c1_LIRGenerator.cpp 109.9 KB
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/*
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 * Copyright (c) 2005, 2013, 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"
#include "c1/c1_Compilation.hpp"
#include "c1/c1_FrameMap.hpp"
#include "c1/c1_Instruction.hpp"
#include "c1/c1_LIRAssembler.hpp"
#include "c1/c1_LIRGenerator.hpp"
#include "c1/c1_ValueStack.hpp"
#include "ci/ciArrayKlass.hpp"
#include "ci/ciInstance.hpp"
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#include "ci/ciObjArray.hpp"
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#include "runtime/sharedRuntime.hpp"
#include "runtime/stubRoutines.hpp"
#include "utilities/bitMap.inline.hpp"
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#include "utilities/macros.hpp"
#if INCLUDE_ALL_GCS
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#include "gc_implementation/g1/heapRegion.hpp"
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#endif // INCLUDE_ALL_GCS
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#ifdef ASSERT
#define __ gen()->lir(__FILE__, __LINE__)->
#else
#define __ gen()->lir()->
#endif

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// TODO: ARM - Use some recognizable constant which still fits architectural constraints
#ifdef ARM
#define PATCHED_ADDR  (204)
#else
#define PATCHED_ADDR  (max_jint)
#endif
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void PhiResolverState::reset(int max_vregs) {
  // Initialize array sizes
  _virtual_operands.at_put_grow(max_vregs - 1, NULL, NULL);
  _virtual_operands.trunc_to(0);
  _other_operands.at_put_grow(max_vregs - 1, NULL, NULL);
  _other_operands.trunc_to(0);
  _vreg_table.at_put_grow(max_vregs - 1, NULL, NULL);
  _vreg_table.trunc_to(0);
}



//--------------------------------------------------------------
// PhiResolver

// Resolves cycles:
//
//  r1 := r2  becomes  temp := r1
//  r2 := r1           r1 := r2
//                     r2 := temp
// and orders moves:
//
//  r2 := r3  becomes  r1 := r2
//  r1 := r2           r2 := r3

PhiResolver::PhiResolver(LIRGenerator* gen, int max_vregs)
 : _gen(gen)
 , _state(gen->resolver_state())
 , _temp(LIR_OprFact::illegalOpr)
{
  // reinitialize the shared state arrays
  _state.reset(max_vregs);
}


void PhiResolver::emit_move(LIR_Opr src, LIR_Opr dest) {
  assert(src->is_valid(), "");
  assert(dest->is_valid(), "");
  __ move(src, dest);
}


void PhiResolver::move_temp_to(LIR_Opr dest) {
  assert(_temp->is_valid(), "");
  emit_move(_temp, dest);
  NOT_PRODUCT(_temp = LIR_OprFact::illegalOpr);
}


void PhiResolver::move_to_temp(LIR_Opr src) {
  assert(_temp->is_illegal(), "");
  _temp = _gen->new_register(src->type());
  emit_move(src, _temp);
}


// Traverse assignment graph in depth first order and generate moves in post order
// ie. two assignments: b := c, a := b start with node c:
// Call graph: move(NULL, c) -> move(c, b) -> move(b, a)
// Generates moves in this order: move b to a and move c to b
// ie. cycle a := b, b := a start with node a
// Call graph: move(NULL, a) -> move(a, b) -> move(b, a)
// Generates moves in this order: move b to temp, move a to b, move temp to a
void PhiResolver::move(ResolveNode* src, ResolveNode* dest) {
  if (!dest->visited()) {
    dest->set_visited();
    for (int i = dest->no_of_destinations()-1; i >= 0; i --) {
      move(dest, dest->destination_at(i));
    }
  } else if (!dest->start_node()) {
    // cylce in graph detected
    assert(_loop == NULL, "only one loop valid!");
    _loop = dest;
    move_to_temp(src->operand());
    return;
  } // else dest is a start node

  if (!dest->assigned()) {
    if (_loop == dest) {
      move_temp_to(dest->operand());
      dest->set_assigned();
    } else if (src != NULL) {
      emit_move(src->operand(), dest->operand());
      dest->set_assigned();
    }
  }
}


PhiResolver::~PhiResolver() {
  int i;
  // resolve any cycles in moves from and to virtual registers
  for (i = virtual_operands().length() - 1; i >= 0; i --) {
    ResolveNode* node = virtual_operands()[i];
    if (!node->visited()) {
      _loop = NULL;
      move(NULL, node);
      node->set_start_node();
      assert(_temp->is_illegal(), "move_temp_to() call missing");
    }
  }

  // generate move for move from non virtual register to abitrary destination
  for (i = other_operands().length() - 1; i >= 0; i --) {
    ResolveNode* node = other_operands()[i];
    for (int j = node->no_of_destinations() - 1; j >= 0; j --) {
      emit_move(node->operand(), node->destination_at(j)->operand());
    }
  }
}


ResolveNode* PhiResolver::create_node(LIR_Opr opr, bool source) {
  ResolveNode* node;
  if (opr->is_virtual()) {
    int vreg_num = opr->vreg_number();
    node = vreg_table().at_grow(vreg_num, NULL);
    assert(node == NULL || node->operand() == opr, "");
    if (node == NULL) {
      node = new ResolveNode(opr);
      vreg_table()[vreg_num] = node;
    }
    // Make sure that all virtual operands show up in the list when
    // they are used as the source of a move.
    if (source && !virtual_operands().contains(node)) {
      virtual_operands().append(node);
    }
  } else {
    assert(source, "");
    node = new ResolveNode(opr);
    other_operands().append(node);
  }
  return node;
}


void PhiResolver::move(LIR_Opr src, LIR_Opr dest) {
  assert(dest->is_virtual(), "");
  // tty->print("move "); src->print(); tty->print(" to "); dest->print(); tty->cr();
  assert(src->is_valid(), "");
  assert(dest->is_valid(), "");
  ResolveNode* source = source_node(src);
  source->append(destination_node(dest));
}


//--------------------------------------------------------------
// LIRItem

void LIRItem::set_result(LIR_Opr opr) {
  assert(value()->operand()->is_illegal() || value()->operand()->is_constant(), "operand should never change");
  value()->set_operand(opr);

  if (opr->is_virtual()) {
    _gen->_instruction_for_operand.at_put_grow(opr->vreg_number(), value(), NULL);
  }

  _result = opr;
}

void LIRItem::load_item() {
  if (result()->is_illegal()) {
    // update the items result
    _result = value()->operand();
  }
  if (!result()->is_register()) {
    LIR_Opr reg = _gen->new_register(value()->type());
    __ move(result(), reg);
    if (result()->is_constant()) {
      _result = reg;
    } else {
      set_result(reg);
    }
  }
}


void LIRItem::load_for_store(BasicType type) {
  if (_gen->can_store_as_constant(value(), type)) {
    _result = value()->operand();
    if (!_result->is_constant()) {
      _result = LIR_OprFact::value_type(value()->type());
    }
  } else if (type == T_BYTE || type == T_BOOLEAN) {
    load_byte_item();
  } else {
    load_item();
  }
}

void LIRItem::load_item_force(LIR_Opr reg) {
  LIR_Opr r = result();
  if (r != reg) {
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#if !defined(ARM) && !defined(E500V2)
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    if (r->type() != reg->type()) {
      // moves between different types need an intervening spill slot
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      r = _gen->force_to_spill(r, reg->type());
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    }
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#endif
    __ move(r, reg);
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    _result = reg;
  }
}

ciObject* LIRItem::get_jobject_constant() const {
  ObjectType* oc = type()->as_ObjectType();
  if (oc) {
    return oc->constant_value();
  }
  return NULL;
}


jint LIRItem::get_jint_constant() const {
  assert(is_constant() && value() != NULL, "");
  assert(type()->as_IntConstant() != NULL, "type check");
  return type()->as_IntConstant()->value();
}


jint LIRItem::get_address_constant() const {
  assert(is_constant() && value() != NULL, "");
  assert(type()->as_AddressConstant() != NULL, "type check");
  return type()->as_AddressConstant()->value();
}


jfloat LIRItem::get_jfloat_constant() const {
  assert(is_constant() && value() != NULL, "");
  assert(type()->as_FloatConstant() != NULL, "type check");
  return type()->as_FloatConstant()->value();
}


jdouble LIRItem::get_jdouble_constant() const {
  assert(is_constant() && value() != NULL, "");
  assert(type()->as_DoubleConstant() != NULL, "type check");
  return type()->as_DoubleConstant()->value();
}


jlong LIRItem::get_jlong_constant() const {
  assert(is_constant() && value() != NULL, "");
  assert(type()->as_LongConstant() != NULL, "type check");
  return type()->as_LongConstant()->value();
}



//--------------------------------------------------------------


void LIRGenerator::init() {
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  _bs = Universe::heap()->barrier_set();
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}


void LIRGenerator::block_do_prolog(BlockBegin* block) {
#ifndef PRODUCT
  if (PrintIRWithLIR) {
    block->print();
  }
#endif

  // set up the list of LIR instructions
  assert(block->lir() == NULL, "LIR list already computed for this block");
  _lir = new LIR_List(compilation(), block);
  block->set_lir(_lir);

  __ branch_destination(block->label());

  if (LIRTraceExecution &&
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      Compilation::current()->hir()->start()->block_id() != block->block_id() &&
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      !block->is_set(BlockBegin::exception_entry_flag)) {
    assert(block->lir()->instructions_list()->length() == 1, "should come right after br_dst");
    trace_block_entry(block);
  }
}


void LIRGenerator::block_do_epilog(BlockBegin* block) {
#ifndef PRODUCT
  if (PrintIRWithLIR) {
    tty->cr();
  }
#endif

  // LIR_Opr for unpinned constants shouldn't be referenced by other
  // blocks so clear them out after processing the block.
  for (int i = 0; i < _unpinned_constants.length(); i++) {
    _unpinned_constants.at(i)->clear_operand();
  }
  _unpinned_constants.trunc_to(0);

  // clear our any registers for other local constants
  _constants.trunc_to(0);
  _reg_for_constants.trunc_to(0);
}


void LIRGenerator::block_do(BlockBegin* block) {
  CHECK_BAILOUT();

  block_do_prolog(block);
  set_block(block);

  for (Instruction* instr = block; instr != NULL; instr = instr->next()) {
    if (instr->is_pinned()) do_root(instr);
  }

  set_block(NULL);
  block_do_epilog(block);
}


//-------------------------LIRGenerator-----------------------------

// This is where the tree-walk starts; instr must be root;
void LIRGenerator::do_root(Value instr) {
  CHECK_BAILOUT();

  InstructionMark im(compilation(), instr);

  assert(instr->is_pinned(), "use only with roots");
  assert(instr->subst() == instr, "shouldn't have missed substitution");

  instr->visit(this);

  assert(!instr->has_uses() || instr->operand()->is_valid() ||
         instr->as_Constant() != NULL || bailed_out(), "invalid item set");
}


// This is called for each node in tree; the walk stops if a root is reached
void LIRGenerator::walk(Value instr) {
  InstructionMark im(compilation(), instr);
  //stop walk when encounter a root
  if (instr->is_pinned() && instr->as_Phi() == NULL || instr->operand()->is_valid()) {
    assert(instr->operand() != LIR_OprFact::illegalOpr || instr->as_Constant() != NULL, "this root has not yet been visited");
  } else {
    assert(instr->subst() == instr, "shouldn't have missed substitution");
    instr->visit(this);
    // assert(instr->use_count() > 0 || instr->as_Phi() != NULL, "leaf instruction must have a use");
  }
}


CodeEmitInfo* LIRGenerator::state_for(Instruction* x, ValueStack* state, bool ignore_xhandler) {
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  assert(state != NULL, "state must be defined");

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#ifndef PRODUCT
  state->verify();
#endif

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  ValueStack* s = state;
  for_each_state(s) {
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    if (s->kind() == ValueStack::EmptyExceptionState) {
      assert(s->stack_size() == 0 && s->locals_size() == 0 && (s->locks_size() == 0 || s->locks_size() == 1), "state must be empty");
      continue;
    }

    int index;
    Value value;
    for_each_stack_value(s, index, value) {
      assert(value->subst() == value, "missed substitution");
      if (!value->is_pinned() && value->as_Constant() == NULL && value->as_Local() == NULL) {
        walk(value);
        assert(value->operand()->is_valid(), "must be evaluated now");
      }
    }

    int bci = s->bci();
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    IRScope* scope = s->scope();
    ciMethod* method = scope->method();

    MethodLivenessResult liveness = method->liveness_at_bci(bci);
    if (bci == SynchronizationEntryBCI) {
      if (x->as_ExceptionObject() || x->as_Throw()) {
        // all locals are dead on exit from the synthetic unlocker
        liveness.clear();
      } else {
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        assert(x->as_MonitorEnter() || x->as_ProfileInvoke(), "only other cases are MonitorEnter and ProfileInvoke");
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      }
    }
    if (!liveness.is_valid()) {
      // Degenerate or breakpointed method.
      bailout("Degenerate or breakpointed method");
    } else {
      assert((int)liveness.size() == s->locals_size(), "error in use of liveness");
      for_each_local_value(s, index, value) {
        assert(value->subst() == value, "missed substition");
        if (liveness.at(index) && !value->type()->is_illegal()) {
          if (!value->is_pinned() && value->as_Constant() == NULL && value->as_Local() == NULL) {
            walk(value);
            assert(value->operand()->is_valid(), "must be evaluated now");
          }
        } else {
          // NULL out this local so that linear scan can assume that all non-NULL values are live.
          s->invalidate_local(index);
        }
      }
    }
  }

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  return new CodeEmitInfo(state, ignore_xhandler ? NULL : x->exception_handlers(), x->check_flag(Instruction::DeoptimizeOnException));
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}


CodeEmitInfo* LIRGenerator::state_for(Instruction* x) {
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  return state_for(x, x->exception_state());
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}


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void LIRGenerator::klass2reg_with_patching(LIR_Opr r, ciMetadata* obj, CodeEmitInfo* info) {
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  if (!obj->is_loaded() || PatchALot) {
    assert(info != NULL, "info must be set if class is not loaded");
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    __ klass2reg_patch(NULL, r, info);
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  } else {
    // no patching needed
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    __ metadata2reg(obj->constant_encoding(), r);
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  }
}


void LIRGenerator::array_range_check(LIR_Opr array, LIR_Opr index,
                                    CodeEmitInfo* null_check_info, CodeEmitInfo* range_check_info) {
  CodeStub* stub = new RangeCheckStub(range_check_info, index);
  if (index->is_constant()) {
    cmp_mem_int(lir_cond_belowEqual, array, arrayOopDesc::length_offset_in_bytes(),
                index->as_jint(), null_check_info);
    __ branch(lir_cond_belowEqual, T_INT, stub); // forward branch
  } else {
    cmp_reg_mem(lir_cond_aboveEqual, index, array,
                arrayOopDesc::length_offset_in_bytes(), T_INT, null_check_info);
    __ branch(lir_cond_aboveEqual, T_INT, stub); // forward branch
  }
}


void LIRGenerator::nio_range_check(LIR_Opr buffer, LIR_Opr index, LIR_Opr result, CodeEmitInfo* info) {
  CodeStub* stub = new RangeCheckStub(info, index, true);
  if (index->is_constant()) {
    cmp_mem_int(lir_cond_belowEqual, buffer, java_nio_Buffer::limit_offset(), index->as_jint(), info);
    __ branch(lir_cond_belowEqual, T_INT, stub); // forward branch
  } else {
    cmp_reg_mem(lir_cond_aboveEqual, index, buffer,
                java_nio_Buffer::limit_offset(), T_INT, info);
    __ branch(lir_cond_aboveEqual, T_INT, stub); // forward branch
  }
  __ move(index, result);
}



void LIRGenerator::arithmetic_op(Bytecodes::Code code, LIR_Opr result, LIR_Opr left, LIR_Opr right, bool is_strictfp, LIR_Opr tmp_op, CodeEmitInfo* info) {
  LIR_Opr result_op = result;
  LIR_Opr left_op   = left;
  LIR_Opr right_op  = right;

  if (TwoOperandLIRForm && left_op != result_op) {
    assert(right_op != result_op, "malformed");
    __ move(left_op, result_op);
    left_op = result_op;
  }

  switch(code) {
    case Bytecodes::_dadd:
    case Bytecodes::_fadd:
    case Bytecodes::_ladd:
    case Bytecodes::_iadd:  __ add(left_op, right_op, result_op); break;
    case Bytecodes::_fmul:
    case Bytecodes::_lmul:  __ mul(left_op, right_op, result_op); break;

    case Bytecodes::_dmul:
      {
        if (is_strictfp) {
          __ mul_strictfp(left_op, right_op, result_op, tmp_op); break;
        } else {
          __ mul(left_op, right_op, result_op); break;
        }
      }
      break;

    case Bytecodes::_imul:
      {
        bool    did_strength_reduce = false;

        if (right->is_constant()) {
          int c = right->as_jint();
          if (is_power_of_2(c)) {
            // do not need tmp here
            __ shift_left(left_op, exact_log2(c), result_op);
            did_strength_reduce = true;
          } else {
            did_strength_reduce = strength_reduce_multiply(left_op, c, result_op, tmp_op);
          }
        }
        // we couldn't strength reduce so just emit the multiply
        if (!did_strength_reduce) {
          __ mul(left_op, right_op, result_op);
        }
      }
      break;

    case Bytecodes::_dsub:
    case Bytecodes::_fsub:
    case Bytecodes::_lsub:
    case Bytecodes::_isub: __ sub(left_op, right_op, result_op); break;

    case Bytecodes::_fdiv: __ div (left_op, right_op, result_op); break;
    // ldiv and lrem are implemented with a direct runtime call

    case Bytecodes::_ddiv:
      {
        if (is_strictfp) {
          __ div_strictfp (left_op, right_op, result_op, tmp_op); break;
        } else {
          __ div (left_op, right_op, result_op); break;
        }
      }
      break;

    case Bytecodes::_drem:
    case Bytecodes::_frem: __ rem (left_op, right_op, result_op); break;

    default: ShouldNotReachHere();
  }
}


void LIRGenerator::arithmetic_op_int(Bytecodes::Code code, LIR_Opr result, LIR_Opr left, LIR_Opr right, LIR_Opr tmp) {
  arithmetic_op(code, result, left, right, false, tmp);
}


void LIRGenerator::arithmetic_op_long(Bytecodes::Code code, LIR_Opr result, LIR_Opr left, LIR_Opr right, CodeEmitInfo* info) {
  arithmetic_op(code, result, left, right, false, LIR_OprFact::illegalOpr, info);
}


void LIRGenerator::arithmetic_op_fpu(Bytecodes::Code code, LIR_Opr result, LIR_Opr left, LIR_Opr right, bool is_strictfp, LIR_Opr tmp) {
  arithmetic_op(code, result, left, right, is_strictfp, tmp);
}


void LIRGenerator::shift_op(Bytecodes::Code code, LIR_Opr result_op, LIR_Opr value, LIR_Opr count, LIR_Opr tmp) {
  if (TwoOperandLIRForm && value != result_op) {
    assert(count != result_op, "malformed");
    __ move(value, result_op);
    value = result_op;
  }

  assert(count->is_constant() || count->is_register(), "must be");
  switch(code) {
  case Bytecodes::_ishl:
  case Bytecodes::_lshl: __ shift_left(value, count, result_op, tmp); break;
  case Bytecodes::_ishr:
  case Bytecodes::_lshr: __ shift_right(value, count, result_op, tmp); break;
  case Bytecodes::_iushr:
  case Bytecodes::_lushr: __ unsigned_shift_right(value, count, result_op, tmp); break;
  default: ShouldNotReachHere();
  }
}


void LIRGenerator::logic_op (Bytecodes::Code code, LIR_Opr result_op, LIR_Opr left_op, LIR_Opr right_op) {
  if (TwoOperandLIRForm && left_op != result_op) {
    assert(right_op != result_op, "malformed");
    __ move(left_op, result_op);
    left_op = result_op;
  }

  switch(code) {
    case Bytecodes::_iand:
    case Bytecodes::_land:  __ logical_and(left_op, right_op, result_op); break;

    case Bytecodes::_ior:
    case Bytecodes::_lor:   __ logical_or(left_op, right_op, result_op);  break;

    case Bytecodes::_ixor:
    case Bytecodes::_lxor:  __ logical_xor(left_op, right_op, result_op); break;

    default: ShouldNotReachHere();
  }
}


void LIRGenerator::monitor_enter(LIR_Opr object, LIR_Opr lock, LIR_Opr hdr, LIR_Opr scratch, int monitor_no, CodeEmitInfo* info_for_exception, CodeEmitInfo* info) {
  if (!GenerateSynchronizationCode) return;
  // for slow path, use debug info for state after successful locking
  CodeStub* slow_path = new MonitorEnterStub(object, lock, info);
  __ load_stack_address_monitor(monitor_no, lock);
  // for handling NullPointerException, use debug info representing just the lock stack before this monitorenter
  __ lock_object(hdr, object, lock, scratch, slow_path, info_for_exception);
}


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void LIRGenerator::monitor_exit(LIR_Opr object, LIR_Opr lock, LIR_Opr new_hdr, LIR_Opr scratch, int monitor_no) {
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  if (!GenerateSynchronizationCode) return;
  // setup registers
  LIR_Opr hdr = lock;
  lock = new_hdr;
  CodeStub* slow_path = new MonitorExitStub(lock, UseFastLocking, monitor_no);
  __ load_stack_address_monitor(monitor_no, lock);
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  __ unlock_object(hdr, object, lock, scratch, slow_path);
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}


void LIRGenerator::new_instance(LIR_Opr dst, ciInstanceKlass* klass, LIR_Opr scratch1, LIR_Opr scratch2, LIR_Opr scratch3, LIR_Opr scratch4, LIR_Opr klass_reg, CodeEmitInfo* info) {
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  klass2reg_with_patching(klass_reg, klass, info);
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  // If klass is not loaded we do not know if the klass has finalizers:
  if (UseFastNewInstance && klass->is_loaded()
      && !Klass::layout_helper_needs_slow_path(klass->layout_helper())) {

    Runtime1::StubID stub_id = klass->is_initialized() ? Runtime1::fast_new_instance_id : Runtime1::fast_new_instance_init_check_id;

    CodeStub* slow_path = new NewInstanceStub(klass_reg, dst, klass, info, stub_id);

    assert(klass->is_loaded(), "must be loaded");
    // allocate space for instance
    assert(klass->size_helper() >= 0, "illegal instance size");
    const int instance_size = align_object_size(klass->size_helper());
    __ allocate_object(dst, scratch1, scratch2, scratch3, scratch4,
                       oopDesc::header_size(), instance_size, klass_reg, !klass->is_initialized(), slow_path);
  } else {
    CodeStub* slow_path = new NewInstanceStub(klass_reg, dst, klass, info, Runtime1::new_instance_id);
    __ branch(lir_cond_always, T_ILLEGAL, slow_path);
    __ branch_destination(slow_path->continuation());
  }
}


static bool is_constant_zero(Instruction* inst) {
  IntConstant* c = inst->type()->as_IntConstant();
  if (c) {
    return (c->value() == 0);
  }
  return false;
}


static bool positive_constant(Instruction* inst) {
  IntConstant* c = inst->type()->as_IntConstant();
  if (c) {
    return (c->value() >= 0);
  }
  return false;
}


static ciArrayKlass* as_array_klass(ciType* type) {
  if (type != NULL && type->is_array_klass() && type->is_loaded()) {
    return (ciArrayKlass*)type;
  } else {
    return NULL;
  }
}

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static ciType* phi_declared_type(Phi* phi) {
  ciType* t = phi->operand_at(0)->declared_type();
  if (t == NULL) {
    return NULL;
  }
  for(int i = 1; i < phi->operand_count(); i++) {
    if (t != phi->operand_at(i)->declared_type()) {
      return NULL;
    }
  }
  return t;
}

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void LIRGenerator::arraycopy_helper(Intrinsic* x, int* flagsp, ciArrayKlass** expected_typep) {
  Instruction* src     = x->argument_at(0);
  Instruction* src_pos = x->argument_at(1);
  Instruction* dst     = x->argument_at(2);
  Instruction* dst_pos = x->argument_at(3);
  Instruction* length  = x->argument_at(4);

  // first try to identify the likely type of the arrays involved
  ciArrayKlass* expected_type = NULL;
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  bool is_exact = false, src_objarray = false, dst_objarray = false;
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  {
    ciArrayKlass* src_exact_type    = as_array_klass(src->exact_type());
    ciArrayKlass* src_declared_type = as_array_klass(src->declared_type());
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    Phi* phi;
    if (src_declared_type == NULL && (phi = src->as_Phi()) != NULL) {
      src_declared_type = as_array_klass(phi_declared_type(phi));
    }
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    ciArrayKlass* dst_exact_type    = as_array_klass(dst->exact_type());
    ciArrayKlass* dst_declared_type = as_array_klass(dst->declared_type());
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    if (dst_declared_type == NULL && (phi = dst->as_Phi()) != NULL) {
      dst_declared_type = as_array_klass(phi_declared_type(phi));
    }

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    if (src_exact_type != NULL && src_exact_type == dst_exact_type) {
      // the types exactly match so the type is fully known
      is_exact = true;
      expected_type = src_exact_type;
    } else if (dst_exact_type != NULL && dst_exact_type->is_obj_array_klass()) {
      ciArrayKlass* dst_type = (ciArrayKlass*) dst_exact_type;
      ciArrayKlass* src_type = NULL;
      if (src_exact_type != NULL && src_exact_type->is_obj_array_klass()) {
        src_type = (ciArrayKlass*) src_exact_type;
      } else if (src_declared_type != NULL && src_declared_type->is_obj_array_klass()) {
        src_type = (ciArrayKlass*) src_declared_type;
      }
      if (src_type != NULL) {
        if (src_type->element_type()->is_subtype_of(dst_type->element_type())) {
          is_exact = true;
          expected_type = dst_type;
        }
      }
    }
    // at least pass along a good guess
    if (expected_type == NULL) expected_type = dst_exact_type;
    if (expected_type == NULL) expected_type = src_declared_type;
    if (expected_type == NULL) expected_type = dst_declared_type;
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    src_objarray = (src_exact_type && src_exact_type->is_obj_array_klass()) || (src_declared_type && src_declared_type->is_obj_array_klass());
    dst_objarray = (dst_exact_type && dst_exact_type->is_obj_array_klass()) || (dst_declared_type && dst_declared_type->is_obj_array_klass());
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  }

  // if a probable array type has been identified, figure out if any
  // of the required checks for a fast case can be elided.
  int flags = LIR_OpArrayCopy::all_flags;
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  if (!src_objarray)
    flags &= ~LIR_OpArrayCopy::src_objarray;
  if (!dst_objarray)
    flags &= ~LIR_OpArrayCopy::dst_objarray;

  if (!x->arg_needs_null_check(0))
    flags &= ~LIR_OpArrayCopy::src_null_check;
  if (!x->arg_needs_null_check(2))
    flags &= ~LIR_OpArrayCopy::dst_null_check;


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  if (expected_type != NULL) {
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    Value length_limit = NULL;

    IfOp* ifop = length->as_IfOp();
    if (ifop != NULL) {
      // look for expressions like min(v, a.length) which ends up as
      //   x > y ? y : x  or  x >= y ? y : x
      if ((ifop->cond() == If::gtr || ifop->cond() == If::geq) &&
          ifop->x() == ifop->fval() &&
          ifop->y() == ifop->tval()) {
        length_limit = ifop->y();
      }
    }

    // try to skip null checks and range checks
    NewArray* src_array = src->as_NewArray();
    if (src_array != NULL) {
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      flags &= ~LIR_OpArrayCopy::src_null_check;
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      if (length_limit != NULL &&
          src_array->length() == length_limit &&
          is_constant_zero(src_pos)) {
        flags &= ~LIR_OpArrayCopy::src_range_check;
      }
    }

    NewArray* dst_array = dst->as_NewArray();
    if (dst_array != NULL) {
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      flags &= ~LIR_OpArrayCopy::dst_null_check;
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      if (length_limit != NULL &&
          dst_array->length() == length_limit &&
          is_constant_zero(dst_pos)) {
        flags &= ~LIR_OpArrayCopy::dst_range_check;
      }
    }
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    // check from incoming constant values
    if (positive_constant(src_pos))
      flags &= ~LIR_OpArrayCopy::src_pos_positive_check;
    if (positive_constant(dst_pos))
      flags &= ~LIR_OpArrayCopy::dst_pos_positive_check;
    if (positive_constant(length))
      flags &= ~LIR_OpArrayCopy::length_positive_check;

    // see if the range check can be elided, which might also imply
    // that src or dst is non-null.
    ArrayLength* al = length->as_ArrayLength();
    if (al != NULL) {
      if (al->array() == src) {
        // it's the length of the source array
        flags &= ~LIR_OpArrayCopy::length_positive_check;
        flags &= ~LIR_OpArrayCopy::src_null_check;
        if (is_constant_zero(src_pos))
          flags &= ~LIR_OpArrayCopy::src_range_check;
      }
      if (al->array() == dst) {
        // it's the length of the destination array
        flags &= ~LIR_OpArrayCopy::length_positive_check;
        flags &= ~LIR_OpArrayCopy::dst_null_check;
        if (is_constant_zero(dst_pos))
          flags &= ~LIR_OpArrayCopy::dst_range_check;
      }
    }
    if (is_exact) {
      flags &= ~LIR_OpArrayCopy::type_check;
    }
  }

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  IntConstant* src_int = src_pos->type()->as_IntConstant();
  IntConstant* dst_int = dst_pos->type()->as_IntConstant();
  if (src_int && dst_int) {
    int s_offs = src_int->value();
    int d_offs = dst_int->value();
    if (src_int->value() >= dst_int->value()) {
      flags &= ~LIR_OpArrayCopy::overlapping;
    }
    if (expected_type != NULL) {
      BasicType t = expected_type->element_type()->basic_type();
      int element_size = type2aelembytes(t);
      if (((arrayOopDesc::base_offset_in_bytes(t) + s_offs * element_size) % HeapWordSize == 0) &&
          ((arrayOopDesc::base_offset_in_bytes(t) + d_offs * element_size) % HeapWordSize == 0)) {
        flags &= ~LIR_OpArrayCopy::unaligned;
      }
    }
  } else if (src_pos == dst_pos || is_constant_zero(dst_pos)) {
    // src and dest positions are the same, or dst is zero so assume
    // nonoverlapping copy.
    flags &= ~LIR_OpArrayCopy::overlapping;
  }

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  if (src == dst) {
    // moving within a single array so no type checks are needed
    if (flags & LIR_OpArrayCopy::type_check) {
      flags &= ~LIR_OpArrayCopy::type_check;
    }
  }
  *flagsp = flags;
  *expected_typep = (ciArrayKlass*)expected_type;
}


LIR_Opr LIRGenerator::round_item(LIR_Opr opr) {
  assert(opr->is_register(), "why spill if item is not register?");

  if (RoundFPResults && UseSSE < 1 && opr->is_single_fpu()) {
    LIR_Opr result = new_register(T_FLOAT);
    set_vreg_flag(result, must_start_in_memory);
    assert(opr->is_register(), "only a register can be spilled");
    assert(opr->value_type()->is_float(), "rounding only for floats available");
    __ roundfp(opr, LIR_OprFact::illegalOpr, result);
    return result;
  }
  return opr;
}


LIR_Opr LIRGenerator::force_to_spill(LIR_Opr value, BasicType t) {
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  assert(type2size[t] == type2size[value->type()],
         err_msg_res("size mismatch: t=%s, value->type()=%s", type2name(t), type2name(value->type())));
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  if (!value->is_register()) {
    // force into a register
    LIR_Opr r = new_register(value->type());
    __ move(value, r);
    value = r;
  }

  // create a spill location
  LIR_Opr tmp = new_register(t);
  set_vreg_flag(tmp, LIRGenerator::must_start_in_memory);

  // move from register to spill
  __ move(value, tmp);
  return tmp;
}

void LIRGenerator::profile_branch(If* if_instr, If::Condition cond) {
  if (if_instr->should_profile()) {
    ciMethod* method = if_instr->profiled_method();
    assert(method != NULL, "method should be set if branch is profiled");
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    ciMethodData* md = method->method_data_or_null();
    assert(md != NULL, "Sanity");
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    ciProfileData* data = md->bci_to_data(if_instr->profiled_bci());
    assert(data != NULL, "must have profiling data");
    assert(data->is_BranchData(), "need BranchData for two-way branches");
    int taken_count_offset     = md->byte_offset_of_slot(data, BranchData::taken_offset());
    int not_taken_count_offset = md->byte_offset_of_slot(data, BranchData::not_taken_offset());
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    if (if_instr->is_swapped()) {
      int t = taken_count_offset;
      taken_count_offset = not_taken_count_offset;
      not_taken_count_offset = t;
    }

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    LIR_Opr md_reg = new_register(T_METADATA);
    __ metadata2reg(md->constant_encoding(), md_reg);
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    LIR_Opr data_offset_reg = new_pointer_register();
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    __ cmove(lir_cond(cond),
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             LIR_OprFact::intptrConst(taken_count_offset),
             LIR_OprFact::intptrConst(not_taken_count_offset),
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             data_offset_reg, as_BasicType(if_instr->x()->type()));
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    // MDO cells are intptr_t, so the data_reg width is arch-dependent.
    LIR_Opr data_reg = new_pointer_register();
    LIR_Address* data_addr = new LIR_Address(md_reg, data_offset_reg, data_reg->type());
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    __ move(data_addr, data_reg);
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    // Use leal instead of add to avoid destroying condition codes on x86
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    LIR_Address* fake_incr_value = new LIR_Address(data_reg, DataLayout::counter_increment, T_INT);
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    __ leal(LIR_OprFact::address(fake_incr_value), data_reg);
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    __ move(data_reg, data_addr);
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  }
}

// Phi technique:
// This is about passing live values from one basic block to the other.
// In code generated with Java it is rather rare that more than one
// value is on the stack from one basic block to the other.
// We optimize our technique for efficient passing of one value
// (of type long, int, double..) but it can be extended.
// When entering or leaving a basic block, all registers and all spill
// slots are release and empty. We use the released registers
// and spill slots to pass the live values from one block
// to the other. The topmost value, i.e., the value on TOS of expression
// stack is passed in registers. All other values are stored in spilling
// area. Every Phi has an index which designates its spill slot
// At exit of a basic block, we fill the register(s) and spill slots.
// At entry of a basic block, the block_prolog sets up the content of phi nodes
// and locks necessary registers and spilling slots.


// move current value to referenced phi function
void LIRGenerator::move_to_phi(PhiResolver* resolver, Value cur_val, Value sux_val) {
  Phi* phi = sux_val->as_Phi();
  // cur_val can be null without phi being null in conjunction with inlining
  if (phi != NULL && cur_val != NULL && cur_val != phi && !phi->is_illegal()) {
    LIR_Opr operand = cur_val->operand();
    if (cur_val->operand()->is_illegal()) {
      assert(cur_val->as_Constant() != NULL || cur_val->as_Local() != NULL,
             "these can be produced lazily");
      operand = operand_for_instruction(cur_val);
    }
    resolver->move(operand, operand_for_instruction(phi));
  }
}


// Moves all stack values into their PHI position
void LIRGenerator::move_to_phi(ValueStack* cur_state) {
  BlockBegin* bb = block();
  if (bb->number_of_sux() == 1) {
    BlockBegin* sux = bb->sux_at(0);
    assert(sux->number_of_preds() > 0, "invalid CFG");

    // a block with only one predecessor never has phi functions
    if (sux->number_of_preds() > 1) {
      int max_phis = cur_state->stack_size() + cur_state->locals_size();
      PhiResolver resolver(this, _virtual_register_number + max_phis * 2);

      ValueStack* sux_state = sux->state();
      Value sux_value;
      int index;

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      assert(cur_state->scope() == sux_state->scope(), "not matching");
      assert(cur_state->locals_size() == sux_state->locals_size(), "not matching");
      assert(cur_state->stack_size() == sux_state->stack_size(), "not matching");

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      for_each_stack_value(sux_state, index, sux_value) {
        move_to_phi(&resolver, cur_state->stack_at(index), sux_value);
      }

      for_each_local_value(sux_state, index, sux_value) {
        move_to_phi(&resolver, cur_state->local_at(index), sux_value);
      }

      assert(cur_state->caller_state() == sux_state->caller_state(), "caller states must be equal");
    }
  }
}


LIR_Opr LIRGenerator::new_register(BasicType type) {
  int vreg = _virtual_register_number;
  // add a little fudge factor for the bailout, since the bailout is
  // only checked periodically.  This gives a few extra registers to
  // hand out before we really run out, which helps us keep from
  // tripping over assertions.
  if (vreg + 20 >= LIR_OprDesc::vreg_max) {
    bailout("out of virtual registers");
    if (vreg + 2 >= LIR_OprDesc::vreg_max) {
      // wrap it around
      _virtual_register_number = LIR_OprDesc::vreg_base;
    }
  }
  _virtual_register_number += 1;
  return LIR_OprFact::virtual_register(vreg, type);
}


// Try to lock using register in hint
LIR_Opr LIRGenerator::rlock(Value instr) {
  return new_register(instr->type());
}


// does an rlock and sets result
LIR_Opr LIRGenerator::rlock_result(Value x) {
  LIR_Opr reg = rlock(x);
  set_result(x, reg);
  return reg;
}


// does an rlock and sets result
LIR_Opr LIRGenerator::rlock_result(Value x, BasicType type) {
  LIR_Opr reg;
  switch (type) {
  case T_BYTE:
  case T_BOOLEAN:
    reg = rlock_byte(type);
    break;
  default:
    reg = rlock(x);
    break;
  }

  set_result(x, reg);
  return reg;
}


//---------------------------------------------------------------------
ciObject* LIRGenerator::get_jobject_constant(Value value) {
  ObjectType* oc = value->type()->as_ObjectType();
  if (oc) {
    return oc->constant_value();
  }
  return NULL;
}


void LIRGenerator::do_ExceptionObject(ExceptionObject* x) {
  assert(block()->is_set(BlockBegin::exception_entry_flag), "ExceptionObject only allowed in exception handler block");
  assert(block()->next() == x, "ExceptionObject must be first instruction of block");

  // no moves are created for phi functions at the begin of exception
  // handlers, so assign operands manually here
  for_each_phi_fun(block(), phi,
                   operand_for_instruction(phi));

  LIR_Opr thread_reg = getThreadPointer();
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  __ move_wide(new LIR_Address(thread_reg, in_bytes(JavaThread::exception_oop_offset()), T_OBJECT),
               exceptionOopOpr());
  __ move_wide(LIR_OprFact::oopConst(NULL),
               new LIR_Address(thread_reg, in_bytes(JavaThread::exception_oop_offset()), T_OBJECT));
  __ move_wide(LIR_OprFact::oopConst(NULL),
               new LIR_Address(thread_reg, in_bytes(JavaThread::exception_pc_offset()), T_OBJECT));
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  LIR_Opr result = new_register(T_OBJECT);
  __ move(exceptionOopOpr(), result);
  set_result(x, result);
}


//----------------------------------------------------------------------
//----------------------------------------------------------------------
//----------------------------------------------------------------------
//----------------------------------------------------------------------
//                        visitor functions
//----------------------------------------------------------------------
//----------------------------------------------------------------------
//----------------------------------------------------------------------
//----------------------------------------------------------------------

void LIRGenerator::do_Phi(Phi* x) {
  // phi functions are never visited directly
  ShouldNotReachHere();
}


// Code for a constant is generated lazily unless the constant is frequently used and can't be inlined.
void LIRGenerator::do_Constant(Constant* x) {
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  if (x->state_before() != NULL) {
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    // Any constant with a ValueStack requires patching so emit the patch here
    LIR_Opr reg = rlock_result(x);
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    CodeEmitInfo* info = state_for(x, x->state_before());
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    __ oop2reg_patch(NULL, reg, info);
  } else if (x->use_count() > 1 && !can_inline_as_constant(x)) {
    if (!x->is_pinned()) {
      // unpinned constants are handled specially so that they can be
      // put into registers when they are used multiple times within a
      // block.  After the block completes their operand will be
      // cleared so that other blocks can't refer to that register.
      set_result(x, load_constant(x));
    } else {
      LIR_Opr res = x->operand();
      if (!res->is_valid()) {
        res = LIR_OprFact::value_type(x->type());
      }
      if (res->is_constant()) {
        LIR_Opr reg = rlock_result(x);
        __ move(res, reg);
      } else {
        set_result(x, res);
      }
    }
  } else {
    set_result(x, LIR_OprFact::value_type(x->type()));
  }
}


void LIRGenerator::do_Local(Local* x) {
  // operand_for_instruction has the side effect of setting the result
  // so there's no need to do it here.
  operand_for_instruction(x);
}


void LIRGenerator::do_IfInstanceOf(IfInstanceOf* x) {
  Unimplemented();
}


void LIRGenerator::do_Return(Return* x) {
1175
  if (compilation()->env()->dtrace_method_probes()) {
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    BasicTypeList signature;
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    signature.append(LP64_ONLY(T_LONG) NOT_LP64(T_INT));    // thread
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    signature.append(T_OBJECT); // Method*
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    LIR_OprList* args = new LIR_OprList();
    args->append(getThreadPointer());
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    LIR_Opr meth = new_register(T_METADATA);
    __ metadata2reg(method()->constant_encoding(), meth);
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    args->append(meth);
    call_runtime(&signature, args, CAST_FROM_FN_PTR(address, SharedRuntime::dtrace_method_exit), voidType, NULL);
  }

  if (x->type()->is_void()) {
    __ return_op(LIR_OprFact::illegalOpr);
  } else {
    LIR_Opr reg = result_register_for(x->type(), /*callee=*/true);
    LIRItem result(x->result(), this);

    result.load_item_force(reg);
    __ return_op(result.result());
  }
  set_no_result(x);
}

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// Examble: ref.get()
// Combination of LoadField and g1 pre-write barrier
void LIRGenerator::do_Reference_get(Intrinsic* x) {

  const int referent_offset = java_lang_ref_Reference::referent_offset;
  guarantee(referent_offset > 0, "referent offset not initialized");

  assert(x->number_of_arguments() == 1, "wrong type");

  LIRItem reference(x->argument_at(0), this);
  reference.load_item();

  // need to perform the null check on the reference objecy
  CodeEmitInfo* info = NULL;
  if (x->needs_null_check()) {
    info = state_for(x);
  }

  LIR_Address* referent_field_adr =
    new LIR_Address(reference.result(), referent_offset, T_OBJECT);

  LIR_Opr result = rlock_result(x);

  __ load(referent_field_adr, result, info);

  // Register the value in the referent field with the pre-barrier
  pre_barrier(LIR_OprFact::illegalOpr /* addr_opr */,
              result /* pre_val */,
              false  /* do_load */,
              false  /* patch */,
              NULL   /* info */);
}
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// Example: clazz.isInstance(object)
void LIRGenerator::do_isInstance(Intrinsic* x) {
  assert(x->number_of_arguments() == 2, "wrong type");

  // TODO could try to substitute this node with an equivalent InstanceOf
  // if clazz is known to be a constant Class. This will pick up newly found
  // constants after HIR construction. I'll leave this to a future change.

  // as a first cut, make a simple leaf call to runtime to stay platform independent.
  // could follow the aastore example in a future change.

  LIRItem clazz(x->argument_at(0), this);
  LIRItem object(x->argument_at(1), this);
  clazz.load_item();
  object.load_item();
  LIR_Opr result = rlock_result(x);

  // need to perform null check on clazz
  if (x->needs_null_check()) {
    CodeEmitInfo* info = state_for(x);
    __ null_check(clazz.result(), info);
  }

  LIR_Opr call_result = call_runtime(clazz.value(), object.value(),
                                     CAST_FROM_FN_PTR(address, Runtime1::is_instance_of),
                                     x->type(),
                                     NULL); // NULL CodeEmitInfo results in a leaf call
  __ move(call_result, result);
}

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// Example: object.getClass ()
void LIRGenerator::do_getClass(Intrinsic* x) {
  assert(x->number_of_arguments() == 1, "wrong type");

  LIRItem rcvr(x->argument_at(0), this);
  rcvr.load_item();
  LIR_Opr result = rlock_result(x);

  // need to perform the null check on the rcvr
  CodeEmitInfo* info = NULL;
  if (x->needs_null_check()) {
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    info = state_for(x);
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  }
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  __ move(new LIR_Address(rcvr.result(), oopDesc::klass_offset_in_bytes(), T_ADDRESS), result, info);
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  __ move_wide(new LIR_Address(result, in_bytes(Klass::java_mirror_offset()), T_OBJECT), result);
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}


// Example: Thread.currentThread()
void LIRGenerator::do_currentThread(Intrinsic* x) {
  assert(x->number_of_arguments() == 0, "wrong type");
  LIR_Opr reg = rlock_result(x);
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  __ move_wide(new LIR_Address(getThreadPointer(), in_bytes(JavaThread::threadObj_offset()), T_OBJECT), reg);
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}


void LIRGenerator::do_RegisterFinalizer(Intrinsic* x) {
  assert(x->number_of_arguments() == 1, "wrong type");
  LIRItem receiver(x->argument_at(0), this);

  receiver.load_item();
  BasicTypeList signature;
  signature.append(T_OBJECT); // receiver
  LIR_OprList* args = new LIR_OprList();
  args->append(receiver.result());
  CodeEmitInfo* info = state_for(x, x->state());
  call_runtime(&signature, args,
               CAST_FROM_FN_PTR(address, Runtime1::entry_for(Runtime1::register_finalizer_id)),
               voidType, info);

  set_no_result(x);
}


//------------------------local access--------------------------------------

LIR_Opr LIRGenerator::operand_for_instruction(Instruction* x) {
  if (x->operand()->is_illegal()) {
    Constant* c = x->as_Constant();
    if (c != NULL) {
      x->set_operand(LIR_OprFact::value_type(c->type()));
    } else {
      assert(x->as_Phi() || x->as_Local() != NULL, "only for Phi and Local");
      // allocate a virtual register for this local or phi
      x->set_operand(rlock(x));
      _instruction_for_operand.at_put_grow(x->operand()->vreg_number(), x, NULL);
    }
  }
  return x->operand();
}


Instruction* LIRGenerator::instruction_for_opr(LIR_Opr opr) {
  if (opr->is_virtual()) {
    return instruction_for_vreg(opr->vreg_number());
  }
  return NULL;
}


Instruction* LIRGenerator::instruction_for_vreg(int reg_num) {
  if (reg_num < _instruction_for_operand.length()) {
    return _instruction_for_operand.at(reg_num);
  }
  return NULL;
}


void LIRGenerator::set_vreg_flag(int vreg_num, VregFlag f) {
  if (_vreg_flags.size_in_bits() == 0) {
    BitMap2D temp(100, num_vreg_flags);
    temp.clear();
    _vreg_flags = temp;
  }
  _vreg_flags.at_put_grow(vreg_num, f, true);
}

bool LIRGenerator::is_vreg_flag_set(int vreg_num, VregFlag f) {
  if (!_vreg_flags.is_valid_index(vreg_num, f)) {
    return false;
  }
  return _vreg_flags.at(vreg_num, f);
}


// Block local constant handling.  This code is useful for keeping
// unpinned constants and constants which aren't exposed in the IR in
// registers.  Unpinned Constant instructions have their operands
// cleared when the block is finished so that other blocks can't end
// up referring to their registers.

LIR_Opr LIRGenerator::load_constant(Constant* x) {
  assert(!x->is_pinned(), "only for unpinned constants");
  _unpinned_constants.append(x);
  return load_constant(LIR_OprFact::value_type(x->type())->as_constant_ptr());
}


LIR_Opr LIRGenerator::load_constant(LIR_Const* c) {
  BasicType t = c->type();
  for (int i = 0; i < _constants.length(); i++) {
    LIR_Const* other = _constants.at(i);
    if (t == other->type()) {
      switch (t) {
      case T_INT:
      case T_FLOAT:
        if (c->as_jint_bits() != other->as_jint_bits()) continue;
        break;
      case T_LONG:
      case T_DOUBLE:
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        if (c->as_jint_hi_bits() != other->as_jint_hi_bits()) continue;
        if (c->as_jint_lo_bits() != other->as_jint_lo_bits()) continue;
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        break;
      case T_OBJECT:
        if (c->as_jobject() != other->as_jobject()) continue;
        break;
      }
      return _reg_for_constants.at(i);
    }
  }

  LIR_Opr result = new_register(t);
  __ move((LIR_Opr)c, result);
  _constants.append(c);
  _reg_for_constants.append(result);
  return result;
}

// Various barriers

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void LIRGenerator::pre_barrier(LIR_Opr addr_opr, LIR_Opr pre_val,
                               bool do_load, bool patch, CodeEmitInfo* info) {
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  // Do the pre-write barrier, if any.
  switch (_bs->kind()) {
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#if INCLUDE_ALL_GCS
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    case BarrierSet::G1SATBCT:
    case BarrierSet::G1SATBCTLogging:
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      G1SATBCardTableModRef_pre_barrier(addr_opr, pre_val, do_load, patch, info);
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      break;
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#endif // INCLUDE_ALL_GCS
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    case BarrierSet::CardTableModRef:
    case BarrierSet::CardTableExtension:
      // No pre barriers
      break;
    case BarrierSet::ModRef:
    case BarrierSet::Other:
      // No pre barriers
      break;
    default      :
      ShouldNotReachHere();

  }
}

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void LIRGenerator::post_barrier(LIR_OprDesc* addr, LIR_OprDesc* new_val) {
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  switch (_bs->kind()) {
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#if INCLUDE_ALL_GCS
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    case BarrierSet::G1SATBCT:
    case BarrierSet::G1SATBCTLogging:
      G1SATBCardTableModRef_post_barrier(addr,  new_val);
      break;
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#endif // INCLUDE_ALL_GCS
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    case BarrierSet::CardTableModRef:
    case BarrierSet::CardTableExtension:
      CardTableModRef_post_barrier(addr,  new_val);
      break;
    case BarrierSet::ModRef:
    case BarrierSet::Other:
      // No post barriers
      break;
    default      :
      ShouldNotReachHere();
    }
}

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////////////////////////////////////////////////////////////////////////
1448
#if INCLUDE_ALL_GCS
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void LIRGenerator::G1SATBCardTableModRef_pre_barrier(LIR_Opr addr_opr, LIR_Opr pre_val,
                                                     bool do_load, bool patch, CodeEmitInfo* info) {
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  // First we test whether marking is in progress.
  BasicType flag_type;
  if (in_bytes(PtrQueue::byte_width_of_active()) == 4) {
    flag_type = T_INT;
  } else {
    guarantee(in_bytes(PtrQueue::byte_width_of_active()) == 1,
              "Assumption");
    flag_type = T_BYTE;
  }
  LIR_Opr thrd = getThreadPointer();
  LIR_Address* mark_active_flag_addr =
    new LIR_Address(thrd,
                    in_bytes(JavaThread::satb_mark_queue_offset() +
                             PtrQueue::byte_offset_of_active()),
                    flag_type);
  // Read the marking-in-progress flag.
  LIR_Opr flag_val = new_register(T_INT);
  __ load(mark_active_flag_addr, flag_val);
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  __ cmp(lir_cond_notEqual, flag_val, LIR_OprFact::intConst(0));
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  LIR_PatchCode pre_val_patch_code = lir_patch_none;
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  CodeStub* slow;
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  if (do_load) {
    assert(pre_val == LIR_OprFact::illegalOpr, "sanity");
    assert(addr_opr != LIR_OprFact::illegalOpr, "sanity");

    if (patch)
      pre_val_patch_code = lir_patch_normal;

    pre_val = new_register(T_OBJECT);

    if (!addr_opr->is_address()) {
      assert(addr_opr->is_register(), "must be");
      addr_opr = LIR_OprFact::address(new LIR_Address(addr_opr, T_OBJECT));
    }
    slow = new G1PreBarrierStub(addr_opr, pre_val, pre_val_patch_code, info);
  } else {
    assert(addr_opr == LIR_OprFact::illegalOpr, "sanity");
    assert(pre_val->is_register(), "must be");
    assert(pre_val->type() == T_OBJECT, "must be an object");
    assert(info == NULL, "sanity");

    slow = new G1PreBarrierStub(pre_val);
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  }
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  __ branch(lir_cond_notEqual, T_INT, slow);
  __ branch_destination(slow->continuation());
}

void LIRGenerator::G1SATBCardTableModRef_post_barrier(LIR_OprDesc* addr, LIR_OprDesc* new_val) {
  // If the "new_val" is a constant NULL, no barrier is necessary.
  if (new_val->is_constant() &&
      new_val->as_constant_ptr()->as_jobject() == NULL) return;

  if (!new_val->is_register()) {
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    LIR_Opr new_val_reg = new_register(T_OBJECT);
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    if (new_val->is_constant()) {
      __ move(new_val, new_val_reg);
    } else {
      __ leal(new_val, new_val_reg);
    }
    new_val = new_val_reg;
  }
  assert(new_val->is_register(), "must be a register at this point");

  if (addr->is_address()) {
    LIR_Address* address = addr->as_address_ptr();
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    LIR_Opr ptr = new_pointer_register();
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    if (!address->index()->is_valid() && address->disp() == 0) {
      __ move(address->base(), ptr);
    } else {
      assert(address->disp() != max_jint, "lea doesn't support patched addresses!");
      __ leal(addr, ptr);
    }
    addr = ptr;
  }
  assert(addr->is_register(), "must be a register at this point");

  LIR_Opr xor_res = new_pointer_register();
  LIR_Opr xor_shift_res = new_pointer_register();
  if (TwoOperandLIRForm ) {
    __ move(addr, xor_res);
    __ logical_xor(xor_res, new_val, xor_res);
    __ move(xor_res, xor_shift_res);
    __ unsigned_shift_right(xor_shift_res,
                            LIR_OprFact::intConst(HeapRegion::LogOfHRGrainBytes),
                            xor_shift_res,
                            LIR_OprDesc::illegalOpr());
  } else {
    __ logical_xor(addr, new_val, xor_res);
    __ unsigned_shift_right(xor_res,
                            LIR_OprFact::intConst(HeapRegion::LogOfHRGrainBytes),
                            xor_shift_res,
                            LIR_OprDesc::illegalOpr());
  }

  if (!new_val->is_register()) {
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    LIR_Opr new_val_reg = new_register(T_OBJECT);
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    __ leal(new_val, new_val_reg);
    new_val = new_val_reg;
  }
  assert(new_val->is_register(), "must be a register at this point");

  __ cmp(lir_cond_notEqual, xor_shift_res, LIR_OprFact::intptrConst(NULL_WORD));

  CodeStub* slow = new G1PostBarrierStub(addr, new_val);
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  __ branch(lir_cond_notEqual, LP64_ONLY(T_LONG) NOT_LP64(T_INT), slow);
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  __ branch_destination(slow->continuation());
}

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#endif // INCLUDE_ALL_GCS
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////////////////////////////////////////////////////////////////////////

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void LIRGenerator::CardTableModRef_post_barrier(LIR_OprDesc* addr, LIR_OprDesc* new_val) {

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  assert(sizeof(*((CardTableModRefBS*)_bs)->byte_map_base) == sizeof(jbyte), "adjust this code");
  LIR_Const* card_table_base = new LIR_Const(((CardTableModRefBS*)_bs)->byte_map_base);
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  if (addr->is_address()) {
    LIR_Address* address = addr->as_address_ptr();
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    // ptr cannot be an object because we use this barrier for array card marks
    // and addr can point in the middle of an array.
    LIR_Opr ptr = new_pointer_register();
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    if (!address->index()->is_valid() && address->disp() == 0) {
      __ move(address->base(), ptr);
    } else {
      assert(address->disp() != max_jint, "lea doesn't support patched addresses!");
      __ leal(addr, ptr);
    }
    addr = ptr;
  }
  assert(addr->is_register(), "must be a register at this point");

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#ifdef ARM
  // TODO: ARM - move to platform-dependent code
  LIR_Opr tmp = FrameMap::R14_opr;
  if (VM_Version::supports_movw()) {
    __ move((LIR_Opr)card_table_base, tmp);
  } else {
    __ move(new LIR_Address(FrameMap::Rthread_opr, in_bytes(JavaThread::card_table_base_offset()), T_ADDRESS), tmp);
  }

  CardTableModRefBS* ct = (CardTableModRefBS*)_bs;
  LIR_Address *card_addr = new LIR_Address(tmp, addr, (LIR_Address::Scale) -CardTableModRefBS::card_shift, 0, T_BYTE);
  if(((int)ct->byte_map_base & 0xff) == 0) {
    __ move(tmp, card_addr);
  } else {
    LIR_Opr tmp_zero = new_register(T_INT);
    __ move(LIR_OprFact::intConst(0), tmp_zero);
    __ move(tmp_zero, card_addr);
  }
#else // ARM
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  LIR_Opr tmp = new_pointer_register();
  if (TwoOperandLIRForm) {
    __ move(addr, tmp);
    __ unsigned_shift_right(tmp, CardTableModRefBS::card_shift, tmp);
  } else {
    __ unsigned_shift_right(addr, CardTableModRefBS::card_shift, tmp);
  }
  if (can_inline_as_constant(card_table_base)) {
    __ move(LIR_OprFact::intConst(0),
              new LIR_Address(tmp, card_table_base->as_jint(), T_BYTE));
  } else {
    __ move(LIR_OprFact::intConst(0),
              new LIR_Address(tmp, load_constant(card_table_base),
                              T_BYTE));
  }
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#endif // ARM
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}


//------------------------field access--------------------------------------

// Comment copied form templateTable_i486.cpp
// ----------------------------------------------------------------------------
// 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.


void LIRGenerator::do_StoreField(StoreField* x) {
  bool needs_patching = x->needs_patching();
  bool is_volatile = x->field()->is_volatile();
  BasicType field_type = x->field_type();
  bool is_oop = (field_type == T_ARRAY || field_type == T_OBJECT);

  CodeEmitInfo* info = NULL;
  if (needs_patching) {
    assert(x->explicit_null_check() == NULL, "can't fold null check into patching field access");
    info = state_for(x, x->state_before());
  } else if (x->needs_null_check()) {
    NullCheck* nc = x->explicit_null_check();
    if (nc == NULL) {
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      info = state_for(x);
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    } else {
      info = state_for(nc);
    }
  }


  LIRItem object(x->obj(), this);
  LIRItem value(x->value(),  this);

  object.load_item();

  if (is_volatile || needs_patching) {
    // load item if field is volatile (fewer special cases for volatiles)
    // load item if field not initialized
    // load item if field not constant
    // because of code patching we cannot inline constants
    if (field_type == T_BYTE || field_type == T_BOOLEAN) {
      value.load_byte_item();
    } else  {
      value.load_item();
    }
  } else {
    value.load_for_store(field_type);
  }

  set_no_result(x);

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#ifndef PRODUCT
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  if (PrintNotLoaded && needs_patching) {
    tty->print_cr("   ###class not loaded at store_%s bci %d",
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                  x->is_static() ?  "static" : "field", x->printable_bci());
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  }
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#endif
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  if (x->needs_null_check() &&
      (needs_patching ||
       MacroAssembler::needs_explicit_null_check(x->offset()))) {
    // emit an explicit null check because the offset is too large
    __ null_check(object.result(), new CodeEmitInfo(info));
  }

  LIR_Address* address;
  if (needs_patching) {
    // we need to patch the offset in the instruction so don't allow
    // generate_address to try to be smart about emitting the -1.
    // Otherwise the patching code won't know how to find the
    // instruction to patch.
1715
    address = new LIR_Address(object.result(), PATCHED_ADDR, field_type);
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  } else {
    address = generate_address(object.result(), x->offset(), field_type);
  }

  if (is_volatile && os::is_MP()) {
    __ membar_release();
  }

1724 1725 1726
  if (is_oop) {
    // Do the pre-write barrier, if any.
    pre_barrier(LIR_OprFact::address(address),
1727 1728
                LIR_OprFact::illegalOpr /* pre_val */,
                true /* do_load*/,
1729 1730 1731 1732
                needs_patching,
                (info ? new CodeEmitInfo(info) : NULL));
  }

1733
  if (is_volatile && !needs_patching) {
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    volatile_field_store(value.result(), address, info);
  } else {
    LIR_PatchCode patch_code = needs_patching ? lir_patch_normal : lir_patch_none;
    __ store(value.result(), address, info, patch_code);
  }

  if (is_oop) {
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    // Store to object so mark the card of the header
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    post_barrier(object.result(), value.result());
  }

  if (is_volatile && os::is_MP()) {
    __ membar();
  }
}


void LIRGenerator::do_LoadField(LoadField* x) {
  bool needs_patching = x->needs_patching();
  bool is_volatile = x->field()->is_volatile();
  BasicType field_type = x->field_type();

  CodeEmitInfo* info = NULL;
  if (needs_patching) {
    assert(x->explicit_null_check() == NULL, "can't fold null check into patching field access");
    info = state_for(x, x->state_before());
  } else if (x->needs_null_check()) {
    NullCheck* nc = x->explicit_null_check();
    if (nc == NULL) {
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      info = state_for(x);
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    } else {
      info = state_for(nc);
    }
  }

  LIRItem object(x->obj(), this);

  object.load_item();

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#ifndef PRODUCT
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  if (PrintNotLoaded && needs_patching) {
    tty->print_cr("   ###class not loaded at load_%s bci %d",
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                  x->is_static() ?  "static" : "field", x->printable_bci());
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  }
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#endif
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  bool stress_deopt = StressLoopInvariantCodeMotion && info && info->deoptimize_on_exception();
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  if (x->needs_null_check() &&
      (needs_patching ||
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       MacroAssembler::needs_explicit_null_check(x->offset()) ||
       stress_deopt)) {
    LIR_Opr obj = object.result();
    if (stress_deopt) {
      obj = new_register(T_OBJECT);
      __ move(LIR_OprFact::oopConst(NULL), obj);
    }
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    // emit an explicit null check because the offset is too large
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    __ null_check(obj, new CodeEmitInfo(info));
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  }

  LIR_Opr reg = rlock_result(x, field_type);
  LIR_Address* address;
  if (needs_patching) {
    // we need to patch the offset in the instruction so don't allow
    // generate_address to try to be smart about emitting the -1.
    // Otherwise the patching code won't know how to find the
    // instruction to patch.
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    address = new LIR_Address(object.result(), PATCHED_ADDR, field_type);
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  } else {
    address = generate_address(object.result(), x->offset(), field_type);
  }

1806
  if (is_volatile && !needs_patching) {
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    volatile_field_load(address, reg, info);
  } else {
    LIR_PatchCode patch_code = needs_patching ? lir_patch_normal : lir_patch_none;
    __ load(address, reg, info, patch_code);
  }

  if (is_volatile && os::is_MP()) {
    __ membar_acquire();
  }
}


//------------------------java.nio.Buffer.checkIndex------------------------

// int java.nio.Buffer.checkIndex(int)
void LIRGenerator::do_NIOCheckIndex(Intrinsic* x) {
  // NOTE: by the time we are in checkIndex() we are guaranteed that
  // the buffer is non-null (because checkIndex is package-private and
  // only called from within other methods in the buffer).
  assert(x->number_of_arguments() == 2, "wrong type");
  LIRItem buf  (x->argument_at(0), this);
  LIRItem index(x->argument_at(1), this);
  buf.load_item();
  index.load_item();

  LIR_Opr result = rlock_result(x);
  if (GenerateRangeChecks) {
    CodeEmitInfo* info = state_for(x);
    CodeStub* stub = new RangeCheckStub(info, index.result(), true);
    if (index.result()->is_constant()) {
      cmp_mem_int(lir_cond_belowEqual, buf.result(), java_nio_Buffer::limit_offset(), index.result()->as_jint(), info);
      __ branch(lir_cond_belowEqual, T_INT, stub);
    } else {
      cmp_reg_mem(lir_cond_aboveEqual, index.result(), buf.result(),
                  java_nio_Buffer::limit_offset(), T_INT, info);
      __ branch(lir_cond_aboveEqual, T_INT, stub);
    }
    __ move(index.result(), result);
  } else {
    // Just load the index into the result register
    __ move(index.result(), result);
  }
}


//------------------------array access--------------------------------------


void LIRGenerator::do_ArrayLength(ArrayLength* x) {
  LIRItem array(x->array(), this);
  array.load_item();
  LIR_Opr reg = rlock_result(x);

  CodeEmitInfo* info = NULL;
  if (x->needs_null_check()) {
    NullCheck* nc = x->explicit_null_check();
    if (nc == NULL) {
      info = state_for(x);
    } else {
      info = state_for(nc);
    }
1868 1869 1870 1871 1872
    if (StressLoopInvariantCodeMotion && info->deoptimize_on_exception()) {
      LIR_Opr obj = new_register(T_OBJECT);
      __ move(LIR_OprFact::oopConst(NULL), obj);
      __ null_check(obj, new CodeEmitInfo(info));
    }
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  }
  __ load(new LIR_Address(array.result(), arrayOopDesc::length_offset_in_bytes(), T_INT), reg, info, lir_patch_none);
}


void LIRGenerator::do_LoadIndexed(LoadIndexed* x) {
  bool use_length = x->length() != NULL;
  LIRItem array(x->array(), this);
  LIRItem index(x->index(), this);
  LIRItem length(this);
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  bool needs_range_check = x->compute_needs_range_check();
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1885 1886 1887
  if (use_length && needs_range_check) {
    length.set_instruction(x->length());
    length.load_item();
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  }

  array.load_item();
  if (index.is_constant() && can_inline_as_constant(x->index())) {
    // let it be a constant
    index.dont_load_item();
  } else {
    index.load_item();
  }

  CodeEmitInfo* range_check_info = state_for(x);
  CodeEmitInfo* null_check_info = NULL;
  if (x->needs_null_check()) {
    NullCheck* nc = x->explicit_null_check();
    if (nc != NULL) {
      null_check_info = state_for(nc);
    } else {
      null_check_info = range_check_info;
    }
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    if (StressLoopInvariantCodeMotion && null_check_info->deoptimize_on_exception()) {
      LIR_Opr obj = new_register(T_OBJECT);
      __ move(LIR_OprFact::oopConst(NULL), obj);
      __ null_check(obj, new CodeEmitInfo(null_check_info));
    }
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  }

  // emit array address setup early so it schedules better
  LIR_Address* array_addr = emit_array_address(array.result(), index.result(), x->elt_type(), false);

  if (GenerateRangeChecks && needs_range_check) {
1918 1919 1920
    if (StressLoopInvariantCodeMotion && range_check_info->deoptimize_on_exception()) {
      __ branch(lir_cond_always, T_ILLEGAL, new RangeCheckStub(range_check_info, index.result()));
    } else if (use_length) {
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      // TODO: use a (modified) version of array_range_check that does not require a
      //       constant length to be loaded to a register
      __ cmp(lir_cond_belowEqual, length.result(), index.result());
      __ branch(lir_cond_belowEqual, T_INT, new RangeCheckStub(range_check_info, index.result()));
    } else {
      array_range_check(array.result(), index.result(), null_check_info, range_check_info);
      // The range check performs the null check, so clear it out for the load
      null_check_info = NULL;
    }
  }

  __ move(array_addr, rlock_result(x, x->elt_type()), null_check_info);
}


void LIRGenerator::do_NullCheck(NullCheck* x) {
  if (x->can_trap()) {
    LIRItem value(x->obj(), this);
    value.load_item();
    CodeEmitInfo* info = state_for(x);
    __ null_check(value.result(), info);
  }
}


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void LIRGenerator::do_TypeCast(TypeCast* x) {
  LIRItem value(x->obj(), this);
  value.load_item();
  // the result is the same as from the node we are casting
  set_result(x, value.result());
}


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void LIRGenerator::do_Throw(Throw* x) {
  LIRItem exception(x->exception(), this);
  exception.load_item();
  set_no_result(x);
  LIR_Opr exception_opr = exception.result();
  CodeEmitInfo* info = state_for(x, x->state());

#ifndef PRODUCT
  if (PrintC1Statistics) {
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    increment_counter(Runtime1::throw_count_address(), T_INT);
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  }
#endif

  // check if the instruction has an xhandler in any of the nested scopes
  bool unwind = false;
  if (info->exception_handlers()->length() == 0) {
    // this throw is not inside an xhandler
    unwind = true;
  } else {
    // get some idea of the throw type
    bool type_is_exact = true;
    ciType* throw_type = x->exception()->exact_type();
    if (throw_type == NULL) {
      type_is_exact = false;
      throw_type = x->exception()->declared_type();
    }
    if (throw_type != NULL && throw_type->is_instance_klass()) {
      ciInstanceKlass* throw_klass = (ciInstanceKlass*)throw_type;
      unwind = !x->exception_handlers()->could_catch(throw_klass, type_is_exact);
    }
  }

  // do null check before moving exception oop into fixed register
  // to avoid a fixed interval with an oop during the null check.
  // Use a copy of the CodeEmitInfo because debug information is
  // different for null_check and throw.
  if (GenerateCompilerNullChecks &&
      (x->exception()->as_NewInstance() == NULL && x->exception()->as_ExceptionObject() == NULL)) {
    // if the exception object wasn't created using new then it might be null.
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    __ null_check(exception_opr, new CodeEmitInfo(info, x->state()->copy(ValueStack::ExceptionState, x->state()->bci())));
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  }

1996
  if (compilation()->env()->jvmti_can_post_on_exceptions()) {
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    // we need to go through the exception lookup path to get JVMTI
    // notification done
    unwind = false;
  }

  // move exception oop into fixed register
  __ move(exception_opr, exceptionOopOpr());

  if (unwind) {
2006
    __ unwind_exception(exceptionOopOpr());
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  } else {
    __ throw_exception(exceptionPcOpr(), exceptionOopOpr(), info);
  }
}


void LIRGenerator::do_RoundFP(RoundFP* x) {
  LIRItem input(x->input(), this);
  input.load_item();
  LIR_Opr input_opr = input.result();
  assert(input_opr->is_register(), "why round if value is not in a register?");
  assert(input_opr->is_single_fpu() || input_opr->is_double_fpu(), "input should be floating-point value");
  if (input_opr->is_single_fpu()) {
    set_result(x, round_item(input_opr)); // This code path not currently taken
  } else {
    LIR_Opr result = new_register(T_DOUBLE);
    set_vreg_flag(result, must_start_in_memory);
    __ roundfp(input_opr, LIR_OprFact::illegalOpr, result);
    set_result(x, result);
  }
}

void LIRGenerator::do_UnsafeGetRaw(UnsafeGetRaw* x) {
  LIRItem base(x->base(), this);
  LIRItem idx(this);

  base.load_item();
  if (x->has_index()) {
    idx.set_instruction(x->index());
    idx.load_nonconstant();
  }

  LIR_Opr reg = rlock_result(x, x->basic_type());

  int   log2_scale = 0;
  if (x->has_index()) {
    assert(x->index()->type()->tag() == intTag, "should not find non-int index");
    log2_scale = x->log2_scale();
  }

  assert(!x->has_index() || idx.value() == x->index(), "should match");

  LIR_Opr base_op = base.result();
#ifndef _LP64
  if (x->base()->type()->tag() == longTag) {
    base_op = new_register(T_INT);
    __ convert(Bytecodes::_l2i, base.result(), base_op);
  } else {
    assert(x->base()->type()->tag() == intTag, "must be");
  }
#endif

  BasicType dst_type = x->basic_type();
  LIR_Opr index_op = idx.result();

  LIR_Address* addr;
  if (index_op->is_constant()) {
    assert(log2_scale == 0, "must not have a scale");
    addr = new LIR_Address(base_op, index_op->as_jint(), dst_type);
  } else {
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#ifdef X86
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#ifdef _LP64
    if (!index_op->is_illegal() && index_op->type() == T_INT) {
      LIR_Opr tmp = new_pointer_register();
      __ convert(Bytecodes::_i2l, index_op, tmp);
      index_op = tmp;
    }
#endif
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    addr = new LIR_Address(base_op, index_op, LIR_Address::Scale(log2_scale), 0, dst_type);
2076 2077
#elif defined(ARM)
    addr = generate_address(base_op, index_op, log2_scale, 0, dst_type);
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#else
    if (index_op->is_illegal() || log2_scale == 0) {
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#ifdef _LP64
      if (!index_op->is_illegal() && index_op->type() == T_INT) {
        LIR_Opr tmp = new_pointer_register();
        __ convert(Bytecodes::_i2l, index_op, tmp);
        index_op = tmp;
      }
#endif
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      addr = new LIR_Address(base_op, index_op, dst_type);
    } else {
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      LIR_Opr tmp = new_pointer_register();
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      __ shift_left(index_op, log2_scale, tmp);
      addr = new LIR_Address(base_op, tmp, dst_type);
    }
#endif
  }

  if (x->may_be_unaligned() && (dst_type == T_LONG || dst_type == T_DOUBLE)) {
    __ unaligned_move(addr, reg);
  } else {
2099 2100 2101 2102 2103
    if (dst_type == T_OBJECT && x->is_wide()) {
      __ move_wide(addr, reg);
    } else {
      __ move(addr, reg);
    }
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  }
}


void LIRGenerator::do_UnsafePutRaw(UnsafePutRaw* x) {
  int  log2_scale = 0;
  BasicType type = x->basic_type();

  if (x->has_index()) {
    assert(x->index()->type()->tag() == intTag, "should not find non-int index");
    log2_scale = x->log2_scale();
  }

  LIRItem base(x->base(), this);
  LIRItem value(x->value(), this);
  LIRItem idx(this);

  base.load_item();
  if (x->has_index()) {
    idx.set_instruction(x->index());
    idx.load_item();
  }

  if (type == T_BYTE || type == T_BOOLEAN) {
    value.load_byte_item();
  } else {
    value.load_item();
  }

  set_no_result(x);

  LIR_Opr base_op = base.result();
#ifndef _LP64
  if (x->base()->type()->tag() == longTag) {
    base_op = new_register(T_INT);
    __ convert(Bytecodes::_l2i, base.result(), base_op);
  } else {
    assert(x->base()->type()->tag() == intTag, "must be");
  }
#endif

  LIR_Opr index_op = idx.result();
  if (log2_scale != 0) {
    // temporary fix (platform dependent code without shift on Intel would be better)
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    index_op = new_pointer_register();
#ifdef _LP64
    if(idx.result()->type() == T_INT) {
      __ convert(Bytecodes::_i2l, idx.result(), index_op);
    } else {
#endif
2154
      // TODO: ARM also allows embedded shift in the address
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      __ move(idx.result(), index_op);
#ifdef _LP64
    }
#endif
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    __ shift_left(index_op, log2_scale, index_op);
  }
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#ifdef _LP64
  else if(!index_op->is_illegal() && index_op->type() == T_INT) {
    LIR_Opr tmp = new_pointer_register();
    __ convert(Bytecodes::_i2l, index_op, tmp);
    index_op = tmp;
  }
#endif
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  LIR_Address* addr = new LIR_Address(base_op, index_op, x->basic_type());
  __ move(value.result(), addr);
}


void LIRGenerator::do_UnsafeGetObject(UnsafeGetObject* x) {
  BasicType type = x->basic_type();
  LIRItem src(x->object(), this);
  LIRItem off(x->offset(), this);

  off.load_item();
  src.load_item();

2182
  LIR_Opr value = rlock_result(x, x->basic_type());
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  get_Object_unsafe(value, src.result(), off.result(), type, x->is_volatile());
2185

2186
#if INCLUDE_ALL_GCS
2187 2188 2189 2190 2191 2192 2193 2194 2195 2196
  // We might be reading the value of the referent field of a
  // Reference object in order to attach it back to the live
  // object graph. If G1 is enabled then we need to record
  // the value that is being returned in an SATB log buffer.
  //
  // We need to generate code similar to the following...
  //
  // if (offset == java_lang_ref_Reference::referent_offset) {
  //   if (src != NULL) {
  //     if (klass(src)->reference_type() != REF_NONE) {
2197
  //       pre_barrier(..., value, ...);
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  //     }
  //   }
  // }

  if (UseG1GC && type == T_OBJECT) {
2203 2204 2205 2206
    bool gen_pre_barrier = true;     // Assume we need to generate pre_barrier.
    bool gen_offset_check = true;    // Assume we need to generate the offset guard.
    bool gen_source_check = true;    // Assume we need to check the src object for null.
    bool gen_type_check = true;      // Assume we need to check the reference_type.
2207 2208

    if (off.is_constant()) {
2209 2210 2211
      jlong off_con = (off.type()->is_int() ?
                        (jlong) off.get_jint_constant() :
                        off.get_jlong_constant());
2212

2213 2214

      if (off_con != (jlong) java_lang_ref_Reference::referent_offset) {
2215 2216 2217
        // The constant offset is something other than referent_offset.
        // We can skip generating/checking the remaining guards and
        // skip generation of the code stub.
2218
        gen_pre_barrier = false;
2219 2220 2221 2222 2223 2224 2225 2226
      } else {
        // The constant offset is the same as referent_offset -
        // we do not need to generate a runtime offset check.
        gen_offset_check = false;
      }
    }

    // We don't need to generate stub if the source object is an array
2227 2228
    if (gen_pre_barrier && src.type()->is_array()) {
      gen_pre_barrier = false;
2229 2230
    }

2231
    if (gen_pre_barrier) {
2232 2233 2234
      // We still need to continue with the checks.
      if (src.is_constant()) {
        ciObject* src_con = src.get_jobject_constant();
2235
        guarantee(src_con != NULL, "no source constant");
2236 2237 2238 2239

        if (src_con->is_null_object()) {
          // The constant src object is null - We can skip
          // generating the code stub.
2240
          gen_pre_barrier = false;
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        } else {
          // Non-null constant source object. We still have to generate
          // the slow stub - but we don't need to generate the runtime
          // null object check.
          gen_source_check = false;
        }
      }
    }
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    if (gen_pre_barrier && !PatchALot) {
      // Can the klass of object be statically determined to be
      // a sub-class of Reference?
      ciType* type = src.value()->declared_type();
      if ((type != NULL) && type->is_loaded()) {
        if (type->is_subtype_of(compilation()->env()->Reference_klass())) {
          gen_type_check = false;
        } else if (type->is_klass() &&
                   !compilation()->env()->Object_klass()->is_subtype_of(type->as_klass())) {
          // Not Reference and not Object klass.
          gen_pre_barrier = false;
        }
      }
    }
2263

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    if (gen_pre_barrier) {
      LabelObj* Lcont = new LabelObj();
2266 2267 2268 2269

      // We can have generate one runtime check here. Let's start with
      // the offset check.
      if (gen_offset_check) {
2270
        // if (offset != referent_offset) -> continue
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        // If offset is an int then we can do the comparison with the
        // referent_offset constant; otherwise we need to move
        // referent_offset into a temporary register and generate
        // a reg-reg compare.

        LIR_Opr referent_off;

        if (off.type()->is_int()) {
          referent_off = LIR_OprFact::intConst(java_lang_ref_Reference::referent_offset);
        } else {
          assert(off.type()->is_long(), "what else?");
          referent_off = new_register(T_LONG);
          __ move(LIR_OprFact::longConst(java_lang_ref_Reference::referent_offset), referent_off);
        }
2285 2286
        __ cmp(lir_cond_notEqual, off.result(), referent_off);
        __ branch(lir_cond_notEqual, as_BasicType(off.type()), Lcont->label());
2287
      }
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      if (gen_source_check) {
        // offset is a const and equals referent offset
        // if (source == null) -> continue
        __ cmp(lir_cond_equal, src.result(), LIR_OprFact::oopConst(NULL));
        __ branch(lir_cond_equal, T_OBJECT, Lcont->label());
      }
      LIR_Opr src_klass = new_register(T_OBJECT);
      if (gen_type_check) {
        // We have determined that offset == referent_offset && src != null.
        // if (src->_klass->_reference_type == REF_NONE) -> continue
2298
        __ move(new LIR_Address(src.result(), oopDesc::klass_offset_in_bytes(), UseCompressedKlassPointers ? T_OBJECT : T_ADDRESS), src_klass);
2299
        LIR_Address* reference_type_addr = new LIR_Address(src_klass, in_bytes(InstanceKlass::reference_type_offset()), T_BYTE);
2300 2301 2302 2303 2304 2305 2306 2307 2308 2309 2310 2311 2312 2313 2314
        LIR_Opr reference_type = new_register(T_INT);
        __ move(reference_type_addr, reference_type);
        __ cmp(lir_cond_equal, reference_type, LIR_OprFact::intConst(REF_NONE));
        __ branch(lir_cond_equal, T_INT, Lcont->label());
      }
      {
        // We have determined that src->_klass->_reference_type != REF_NONE
        // so register the value in the referent field with the pre-barrier.
        pre_barrier(LIR_OprFact::illegalOpr /* addr_opr */,
                    value  /* pre_val */,
                    false  /* do_load */,
                    false  /* patch */,
                    NULL   /* info */);
      }
      __ branch_destination(Lcont->label());
2315 2316
    }
  }
2317
#endif // INCLUDE_ALL_GCS
2318

2319
  if (x->is_volatile() && os::is_MP()) __ membar_acquire();
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}


void LIRGenerator::do_UnsafePutObject(UnsafePutObject* x) {
  BasicType type = x->basic_type();
  LIRItem src(x->object(), this);
  LIRItem off(x->offset(), this);
  LIRItem data(x->value(), this);

  src.load_item();
  if (type == T_BOOLEAN || type == T_BYTE) {
    data.load_byte_item();
  } else {
    data.load_item();
  }
  off.load_item();

  set_no_result(x);

  if (x->is_volatile() && os::is_MP()) __ membar_release();
  put_Object_unsafe(src.result(), off.result(), data.result(), type, x->is_volatile());
2341
  if (x->is_volatile() && os::is_MP()) __ membar();
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}


void LIRGenerator::do_UnsafePrefetch(UnsafePrefetch* x, bool is_store) {
  LIRItem src(x->object(), this);
  LIRItem off(x->offset(), this);

  src.load_item();
  if (off.is_constant() && can_inline_as_constant(x->offset())) {
    // let it be a constant
    off.dont_load_item();
  } else {
    off.load_item();
  }

  set_no_result(x);

  LIR_Address* addr = generate_address(src.result(), off.result(), 0, 0, T_BYTE);
  __ prefetch(addr, is_store);
}


void LIRGenerator::do_UnsafePrefetchRead(UnsafePrefetchRead* x) {
  do_UnsafePrefetch(x, false);
}


void LIRGenerator::do_UnsafePrefetchWrite(UnsafePrefetchWrite* x) {
  do_UnsafePrefetch(x, true);
}


void LIRGenerator::do_SwitchRanges(SwitchRangeArray* x, LIR_Opr value, BlockBegin* default_sux) {
  int lng = x->length();

  for (int i = 0; i < lng; i++) {
    SwitchRange* one_range = x->at(i);
    int low_key = one_range->low_key();
    int high_key = one_range->high_key();
    BlockBegin* dest = one_range->sux();
    if (low_key == high_key) {
      __ cmp(lir_cond_equal, value, low_key);
      __ branch(lir_cond_equal, T_INT, dest);
    } else if (high_key - low_key == 1) {
      __ cmp(lir_cond_equal, value, low_key);
      __ branch(lir_cond_equal, T_INT, dest);
      __ cmp(lir_cond_equal, value, high_key);
      __ branch(lir_cond_equal, T_INT, dest);
    } else {
      LabelObj* L = new LabelObj();
      __ cmp(lir_cond_less, value, low_key);
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      __ branch(lir_cond_less, T_INT, L->label());
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      __ cmp(lir_cond_lessEqual, value, high_key);
      __ branch(lir_cond_lessEqual, T_INT, dest);
      __ branch_destination(L->label());
    }
  }
  __ jump(default_sux);
}


SwitchRangeArray* LIRGenerator::create_lookup_ranges(TableSwitch* x) {
  SwitchRangeList* res = new SwitchRangeList();
  int len = x->length();
  if (len > 0) {
    BlockBegin* sux = x->sux_at(0);
    int key = x->lo_key();
    BlockBegin* default_sux = x->default_sux();
    SwitchRange* range = new SwitchRange(key, sux);
    for (int i = 0; i < len; i++, key++) {
      BlockBegin* new_sux = x->sux_at(i);
      if (sux == new_sux) {
        // still in same range
        range->set_high_key(key);
      } else {
        // skip tests which explicitly dispatch to the default
        if (sux != default_sux) {
          res->append(range);
        }
        range = new SwitchRange(key, new_sux);
      }
      sux = new_sux;
    }
    if (res->length() == 0 || res->last() != range)  res->append(range);
  }
  return res;
}


// we expect the keys to be sorted by increasing value
SwitchRangeArray* LIRGenerator::create_lookup_ranges(LookupSwitch* x) {
  SwitchRangeList* res = new SwitchRangeList();
  int len = x->length();
  if (len > 0) {
    BlockBegin* default_sux = x->default_sux();
    int key = x->key_at(0);
    BlockBegin* sux = x->sux_at(0);
    SwitchRange* range = new SwitchRange(key, sux);
    for (int i = 1; i < len; i++) {
      int new_key = x->key_at(i);
      BlockBegin* new_sux = x->sux_at(i);
      if (key+1 == new_key && sux == new_sux) {
        // still in same range
        range->set_high_key(new_key);
      } else {
        // skip tests which explicitly dispatch to the default
        if (range->sux() != default_sux) {
          res->append(range);
        }
        range = new SwitchRange(new_key, new_sux);
      }
      key = new_key;
      sux = new_sux;
    }
    if (res->length() == 0 || res->last() != range)  res->append(range);
  }
  return res;
}


void LIRGenerator::do_TableSwitch(TableSwitch* x) {
  LIRItem tag(x->tag(), this);
  tag.load_item();
  set_no_result(x);

  if (x->is_safepoint()) {
    __ safepoint(safepoint_poll_register(), state_for(x, x->state_before()));
  }

  // move values into phi locations
  move_to_phi(x->state());

  int lo_key = x->lo_key();
  int hi_key = x->hi_key();
  int len = x->length();
  LIR_Opr value = tag.result();
  if (UseTableRanges) {
    do_SwitchRanges(create_lookup_ranges(x), value, x->default_sux());
  } else {
    for (int i = 0; i < len; i++) {
      __ cmp(lir_cond_equal, value, i + lo_key);
      __ branch(lir_cond_equal, T_INT, x->sux_at(i));
    }
    __ jump(x->default_sux());
  }
}


void LIRGenerator::do_LookupSwitch(LookupSwitch* x) {
  LIRItem tag(x->tag(), this);
  tag.load_item();
  set_no_result(x);

  if (x->is_safepoint()) {
    __ safepoint(safepoint_poll_register(), state_for(x, x->state_before()));
  }

  // move values into phi locations
  move_to_phi(x->state());

  LIR_Opr value = tag.result();
  if (UseTableRanges) {
    do_SwitchRanges(create_lookup_ranges(x), value, x->default_sux());
  } else {
    int len = x->length();
    for (int i = 0; i < len; i++) {
      __ cmp(lir_cond_equal, value, x->key_at(i));
      __ branch(lir_cond_equal, T_INT, x->sux_at(i));
    }
    __ jump(x->default_sux());
  }
}


void LIRGenerator::do_Goto(Goto* x) {
  set_no_result(x);

  if (block()->next()->as_OsrEntry()) {
    // need to free up storage used for OSR entry point
    LIR_Opr osrBuffer = block()->next()->operand();
    BasicTypeList signature;
    signature.append(T_INT);
    CallingConvention* cc = frame_map()->c_calling_convention(&signature);
    __ move(osrBuffer, cc->args()->at(0));
    __ call_runtime_leaf(CAST_FROM_FN_PTR(address, SharedRuntime::OSR_migration_end),
                         getThreadTemp(), LIR_OprFact::illegalOpr, cc->args());
  }

  if (x->is_safepoint()) {
    ValueStack* state = x->state_before() ? x->state_before() : x->state();

    // increment backedge counter if needed
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    CodeEmitInfo* info = state_for(x, state);
2535
    increment_backedge_counter(info, x->profiled_bci());
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    CodeEmitInfo* safepoint_info = state_for(x, state);
    __ safepoint(safepoint_poll_register(), safepoint_info);
  }

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  // Gotos can be folded Ifs, handle this case.
  if (x->should_profile()) {
    ciMethod* method = x->profiled_method();
    assert(method != NULL, "method should be set if branch is profiled");
2544 2545
    ciMethodData* md = method->method_data_or_null();
    assert(md != NULL, "Sanity");
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    ciProfileData* data = md->bci_to_data(x->profiled_bci());
    assert(data != NULL, "must have profiling data");
    int offset;
    if (x->direction() == Goto::taken) {
      assert(data->is_BranchData(), "need BranchData for two-way branches");
      offset = md->byte_offset_of_slot(data, BranchData::taken_offset());
    } else if (x->direction() == Goto::not_taken) {
      assert(data->is_BranchData(), "need BranchData for two-way branches");
      offset = md->byte_offset_of_slot(data, BranchData::not_taken_offset());
    } else {
      assert(data->is_JumpData(), "need JumpData for branches");
      offset = md->byte_offset_of_slot(data, JumpData::taken_offset());
    }
2559 2560
    LIR_Opr md_reg = new_register(T_METADATA);
    __ metadata2reg(md->constant_encoding(), md_reg);
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    increment_counter(new LIR_Address(md_reg, offset,
                                      NOT_LP64(T_INT) LP64_ONLY(T_LONG)), DataLayout::counter_increment);
  }

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  // emit phi-instruction move after safepoint since this simplifies
  // describing the state as the safepoint.
  move_to_phi(x->state());

  __ jump(x->default_sux());
}


void LIRGenerator::do_Base(Base* x) {
  __ std_entry(LIR_OprFact::illegalOpr);
  // Emit moves from physical registers / stack slots to virtual registers
  CallingConvention* args = compilation()->frame_map()->incoming_arguments();
  IRScope* irScope = compilation()->hir()->top_scope();
  int java_index = 0;
  for (int i = 0; i < args->length(); i++) {
    LIR_Opr src = args->at(i);
    assert(!src->is_illegal(), "check");
    BasicType t = src->type();

    // Types which are smaller than int are passed as int, so
    // correct the type which passed.
    switch (t) {
    case T_BYTE:
    case T_BOOLEAN:
    case T_SHORT:
    case T_CHAR:
      t = T_INT;
      break;
    }

    LIR_Opr dest = new_register(t);
    __ move(src, dest);

    // Assign new location to Local instruction for this local
    Local* local = x->state()->local_at(java_index)->as_Local();
    assert(local != NULL, "Locals for incoming arguments must have been created");
2602 2603
#ifndef __SOFTFP__
    // The java calling convention passes double as long and float as int.
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    assert(as_ValueType(t)->tag() == local->type()->tag(), "check");
2605
#endif // __SOFTFP__
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    local->set_operand(dest);
    _instruction_for_operand.at_put_grow(dest->vreg_number(), local, NULL);
    java_index += type2size[t];
  }

2611
  if (compilation()->env()->dtrace_method_probes()) {
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    BasicTypeList signature;
2613
    signature.append(LP64_ONLY(T_LONG) NOT_LP64(T_INT));    // thread
2614
    signature.append(T_OBJECT); // Method*
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    LIR_OprList* args = new LIR_OprList();
    args->append(getThreadPointer());
2617 2618
    LIR_Opr meth = new_register(T_METADATA);
    __ metadata2reg(method()->constant_encoding(), meth);
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    args->append(meth);
    call_runtime(&signature, args, CAST_FROM_FN_PTR(address, SharedRuntime::dtrace_method_entry), voidType, NULL);
  }

  if (method()->is_synchronized()) {
    LIR_Opr obj;
    if (method()->is_static()) {
      obj = new_register(T_OBJECT);
2627
      __ oop2reg(method()->holder()->java_mirror()->constant_encoding(), obj);
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    } else {
      Local* receiver = x->state()->local_at(0)->as_Local();
      assert(receiver != NULL, "must already exist");
      obj = receiver->operand();
    }
    assert(obj->is_valid(), "must be valid");

    if (method()->is_synchronized() && GenerateSynchronizationCode) {
      LIR_Opr lock = new_register(T_INT);
      __ load_stack_address_monitor(0, lock);

2639
      CodeEmitInfo* info = new CodeEmitInfo(scope()->start()->state()->copy(ValueStack::StateBefore, SynchronizationEntryBCI), NULL, x->check_flag(Instruction::DeoptimizeOnException));
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      CodeStub* slow_path = new MonitorEnterStub(obj, lock, info);

      // receiver is guaranteed non-NULL so don't need CodeEmitInfo
      __ lock_object(syncTempOpr(), obj, lock, new_register(T_OBJECT), slow_path, NULL);
    }
  }

  // increment invocation counters if needed
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  if (!method()->is_accessor()) { // Accessors do not have MDOs, so no counting.
2649
    CodeEmitInfo* info = new CodeEmitInfo(scope()->start()->state()->copy(ValueStack::StateBefore, SynchronizationEntryBCI), NULL, false);
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    increment_invocation_counter(info);
  }
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  // all blocks with a successor must end with an unconditional jump
  // to the successor even if they are consecutive
  __ jump(x->default_sux());
}


void LIRGenerator::do_OsrEntry(OsrEntry* x) {
  // construct our frame and model the production of incoming pointer
  // to the OSR buffer.
  __ osr_entry(LIR_Assembler::osrBufferPointer());
  LIR_Opr result = rlock_result(x);
  __ move(LIR_Assembler::osrBufferPointer(), result);
}


void LIRGenerator::invoke_load_arguments(Invoke* x, LIRItemList* args, const LIR_OprList* arg_list) {
2669 2670 2671
  assert(args->length() == arg_list->length(),
         err_msg_res("args=%d, arg_list=%d", args->length(), arg_list->length()));
  for (int i = x->has_receiver() ? 1 : 0; i < args->length(); i++) {
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    LIRItem* param = args->at(i);
    LIR_Opr loc = arg_list->at(i);
    if (loc->is_register()) {
      param->load_item_force(loc);
    } else {
      LIR_Address* addr = loc->as_address_ptr();
      param->load_for_store(addr->type());
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      if (addr->type() == T_OBJECT) {
        __ move_wide(param->result(), addr);
      } else
        if (addr->type() == T_LONG || addr->type() == T_DOUBLE) {
          __ unaligned_move(param->result(), addr);
        } else {
          __ move(param->result(), addr);
        }
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    }
  }

  if (x->has_receiver()) {
    LIRItem* receiver = args->at(0);
    LIR_Opr loc = arg_list->at(0);
    if (loc->is_register()) {
      receiver->load_item_force(loc);
    } else {
      assert(loc->is_address(), "just checking");
      receiver->load_for_store(T_OBJECT);
2698
      __ move_wide(receiver->result(), loc->as_address_ptr());
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    }
  }
}


// Visits all arguments, returns appropriate items without loading them
LIRItemList* LIRGenerator::invoke_visit_arguments(Invoke* x) {
  LIRItemList* argument_items = new LIRItemList();
  if (x->has_receiver()) {
    LIRItem* receiver = new LIRItem(x->receiver(), this);
    argument_items->append(receiver);
  }
  for (int i = 0; i < x->number_of_arguments(); i++) {
    LIRItem* param = new LIRItem(x->argument_at(i), this);
    argument_items->append(param);
  }
  return argument_items;
}


// The invoke with receiver has following phases:
//   a) traverse and load/lock receiver;
//   b) traverse all arguments -> item-array (invoke_visit_argument)
//   c) push receiver on stack
//   d) load each of the items and push on stack
//   e) unlock receiver
//   f) move receiver into receiver-register %o0
//   g) lock result registers and emit call operation
//
// Before issuing a call, we must spill-save all values on stack
// that are in caller-save register. "spill-save" moves thos registers
// either in a free callee-save register or spills them if no free
// callee save register is available.
//
// The problem is where to invoke spill-save.
// - if invoked between e) and f), we may lock callee save
//   register in "spill-save" that destroys the receiver register
//   before f) is executed
// - if we rearange the f) to be earlier, by loading %o0, it
//   may destroy a value on the stack that is currently in %o0
//   and is waiting to be spilled
// - if we keep the receiver locked while doing spill-save,
//   we cannot spill it as it is spill-locked
//
void LIRGenerator::do_Invoke(Invoke* x) {
  CallingConvention* cc = frame_map()->java_calling_convention(x->signature(), true);

  LIR_OprList* arg_list = cc->args();
  LIRItemList* args = invoke_visit_arguments(x);
  LIR_Opr receiver = LIR_OprFact::illegalOpr;

  // setup result register
  LIR_Opr result_register = LIR_OprFact::illegalOpr;
  if (x->type() != voidType) {
    result_register = result_register_for(x->type());
  }

  CodeEmitInfo* info = state_for(x, x->state());

  invoke_load_arguments(x, args, arg_list);

  if (x->has_receiver()) {
    args->at(0)->load_item_force(LIR_Assembler::receiverOpr());
    receiver = args->at(0)->result();
  }

  // emit invoke code
  bool optimized = x->target_is_loaded() && x->target_is_final();
  assert(receiver->is_illegal() || receiver->is_equal(LIR_Assembler::receiverOpr()), "must match");

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  // JSR 292
  // Preserve the SP over MethodHandle call sites.
  ciMethod* target = x->target();
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  bool is_method_handle_invoke = (// %%% FIXME: Are both of these relevant?
                                  target->is_method_handle_intrinsic() ||
                                  target->is_compiled_lambda_form());
  if (is_method_handle_invoke) {
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    info->set_is_method_handle_invoke(true);
    __ move(FrameMap::stack_pointer(), FrameMap::method_handle_invoke_SP_save_opr());
  }

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  switch (x->code()) {
    case Bytecodes::_invokestatic:
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      __ call_static(target, result_register,
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                     SharedRuntime::get_resolve_static_call_stub(),
                     arg_list, info);
      break;
    case Bytecodes::_invokespecial:
    case Bytecodes::_invokevirtual:
    case Bytecodes::_invokeinterface:
      // for final target we still produce an inline cache, in order
      // to be able to call mixed mode
      if (x->code() == Bytecodes::_invokespecial || optimized) {
2792
        __ call_opt_virtual(target, receiver, result_register,
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                            SharedRuntime::get_resolve_opt_virtual_call_stub(),
                            arg_list, info);
      } else if (x->vtable_index() < 0) {
2796
        __ call_icvirtual(target, receiver, result_register,
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                          SharedRuntime::get_resolve_virtual_call_stub(),
                          arg_list, info);
      } else {
2800
        int entry_offset = InstanceKlass::vtable_start_offset() + x->vtable_index() * vtableEntry::size();
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        int vtable_offset = entry_offset * wordSize + vtableEntry::method_offset_in_bytes();
2802
        __ call_virtual(target, receiver, result_register, vtable_offset, arg_list, info);
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      }
      break;
2805
    case Bytecodes::_invokedynamic: {
2806
      __ call_dynamic(target, receiver, result_register,
2807
                      SharedRuntime::get_resolve_static_call_stub(),
2808 2809 2810
                      arg_list, info);
      break;
    }
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    default:
2812
      fatal(err_msg("unexpected bytecode: %s", Bytecodes::name(x->code())));
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      break;
  }

2816 2817
  // JSR 292
  // Restore the SP after MethodHandle call sites.
2818
  if (is_method_handle_invoke) {
2819 2820 2821
    __ move(FrameMap::method_handle_invoke_SP_save_opr(), FrameMap::stack_pointer());
  }

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  if (x->type()->is_float() || x->type()->is_double()) {
    // Force rounding of results from non-strictfp when in strictfp
    // scope (or when we don't know the strictness of the callee, to
    // be safe.)
    if (method()->is_strict()) {
      if (!x->target_is_loaded() || !x->target_is_strictfp()) {
        result_register = round_item(result_register);
      }
    }
  }

  if (result_register->is_valid()) {
    LIR_Opr result = rlock_result(x);
    __ move(result_register, result);
  }
}


void LIRGenerator::do_FPIntrinsics(Intrinsic* x) {
  assert(x->number_of_arguments() == 1, "wrong type");
  LIRItem value       (x->argument_at(0), this);
  LIR_Opr reg = rlock_result(x);
  value.load_item();
  LIR_Opr tmp = force_to_spill(value.result(), as_BasicType(x->type()));
  __ move(tmp, reg);
}



// Code for  :  x->x() {x->cond()} x->y() ? x->tval() : x->fval()
void LIRGenerator::do_IfOp(IfOp* x) {
#ifdef ASSERT
  {
    ValueTag xtag = x->x()->type()->tag();
    ValueTag ttag = x->tval()->type()->tag();
    assert(xtag == intTag || xtag == objectTag, "cannot handle others");
    assert(ttag == addressTag || ttag == intTag || ttag == objectTag || ttag == longTag, "cannot handle others");
    assert(ttag == x->fval()->type()->tag(), "cannot handle others");
  }
#endif

  LIRItem left(x->x(), this);
  LIRItem right(x->y(), this);
  left.load_item();
  if (can_inline_as_constant(right.value())) {
    right.dont_load_item();
  } else {
    right.load_item();
  }

  LIRItem t_val(x->tval(), this);
  LIRItem f_val(x->fval(), this);
  t_val.dont_load_item();
  f_val.dont_load_item();
  LIR_Opr reg = rlock_result(x);

  __ cmp(lir_cond(x->cond()), left.result(), right.result());
2879
  __ cmove(lir_cond(x->cond()), t_val.result(), f_val.result(), reg, as_BasicType(x->x()->type()));
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}

2882 2883 2884 2885 2886 2887 2888 2889 2890 2891 2892 2893 2894 2895 2896 2897 2898 2899 2900 2901 2902 2903 2904 2905 2906 2907 2908 2909 2910
void LIRGenerator::do_RuntimeCall(address routine, int expected_arguments, Intrinsic* x) {
    assert(x->number_of_arguments() == expected_arguments, "wrong type");
    LIR_Opr reg = result_register_for(x->type());
    __ call_runtime_leaf(routine, getThreadTemp(),
                         reg, new LIR_OprList());
    LIR_Opr result = rlock_result(x);
    __ move(reg, result);
}

#ifdef TRACE_HAVE_INTRINSICS
void LIRGenerator::do_ThreadIDIntrinsic(Intrinsic* x) {
    LIR_Opr thread = getThreadPointer();
    LIR_Opr osthread = new_pointer_register();
    __ move(new LIR_Address(thread, in_bytes(JavaThread::osthread_offset()), osthread->type()), osthread);
    size_t thread_id_size = OSThread::thread_id_size();
    if (thread_id_size == (size_t) BytesPerLong) {
      LIR_Opr id = new_register(T_LONG);
      __ move(new LIR_Address(osthread, in_bytes(OSThread::thread_id_offset()), T_LONG), id);
      __ convert(Bytecodes::_l2i, id, rlock_result(x));
    } else if (thread_id_size == (size_t) BytesPerInt) {
      __ move(new LIR_Address(osthread, in_bytes(OSThread::thread_id_offset()), T_INT), rlock_result(x));
    } else {
      ShouldNotReachHere();
    }
}

void LIRGenerator::do_ClassIDIntrinsic(Intrinsic* x) {
    CodeEmitInfo* info = state_for(x);
    CodeEmitInfo* info2 = new CodeEmitInfo(info); // Clone for the second null check
2911
    BasicType klass_pointer_type = NOT_LP64(T_INT) LP64_ONLY(T_LONG);
2912 2913 2914
    assert(info != NULL, "must have info");
    LIRItem arg(x->argument_at(1), this);
    arg.load_item();
2915 2916
    LIR_Opr klass = new_pointer_register();
    __ move(new LIR_Address(arg.result(), java_lang_Class::klass_offset_in_bytes(), klass_pointer_type), klass, info);
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    LIR_Opr id = new_register(T_LONG);
    ByteSize offset = TRACE_ID_OFFSET;
    LIR_Address* trace_id_addr = new LIR_Address(klass, in_bytes(offset), T_LONG);
    __ move(trace_id_addr, id);
    __ logical_or(id, LIR_OprFact::longConst(0x01l), id);
    __ store(id, trace_id_addr);
    __ logical_and(id, LIR_OprFact::longConst(~0x3l), id);
    __ move(id, rlock_result(x));
}
#endif
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void LIRGenerator::do_Intrinsic(Intrinsic* x) {
  switch (x->id()) {
  case vmIntrinsics::_intBitsToFloat      :
  case vmIntrinsics::_doubleToRawLongBits :
  case vmIntrinsics::_longBitsToDouble    :
  case vmIntrinsics::_floatToRawIntBits   : {
    do_FPIntrinsics(x);
    break;
  }

2938 2939 2940 2941 2942
#ifdef TRACE_HAVE_INTRINSICS
  case vmIntrinsics::_threadID: do_ThreadIDIntrinsic(x); break;
  case vmIntrinsics::_classID: do_ClassIDIntrinsic(x); break;
  case vmIntrinsics::_counterTime:
    do_RuntimeCall(CAST_FROM_FN_PTR(address, TRACE_TIME_METHOD), 0, x);
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    break;
2944
#endif
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2946 2947 2948 2949 2950 2951
  case vmIntrinsics::_currentTimeMillis:
    do_RuntimeCall(CAST_FROM_FN_PTR(address, os::javaTimeMillis), 0, x);
    break;

  case vmIntrinsics::_nanoTime:
    do_RuntimeCall(CAST_FROM_FN_PTR(address, os::javaTimeNanos), 0, x);
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    break;

  case vmIntrinsics::_Object_init:    do_RegisterFinalizer(x); break;
2955
  case vmIntrinsics::_isInstance:     do_isInstance(x);    break;
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  case vmIntrinsics::_getClass:       do_getClass(x);      break;
  case vmIntrinsics::_currentThread:  do_currentThread(x); break;

  case vmIntrinsics::_dlog:           // fall through
  case vmIntrinsics::_dlog10:         // fall through
  case vmIntrinsics::_dabs:           // fall through
  case vmIntrinsics::_dsqrt:          // fall through
  case vmIntrinsics::_dtan:           // fall through
  case vmIntrinsics::_dsin :          // fall through
2965 2966 2967
  case vmIntrinsics::_dcos :          // fall through
  case vmIntrinsics::_dexp :          // fall through
  case vmIntrinsics::_dpow :          do_MathIntrinsic(x); break;
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  case vmIntrinsics::_arraycopy:      do_ArrayCopy(x);     break;

  // java.nio.Buffer.checkIndex
  case vmIntrinsics::_checkIndex:     do_NIOCheckIndex(x); break;

  case vmIntrinsics::_compareAndSwapObject:
    do_CompareAndSwap(x, objectType);
    break;
  case vmIntrinsics::_compareAndSwapInt:
    do_CompareAndSwap(x, intType);
    break;
  case vmIntrinsics::_compareAndSwapLong:
    do_CompareAndSwap(x, longType);
    break;

2983 2984 2985 2986 2987 2988 2989 2990 2991 2992
  case vmIntrinsics::_loadFence :
    if (os::is_MP()) __ membar_acquire();
    break;
  case vmIntrinsics::_storeFence:
    if (os::is_MP()) __ membar_release();
    break;
  case vmIntrinsics::_fullFence :
    if (os::is_MP()) __ membar();
    break;

2993 2994 2995 2996
  case vmIntrinsics::_Reference_get:
    do_Reference_get(x);
    break;

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  default: ShouldNotReachHere(); break;
  }
}

void LIRGenerator::do_ProfileCall(ProfileCall* x) {
  // Need recv in a temporary register so it interferes with the other temporaries
  LIR_Opr recv = LIR_OprFact::illegalOpr;
  LIR_Opr mdo = new_register(T_OBJECT);
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  // tmp is used to hold the counters on SPARC
  LIR_Opr tmp = new_pointer_register();
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  if (x->recv() != NULL) {
    LIRItem value(x->recv(), this);
    value.load_item();
    recv = new_register(T_OBJECT);
    __ move(value.result(), recv);
  }
3013
  __ profile_call(x->method(), x->bci_of_invoke(), x->callee(), mdo, recv, tmp, x->known_holder());
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}

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void LIRGenerator::do_ProfileInvoke(ProfileInvoke* x) {
  // We can safely ignore accessors here, since c2 will inline them anyway,
  // accessors are also always mature.
  if (!x->inlinee()->is_accessor()) {
    CodeEmitInfo* info = state_for(x, x->state(), true);
3021 3022
    // Notify the runtime very infrequently only to take care of counter overflows
    increment_event_counter_impl(info, x->inlinee(), (1 << Tier23InlineeNotifyFreqLog) - 1, InvocationEntryBci, false, true);
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  }
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}

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void LIRGenerator::increment_event_counter(CodeEmitInfo* info, int bci, bool backedge) {
  int freq_log;
  int level = compilation()->env()->comp_level();
  if (level == CompLevel_limited_profile) {
    freq_log = (backedge ? Tier2BackedgeNotifyFreqLog : Tier2InvokeNotifyFreqLog);
  } else if (level == CompLevel_full_profile) {
    freq_log = (backedge ? Tier3BackedgeNotifyFreqLog : Tier3InvokeNotifyFreqLog);
  } else {
    ShouldNotReachHere();
  }
  // Increment the appropriate invocation/backedge counter and notify the runtime.
  increment_event_counter_impl(info, info->scope()->method(), (1 << freq_log) - 1, bci, backedge, true);
}

void LIRGenerator::increment_event_counter_impl(CodeEmitInfo* info,
                                                ciMethod *method, int frequency,
                                                int bci, bool backedge, bool notify) {
  assert(frequency == 0 || is_power_of_2(frequency + 1), "Frequency must be x^2 - 1 or 0");
  int level = _compilation->env()->comp_level();
  assert(level > CompLevel_simple, "Shouldn't be here");

  int offset = -1;
3048
  LIR_Opr counter_holder;
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  if (level == CompLevel_limited_profile) {
3050 3051 3052 3053 3054
    address counters_adr = method->ensure_method_counters();
    counter_holder = new_pointer_register();
    __ move(LIR_OprFact::intptrConst(counters_adr), counter_holder);
    offset = in_bytes(backedge ? MethodCounters::backedge_counter_offset() :
                                 MethodCounters::invocation_counter_offset());
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  } else if (level == CompLevel_full_profile) {
3056
    counter_holder = new_register(T_METADATA);
3057 3058
    offset = in_bytes(backedge ? MethodData::backedge_counter_offset() :
                                 MethodData::invocation_counter_offset());
3059 3060
    ciMethodData* md = method->method_data_or_null();
    assert(md != NULL, "Sanity");
3061
    __ metadata2reg(md->constant_encoding(), counter_holder);
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  } else {
    ShouldNotReachHere();
  }
  LIR_Address* counter = new LIR_Address(counter_holder, offset, T_INT);
  LIR_Opr result = new_register(T_INT);
  __ load(counter, result);
  __ add(result, LIR_OprFact::intConst(InvocationCounter::count_increment), result);
  __ store(result, counter);
  if (notify) {
    LIR_Opr mask = load_immediate(frequency << InvocationCounter::count_shift, T_INT);
3072 3073
    LIR_Opr meth = new_register(T_METADATA);
    __ metadata2reg(method->constant_encoding(), meth);
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    __ logical_and(result, mask, result);
    __ cmp(lir_cond_equal, result, LIR_OprFact::intConst(0));
    // The bci for info can point to cmp for if's we want the if bci
    CodeStub* overflow = new CounterOverflowStub(info, bci, meth);
    __ branch(lir_cond_equal, T_INT, overflow);
    __ branch_destination(overflow->continuation());
  }
}
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3083 3084 3085 3086 3087 3088 3089 3090 3091 3092 3093 3094 3095 3096 3097 3098 3099 3100 3101 3102 3103 3104 3105 3106 3107
void LIRGenerator::do_RuntimeCall(RuntimeCall* x) {
  LIR_OprList* args = new LIR_OprList(x->number_of_arguments());
  BasicTypeList* signature = new BasicTypeList(x->number_of_arguments());

  if (x->pass_thread()) {
    signature->append(T_ADDRESS);
    args->append(getThreadPointer());
  }

  for (int i = 0; i < x->number_of_arguments(); i++) {
    Value a = x->argument_at(i);
    LIRItem* item = new LIRItem(a, this);
    item->load_item();
    args->append(item->result());
    signature->append(as_BasicType(a->type()));
  }

  LIR_Opr result = call_runtime(signature, args, x->entry(), x->type(), NULL);
  if (x->type() == voidType) {
    set_no_result(x);
  } else {
    __ move(result, rlock_result(x));
  }
}

3108
#ifdef ASSERT
3109
void LIRGenerator::do_Assert(Assert *x) {
3110 3111 3112 3113 3114 3115 3116 3117 3118 3119 3120 3121 3122 3123 3124 3125 3126 3127 3128 3129
  ValueTag tag = x->x()->type()->tag();
  If::Condition cond = x->cond();

  LIRItem xitem(x->x(), this);
  LIRItem yitem(x->y(), this);
  LIRItem* xin = &xitem;
  LIRItem* yin = &yitem;

  assert(tag == intTag, "Only integer assertions are valid!");

  xin->load_item();
  yin->dont_load_item();

  set_no_result(x);

  LIR_Opr left = xin->result();
  LIR_Opr right = yin->result();

  __ lir_assert(lir_cond(x->cond()), left, right, x->message(), true);
}
3130
#endif
3131 3132 3133 3134 3135 3136 3137 3138 3139 3140 3141 3142 3143 3144 3145 3146 3147 3148 3149 3150 3151 3152 3153 3154 3155 3156 3157 3158 3159 3160 3161 3162 3163 3164 3165 3166 3167 3168 3169 3170 3171 3172 3173 3174 3175 3176 3177 3178 3179 3180 3181 3182 3183 3184 3185 3186 3187 3188 3189 3190 3191 3192 3193 3194 3195

void LIRGenerator::do_RangeCheckPredicate(RangeCheckPredicate *x) {


  Instruction *a = x->x();
  Instruction *b = x->y();
  if (!a || StressRangeCheckElimination) {
    assert(!b || StressRangeCheckElimination, "B must also be null");

    CodeEmitInfo *info = state_for(x, x->state());
    CodeStub* stub = new PredicateFailedStub(info);

    __ jump(stub);
  } else if (a->type()->as_IntConstant() && b->type()->as_IntConstant()) {
    int a_int = a->type()->as_IntConstant()->value();
    int b_int = b->type()->as_IntConstant()->value();

    bool ok = false;

    switch(x->cond()) {
      case Instruction::eql: ok = (a_int == b_int); break;
      case Instruction::neq: ok = (a_int != b_int); break;
      case Instruction::lss: ok = (a_int < b_int); break;
      case Instruction::leq: ok = (a_int <= b_int); break;
      case Instruction::gtr: ok = (a_int > b_int); break;
      case Instruction::geq: ok = (a_int >= b_int); break;
      case Instruction::aeq: ok = ((unsigned int)a_int >= (unsigned int)b_int); break;
      case Instruction::beq: ok = ((unsigned int)a_int <= (unsigned int)b_int); break;
      default: ShouldNotReachHere();
    }

    if (ok) {

      CodeEmitInfo *info = state_for(x, x->state());
      CodeStub* stub = new PredicateFailedStub(info);

      __ jump(stub);
    }
  } else {

    ValueTag tag = x->x()->type()->tag();
    If::Condition cond = x->cond();
    LIRItem xitem(x->x(), this);
    LIRItem yitem(x->y(), this);
    LIRItem* xin = &xitem;
    LIRItem* yin = &yitem;

    assert(tag == intTag, "Only integer deoptimizations are valid!");

    xin->load_item();
    yin->dont_load_item();
    set_no_result(x);

    LIR_Opr left = xin->result();
    LIR_Opr right = yin->result();

    CodeEmitInfo *info = state_for(x, x->state());
    CodeStub* stub = new PredicateFailedStub(info);

    __ cmp(lir_cond(cond), left, right);
    __ branch(lir_cond(cond), right->type(), stub);
  }
}


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LIR_Opr LIRGenerator::call_runtime(Value arg1, address entry, ValueType* result_type, CodeEmitInfo* info) {
  LIRItemList args(1);
  LIRItem value(arg1, this);
  args.append(&value);
  BasicTypeList signature;
  signature.append(as_BasicType(arg1->type()));

  return call_runtime(&signature, &args, entry, result_type, info);
}


LIR_Opr LIRGenerator::call_runtime(Value arg1, Value arg2, address entry, ValueType* result_type, CodeEmitInfo* info) {
  LIRItemList args(2);
  LIRItem value1(arg1, this);
  LIRItem value2(arg2, this);
  args.append(&value1);
  args.append(&value2);
  BasicTypeList signature;
  signature.append(as_BasicType(arg1->type()));
  signature.append(as_BasicType(arg2->type()));

  return call_runtime(&signature, &args, entry, result_type, info);
}


LIR_Opr LIRGenerator::call_runtime(BasicTypeArray* signature, LIR_OprList* args,
                                   address entry, ValueType* result_type, CodeEmitInfo* info) {
  // get a result register
  LIR_Opr phys_reg = LIR_OprFact::illegalOpr;
  LIR_Opr result = LIR_OprFact::illegalOpr;
  if (result_type->tag() != voidTag) {
    result = new_register(result_type);
    phys_reg = result_register_for(result_type);
  }

  // move the arguments into the correct location
  CallingConvention* cc = frame_map()->c_calling_convention(signature);
  assert(cc->length() == args->length(), "argument mismatch");
  for (int i = 0; i < args->length(); i++) {
    LIR_Opr arg = args->at(i);
    LIR_Opr loc = cc->at(i);
    if (loc->is_register()) {
      __ move(arg, loc);
    } else {
      LIR_Address* addr = loc->as_address_ptr();
//           if (!can_store_as_constant(arg)) {
//             LIR_Opr tmp = new_register(arg->type());
//             __ move(arg, tmp);
//             arg = tmp;
//           }
      if (addr->type() == T_LONG || addr->type() == T_DOUBLE) {
        __ unaligned_move(arg, addr);
      } else {
        __ move(arg, addr);
      }
    }
  }

  if (info) {
    __ call_runtime(entry, getThreadTemp(), phys_reg, cc->args(), info);
  } else {
    __ call_runtime_leaf(entry, getThreadTemp(), phys_reg, cc->args());
  }
  if (result->is_valid()) {
    __ move(phys_reg, result);
  }
  return result;
}


LIR_Opr LIRGenerator::call_runtime(BasicTypeArray* signature, LIRItemList* args,
                                   address entry, ValueType* result_type, CodeEmitInfo* info) {
  // get a result register
  LIR_Opr phys_reg = LIR_OprFact::illegalOpr;
  LIR_Opr result = LIR_OprFact::illegalOpr;
  if (result_type->tag() != voidTag) {
    result = new_register(result_type);
    phys_reg = result_register_for(result_type);
  }

  // move the arguments into the correct location
  CallingConvention* cc = frame_map()->c_calling_convention(signature);

  assert(cc->length() == args->length(), "argument mismatch");
  for (int i = 0; i < args->length(); i++) {
    LIRItem* arg = args->at(i);
    LIR_Opr loc = cc->at(i);
    if (loc->is_register()) {
      arg->load_item_force(loc);
    } else {
      LIR_Address* addr = loc->as_address_ptr();
      arg->load_for_store(addr->type());
      if (addr->type() == T_LONG || addr->type() == T_DOUBLE) {
        __ unaligned_move(arg->result(), addr);
      } else {
        __ move(arg->result(), addr);
      }
    }
  }

  if (info) {
    __ call_runtime(entry, getThreadTemp(), phys_reg, cc->args(), info);
  } else {
    __ call_runtime_leaf(entry, getThreadTemp(), phys_reg, cc->args());
  }
  if (result->is_valid()) {
    __ move(phys_reg, result);
  }
  return result;
}
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void LIRGenerator::do_MemBar(MemBar* x) {
  if (os::is_MP()) {
    LIR_Code code = x->code();
    switch(code) {
      case lir_membar_acquire   : __ membar_acquire(); break;
      case lir_membar_release   : __ membar_release(); break;
      case lir_membar           : __ membar(); break;
      case lir_membar_loadload  : __ membar_loadload(); break;
      case lir_membar_storestore: __ membar_storestore(); break;
      case lir_membar_loadstore : __ membar_loadstore(); break;
      case lir_membar_storeload : __ membar_storeload(); break;
      default                   : ShouldNotReachHere(); break;
    }
  }
}