwl(rax, rax));
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      break;
    case Bytecodes::_i2s:
      __ shll(rax, 16);      // truncate upper 16 bits
      __ sarl(rax, 16);      // and sign-extend short
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      LP64_ONLY(__ movswl(rax, rax));
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      break;
    case Bytecodes::_l2i:
      /* nothing to do */
      break;
    case Bytecodes::_l2f:
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      __ push(rdx);          // store long on tos
      __ push(rax);
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      __ fild_d(at_rsp());   // load long to ST0
      __ f2ieee();           // truncate to float size
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      __ pop(rcx);           // adjust rsp
      __ pop(rcx);
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      break;
    case Bytecodes::_l2d:
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      __ push(rdx);          // store long on tos
      __ push(rax);
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      __ fild_d(at_rsp());   // load long to ST0
      __ d2ieee();           // truncate to double size
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      __ pop(rcx);           // adjust rsp
      __ pop(rcx);
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      break;
    case Bytecodes::_f2i:
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      __ push(rcx);          // reserve space for argument
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      __ fstp_s(at_rsp());   // pass float argument on stack
      __ call_VM_leaf(CAST_FROM_FN_PTR(address, SharedRuntime::f2i), 1);
      break;
    case Bytecodes::_f2l:
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      __ push(rcx);          // reserve space for argument
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      __ fstp_s(at_rsp());   // pass float argument on stack
      __ call_VM_leaf(CAST_FROM_FN_PTR(address, SharedRuntime::f2l), 1);
      break;
    case Bytecodes::_f2d:
      /* nothing to do */
      break;
    case Bytecodes::_d2i:
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      __ push(rcx);          // reserve space for argument
      __ push(rcx);
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      __ fstp_d(at_rsp());   // pass double argument on stack
      __ call_VM_leaf(CAST_FROM_FN_PTR(address, SharedRuntime::d2i), 2);
      break;
    case Bytecodes::_d2l:
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      __ push(rcx);          // reserve space for argument
      __ push(rcx);
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      __ fstp_d(at_rsp());   // pass double argument on stack
      __ call_VM_leaf(CAST_FROM_FN_PTR(address, SharedRuntime::d2l), 2);
      break;
    case Bytecodes::_d2f:
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      __ push(rcx);          // reserve space for f2ieee()
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      __ f2ieee();           // truncate to float size
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      __ pop(rcx);           // adjust rsp
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      break;
    default             :
      ShouldNotReachHere();
  }
}


void TemplateTable::lcmp() {
  transition(ltos, itos);
  // y = rdx:rax
  __ pop_l(rbx, rcx);             // get x = rcx:rbx
  __ lcmp2int(rcx, rbx, rdx, rax);// rcx := cmp(x, y)
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  __ mov(rax, rcx);
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}


void TemplateTable::float_cmp(bool is_float, int unordered_result) {
  if (is_float) {
    __ fld_s(at_rsp());
  } else {
    __ fld_d(at_rsp());
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    __ pop(rdx);
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  }
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  __ pop(rcx);
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  __ fcmp2int(rax, unordered_result < 0);
}


void TemplateTable::branch(bool is_jsr, bool is_wide) {
  __ get_method(rcx);           // ECX holds method
  __ profile_taken_branch(rax,rbx); // EAX holds updated MDP, EBX holds bumped taken count

  const ByteSize be_offset = methodOopDesc::backedge_counter_offset() + InvocationCounter::counter_offset();
  const ByteSize inv_offset = methodOopDesc::invocation_counter_offset() + InvocationCounter::counter_offset();
  const int method_offset = frame::interpreter_frame_method_offset * wordSize;

  // Load up EDX with the branch displacement
  __ movl(rdx, at_bcp(1));
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  __ bswapl(rdx);
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  if (!is_wide) __ sarl(rdx, 16);
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  LP64_ONLY(__ movslq(rdx, rdx));

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  // Handle all the JSR stuff here, then exit.
  // It's much shorter and cleaner than intermingling with the
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  // non-JSR normal-branch stuff occurring below.
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  if (is_jsr) {
    // Pre-load the next target bytecode into EBX
    __ load_unsigned_byte(rbx, Address(rsi, rdx, Address::times_1, 0));

    // compute return address as bci in rax,
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    __ lea(rax, at_bcp((is_wide ? 5 : 3) - in_bytes(constMethodOopDesc::codes_offset())));
    __ subptr(rax, Address(rcx, methodOopDesc::const_offset()));
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    // Adjust the bcp in RSI by the displacement in EDX
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    __ addptr(rsi, rdx);
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    // Push return address
    __ push_i(rax);
    // jsr returns vtos
    __ dispatch_only_noverify(vtos);
    return;
  }

  // Normal (non-jsr) branch handling

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  // Adjust the bcp in RSI by the displacement in EDX
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  __ addptr(rsi, rdx);
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  assert(UseLoopCounter || !UseOnStackReplacement, "on-stack-replacement requires loop counters");
  Label backedge_counter_overflow;
  Label profile_method;
  Label dispatch;
  if (UseLoopCounter) {
    // increment backedge counter for backward branches
    // rax,: MDO
    // rbx,: MDO bumped taken-count
    // rcx: method
    // rdx: target offset
    // rsi: target bcp
    // rdi: locals pointer
    __ testl(rdx, rdx);             // check if forward or backward branch
    __ jcc(Assembler::positive, dispatch); // count only if backward branch

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    if (TieredCompilation) {
      Label no_mdo;
      int increment = InvocationCounter::count_increment;
      int mask = ((1 << Tier0BackedgeNotifyFreqLog) - 1) << InvocationCounter::count_shift;
      if (ProfileInterpreter) {
        // Are we profiling?
        __ movptr(rbx, Address(rcx, in_bytes(methodOopDesc::method_data_offset())));
        __ testptr(rbx, rbx);
        __ jccb(Assembler::zero, no_mdo);
        // Increment the MDO backedge counter
        const Address mdo_backedge_counter(rbx, in_bytes(methodDataOopDesc::backedge_counter_offset()) +
                                                in_bytes(InvocationCounter::counter_offset()));
        __ increment_mask_and_jump(mdo_backedge_counter, increment, mask,
                                   rax, false, Assembler::zero, &backedge_counter_overflow);
        __ jmp(dispatch);
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      }
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      __ bind(no_mdo);
      // Increment backedge counter in methodOop
      __ increment_mask_and_jump(Address(rcx, be_offset), increment, mask,
                                 rax, false, Assembler::zero, &backedge_counter_overflow);
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    } else {
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      // increment counter
      __ movl(rax, Address(rcx, be_offset));        // load backedge counter
      __ incrementl(rax, InvocationCounter::count_increment); // increment counter
      __ movl(Address(rcx, be_offset), rax);        // store counter

      __ movl(rax, Address(rcx, inv_offset));    // load invocation counter
      __ andl(rax, InvocationCounter::count_mask_value);     // and the status bits
      __ addl(rax, Address(rcx, be_offset));        // add both counters

      if (ProfileInterpreter) {
        // Test to see if we should create a method data oop
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        __ cmp32(rax,
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                 ExternalAddress((address) &InvocationCounter::InterpreterProfileLimit));
        __ jcc(Assembler::less, dispatch);

        // if no method data exists, go to profile method
        __ test_method_data_pointer(rax, profile_method);

        if (UseOnStackReplacement) {
          // check for overflow against rbx, which is the MDO taken count
          __ cmp32(rbx,
                   ExternalAddress((address) &InvocationCounter::InterpreterBackwardBranchLimit));
          __ jcc(Assembler::below, dispatch);

          // When ProfileInterpreter is on, the backedge_count comes from the
          // methodDataOop, which value does not get reset on the call to
          // frequency_counter_overflow().  To avoid excessive calls to the overflow
          // routine while the method is being compiled, add a second test to make
          // sure the overflow function is called only once every overflow_frequency.
          const int overflow_frequency = 1024;
          __ andptr(rbx, overflow_frequency-1);
          __ jcc(Assembler::zero, backedge_counter_overflow);
        }
      } else {
        if (UseOnStackReplacement) {
          // check for overflow against rax, which is the sum of the counters
          __ cmp32(rax,
                   ExternalAddress((address) &InvocationCounter::InterpreterBackwardBranchLimit));
          __ jcc(Assembler::aboveEqual, backedge_counter_overflow);
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        }
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      }
    }
    __ bind(dispatch);
  }

  // Pre-load the next target bytecode into EBX
  __ load_unsigned_byte(rbx, Address(rsi, 0));

  // continue with the bytecode @ target
  // rax,: return bci for jsr's, unused otherwise
  // rbx,: target bytecode
  // rsi: target bcp
  __ dispatch_only(vtos);

  if (UseLoopCounter) {
    if (ProfileInterpreter) {
      // Out-of-line code to allocate method data oop.
      __ bind(profile_method);
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      __ call_VM(noreg, CAST_FROM_FN_PTR(address, InterpreterRuntime::profile_method));
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      __ load_unsigned_byte(rbx, Address(rsi, 0));  // restore target bytecode
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      __ set_method_data_pointer_for_bcp();
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      __ jmp(dispatch);
    }

    if (UseOnStackReplacement) {

      // invocation counter overflow
      __ bind(backedge_counter_overflow);
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      __ negptr(rdx);
      __ addptr(rdx, rsi);        // branch bcp
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      call_VM(noreg, CAST_FROM_FN_PTR(address, InterpreterRuntime::frequency_counter_overflow), rdx);
      __ load_unsigned_byte(rbx, Address(rsi, 0));  // restore target bytecode

      // rax,: osr nmethod (osr ok) or NULL (osr not possible)
      // rbx,: target bytecode
      // rdx: scratch
      // rdi: locals pointer
      // rsi: bcp
1729
      __ testptr(rax, rax);                      // test result
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      __ jcc(Assembler::zero, dispatch);         // no osr if null
      // nmethod may have been invalidated (VM may block upon call_VM return)
      __ movl(rcx, Address(rax, nmethod::entry_bci_offset()));
      __ cmpl(rcx, InvalidOSREntryBci);
      __ jcc(Assembler::equal, dispatch);

      // We have the address of an on stack replacement routine in rax,
      // We need to prepare to execute the OSR method. First we must
      // migrate the locals and monitors off of the stack.

1740
      __ mov(rbx, rax);                             // save the nmethod
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      const Register thread = rcx;
      __ get_thread(thread);
      call_VM(noreg, CAST_FROM_FN_PTR(address, SharedRuntime::OSR_migration_begin));
      // rax, is OSR buffer, move it to expected parameter location
1746
      __ mov(rcx, rax);
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      // pop the interpreter frame
1749
      __ movptr(rdx, Address(rbp, frame::interpreter_frame_sender_sp_offset * wordSize)); // get sender sp
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      __ leave();                                // remove frame anchor
1751 1752
      __ pop(rdi);                               // get return address
      __ mov(rsp, rdx);                          // set sp to sender sp
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      // Align stack pointer for compiled code (note that caller is
      // responsible for undoing this fixup by remembering the old SP
      // in an rbp,-relative location)
1757
      __ andptr(rsp, -(StackAlignmentInBytes));
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      // push the (possibly adjusted) return address
1760
      __ push(rdi);
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      // and begin the OSR nmethod
1763
      __ jmp(Address(rbx, nmethod::osr_entry_point_offset()));
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    }
  }
}


void TemplateTable::if_0cmp(Condition cc) {
  transition(itos, vtos);
  // assume branch is more often taken than not (loops use backward branches)
  Label not_taken;
  __ testl(rax, rax);
  __ jcc(j_not(cc), not_taken);
  branch(false, false);
  __ bind(not_taken);
  __ profile_not_taken_branch(rax);
}


void TemplateTable::if_icmp(Condition cc) {
  transition(itos, vtos);
  // assume branch is more often taken than not (loops use backward branches)
  Label not_taken;
  __ pop_i(rdx);
  __ cmpl(rdx, rax);
  __ jcc(j_not(cc), not_taken);
  branch(false, false);
  __ bind(not_taken);
  __ profile_not_taken_branch(rax);
}


void TemplateTable::if_nullcmp(Condition cc) {
  transition(atos, vtos);
  // assume branch is more often taken than not (loops use backward branches)
  Label not_taken;
1798
  __ testptr(rax, rax);
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  __ jcc(j_not(cc), not_taken);
  branch(false, false);
  __ bind(not_taken);
  __ profile_not_taken_branch(rax);
}


void TemplateTable::if_acmp(Condition cc) {
  transition(atos, vtos);
  // assume branch is more often taken than not (loops use backward branches)
  Label not_taken;
  __ pop_ptr(rdx);
1811
  __ cmpptr(rdx, rax);
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  __ jcc(j_not(cc), not_taken);
  branch(false, false);
  __ bind(not_taken);
  __ profile_not_taken_branch(rax);
}


void TemplateTable::ret() {
  transition(vtos, vtos);
  locals_index(rbx);
1822
  __ movptr(rbx, iaddress(rbx));                   // get return bci, compute return bcp
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  __ profile_ret(rbx, rcx);
  __ get_method(rax);
1825 1826 1827
  __ movptr(rsi, Address(rax, methodOopDesc::const_offset()));
  __ lea(rsi, Address(rsi, rbx, Address::times_1,
                      constMethodOopDesc::codes_offset()));
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  __ dispatch_next(vtos);
}


void TemplateTable::wide_ret() {
  transition(vtos, vtos);
  locals_index_wide(rbx);
1835
  __ movptr(rbx, iaddress(rbx));                   // get return bci, compute return bcp
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  __ profile_ret(rbx, rcx);
  __ get_method(rax);
1838 1839
  __ movptr(rsi, Address(rax, methodOopDesc::const_offset()));
  __ lea(rsi, Address(rsi, rbx, Address::times_1, constMethodOopDesc::codes_offset()));
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  __ dispatch_next(vtos);
}


void TemplateTable::tableswitch() {
  Label default_case, continue_execution;
  transition(itos, vtos);
  // align rsi
1848 1849
  __ lea(rbx, at_bcp(wordSize));
  __ andptr(rbx, -wordSize);
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  // load lo & hi
  __ movl(rcx, Address(rbx, 1 * wordSize));
  __ movl(rdx, Address(rbx, 2 * wordSize));
1853 1854
  __ bswapl(rcx);
  __ bswapl(rdx);
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  // check against lo & hi
  __ cmpl(rax, rcx);
  __ jccb(Assembler::less, default_case);
  __ cmpl(rax, rdx);
  __ jccb(Assembler::greater, default_case);
  // lookup dispatch offset
  __ subl(rax, rcx);
1862
  __ movl(rdx, Address(rbx, rax, Address::times_4, 3 * BytesPerInt));
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  __ profile_switch_case(rax, rbx, rcx);
  // continue execution
  __ bind(continue_execution);
1866
  __ bswapl(rdx);
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  __ load_unsigned_byte(rbx, Address(rsi, rdx, Address::times_1));
1868
  __ addptr(rsi, rdx);
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  __ dispatch_only(vtos);
  // handle default
  __ bind(default_case);
  __ profile_switch_default(rax);
  __ movl(rdx, Address(rbx, 0));
  __ jmp(continue_execution);
}


void TemplateTable::lookupswitch() {
  transition(itos, itos);
  __ stop("lookupswitch bytecode should have been rewritten");
}


void TemplateTable::fast_linearswitch() {
  transition(itos, vtos);
  Label loop_entry, loop, found, continue_execution;
1887 1888
  // bswapl rax, so we can avoid bswapping the table entries
  __ bswapl(rax);
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  // align rsi
1890 1891
  __ lea(rbx, at_bcp(wordSize));                // btw: should be able to get rid of this instruction (change offsets below)
  __ andptr(rbx, -wordSize);
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  // set counter
  __ movl(rcx, Address(rbx, wordSize));
1894
  __ bswapl(rcx);
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  __ jmpb(loop_entry);
  // table search
  __ bind(loop);
  __ cmpl(rax, Address(rbx, rcx, Address::times_8, 2 * wordSize));
  __ jccb(Assembler::equal, found);
  __ bind(loop_entry);
1901
  __ decrementl(rcx);
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  __ jcc(Assembler::greaterEqual, loop);
  // default case
  __ profile_switch_default(rax);
  __ movl(rdx, Address(rbx, 0));
  __ jmpb(continue_execution);
  // entry found -> get offset
  __ bind(found);
  __ movl(rdx, Address(rbx, rcx, Address::times_8, 3 * wordSize));
  __ profile_switch_case(rcx, rax, rbx);
  // continue execution
  __ bind(continue_execution);
1913
  __ bswapl(rdx);
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  __ load_unsigned_byte(rbx, Address(rsi, rdx, Address::times_1));
1915
  __ addptr(rsi, rdx);
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  __ dispatch_only(vtos);
}


void TemplateTable::fast_binaryswitch() {
  transition(itos, vtos);
  // Implementation using the following core algorithm:
  //
  // int binary_search(int key, LookupswitchPair* array, int n) {
  //   // Binary search according to "Methodik des Programmierens" by
  //   // Edsger W. Dijkstra and W.H.J. Feijen, Addison Wesley Germany 1985.
  //   int i = 0;
  //   int j = n;
  //   while (i+1 < j) {
  //     // invariant P: 0 <= i < j <= n and (a[i] <= key < a[j] or Q)
  //     // with      Q: for all i: 0 <= i < n: key < a[i]
  //     // where a stands for the array and assuming that the (inexisting)
  //     // element a[n] is infinitely big.
  //     int h = (i + j) >> 1;
  //     // i < h < j
  //     if (key < array[h].fast_match()) {
  //       j = h;
  //     } else {
  //       i = h;
  //     }
  //   }
  //   // R: a[i] <= key < a[i+1] or Q
  //   // (i.e., if key is within array, i is the correct index)
  //   return i;
  // }

  // register allocation
  const Register key   = rax;                    // already set (tosca)
  const Register array = rbx;
  const Register i     = rcx;
  const Register j     = rdx;
  const Register h     = rdi;                    // needs to be restored
  const Register temp  = rsi;
  // setup array
  __ save_bcp();

1957 1958
  __ lea(array, at_bcp(3*wordSize));             // btw: should be able to get rid of this instruction (change offsets below)
  __ andptr(array, -wordSize);
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  // initialize i & j
  __ xorl(i, i);                                 // i = 0;
  __ movl(j, Address(array, -wordSize));         // j = length(array);
  // Convert j into native byteordering
1963
  __ bswapl(j);
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  // and start
  Label entry;
  __ jmp(entry);

  // binary search loop
  { Label loop;
    __ bind(loop);
    // int h = (i + j) >> 1;
    __ leal(h, Address(i, j, Address::times_1)); // h = i + j;
    __ sarl(h, 1);                               // h = (i + j) >> 1;
    // if (key < array[h].fast_match()) {
    //   j = h;
    // } else {
    //   i = h;
    // }
    // Convert array[h].match to native byte-ordering before compare
    __ movl(temp, Address(array, h, Address::times_8, 0*wordSize));
1981
    __ bswapl(temp);
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    __ cmpl(key, temp);
1983 1984 1985 1986
    // j = h if (key <  array[h].fast_match())
    __ cmov32(Assembler::less        , j, h);
    // i = h if (key >= array[h].fast_match())
    __ cmov32(Assembler::greaterEqual, i, h);
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    // while (i+1 < j)
    __ bind(entry);
    __ leal(h, Address(i, 1));                   // i+1
    __ cmpl(h, j);                               // i+1 < j
    __ jcc(Assembler::less, loop);
  }

  // end of binary search, result index is i (must check again!)
  Label default_case;
  // Convert array[i].match to native byte-ordering before compare
  __ movl(temp, Address(array, i, Address::times_8, 0*wordSize));
1998
  __ bswapl(temp);
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  __ cmpl(key, temp);
  __ jcc(Assembler::notEqual, default_case);

  // entry found -> j = offset
  __ movl(j , Address(array, i, Address::times_8, 1*wordSize));
  __ profile_switch_case(i, key, array);
2005 2006
  __ bswapl(j);
  LP64_ONLY(__ movslq(j, j));
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  __ restore_bcp();
  __ restore_locals();                           // restore rdi
  __ load_unsigned_byte(rbx, Address(rsi, j, Address::times_1));

2011
  __ addptr(rsi, j);
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  __ dispatch_only(vtos);

  // default case -> j = default offset
  __ bind(default_case);
  __ profile_switch_default(i);
  __ movl(j, Address(array, -2*wordSize));
2018 2019
  __ bswapl(j);
  LP64_ONLY(__ movslq(j, j));
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  __ restore_bcp();
  __ restore_locals();                           // restore rdi
  __ load_unsigned_byte(rbx, Address(rsi, j, Address::times_1));
2023
  __ addptr(rsi, j);
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  __ dispatch_only(vtos);
}


void TemplateTable::_return(TosState state) {
  transition(state, state);
  assert(_desc->calls_vm(), "inconsistent calls_vm information"); // call in remove_activation

  if (_desc->bytecode() == Bytecodes::_return_register_finalizer) {
    assert(state == vtos, "only valid state");
2034
    __ movptr(rax, aaddress(0));
2035
    __ load_klass(rdi, rax);
2036
    __ movl(rdi, Address(rdi, Klass::access_flags_offset()));
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    __ testl(rdi, JVM_ACC_HAS_FINALIZER);
    Label skip_register_finalizer;
    __ jcc(Assembler::zero, skip_register_finalizer);

    __ call_VM(noreg, CAST_FROM_FN_PTR(address, InterpreterRuntime::register_finalizer), rax);

    __ bind(skip_register_finalizer);
  }

  __ remove_activation(state, rsi);
  __ jmp(rsi);
}


// ----------------------------------------------------------------------------
// Volatile variables demand their effects be made known to all CPU's in
// order.  Store buffers on most chips allow reads & writes to reorder; the
// JMM's ReadAfterWrite.java test fails in -Xint mode without some kind of
// memory barrier (i.e., it's not sufficient that the interpreter does not
// reorder volatile references, the hardware also must not reorder them).
//
// According to the new Java Memory Model (JMM):
// (1) All volatiles are serialized wrt to each other.
// ALSO reads & writes act as aquire & release, so:
// (2) A read cannot let unrelated NON-volatile memory refs that happen after
// the read float up to before the read.  It's OK for non-volatile memory refs
// that happen before the volatile read to float down below it.
// (3) Similar a volatile write cannot let unrelated NON-volatile memory refs
// that happen BEFORE the write float down to after the write.  It's OK for
// non-volatile memory refs that happen after the volatile write to float up
// before it.
//
// We only put in barriers around volatile refs (they are expensive), not
// _between_ memory refs (that would require us to track the flavor of the
// previous memory refs).  Requirements (2) and (3) require some barriers
// before volatile stores and after volatile loads.  These nearly cover
// requirement (1) but miss the volatile-store-volatile-load case.  This final
// case is placed after volatile-stores although it could just as well go
// before volatile-loads.
2076
void TemplateTable::volatile_barrier(Assembler::Membar_mask_bits order_constraint ) {
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  // Helper function to insert a is-volatile test and memory barrier
  if( !os::is_MP() ) return;    // Not needed on single CPU
2079
  __ membar(order_constraint);
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}

2082 2083 2084 2085 2086
void TemplateTable::resolve_cache_and_index(int byte_no,
                                            Register result,
                                            Register Rcache,
                                            Register index,
                                            size_t index_size) {
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  Register temp = rbx;

2089
  assert_different_registers(result, Rcache, index, temp);
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  Label resolved;
2092 2093 2094 2095 2096
  if (byte_no == f1_oop) {
    // We are resolved if the f1 field contains a non-null object (CallSite, etc.)
    // This kind of CP cache entry does not need to match the flags byte, because
    // there is a 1-1 relation between bytecode type and CP entry type.
    assert(result != noreg, ""); //else do cmpptr(Address(...), (int32_t) NULL_WORD)
2097
    __ get_cache_and_index_at_bcp(Rcache, index, 1, index_size);
2098 2099
    __ movptr(result, Address(Rcache, index, Address::times_ptr, constantPoolCacheOopDesc::base_offset() + ConstantPoolCacheEntry::f1_offset()));
    __ testptr(result, result);
2100 2101
    __ jcc(Assembler::notEqual, resolved);
  } else {
2102 2103
    assert(byte_no == f1_byte || byte_no == f2_byte, "byte_no out of range");
    assert(result == noreg, "");  //else change code for setting result
2104 2105
    __ get_cache_and_index_and_bytecode_at_bcp(Rcache, index, temp, byte_no, 1, index_size);
    __ cmpl(temp, (int) bytecode());  // have we resolved this bytecode?
2106 2107
    __ jcc(Assembler::equal, resolved);
  }
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  // resolve first time through
  address entry;
  switch (bytecode()) {
    case Bytecodes::_getstatic      : // fall through
    case Bytecodes::_putstatic      : // fall through
    case Bytecodes::_getfield       : // fall through
    case Bytecodes::_putfield       : entry = CAST_FROM_FN_PTR(address, InterpreterRuntime::resolve_get_put); break;
    case Bytecodes::_invokevirtual  : // fall through
    case Bytecodes::_invokespecial  : // fall through
    case Bytecodes::_invokestatic   : // fall through
    case Bytecodes::_invokeinterface: entry = CAST_FROM_FN_PTR(address, InterpreterRuntime::resolve_invoke);  break;
2120
    case Bytecodes::_invokedynamic  : entry = CAST_FROM_FN_PTR(address, InterpreterRuntime::resolve_invokedynamic); break;
2121 2122
    case Bytecodes::_fast_aldc      : entry = CAST_FROM_FN_PTR(address, InterpreterRuntime::resolve_ldc);     break;
    case Bytecodes::_fast_aldc_w    : entry = CAST_FROM_FN_PTR(address, InterpreterRuntime::resolve_ldc);     break;
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    default                         : ShouldNotReachHere();                                 break;
  }
  __ movl(temp, (int)bytecode());
  __ call_VM(noreg, entry, temp);
  // Update registers with resolved info
2128 2129 2130
  __ get_cache_and_index_at_bcp(Rcache, index, 1, index_size);
  if (result != noreg)
    __ movptr(result, Address(Rcache, index, Address::times_ptr, constantPoolCacheOopDesc::base_offset() + ConstantPoolCacheEntry::f1_offset()));
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  __ bind(resolved);
}


// The cache and index registers must be set before call
void TemplateTable::load_field_cp_cache_entry(Register obj,
                                              Register cache,
                                              Register index,
                                              Register off,
                                              Register flags,
                                              bool is_static = false) {
  assert_different_registers(cache, index, flags, off);

  ByteSize cp_base_offset = constantPoolCacheOopDesc::base_offset();
  // Field offset
2146 2147
  __ movptr(off, Address(cache, index, Address::times_ptr,
                         in_bytes(cp_base_offset + ConstantPoolCacheEntry::f2_offset())));
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  // Flags
2149
  __ movl(flags, Address(cache, index, Address::times_ptr,
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           in_bytes(cp_base_offset + ConstantPoolCacheEntry::flags_offset())));

  // klass     overwrite register
  if (is_static) {
2154 2155
    __ movptr(obj, Address(cache, index, Address::times_ptr,
                           in_bytes(cp_base_offset + ConstantPoolCacheEntry::f1_offset())));
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  }
}

void TemplateTable::load_invoke_cp_cache_entry(int byte_no,
                                               Register method,
                                               Register itable_index,
                                               Register flags,
                                               bool is_invokevirtual,
2164 2165
                                               bool is_invokevfinal /*unused*/,
                                               bool is_invokedynamic) {
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  // setup registers
  const Register cache = rcx;
  const Register index = rdx;
  assert_different_registers(method, flags);
  assert_different_registers(method, cache, index);
  assert_different_registers(itable_index, flags);
  assert_different_registers(itable_index, cache, index);
  // determine constant pool cache field offsets
  const int method_offset = in_bytes(
    constantPoolCacheOopDesc::base_offset() +
      (is_invokevirtual
       ? ConstantPoolCacheEntry::f2_offset()
       : ConstantPoolCacheEntry::f1_offset()
      )
    );
  const int flags_offset = in_bytes(constantPoolCacheOopDesc::base_offset() +
                                    ConstantPoolCacheEntry::flags_offset());
  // access constant pool cache fields
  const int index_offset = in_bytes(constantPoolCacheOopDesc::base_offset() +
                                    ConstantPoolCacheEntry::f2_offset());

2187 2188 2189 2190 2191 2192 2193 2194
  if (byte_no == f1_oop) {
    // Resolved f1_oop goes directly into 'method' register.
    assert(is_invokedynamic, "");
    resolve_cache_and_index(byte_no, method, cache, index, sizeof(u4));
  } else {
    resolve_cache_and_index(byte_no, noreg, cache, index, sizeof(u2));
    __ movptr(method, Address(cache, index, Address::times_ptr, method_offset));
  }
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  if (itable_index != noreg) {
2196
    __ movptr(itable_index, Address(cache, index, Address::times_ptr, index_offset));
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  }
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  __ movl(flags, Address(cache, index, Address::times_ptr, flags_offset));
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}


// The registers cache and index expected to be set before call.
// Correct values of the cache and index registers are preserved.
void TemplateTable::jvmti_post_field_access(Register cache,
                                            Register index,
                                            bool is_static,
                                            bool has_tos) {
  if (JvmtiExport::can_post_field_access()) {
    // Check to see if a field access watch has been set before we take
    // the time to call into the VM.
    Label L1;
    assert_different_registers(cache, index, rax);
    __ mov32(rax, ExternalAddress((address) JvmtiExport::get_field_access_count_addr()));
    __ testl(rax,rax);
    __ jcc(Assembler::zero, L1);

    // cache entry pointer
2218
    __ addptr(cache, in_bytes(constantPoolCacheOopDesc::base_offset()));
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    __ shll(index, LogBytesPerWord);
2220
    __ addptr(cache, index);
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    if (is_static) {
2222
      __ xorptr(rax, rax);      // NULL object reference
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    } else {
      __ pop(atos);         // Get the object
      __ verify_oop(rax);
      __ push(atos);        // Restore stack state
    }
    // rax,:   object pointer or NULL
    // cache: cache entry pointer
    __ call_VM(noreg, CAST_FROM_FN_PTR(address, InterpreterRuntime::post_field_access),
               rax, cache);
    __ get_cache_and_index_at_bcp(cache, index, 1);
    __ bind(L1);
  }
}

void TemplateTable::pop_and_check_object(Register r) {
  __ pop_ptr(r);
  __ null_check(r);  // for field access must check obj.
  __ verify_oop(r);
}

void TemplateTable::getfield_or_static(int byte_no, bool is_static) {
  transition(vtos, vtos);

  const Register cache = rcx;
  const Register index = rdx;
  const Register obj   = rcx;
  const Register off   = rbx;
  const Register flags = rax;

2252
  resolve_cache_and_index(byte_no, noreg, cache, index, sizeof(u2));
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  jvmti_post_field_access(cache, index, is_static, false);
  load_field_cp_cache_entry(obj, cache, index, off, flags, is_static);

  if (!is_static) pop_and_check_object(obj);

  const Address lo(obj, off, Address::times_1, 0*wordSize);
  const Address hi(obj, off, Address::times_1, 1*wordSize);

  Label Done, notByte, notInt, notShort, notChar, notLong, notFloat, notObj, notDouble;

  __ shrl(flags, ConstantPoolCacheEntry::tosBits);
  assert(btos == 0, "change code, btos != 0");
  // btos
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  __ andptr(flags, 0x0f);
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  __ jcc(Assembler::notZero, notByte);

  __ load_signed_byte(rax, lo );
  __ push(btos);
  // Rewrite bytecode to be faster
  if (!is_static) {
    patch_bytecode(Bytecodes::_fast_bgetfield, rcx, rbx);
  }
  __ jmp(Done);

  __ bind(notByte);
  // itos
  __ cmpl(flags, itos );
  __ jcc(Assembler::notEqual, notInt);

  __ movl(rax, lo );
  __ push(itos);
  // Rewrite bytecode to be faster
  if (!is_static) {
    patch_bytecode(Bytecodes::_fast_igetfield, rcx, rbx);
  }
  __ jmp(Done);

  __ bind(notInt);
  // atos
  __ cmpl(flags, atos );
  __ jcc(Assembler::notEqual, notObj);

  __ movl(rax, lo );
  __ push(atos);
  if (!is_static) {
    patch_bytecode(Bytecodes::_fast_agetfield, rcx, rbx);
  }
  __ jmp(Done);

  __ bind(notObj);
  // ctos
  __ cmpl(flags, ctos );
  __ jcc(Assembler::notEqual, notChar);

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  __ load_unsigned_short(rax, lo );
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  __ push(ctos);
  if (!is_static) {
    patch_bytecode(Bytecodes::_fast_cgetfield, rcx, rbx);
  }
  __ jmp(Done);

  __ bind(notChar);
  // stos
  __ cmpl(flags, stos );
  __ jcc(Assembler::notEqual, notShort);

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  __ load_signed_short(rax, lo );
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  __ push(stos);
  if (!is_static) {
    patch_bytecode(Bytecodes::_fast_sgetfield, rcx, rbx);
  }
  __ jmp(Done);

  __ bind(notShort);
  // ltos
  __ cmpl(flags, ltos );
  __ jcc(Assembler::notEqual, notLong);

  // Generate code as if volatile.  There just aren't enough registers to
  // save that information and this code is faster than the test.
  __ fild_d(lo);                // Must load atomically
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  __ subptr(rsp,2*wordSize);    // Make space for store
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  __ fistp_d(Address(rsp,0));
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  __ pop(rax);
  __ pop(rdx);
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  __ push(ltos);
  // Don't rewrite to _fast_lgetfield for potential volatile case.
  __ jmp(Done);

  __ bind(notLong);
  // ftos
  __ cmpl(flags, ftos );
  __ jcc(Assembler::notEqual, notFloat);

  __ fld_s(lo);
  __ push(ftos);
  if (!is_static) {
    patch_bytecode(Bytecodes::_fast_fgetfield, rcx, rbx);
  }
  __ jmp(Done);

  __ bind(notFloat);
  // dtos
  __ cmpl(flags, dtos );
  __ jcc(Assembler::notEqual, notDouble);

  __ fld_d(lo);
  __ push(dtos);
  if (!is_static) {
    patch_bytecode(Bytecodes::_fast_dgetfield, rcx, rbx);
  }
  __ jmpb(Done);

  __ bind(notDouble);

  __ stop("Bad state");

  __ bind(Done);
  // Doug Lea believes this is not needed with current Sparcs (TSO) and Intel (PSO).
  // volatile_barrier( );
}


void TemplateTable::getfield(int byte_no) {
  getfield_or_static(byte_no, false);
}


void TemplateTable::getstatic(int byte_no) {
  getfield_or_static(byte_no, true);
}

// The registers cache and index expected to be set before call.
// The function may destroy various registers, just not the cache and index registers.
void TemplateTable::jvmti_post_field_mod(Register cache, Register index, bool is_static) {

  ByteSize cp_base_offset = constantPoolCacheOopDesc::base_offset();

  if (JvmtiExport::can_post_field_modification()) {
    // Check to see if a field modification watch has been set before we take
    // the time to call into the VM.
    Label L1;
    assert_different_registers(cache, index, rax);
    __ mov32(rax, ExternalAddress((address)JvmtiExport::get_field_modification_count_addr()));
    __ testl(rax, rax);
    __ jcc(Assembler::zero, L1);

    // The cache and index registers have been already set.
    // This allows to eliminate this call but the cache and index
    // registers have to be correspondingly used after this line.
    __ get_cache_and_index_at_bcp(rax, rdx, 1);

    if (is_static) {
      // Life is simple.  Null out the object pointer.
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      __ xorptr(rbx, rbx);
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    } else {
      // Life is harder. The stack holds the value on top, followed by the object.
      // We don't know the size of the value, though; it could be one or two words
      // depending on its type. As a result, we must find the type to determine where
      // the object is.
      Label two_word, valsize_known;
2415
      __ movl(rcx, Address(rax, rdx, Address::times_ptr, in_bytes(cp_base_offset +
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                                   ConstantPoolCacheEntry::flags_offset())));
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      __ mov(rbx, rsp);
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      __ shrl(rcx, ConstantPoolCacheEntry::tosBits);
      // Make sure we don't need to mask rcx for tosBits after the above shift
      ConstantPoolCacheEntry::verify_tosBits();
      __ cmpl(rcx, ltos);
      __ jccb(Assembler::equal, two_word);
      __ cmpl(rcx, dtos);
      __ jccb(Assembler::equal, two_word);
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      __ addptr(rbx, Interpreter::expr_offset_in_bytes(1)); // one word jvalue (not ltos, dtos)
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      __ jmpb(valsize_known);

      __ bind(two_word);
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      __ addptr(rbx, Interpreter::expr_offset_in_bytes(2)); // two words jvalue
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      __ bind(valsize_known);
      // setup object pointer
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      __ movptr(rbx, Address(rbx, 0));
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    }
    // cache entry pointer
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    __ addptr(rax, in_bytes(cp_base_offset));
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    __ shll(rdx, LogBytesPerWord);
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    __ addptr(rax, rdx);
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    // object (tos)
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    __ mov(rcx, rsp);
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    // rbx,: object pointer set up above (NULL if static)
    // rax,: cache entry pointer
    // rcx: jvalue object on the stack
    __ call_VM(noreg, CAST_FROM_FN_PTR(address, InterpreterRuntime::post_field_modification),
               rbx, rax, rcx);
    __ get_cache_and_index_at_bcp(cache, index, 1);
    __ bind(L1);
  }
}


void TemplateTable::putfield_or_static(int byte_no, bool is_static) {
  transition(vtos, vtos);

  const Register cache = rcx;
  const Register index = rdx;
  const Register obj   = rcx;
  const Register off   = rbx;
  const Register flags = rax;

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  resolve_cache_and_index(byte_no, noreg, cache, index, sizeof(u2));
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  jvmti_post_field_mod(cache, index, is_static);
  load_field_cp_cache_entry(obj, cache, index, off, flags, is_static);

  // Doug Lea believes this is not needed with current Sparcs (TSO) and Intel (PSO).
  // volatile_barrier( );

  Label notVolatile, Done;
  __ movl(rdx, flags);
  __ shrl(rdx, ConstantPoolCacheEntry::volatileField);
  __ andl(rdx, 0x1);

  // field addresses
  const Address lo(obj, off, Address::times_1, 0*wordSize);
  const Address hi(obj, off, Address::times_1, 1*wordSize);

  Label notByte, notInt, notShort, notChar, notLong, notFloat, notObj, notDouble;

  __ shrl(flags, ConstantPoolCacheEntry::tosBits);
  assert(btos == 0, "change code, btos != 0");
  __ andl(flags, 0x0f);
  __ jcc(Assembler::notZero, notByte);

2484 2485 2486 2487 2488 2489 2490 2491 2492
  // btos
  {
    __ pop(btos);
    if (!is_static) pop_and_check_object(obj);
    __ movb(lo, rax);
    if (!is_static) {
      patch_bytecode(Bytecodes::_fast_bputfield, rcx, rbx, true, byte_no);
    }
    __ jmp(Done);
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  }

  __ bind(notByte);
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  __ cmpl(flags, itos);
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  __ jcc(Assembler::notEqual, notInt);

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  // itos
  {
    __ pop(itos);
    if (!is_static) pop_and_check_object(obj);
    __ movl(lo, rax);
    if (!is_static) {
      patch_bytecode(Bytecodes::_fast_iputfield, rcx, rbx, true, byte_no);
    }
    __ jmp(Done);
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  }

  __ bind(notInt);
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  __ cmpl(flags, atos);
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  __ jcc(Assembler::notEqual, notObj);

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  // atos
  {
    __ pop(atos);
    if (!is_static) pop_and_check_object(obj);
    do_oop_store(_masm, lo, rax, _bs->kind(), false);
    if (!is_static) {
      patch_bytecode(Bytecodes::_fast_aputfield, rcx, rbx, true, byte_no);
    }
    __ jmp(Done);
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  }
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  __ bind(notObj);
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  __ cmpl(flags, ctos);
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  __ jcc(Assembler::notEqual, notChar);

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  // ctos
  {
    __ pop(ctos);
    if (!is_static) pop_and_check_object(obj);
    __ movw(lo, rax);
    if (!is_static) {
      patch_bytecode(Bytecodes::_fast_cputfield, rcx, rbx, true, byte_no);
    }
    __ jmp(Done);
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  }

  __ bind(notChar);
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  __ cmpl(flags, stos);
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  __ jcc(Assembler::notEqual, notShort);

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  // stos
  {
    __ pop(stos);
    if (!is_static) pop_and_check_object(obj);
    __ movw(lo, rax);
    if (!is_static) {
      patch_bytecode(Bytecodes::_fast_sputfield, rcx, rbx, true, byte_no);
    }
    __ jmp(Done);
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  }

  __ bind(notShort);
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  __ cmpl(flags, ltos);
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  __ jcc(Assembler::notEqual, notLong);

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  // ltos
  {
    Label notVolatileLong;
    __ testl(rdx, rdx);
    __ jcc(Assembler::zero, notVolatileLong);

    __ pop(ltos);  // overwrites rdx, do this after testing volatile.
    if (!is_static) pop_and_check_object(obj);

    // Replace with real volatile test
    __ push(rdx);
    __ push(rax);                 // Must update atomically with FIST
    __ fild_d(Address(rsp,0));    // So load into FPU register
    __ fistp_d(lo);               // and put into memory atomically
    __ addptr(rsp, 2*wordSize);
    // volatile_barrier();
    volatile_barrier(Assembler::Membar_mask_bits(Assembler::StoreLoad |
                                                 Assembler::StoreStore));
    // Don't rewrite volatile version
    __ jmp(notVolatile);

    __ bind(notVolatileLong);

    __ pop(ltos);  // overwrites rdx
    if (!is_static) pop_and_check_object(obj);
    NOT_LP64(__ movptr(hi, rdx));
    __ movptr(lo, rax);
    if (!is_static) {
      patch_bytecode(Bytecodes::_fast_lputfield, rcx, rbx, true, byte_no);
    }
    __ jmp(notVolatile);
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  }

  __ bind(notLong);
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  __ cmpl(flags, ftos);
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  __ jcc(Assembler::notEqual, notFloat);

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  // ftos
  {
    __ pop(ftos);
    if (!is_static) pop_and_check_object(obj);
    __ fstp_s(lo);
    if (!is_static) {
      patch_bytecode(Bytecodes::_fast_fputfield, rcx, rbx, true, byte_no);
    }
    __ jmp(Done);
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  }

  __ bind(notFloat);
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#ifdef ASSERT
  __ cmpl(flags, dtos);
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  __ jcc(Assembler::notEqual, notDouble);
2611
#endif
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  // dtos
  {
    __ pop(dtos);
    if (!is_static) pop_and_check_object(obj);
    __ fstp_d(lo);
    if (!is_static) {
      patch_bytecode(Bytecodes::_fast_dputfield, rcx, rbx, true, byte_no);
    }
    __ jmp(Done);
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  }

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#ifdef ASSERT
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  __ bind(notDouble);
  __ stop("Bad state");
2627
#endif
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  __ bind(Done);

  // Check for volatile store
  __ testl(rdx, rdx);
  __ jcc(Assembler::zero, notVolatile);
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  volatile_barrier(Assembler::Membar_mask_bits(Assembler::StoreLoad |
                                               Assembler::StoreStore));
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  __ bind(notVolatile);
}


void TemplateTable::putfield(int byte_no) {
  putfield_or_static(byte_no, false);
}


void TemplateTable::putstatic(int byte_no) {
  putfield_or_static(byte_no, true);
}

void TemplateTable::jvmti_post_fast_field_mod() {
  if (JvmtiExport::can_post_field_modification()) {
    // Check to see if a field modification watch has been set before we take
    // the time to call into the VM.
    Label L2;
2654 2655 2656 2657 2658 2659 2660 2661 2662 2663 2664 2665 2666 2667 2668 2669 2670 2671 2672 2673 2674 2675 2676 2677 2678 2679 2680 2681 2682 2683 2684 2685 2686 2687 2688 2689 2690 2691 2692 2693 2694 2695 2696
     __ mov32(rcx, ExternalAddress((address)JvmtiExport::get_field_modification_count_addr()));
     __ testl(rcx,rcx);
     __ jcc(Assembler::zero, L2);
     __ pop_ptr(rbx);               // copy the object pointer from tos
     __ verify_oop(rbx);
     __ push_ptr(rbx);              // put the object pointer back on tos

     // Save tos values before call_VM() clobbers them. Since we have
     // to do it for every data type, we use the saved values as the
     // jvalue object.
     switch (bytecode()) {          // load values into the jvalue object
     case Bytecodes::_fast_aputfield: __ push_ptr(rax); break;
     case Bytecodes::_fast_bputfield: // fall through
     case Bytecodes::_fast_sputfield: // fall through
     case Bytecodes::_fast_cputfield: // fall through
     case Bytecodes::_fast_iputfield: __ push_i(rax); break;
     case Bytecodes::_fast_dputfield: __ push_d(); break;
     case Bytecodes::_fast_fputfield: __ push_f(); break;
     case Bytecodes::_fast_lputfield: __ push_l(rax); break;

     default:
       ShouldNotReachHere();
     }
     __ mov(rcx, rsp);              // points to jvalue on the stack
     // access constant pool cache entry
     __ get_cache_entry_pointer_at_bcp(rax, rdx, 1);
     __ verify_oop(rbx);
     // rbx,: object pointer copied above
     // rax,: cache entry pointer
     // rcx: jvalue object on the stack
     __ call_VM(noreg, CAST_FROM_FN_PTR(address, InterpreterRuntime::post_field_modification), rbx, rax, rcx);

     switch (bytecode()) {             // restore tos values
     case Bytecodes::_fast_aputfield: __ pop_ptr(rax); break;
     case Bytecodes::_fast_bputfield: // fall through
     case Bytecodes::_fast_sputfield: // fall through
     case Bytecodes::_fast_cputfield: // fall through
     case Bytecodes::_fast_iputfield: __ pop_i(rax); break;
     case Bytecodes::_fast_dputfield: __ pop_d(); break;
     case Bytecodes::_fast_fputfield: __ pop_f(); break;
     case Bytecodes::_fast_lputfield: __ pop_l(rax); break;
     }
     __ bind(L2);
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  }
}

void TemplateTable::fast_storefield(TosState state) {
  transition(state, vtos);

  ByteSize base = constantPoolCacheOopDesc::base_offset();

  jvmti_post_fast_field_mod();

  // access constant pool cache
  __ get_cache_and_index_at_bcp(rcx, rbx, 1);

  // test for volatile with rdx but rdx is tos register for lputfield.
2711 2712
  if (bytecode() == Bytecodes::_fast_lputfield) __ push(rdx);
  __ movl(rdx, Address(rcx, rbx, Address::times_ptr, in_bytes(base +
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                       ConstantPoolCacheEntry::flags_offset())));

  // replace index with field offset from cache entry
2716
  __ movptr(rbx, Address(rcx, rbx, Address::times_ptr, in_bytes(base + ConstantPoolCacheEntry::f2_offset())));
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  // Doug Lea believes this is not needed with current Sparcs (TSO) and Intel (PSO).
  // volatile_barrier( );

  Label notVolatile, Done;
  __ shrl(rdx, ConstantPoolCacheEntry::volatileField);
  __ andl(rdx, 0x1);
  // Check for volatile store
  __ testl(rdx, rdx);
  __ jcc(Assembler::zero, notVolatile);

2728
  if (bytecode() == Bytecodes::_fast_lputfield) __ pop(rdx);
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  // Get object from stack
  pop_and_check_object(rcx);

  // field addresses
  const Address lo(rcx, rbx, Address::times_1, 0*wordSize);
  const Address hi(rcx, rbx, Address::times_1, 1*wordSize);

  // access field
  switch (bytecode()) {
    case Bytecodes::_fast_bputfield: __ movb(lo, rax); break;
    case Bytecodes::_fast_sputfield: // fall through
    case Bytecodes::_fast_cputfield: __ movw(lo, rax); break;
    case Bytecodes::_fast_iputfield: __ movl(lo, rax); break;
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    case Bytecodes::_fast_lputfield:
      NOT_LP64(__ movptr(hi, rdx));
      __ movptr(lo, rax);
      break;
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    case Bytecodes::_fast_fputfield: __ fstp_s(lo); break;
    case Bytecodes::_fast_dputfield: __ fstp_d(lo); break;
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    case Bytecodes::_fast_aputfield: {
      do_oop_store(_masm, lo, rax, _bs->kind(), false);
      break;
    }
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    default:
      ShouldNotReachHere();
  }

  Label done;
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  volatile_barrier(Assembler::Membar_mask_bits(Assembler::StoreLoad |
                                               Assembler::StoreStore));
2760 2761
  // Barriers are so large that short branch doesn't reach!
  __ jmp(done);
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  // Same code as above, but don't need rdx to test for volatile.
  __ bind(notVolatile);

2766
  if (bytecode() == Bytecodes::_fast_lputfield) __ pop(rdx);
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  // Get object from stack
  pop_and_check_object(rcx);

  // access field
  switch (bytecode()) {
    case Bytecodes::_fast_bputfield: __ movb(lo, rax); break;
    case Bytecodes::_fast_sputfield: // fall through
    case Bytecodes::_fast_cputfield: __ movw(lo, rax); break;
    case Bytecodes::_fast_iputfield: __ movl(lo, rax); break;
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    case Bytecodes::_fast_lputfield:
      NOT_LP64(__ movptr(hi, rdx));
      __ movptr(lo, rax);
      break;
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2781 2782
    case Bytecodes::_fast_fputfield: __ fstp_s(lo); break;
    case Bytecodes::_fast_dputfield: __ fstp_d(lo); break;
2783 2784 2785 2786
    case Bytecodes::_fast_aputfield: {
      do_oop_store(_masm, lo, rax, _bs->kind(), false);
      break;
    }
D
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2787 2788 2789 2790 2791 2792 2793 2794 2795 2796 2797 2798 2799 2800 2801 2802 2803 2804 2805 2806 2807 2808 2809 2810 2811 2812 2813 2814 2815 2816 2817 2818
    default:
      ShouldNotReachHere();
  }
  __ bind(done);
}


void TemplateTable::fast_accessfield(TosState state) {
  transition(atos, state);

  // do the JVMTI work here to avoid disturbing the register state below
  if (JvmtiExport::can_post_field_access()) {
    // Check to see if a field access watch has been set before we take
    // the time to call into the VM.
    Label L1;
    __ mov32(rcx, ExternalAddress((address) JvmtiExport::get_field_access_count_addr()));
    __ testl(rcx,rcx);
    __ jcc(Assembler::zero, L1);
    // access constant pool cache entry
    __ get_cache_entry_pointer_at_bcp(rcx, rdx, 1);
    __ push_ptr(rax);  // save object pointer before call_VM() clobbers it
    __ verify_oop(rax);
    // rax,: object pointer copied above
    // rcx: cache entry pointer
    __ call_VM(noreg, CAST_FROM_FN_PTR(address, InterpreterRuntime::post_field_access), rax, rcx);
    __ pop_ptr(rax);   // restore object pointer
    __ bind(L1);
  }

  // access constant pool cache
  __ get_cache_and_index_at_bcp(rcx, rbx, 1);
  // replace index with field offset from cache entry
2819 2820 2821 2822
  __ movptr(rbx, Address(rcx,
                         rbx,
                         Address::times_ptr,
                         in_bytes(constantPoolCacheOopDesc::base_offset() + ConstantPoolCacheEntry::f2_offset())));
D
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2823 2824 2825 2826 2827 2828 2829 2830 2831 2832 2833


  // rax,: object
  __ verify_oop(rax);
  __ null_check(rax);
  // field addresses
  const Address lo = Address(rax, rbx, Address::times_1, 0*wordSize);
  const Address hi = Address(rax, rbx, Address::times_1, 1*wordSize);

  // access field
  switch (bytecode()) {
2834
    case Bytecodes::_fast_bgetfield: __ movsbl(rax, lo );                 break;
2835 2836
    case Bytecodes::_fast_sgetfield: __ load_signed_short(rax, lo );      break;
    case Bytecodes::_fast_cgetfield: __ load_unsigned_short(rax, lo );    break;
D
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2837 2838 2839 2840
    case Bytecodes::_fast_igetfield: __ movl(rax, lo);                    break;
    case Bytecodes::_fast_lgetfield: __ stop("should not be rewritten");  break;
    case Bytecodes::_fast_fgetfield: __ fld_s(lo);                        break;
    case Bytecodes::_fast_dgetfield: __ fld_d(lo);                        break;
2841
    case Bytecodes::_fast_agetfield: __ movptr(rax, lo); __ verify_oop(rax); break;
D
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2842 2843 2844 2845 2846 2847 2848 2849 2850 2851 2852
    default:
      ShouldNotReachHere();
  }

  // Doug Lea believes this is not needed with current Sparcs(TSO) and Intel(PSO)
  // volatile_barrier( );
}

void TemplateTable::fast_xaccess(TosState state) {
  transition(vtos, state);
  // get receiver
2853
  __ movptr(rax, aaddress(0));
D
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2854 2855
  // access constant pool cache
  __ get_cache_and_index_at_bcp(rcx, rdx, 2);
2856 2857 2858 2859
  __ movptr(rbx, Address(rcx,
                         rdx,
                         Address::times_ptr,
                         in_bytes(constantPoolCacheOopDesc::base_offset() + ConstantPoolCacheEntry::f2_offset())));
D
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2860 2861 2862 2863 2864 2865 2866
  // make sure exception is reported in correct bcp range (getfield is next instruction)
  __ increment(rsi);
  __ null_check(rax);
  const Address lo = Address(rax, rbx, Address::times_1, 0*wordSize);
  if (state == itos) {
    __ movl(rax, lo);
  } else if (state == atos) {
2867
    __ movptr(rax, lo);
D
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2868 2869 2870 2871 2872 2873 2874 2875 2876 2877 2878 2879 2880 2881 2882 2883 2884 2885 2886 2887
    __ verify_oop(rax);
  } else if (state == ftos) {
    __ fld_s(lo);
  } else {
    ShouldNotReachHere();
  }
  __ decrement(rsi);
}



//----------------------------------------------------------------------------------------------------
// Calls

void TemplateTable::count_calls(Register method, Register temp) {
  // implemented elsewhere
  ShouldNotReachHere();
}


2888
void TemplateTable::prepare_invoke(Register method, Register index, int byte_no) {
D
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2889
  // determine flags
2890
  Bytecodes::Code code = bytecode();
D
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2891
  const bool is_invokeinterface  = code == Bytecodes::_invokeinterface;
2892
  const bool is_invokedynamic    = code == Bytecodes::_invokedynamic;
D
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2893 2894
  const bool is_invokevirtual    = code == Bytecodes::_invokevirtual;
  const bool is_invokespecial    = code == Bytecodes::_invokespecial;
2895
  const bool load_receiver      = (code != Bytecodes::_invokestatic && code != Bytecodes::_invokedynamic);
D
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2896 2897 2898 2899 2900 2901 2902 2903 2904 2905
  const bool receiver_null_check = is_invokespecial;
  const bool save_flags = is_invokeinterface || is_invokevirtual;
  // setup registers & access constant pool cache
  const Register recv   = rcx;
  const Register flags  = rdx;
  assert_different_registers(method, index, recv, flags);

  // save 'interpreter return address'
  __ save_bcp();

2906
  load_invoke_cp_cache_entry(byte_no, method, index, flags, is_invokevirtual, false, is_invokedynamic);
D
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2907 2908 2909

  // load receiver if needed (note: no return address pushed yet)
  if (load_receiver) {
2910
    assert(!is_invokedynamic, "");
D
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2911 2912 2913
    __ movl(recv, flags);
    __ andl(recv, 0xFF);
    // recv count is 0 based?
2914
    Address recv_addr(rsp, recv, Interpreter::stackElementScale(), -Interpreter::expr_offset_in_bytes(1));
T
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2915 2916
    __ movptr(recv, recv_addr);
    __ verify_oop(recv);
D
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2917 2918 2919 2920 2921 2922 2923 2924
  }

  // do null check if needed
  if (receiver_null_check) {
    __ null_check(recv);
  }

  if (save_flags) {
2925
    __ mov(rsi, flags);
D
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2926 2927 2928 2929 2930 2931 2932
  }

  // compute return type
  __ shrl(flags, ConstantPoolCacheEntry::tosBits);
  // Make sure we don't need to mask flags for tosBits after the above shift
  ConstantPoolCacheEntry::verify_tosBits();
  // load return address
2933
  {
2934
    address table_addr;
2935
    if (is_invokeinterface || is_invokedynamic)
2936 2937 2938 2939
      table_addr = (address)Interpreter::return_5_addrs_by_index_table();
    else
      table_addr = (address)Interpreter::return_3_addrs_by_index_table();
    ExternalAddress table(table_addr);
2940
    __ movptr(flags, ArrayAddress(table, Address(noreg, flags, Address::times_ptr)));
D
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2941 2942 2943
  }

  // push return address
2944
  __ push(flags);
D
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2945 2946 2947 2948

  // Restore flag value from the constant pool cache, and restore rsi
  // for later null checks.  rsi is the bytecode pointer
  if (save_flags) {
2949
    __ mov(flags, rsi);
D
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2950 2951 2952 2953 2954 2955 2956 2957 2958 2959 2960 2961 2962 2963 2964 2965 2966 2967 2968 2969 2970 2971 2972 2973 2974 2975 2976 2977 2978 2979 2980 2981 2982 2983 2984 2985
    __ restore_bcp();
  }
}


void TemplateTable::invokevirtual_helper(Register index, Register recv,
                        Register flags) {

  // Uses temporary registers rax, rdx
  assert_different_registers(index, recv, rax, rdx);

  // Test for an invoke of a final method
  Label notFinal;
  __ movl(rax, flags);
  __ andl(rax, (1 << ConstantPoolCacheEntry::vfinalMethod));
  __ jcc(Assembler::zero, notFinal);

  Register method = index;  // method must be rbx,
  assert(method == rbx, "methodOop must be rbx, for interpreter calling convention");

  // do the call - the index is actually the method to call
  __ verify_oop(method);

  // It's final, need a null check here!
  __ null_check(recv);

  // profile this call
  __ profile_final_call(rax);

  __ jump_from_interpreted(method, rax);

  __ bind(notFinal);

  // get receiver klass
  __ null_check(recv, oopDesc::klass_offset_in_bytes());
  // Keep recv in rcx for callee expects it there
2986
  __ load_klass(rax, recv);
D
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2987 2988 2989 2990 2991 2992 2993 2994
  __ verify_oop(rax);

  // profile this call
  __ profile_virtual_call(rax, rdi, rdx);

  // get target methodOop & entry point
  const int base = instanceKlass::vtable_start_offset() * wordSize;
  assert(vtableEntry::size() * wordSize == 4, "adjust the scaling in the code below");
2995
  __ movptr(method, Address(rax, index, Address::times_ptr, base + vtableEntry::method_offset_in_bytes()));
D
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2996 2997 2998 2999 3000 3001
  __ jump_from_interpreted(method, rdx);
}


void TemplateTable::invokevirtual(int byte_no) {
  transition(vtos, vtos);
3002
  assert(byte_no == f2_byte, "use this argument");
3003
  prepare_invoke(rbx, noreg, byte_no);
D
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3004 3005 3006 3007 3008 3009 3010 3011 3012 3013 3014

  // rbx,: index
  // rcx: receiver
  // rdx: flags

  invokevirtual_helper(rbx, rcx, rdx);
}


void TemplateTable::invokespecial(int byte_no) {
  transition(vtos, vtos);
3015
  assert(byte_no == f1_byte, "use this argument");
3016
  prepare_invoke(rbx, noreg, byte_no);
D
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3017 3018 3019 3020 3021 3022 3023 3024 3025
  // do the call
  __ verify_oop(rbx);
  __ profile_call(rax);
  __ jump_from_interpreted(rbx, rax);
}


void TemplateTable::invokestatic(int byte_no) {
  transition(vtos, vtos);
3026
  assert(byte_no == f1_byte, "use this argument");
3027
  prepare_invoke(rbx, noreg, byte_no);
D
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3028 3029 3030 3031 3032 3033 3034 3035 3036
  // do the call
  __ verify_oop(rbx);
  __ profile_call(rax);
  __ jump_from_interpreted(rbx, rax);
}


void TemplateTable::fast_invokevfinal(int byte_no) {
  transition(vtos, vtos);
3037
  assert(byte_no == f2_byte, "use this argument");
D
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3038 3039 3040 3041 3042 3043
  __ stop("fast_invokevfinal not used on x86");
}


void TemplateTable::invokeinterface(int byte_no) {
  transition(vtos, vtos);
3044
  assert(byte_no == f1_byte, "use this argument");
3045
  prepare_invoke(rax, rbx, byte_no);
D
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3046 3047 3048 3049 3050 3051 3052 3053 3054 3055 3056 3057 3058 3059 3060 3061 3062 3063 3064 3065

  // rax,: Interface
  // rbx,: index
  // rcx: receiver
  // rdx: flags

  // Special case of invokeinterface called for virtual method of
  // java.lang.Object.  See cpCacheOop.cpp for details.
  // This code isn't produced by javac, but could be produced by
  // another compliant java compiler.
  Label notMethod;
  __ movl(rdi, rdx);
  __ andl(rdi, (1 << ConstantPoolCacheEntry::methodInterface));
  __ jcc(Assembler::zero, notMethod);

  invokevirtual_helper(rbx, rcx, rdx);
  __ bind(notMethod);

  // Get receiver klass into rdx - also a null check
  __ restore_locals();  // restore rdi
3066
  __ load_klass(rdx, rcx);
D
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3067 3068 3069 3070 3071
  __ verify_oop(rdx);

  // profile this call
  __ profile_virtual_call(rdx, rsi, rdi);

3072
  Label no_such_interface, no_such_method;
D
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3073

3074 3075 3076 3077 3078
  __ lookup_interface_method(// inputs: rec. class, interface, itable index
                             rdx, rax, rbx,
                             // outputs: method, scan temp. reg
                             rbx, rsi,
                             no_such_interface);
D
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3079

3080 3081 3082 3083 3084 3085 3086 3087
  // rbx,: methodOop to call
  // rcx: receiver
  // Check for abstract method error
  // Note: This should be done more efficiently via a throw_abstract_method_error
  //       interpreter entry point and a conditional jump to it in case of a null
  //       method.
  __ testptr(rbx, rbx);
  __ jcc(Assembler::zero, no_such_method);
D
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3088

3089 3090 3091 3092 3093
  // do the call
  // rcx: receiver
  // rbx,: methodOop
  __ jump_from_interpreted(rbx, rdx);
  __ should_not_reach_here();
D
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3094

3095 3096 3097
  // exception handling code follows...
  // note: must restore interpreter registers to canonical
  //       state for exception handling to work correctly!
D
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3098

3099 3100 3101 3102 3103 3104 3105 3106 3107 3108
  __ bind(no_such_method);
  // throw exception
  __ pop(rbx);           // pop return address (pushed by prepare_invoke)
  __ restore_bcp();      // rsi must be correct for exception handler   (was destroyed)
  __ restore_locals();   // make sure locals pointer is correct as well (was destroyed)
  __ call_VM(noreg, CAST_FROM_FN_PTR(address, InterpreterRuntime::throw_AbstractMethodError));
  // the call_VM checks for exception, so we should never return here.
  __ should_not_reach_here();

  __ bind(no_such_interface);
D
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3109
  // throw exception
3110
  __ pop(rbx);           // pop return address (pushed by prepare_invoke)
D
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3111 3112 3113 3114 3115 3116 3117 3118
  __ restore_bcp();      // rsi must be correct for exception handler   (was destroyed)
  __ restore_locals();   // make sure locals pointer is correct as well (was destroyed)
  __ call_VM(noreg, CAST_FROM_FN_PTR(address,
                   InterpreterRuntime::throw_IncompatibleClassChangeError));
  // the call_VM checks for exception, so we should never return here.
  __ should_not_reach_here();
}

3119 3120
void TemplateTable::invokedynamic(int byte_no) {
  transition(vtos, vtos);
3121
  assert(byte_no == f1_oop, "use this argument");
3122 3123 3124 3125 3126 3127 3128 3129 3130 3131 3132 3133 3134 3135 3136 3137

  if (!EnableInvokeDynamic) {
    // We should not encounter this bytecode if !EnableInvokeDynamic.
    // The verifier will stop it.  However, if we get past the verifier,
    // this will stop the thread in a reasonable way, without crashing the JVM.
    __ call_VM(noreg, CAST_FROM_FN_PTR(address,
                     InterpreterRuntime::throw_IncompatibleClassChangeError));
    // the call_VM checks for exception, so we should never return here.
    __ should_not_reach_here();
    return;
  }

  prepare_invoke(rax, rbx, byte_no);

  // rax: CallSite object (f1)
  // rbx: unused (f2)
3138
  // rcx: receiver address
3139 3140
  // rdx: flags (unused)

3141 3142 3143
  Register rax_callsite      = rax;
  Register rcx_method_handle = rcx;

3144 3145 3146
  // %%% should make a type profile for any invokedynamic that takes a ref argument
  // profile this call
  __ profile_call(rsi);
3147

3148 3149
  __ verify_oop(rax_callsite);
  __ load_heap_oop(rcx_method_handle, Address(rax_callsite, __ delayed_value(java_lang_invoke_CallSite::target_offset_in_bytes, rdx)));
3150
  __ null_check(rcx_method_handle);
3151
  __ verify_oop(rcx_method_handle);
3152
  __ prepare_to_jump_from_interpreted();
3153
  __ jump_to_method_handle_entry(rcx_method_handle, rdx);
3154 3155
}

D
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3156 3157 3158 3159 3160 3161 3162
//----------------------------------------------------------------------------------------------------
// Allocation

void TemplateTable::_new() {
  transition(vtos, atos);
  __ get_unsigned_2_byte_index_at_bcp(rdx, 1);
  Label slow_case;
3163
  Label slow_case_no_pop;
D
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3164 3165 3166 3167 3168 3169 3170
  Label done;
  Label initialize_header;
  Label initialize_object;  // including clearing the fields
  Label allocate_shared;

  __ get_cpool_and_tags(rcx, rax);

3171 3172 3173
  // Make sure the class we're about to instantiate has been resolved.
  // This is done before loading instanceKlass to be consistent with the order
  // how Constant Pool is updated (see constantPoolOopDesc::klass_at_put)
D
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3174 3175
  const int tags_offset = typeArrayOopDesc::header_size(T_BYTE) * wordSize;
  __ cmpb(Address(rax, rdx, Address::times_1, tags_offset), JVM_CONSTANT_Class);
3176 3177 3178 3179 3180
  __ jcc(Assembler::notEqual, slow_case_no_pop);

  // get instanceKlass
  __ movptr(rcx, Address(rcx, rdx, Address::times_ptr, sizeof(constantPoolOopDesc)));
  __ push(rcx);  // save the contexts of klass for initializing the header
D
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3181 3182 3183

  // make sure klass is initialized & doesn't have finalizer
  // make sure klass is fully initialized
K
Merge  
kvn 已提交
3184
  __ cmpb(Address(rcx, instanceKlass::init_state_offset()), instanceKlass::fully_initialized);
D
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3185 3186 3187
  __ jcc(Assembler::notEqual, slow_case);

  // get instance_size in instanceKlass (scaled to a count of bytes)
3188
  __ movl(rdx, Address(rcx, Klass::layout_helper_offset()));
D
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3189 3190 3191 3192 3193 3194 3195 3196 3197 3198 3199 3200 3201 3202
  // test to see if it has a finalizer or is malformed in some way
  __ testl(rdx, Klass::_lh_instance_slow_path_bit);
  __ jcc(Assembler::notZero, slow_case);

  //
  // Allocate the instance
  // 1) Try to allocate in the TLAB
  // 2) if fail and the object is large allocate in the shared Eden
  // 3) if the above fails (or is not applicable), go to a slow case
  // (creates a new TLAB, etc.)

  const bool allow_shared_alloc =
    Universe::heap()->supports_inline_contig_alloc() && !CMSIncrementalMode;

3203 3204
  const Register thread = rcx;
  if (UseTLAB || allow_shared_alloc) {
D
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3205
    __ get_thread(thread);
3206 3207 3208
  }

  if (UseTLAB) {
3209 3210 3211
    __ movptr(rax, Address(thread, in_bytes(JavaThread::tlab_top_offset())));
    __ lea(rbx, Address(rax, rdx, Address::times_1));
    __ cmpptr(rbx, Address(thread, in_bytes(JavaThread::tlab_end_offset())));
D
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3212
    __ jcc(Assembler::above, allow_shared_alloc ? allocate_shared : slow_case);
3213
    __ movptr(Address(thread, in_bytes(JavaThread::tlab_top_offset())), rbx);
D
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3214 3215 3216 3217 3218 3219 3220 3221 3222 3223 3224 3225 3226 3227 3228
    if (ZeroTLAB) {
      // the fields have been already cleared
      __ jmp(initialize_header);
    } else {
      // initialize both the header and fields
      __ jmp(initialize_object);
    }
  }

  // Allocation in the shared Eden, if allowed.
  //
  // rdx: instance size in bytes
  if (allow_shared_alloc) {
    __ bind(allocate_shared);

3229 3230
    ExternalAddress heap_top((address)Universe::heap()->top_addr());

D
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3231 3232
    Label retry;
    __ bind(retry);
3233 3234 3235
    __ movptr(rax, heap_top);
    __ lea(rbx, Address(rax, rdx, Address::times_1));
    __ cmpptr(rbx, ExternalAddress((address)Universe::heap()->end_addr()));
D
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3236 3237 3238 3239 3240 3241 3242 3243 3244
    __ jcc(Assembler::above, slow_case);

    // Compare rax, with the top addr, and if still equal, store the new
    // top addr in rbx, at the address of the top addr pointer. Sets ZF if was
    // equal, and clears it otherwise. Use lock prefix for atomicity on MPs.
    //
    // rax,: object begin
    // rbx,: object end
    // rdx: instance size in bytes
3245
    __ locked_cmpxchgptr(rbx, heap_top);
D
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3246 3247 3248

    // if someone beat us on the allocation, try again, otherwise continue
    __ jcc(Assembler::notEqual, retry);
3249 3250

    __ incr_allocated_bytes(thread, rdx, 0);
D
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3251 3252 3253 3254 3255 3256 3257 3258 3259
  }

  if (UseTLAB || Universe::heap()->supports_inline_contig_alloc()) {
    // The object is initialized before the header.  If the object size is
    // zero, go directly to the header initialization.
    __ bind(initialize_object);
    __ decrement(rdx, sizeof(oopDesc));
    __ jcc(Assembler::zero, initialize_header);

3260 3261
    // Initialize topmost object field, divide rdx by 8, check if odd and
    // test if zero.
D
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3262 3263 3264
    __ xorl(rcx, rcx);    // use zero reg to clear memory (shorter code)
    __ shrl(rdx, LogBytesPerLong); // divide by 2*oopSize and set carry flag if odd

3265
    // rdx must have been multiple of 8
D
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3266 3267 3268 3269 3270 3271 3272 3273 3274 3275 3276 3277 3278
#ifdef ASSERT
    // make sure rdx was multiple of 8
    Label L;
    // Ignore partial flag stall after shrl() since it is debug VM
    __ jccb(Assembler::carryClear, L);
    __ stop("object size is not multiple of 2 - adjust this code");
    __ bind(L);
    // rdx must be > 0, no extra check needed here
#endif

    // initialize remaining object fields: rdx was a multiple of 8
    { Label loop;
    __ bind(loop);
3279 3280
    __ movptr(Address(rax, rdx, Address::times_8, sizeof(oopDesc) - 1*oopSize), rcx);
    NOT_LP64(__ movptr(Address(rax, rdx, Address::times_8, sizeof(oopDesc) - 2*oopSize), rcx));
D
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3281 3282 3283 3284 3285 3286 3287
    __ decrement(rdx);
    __ jcc(Assembler::notZero, loop);
    }

    // initialize object header only.
    __ bind(initialize_header);
    if (UseBiasedLocking) {
3288
      __ pop(rcx);   // get saved klass back in the register.
3289
      __ movptr(rbx, Address(rcx, Klass::prototype_header_offset()));
3290
      __ movptr(Address(rax, oopDesc::mark_offset_in_bytes ()), rbx);
D
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3291
    } else {
3292 3293 3294
      __ movptr(Address(rax, oopDesc::mark_offset_in_bytes ()),
                (int32_t)markOopDesc::prototype()); // header
      __ pop(rcx);   // get saved klass back in the register.
D
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3295
    }
3296
    __ store_klass(rax, rcx);  // klass
D
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3297 3298 3299 3300 3301 3302 3303 3304 3305 3306 3307 3308 3309 3310 3311

    {
      SkipIfEqual skip_if(_masm, &DTraceAllocProbes, 0);
      // Trigger dtrace event for fastpath
      __ push(atos);
      __ call_VM_leaf(
           CAST_FROM_FN_PTR(address, SharedRuntime::dtrace_object_alloc), rax);
      __ pop(atos);
    }

    __ jmp(done);
  }

  // slow case
  __ bind(slow_case);
3312
  __ pop(rcx);   // restore stack pointer to what it was when we came in.
3313
  __ bind(slow_case_no_pop);
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  __ get_constant_pool(rax);
  __ get_unsigned_2_byte_index_at_bcp(rdx, 1);
  call_VM(rax, CAST_FROM_FN_PTR(address, InterpreterRuntime::_new), rax, rdx);

  // continue
  __ bind(done);
}


void TemplateTable::newarray() {
  transition(itos, atos);
  __ push_i(rax);                                 // make sure everything is on the stack
  __ load_unsigned_byte(rdx, at_bcp(1));
  call_VM(rax, CAST_FROM_FN_PTR(address, InterpreterRuntime::newarray), rdx, rax);
  __ pop_i(rdx);                                  // discard size
}


void TemplateTable::anewarray() {
  transition(itos, atos);
  __ get_unsigned_2_byte_index_at_bcp(rdx, 1);
  __ get_constant_pool(rcx);
  call_VM(rax, CAST_FROM_FN_PTR(address, InterpreterRuntime::anewarray), rcx, rdx, rax);
}


void TemplateTable::arraylength() {
  transition(atos, itos);
  __ null_check(rax, arrayOopDesc::length_offset_in_bytes());
  __ movl(rax, Address(rax, arrayOopDesc::length_offset_in_bytes()));
}


void TemplateTable::checkcast() {
  transition(atos, atos);
  Label done, is_null, ok_is_subtype, quicked, resolved;
3350
  __ testptr(rax, rax);   // Object is in EAX
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  __ jcc(Assembler::zero, is_null);

  // Get cpool & tags index
  __ get_cpool_and_tags(rcx, rdx); // ECX=cpool, EDX=tags array
  __ get_unsigned_2_byte_index_at_bcp(rbx, 1); // EBX=index
  // See if bytecode has already been quicked
  __ cmpb(Address(rdx, rbx, Address::times_1, typeArrayOopDesc::header_size(T_BYTE) * wordSize), JVM_CONSTANT_Class);
  __ jcc(Assembler::equal, quicked);

  __ push(atos);
  call_VM(rax, CAST_FROM_FN_PTR(address, InterpreterRuntime::quicken_io_cc) );
  __ pop_ptr(rdx);
  __ jmpb(resolved);

  // Get superklass in EAX and subklass in EBX
  __ bind(quicked);
3367 3368
  __ mov(rdx, rax);          // Save object in EDX; EAX needed for subtype check
  __ movptr(rax, Address(rcx, rbx, Address::times_ptr, sizeof(constantPoolOopDesc)));
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  __ bind(resolved);
3371
  __ load_klass(rbx, rdx);
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  // Generate subtype check.  Blows ECX.  Resets EDI.  Object in EDX.
  // Superklass in EAX.  Subklass in EBX.
  __ gen_subtype_check( rbx, ok_is_subtype );

  // Come here on failure
3378
  __ push(rdx);
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  // object is at TOS
  __ jump(ExternalAddress(Interpreter::_throw_ClassCastException_entry));

  // Come here on success
  __ bind(ok_is_subtype);
3384
  __ mov(rax,rdx);           // Restore object in EDX
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  // Collect counts on whether this check-cast sees NULLs a lot or not.
  if (ProfileInterpreter) {
    __ jmp(done);
    __ bind(is_null);
    __ profile_null_seen(rcx);
  } else {
    __ bind(is_null);   // same as 'done'
  }
  __ bind(done);
}


void TemplateTable::instanceof() {
  transition(atos, itos);
  Label done, is_null, ok_is_subtype, quicked, resolved;
3401
  __ testptr(rax, rax);
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  __ jcc(Assembler::zero, is_null);

  // Get cpool & tags index
  __ get_cpool_and_tags(rcx, rdx); // ECX=cpool, EDX=tags array
  __ get_unsigned_2_byte_index_at_bcp(rbx, 1); // EBX=index
  // See if bytecode has already been quicked
  __ cmpb(Address(rdx, rbx, Address::times_1, typeArrayOopDesc::header_size(T_BYTE) * wordSize), JVM_CONSTANT_Class);
  __ jcc(Assembler::equal, quicked);

  __ push(atos);
  call_VM(rax, CAST_FROM_FN_PTR(address, InterpreterRuntime::quicken_io_cc) );
  __ pop_ptr(rdx);
3414
  __ load_klass(rdx, rdx);
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  __ jmp(resolved);

  // Get superklass in EAX and subklass in EDX
  __ bind(quicked);
3419
  __ load_klass(rdx, rax);
3420
  __ movptr(rax, Address(rcx, rbx, Address::times_ptr, sizeof(constantPoolOopDesc)));
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  __ bind(resolved);

  // Generate subtype check.  Blows ECX.  Resets EDI.
  // Superklass in EAX.  Subklass in EDX.
  __ gen_subtype_check( rdx, ok_is_subtype );

  // Come here on failure
  __ xorl(rax,rax);
  __ jmpb(done);
  // Come here on success
  __ bind(ok_is_subtype);
  __ movl(rax, 1);

  // Collect counts on whether this test sees NULLs a lot or not.
  if (ProfileInterpreter) {
    __ jmp(done);
    __ bind(is_null);
    __ profile_null_seen(rcx);
  } else {
    __ bind(is_null);   // same as 'done'
  }
  __ bind(done);
  // rax, = 0: obj == NULL or  obj is not an instanceof the specified klass
  // rax, = 1: obj != NULL and obj is     an instanceof the specified klass
}


//----------------------------------------------------------------------------------------------------
// Breakpoints
void TemplateTable::_breakpoint() {

  // Note: We get here even if we are single stepping..
  // jbug inists on setting breakpoints at every bytecode
  // even if we are in single step mode.

  transition(vtos, vtos);

  // get the unpatched byte code
  __ get_method(rcx);
  __ call_VM(noreg, CAST_FROM_FN_PTR(address, InterpreterRuntime::get_original_bytecode_at), rcx, rsi);
3462
  __ mov(rbx, rax);
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  // post the breakpoint event
  __ get_method(rcx);
  __ call_VM(noreg, CAST_FROM_FN_PTR(address, InterpreterRuntime::_breakpoint), rcx, rsi);

  // complete the execution of original bytecode
  __ dispatch_only_normal(vtos);
}


//----------------------------------------------------------------------------------------------------
// Exceptions

void TemplateTable::athrow() {
  transition(atos, vtos);
  __ null_check(rax);
  __ jump(ExternalAddress(Interpreter::throw_exception_entry()));
}


//----------------------------------------------------------------------------------------------------
// Synchronization
//
// Note: monitorenter & exit are symmetric routines; which is reflected
//       in the assembly code structure as well
//
// Stack layout:
//
// [expressions  ] <--- rsp               = expression stack top
// ..
// [expressions  ]
// [monitor entry] <--- monitor block top = expression stack bot
// ..
// [monitor entry]
// [frame data   ] <--- monitor block bot
// ...
// [saved rbp,    ] <--- rbp,


void TemplateTable::monitorenter() {
  transition(atos, vtos);

  // check for NULL object
  __ null_check(rax);

  const Address monitor_block_top(rbp, frame::interpreter_frame_monitor_block_top_offset * wordSize);
  const Address monitor_block_bot(rbp, frame::interpreter_frame_initial_sp_offset        * wordSize);
  const int entry_size =         (     frame::interpreter_frame_monitor_size()           * wordSize);
  Label allocated;

  // initialize entry pointer
  __ xorl(rdx, rdx);                             // points to free slot or NULL

  // find a free slot in the monitor block (result in rdx)
  { Label entry, loop, exit;
3518 3519 3520
    __ movptr(rcx, monitor_block_top);           // points to current entry, starting with top-most entry

    __ lea(rbx, monitor_block_bot);              // points to word before bottom of monitor block
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    __ jmpb(entry);

    __ bind(loop);
3524
    __ cmpptr(Address(rcx, BasicObjectLock::obj_offset_in_bytes()), (int32_t)NULL_WORD);  // check if current entry is used
3525
    __ cmovptr(Assembler::equal, rdx, rcx);      // if not used then remember entry in rdx
3526 3527 3528
    __ cmpptr(rax, Address(rcx, BasicObjectLock::obj_offset_in_bytes()));   // check if current entry is for same object
    __ jccb(Assembler::equal, exit);             // if same object then stop searching
    __ addptr(rcx, entry_size);                  // otherwise advance to next entry
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    __ bind(entry);
3530
    __ cmpptr(rcx, rbx);                         // check if bottom reached
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    __ jcc(Assembler::notEqual, loop);           // if not at bottom then check this entry
    __ bind(exit);
  }

3535 3536
  __ testptr(rdx, rdx);                          // check if a slot has been found
  __ jccb(Assembler::notZero, allocated);        // if found, continue with that one
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  // allocate one if there's no free slot
  { Label entry, loop;
    // 1. compute new pointers                   // rsp: old expression stack top
3541 3542 3543 3544 3545
    __ movptr(rdx, monitor_block_bot);           // rdx: old expression stack bottom
    __ subptr(rsp, entry_size);                  // move expression stack top
    __ subptr(rdx, entry_size);                  // move expression stack bottom
    __ mov(rcx, rsp);                            // set start value for copy loop
    __ movptr(monitor_block_bot, rdx);           // set new monitor block top
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    __ jmp(entry);
    // 2. move expression stack contents
    __ bind(loop);
3549 3550 3551
    __ movptr(rbx, Address(rcx, entry_size));    // load expression stack word from old location
    __ movptr(Address(rcx, 0), rbx);             // and store it at new location
    __ addptr(rcx, wordSize);                    // advance to next word
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    __ bind(entry);
3553
    __ cmpptr(rcx, rdx);                         // check if bottom reached
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    __ jcc(Assembler::notEqual, loop);           // if not at bottom then copy next word
  }

  // call run-time routine
  // rdx: points to monitor entry
  __ bind(allocated);

  // Increment bcp to point to the next bytecode, so exception handling for async. exceptions work correctly.
  // The object has already been poped from the stack, so the expression stack looks correct.
  __ increment(rsi);

3565
  __ movptr(Address(rdx, BasicObjectLock::obj_offset_in_bytes()), rax);     // store object
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  __ lock_object(rdx);

  // check to make sure this monitor doesn't cause stack overflow after locking
  __ save_bcp();  // in case of exception
  __ generate_stack_overflow_check(0);

  // The bcp has already been incremented. Just need to dispatch to next instruction.
  __ dispatch_next(vtos);
}


void TemplateTable::monitorexit() {
  transition(atos, vtos);

  // check for NULL object
  __ null_check(rax);

  const Address monitor_block_top(rbp, frame::interpreter_frame_monitor_block_top_offset * wordSize);
  const Address monitor_block_bot(rbp, frame::interpreter_frame_initial_sp_offset        * wordSize);
  const int entry_size =         (     frame::interpreter_frame_monitor_size()           * wordSize);
  Label found;

  // find matching slot
  { Label entry, loop;
3590 3591
    __ movptr(rdx, monitor_block_top);           // points to current entry, starting with top-most entry
    __ lea(rbx, monitor_block_bot);             // points to word before bottom of monitor block
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    __ jmpb(entry);

    __ bind(loop);
3595
    __ cmpptr(rax, Address(rdx, BasicObjectLock::obj_offset_in_bytes()));   // check if current entry is for same object
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    __ jcc(Assembler::equal, found);             // if same object then stop searching
3597
    __ addptr(rdx, entry_size);                  // otherwise advance to next entry
D
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    __ bind(entry);
3599
    __ cmpptr(rdx, rbx);                         // check if bottom reached
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    __ jcc(Assembler::notEqual, loop);           // if not at bottom then check this entry
  }

  // error handling. Unlocking was not block-structured
  Label end;
  __ call_VM(noreg, CAST_FROM_FN_PTR(address, InterpreterRuntime::throw_illegal_monitor_state_exception));
  __ should_not_reach_here();

  // call run-time routine
  // rcx: points to monitor entry
  __ bind(found);
  __ push_ptr(rax);                                 // make sure object is on stack (contract with oopMaps)
  __ unlock_object(rdx);
  __ pop_ptr(rax);                                  // discard object
  __ bind(end);
}


//----------------------------------------------------------------------------------------------------
// Wide instructions

void TemplateTable::wide() {
  transition(vtos, vtos);
  __ load_unsigned_byte(rbx, at_bcp(1));
3624 3625
  ExternalAddress wtable((address)Interpreter::_wentry_point);
  __ jump(ArrayAddress(wtable, Address(noreg, rbx, Address::times_ptr)));
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  // Note: the rsi increment step is part of the individual wide bytecode implementations
}


//----------------------------------------------------------------------------------------------------
// Multi arrays

void TemplateTable::multianewarray() {
  transition(vtos, atos);
  __ load_unsigned_byte(rax, at_bcp(3)); // get number of dimensions
  // last dim is on top of stack; we want address of first one:
  // first_addr = last_addr + (ndims - 1) * stackElementSize - 1*wordsize
  // the latter wordSize to point to the beginning of the array.
3639
  __ lea(  rax, Address(rsp, rax, Interpreter::stackElementScale(), -wordSize));
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  call_VM(rax, CAST_FROM_FN_PTR(address, InterpreterRuntime::multianewarray), rax);     // pass in rax,
  __ load_unsigned_byte(rbx, at_bcp(3));
3642
  __ lea(rsp, Address(rsp, rbx, Interpreter::stackElementScale()));  // get rid of counts
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}

#endif /* !CC_INTERP */