c1_GraphBuilder.cpp 164.0 KB
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/*
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 * Copyright (c) 1999, 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_CFGPrinter.hpp"
#include "c1/c1_Canonicalizer.hpp"
#include "c1/c1_Compilation.hpp"
#include "c1/c1_GraphBuilder.hpp"
#include "c1/c1_InstructionPrinter.hpp"
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#include "ci/ciCallSite.hpp"
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#include "ci/ciField.hpp"
#include "ci/ciKlass.hpp"
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#include "ci/ciMemberName.hpp"
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#include "compiler/compileBroker.hpp"
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#include "interpreter/bytecode.hpp"
#include "runtime/sharedRuntime.hpp"
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#include "runtime/compilationPolicy.hpp"
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#include "utilities/bitMap.inline.hpp"
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class BlockListBuilder VALUE_OBJ_CLASS_SPEC {
 private:
  Compilation* _compilation;
  IRScope*     _scope;

  BlockList    _blocks;                // internal list of all blocks
  BlockList*   _bci2block;             // mapping from bci to blocks for GraphBuilder

  // fields used by mark_loops
  BitMap       _active;                // for iteration of control flow graph
  BitMap       _visited;               // for iteration of control flow graph
  intArray     _loop_map;              // caches the information if a block is contained in a loop
  int          _next_loop_index;       // next free loop number
  int          _next_block_number;     // for reverse postorder numbering of blocks

  // accessors
  Compilation*  compilation() const              { return _compilation; }
  IRScope*      scope() const                    { return _scope; }
  ciMethod*     method() const                   { return scope()->method(); }
  XHandlers*    xhandlers() const                { return scope()->xhandlers(); }

  // unified bailout support
  void          bailout(const char* msg) const   { compilation()->bailout(msg); }
  bool          bailed_out() const               { return compilation()->bailed_out(); }

  // helper functions
  BlockBegin* make_block_at(int bci, BlockBegin* predecessor);
  void handle_exceptions(BlockBegin* current, int cur_bci);
  void handle_jsr(BlockBegin* current, int sr_bci, int next_bci);
  void store_one(BlockBegin* current, int local);
  void store_two(BlockBegin* current, int local);
  void set_entries(int osr_bci);
  void set_leaders();

  void make_loop_header(BlockBegin* block);
  void mark_loops();
  int  mark_loops(BlockBegin* b, bool in_subroutine);

  // debugging
#ifndef PRODUCT
  void print();
#endif

 public:
  // creation
  BlockListBuilder(Compilation* compilation, IRScope* scope, int osr_bci);

  // accessors for GraphBuilder
  BlockList*    bci2block() const                { return _bci2block; }
};


// Implementation of BlockListBuilder

BlockListBuilder::BlockListBuilder(Compilation* compilation, IRScope* scope, int osr_bci)
 : _compilation(compilation)
 , _scope(scope)
 , _blocks(16)
 , _bci2block(new BlockList(scope->method()->code_size(), NULL))
 , _next_block_number(0)
 , _active()         // size not known yet
 , _visited()        // size not known yet
 , _next_loop_index(0)
 , _loop_map() // size not known yet
{
  set_entries(osr_bci);
  set_leaders();
  CHECK_BAILOUT();

  mark_loops();
  NOT_PRODUCT(if (PrintInitialBlockList) print());

#ifndef PRODUCT
  if (PrintCFGToFile) {
    stringStream title;
    title.print("BlockListBuilder ");
    scope->method()->print_name(&title);
    CFGPrinter::print_cfg(_bci2block, title.as_string(), false, false);
  }
#endif
}


void BlockListBuilder::set_entries(int osr_bci) {
  // generate start blocks
  BlockBegin* std_entry = make_block_at(0, NULL);
  if (scope()->caller() == NULL) {
    std_entry->set(BlockBegin::std_entry_flag);
  }
  if (osr_bci != -1) {
    BlockBegin* osr_entry = make_block_at(osr_bci, NULL);
    osr_entry->set(BlockBegin::osr_entry_flag);
  }

  // generate exception entry blocks
  XHandlers* list = xhandlers();
  const int n = list->length();
  for (int i = 0; i < n; i++) {
    XHandler* h = list->handler_at(i);
    BlockBegin* entry = make_block_at(h->handler_bci(), NULL);
    entry->set(BlockBegin::exception_entry_flag);
    h->set_entry_block(entry);
  }
}


BlockBegin* BlockListBuilder::make_block_at(int cur_bci, BlockBegin* predecessor) {
  assert(method()->bci_block_start().at(cur_bci), "wrong block starts of MethodLivenessAnalyzer");

  BlockBegin* block = _bci2block->at(cur_bci);
  if (block == NULL) {
    block = new BlockBegin(cur_bci);
    block->init_stores_to_locals(method()->max_locals());
    _bci2block->at_put(cur_bci, block);
    _blocks.append(block);

    assert(predecessor == NULL || predecessor->bci() < cur_bci, "targets for backward branches must already exist");
  }

  if (predecessor != NULL) {
    if (block->is_set(BlockBegin::exception_entry_flag)) {
      BAILOUT_("Exception handler can be reached by both normal and exceptional control flow", block);
    }

    predecessor->add_successor(block);
    block->increment_total_preds();
  }

  return block;
}


inline void BlockListBuilder::store_one(BlockBegin* current, int local) {
  current->stores_to_locals().set_bit(local);
}
inline void BlockListBuilder::store_two(BlockBegin* current, int local) {
  store_one(current, local);
  store_one(current, local + 1);
}


void BlockListBuilder::handle_exceptions(BlockBegin* current, int cur_bci) {
  // Draws edges from a block to its exception handlers
  XHandlers* list = xhandlers();
  const int n = list->length();

  for (int i = 0; i < n; i++) {
    XHandler* h = list->handler_at(i);

    if (h->covers(cur_bci)) {
      BlockBegin* entry = h->entry_block();
      assert(entry != NULL && entry == _bci2block->at(h->handler_bci()), "entry must be set");
      assert(entry->is_set(BlockBegin::exception_entry_flag), "flag must be set");

      // add each exception handler only once
      if (!current->is_successor(entry)) {
        current->add_successor(entry);
        entry->increment_total_preds();
      }

      // stop when reaching catchall
      if (h->catch_type() == 0) break;
    }
  }
}

void BlockListBuilder::handle_jsr(BlockBegin* current, int sr_bci, int next_bci) {
  // start a new block after jsr-bytecode and link this block into cfg
  make_block_at(next_bci, current);

  // start a new block at the subroutine entry at mark it with special flag
  BlockBegin* sr_block = make_block_at(sr_bci, current);
  if (!sr_block->is_set(BlockBegin::subroutine_entry_flag)) {
    sr_block->set(BlockBegin::subroutine_entry_flag);
  }
}


void BlockListBuilder::set_leaders() {
  bool has_xhandlers = xhandlers()->has_handlers();
  BlockBegin* current = NULL;

  // The information which bci starts a new block simplifies the analysis
  // Without it, backward branches could jump to a bci where no block was created
  // during bytecode iteration. This would require the creation of a new block at the
  // branch target and a modification of the successor lists.
  BitMap bci_block_start = method()->bci_block_start();

  ciBytecodeStream s(method());
  while (s.next() != ciBytecodeStream::EOBC()) {
    int cur_bci = s.cur_bci();

    if (bci_block_start.at(cur_bci)) {
      current = make_block_at(cur_bci, current);
    }
    assert(current != NULL, "must have current block");

    if (has_xhandlers && GraphBuilder::can_trap(method(), s.cur_bc())) {
      handle_exceptions(current, cur_bci);
    }

    switch (s.cur_bc()) {
      // track stores to local variables for selective creation of phi functions
      case Bytecodes::_iinc:     store_one(current, s.get_index()); break;
      case Bytecodes::_istore:   store_one(current, s.get_index()); break;
      case Bytecodes::_lstore:   store_two(current, s.get_index()); break;
      case Bytecodes::_fstore:   store_one(current, s.get_index()); break;
      case Bytecodes::_dstore:   store_two(current, s.get_index()); break;
      case Bytecodes::_astore:   store_one(current, s.get_index()); break;
      case Bytecodes::_istore_0: store_one(current, 0); break;
      case Bytecodes::_istore_1: store_one(current, 1); break;
      case Bytecodes::_istore_2: store_one(current, 2); break;
      case Bytecodes::_istore_3: store_one(current, 3); break;
      case Bytecodes::_lstore_0: store_two(current, 0); break;
      case Bytecodes::_lstore_1: store_two(current, 1); break;
      case Bytecodes::_lstore_2: store_two(current, 2); break;
      case Bytecodes::_lstore_3: store_two(current, 3); break;
      case Bytecodes::_fstore_0: store_one(current, 0); break;
      case Bytecodes::_fstore_1: store_one(current, 1); break;
      case Bytecodes::_fstore_2: store_one(current, 2); break;
      case Bytecodes::_fstore_3: store_one(current, 3); break;
      case Bytecodes::_dstore_0: store_two(current, 0); break;
      case Bytecodes::_dstore_1: store_two(current, 1); break;
      case Bytecodes::_dstore_2: store_two(current, 2); break;
      case Bytecodes::_dstore_3: store_two(current, 3); break;
      case Bytecodes::_astore_0: store_one(current, 0); break;
      case Bytecodes::_astore_1: store_one(current, 1); break;
      case Bytecodes::_astore_2: store_one(current, 2); break;
      case Bytecodes::_astore_3: store_one(current, 3); break;

      // track bytecodes that affect the control flow
      case Bytecodes::_athrow:  // fall through
      case Bytecodes::_ret:     // fall through
      case Bytecodes::_ireturn: // fall through
      case Bytecodes::_lreturn: // fall through
      case Bytecodes::_freturn: // fall through
      case Bytecodes::_dreturn: // fall through
      case Bytecodes::_areturn: // fall through
      case Bytecodes::_return:
        current = NULL;
        break;

      case Bytecodes::_ifeq:      // fall through
      case Bytecodes::_ifne:      // fall through
      case Bytecodes::_iflt:      // fall through
      case Bytecodes::_ifge:      // fall through
      case Bytecodes::_ifgt:      // fall through
      case Bytecodes::_ifle:      // fall through
      case Bytecodes::_if_icmpeq: // fall through
      case Bytecodes::_if_icmpne: // fall through
      case Bytecodes::_if_icmplt: // fall through
      case Bytecodes::_if_icmpge: // fall through
      case Bytecodes::_if_icmpgt: // fall through
      case Bytecodes::_if_icmple: // fall through
      case Bytecodes::_if_acmpeq: // fall through
      case Bytecodes::_if_acmpne: // fall through
      case Bytecodes::_ifnull:    // fall through
      case Bytecodes::_ifnonnull:
        make_block_at(s.next_bci(), current);
        make_block_at(s.get_dest(), current);
        current = NULL;
        break;

      case Bytecodes::_goto:
        make_block_at(s.get_dest(), current);
        current = NULL;
        break;

      case Bytecodes::_goto_w:
        make_block_at(s.get_far_dest(), current);
        current = NULL;
        break;

      case Bytecodes::_jsr:
        handle_jsr(current, s.get_dest(), s.next_bci());
        current = NULL;
        break;

      case Bytecodes::_jsr_w:
        handle_jsr(current, s.get_far_dest(), s.next_bci());
        current = NULL;
        break;

      case Bytecodes::_tableswitch: {
        // set block for each case
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        Bytecode_tableswitch sw(&s);
        int l = sw.length();
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        for (int i = 0; i < l; i++) {
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          make_block_at(cur_bci + sw.dest_offset_at(i), current);
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        }
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        make_block_at(cur_bci + sw.default_offset(), current);
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        current = NULL;
        break;
      }

      case Bytecodes::_lookupswitch: {
        // set block for each case
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        Bytecode_lookupswitch sw(&s);
        int l = sw.number_of_pairs();
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        for (int i = 0; i < l; i++) {
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          make_block_at(cur_bci + sw.pair_at(i).offset(), current);
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        }
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        make_block_at(cur_bci + sw.default_offset(), current);
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        current = NULL;
        break;
      }
    }
  }
}


void BlockListBuilder::mark_loops() {
  ResourceMark rm;

  _active = BitMap(BlockBegin::number_of_blocks());         _active.clear();
  _visited = BitMap(BlockBegin::number_of_blocks());        _visited.clear();
  _loop_map = intArray(BlockBegin::number_of_blocks(), 0);
  _next_loop_index = 0;
  _next_block_number = _blocks.length();

  // recursively iterate the control flow graph
  mark_loops(_bci2block->at(0), false);
  assert(_next_block_number >= 0, "invalid block numbers");
}

void BlockListBuilder::make_loop_header(BlockBegin* block) {
  if (block->is_set(BlockBegin::exception_entry_flag)) {
    // exception edges may look like loops but don't mark them as such
    // since it screws up block ordering.
    return;
  }
  if (!block->is_set(BlockBegin::parser_loop_header_flag)) {
    block->set(BlockBegin::parser_loop_header_flag);

    assert(_loop_map.at(block->block_id()) == 0, "must not be set yet");
    assert(0 <= _next_loop_index && _next_loop_index < BitsPerInt, "_next_loop_index is used as a bit-index in integer");
    _loop_map.at_put(block->block_id(), 1 << _next_loop_index);
    if (_next_loop_index < 31) _next_loop_index++;
  } else {
    // block already marked as loop header
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    assert(is_power_of_2((unsigned int)_loop_map.at(block->block_id())), "exactly one bit must be set");
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  }
}

int BlockListBuilder::mark_loops(BlockBegin* block, bool in_subroutine) {
  int block_id = block->block_id();

  if (_visited.at(block_id)) {
    if (_active.at(block_id)) {
      // reached block via backward branch
      make_loop_header(block);
    }
    // return cached loop information for this block
    return _loop_map.at(block_id);
  }

  if (block->is_set(BlockBegin::subroutine_entry_flag)) {
    in_subroutine = true;
  }

  // set active and visited bits before successors are processed
  _visited.set_bit(block_id);
  _active.set_bit(block_id);

  intptr_t loop_state = 0;
  for (int i = block->number_of_sux() - 1; i >= 0; i--) {
    // recursively process all successors
    loop_state |= mark_loops(block->sux_at(i), in_subroutine);
  }

  // clear active-bit after all successors are processed
  _active.clear_bit(block_id);

  // reverse-post-order numbering of all blocks
  block->set_depth_first_number(_next_block_number);
  _next_block_number--;

  if (loop_state != 0 || in_subroutine ) {
    // block is contained at least in one loop, so phi functions are necessary
    // phi functions are also necessary for all locals stored in a subroutine
    scope()->requires_phi_function().set_union(block->stores_to_locals());
  }

  if (block->is_set(BlockBegin::parser_loop_header_flag)) {
    int header_loop_state = _loop_map.at(block_id);
    assert(is_power_of_2((unsigned)header_loop_state), "exactly one bit must be set");

    // If the highest bit is set (i.e. when integer value is negative), the method
    // has 32 or more loops. This bit is never cleared because it is used for multiple loops
    if (header_loop_state >= 0) {
      clear_bits(loop_state, header_loop_state);
    }
  }

  // cache and return loop information for this block
  _loop_map.at_put(block_id, loop_state);
  return loop_state;
}


#ifndef PRODUCT

int compare_depth_first(BlockBegin** a, BlockBegin** b) {
  return (*a)->depth_first_number() - (*b)->depth_first_number();
}

void BlockListBuilder::print() {
  tty->print("----- initial block list of BlockListBuilder for method ");
  method()->print_short_name();
  tty->cr();

  // better readability if blocks are sorted in processing order
  _blocks.sort(compare_depth_first);

  for (int i = 0; i < _blocks.length(); i++) {
    BlockBegin* cur = _blocks.at(i);
    tty->print("%4d: B%-4d bci: %-4d  preds: %-4d ", cur->depth_first_number(), cur->block_id(), cur->bci(), cur->total_preds());

    tty->print(cur->is_set(BlockBegin::std_entry_flag)               ? " std" : "    ");
    tty->print(cur->is_set(BlockBegin::osr_entry_flag)               ? " osr" : "    ");
    tty->print(cur->is_set(BlockBegin::exception_entry_flag)         ? " ex" : "   ");
    tty->print(cur->is_set(BlockBegin::subroutine_entry_flag)        ? " sr" : "   ");
    tty->print(cur->is_set(BlockBegin::parser_loop_header_flag)      ? " lh" : "   ");

    if (cur->number_of_sux() > 0) {
      tty->print("    sux: ");
      for (int j = 0; j < cur->number_of_sux(); j++) {
        BlockBegin* sux = cur->sux_at(j);
        tty->print("B%d ", sux->block_id());
      }
    }
    tty->cr();
  }
}

#endif


// A simple growable array of Values indexed by ciFields
class FieldBuffer: public CompilationResourceObj {
 private:
  GrowableArray<Value> _values;

 public:
  FieldBuffer() {}

  void kill() {
    _values.trunc_to(0);
  }

  Value at(ciField* field) {
    assert(field->holder()->is_loaded(), "must be a loaded field");
    int offset = field->offset();
    if (offset < _values.length()) {
      return _values.at(offset);
    } else {
      return NULL;
    }
  }

  void at_put(ciField* field, Value value) {
    assert(field->holder()->is_loaded(), "must be a loaded field");
    int offset = field->offset();
    _values.at_put_grow(offset, value, NULL);
  }

};


// MemoryBuffer is fairly simple model of the current state of memory.
// It partitions memory into several pieces.  The first piece is
// generic memory where little is known about the owner of the memory.
// This is conceptually represented by the tuple <O, F, V> which says
// that the field F of object O has value V.  This is flattened so
// that F is represented by the offset of the field and the parallel
// arrays _objects and _values are used for O and V.  Loads of O.F can
// simply use V.  Newly allocated objects are kept in a separate list
// along with a parallel array for each object which represents the
// current value of its fields.  Stores of the default value to fields
// which have never been stored to before are eliminated since they
// are redundant.  Once newly allocated objects are stored into
// another object or they are passed out of the current compile they
// are treated like generic memory.

class MemoryBuffer: public CompilationResourceObj {
 private:
  FieldBuffer                 _values;
  GrowableArray<Value>        _objects;
  GrowableArray<Value>        _newobjects;
  GrowableArray<FieldBuffer*> _fields;

 public:
  MemoryBuffer() {}

  StoreField* store(StoreField* st) {
    if (!EliminateFieldAccess) {
      return st;
    }

    Value object = st->obj();
    Value value = st->value();
    ciField* field = st->field();
    if (field->holder()->is_loaded()) {
      int offset = field->offset();
      int index = _newobjects.find(object);
      if (index != -1) {
        // newly allocated object with no other stores performed on this field
        FieldBuffer* buf = _fields.at(index);
        if (buf->at(field) == NULL && is_default_value(value)) {
#ifndef PRODUCT
          if (PrintIRDuringConstruction && Verbose) {
            tty->print_cr("Eliminated store for object %d:", index);
            st->print_line();
          }
#endif
          return NULL;
        } else {
          buf->at_put(field, value);
        }
      } else {
        _objects.at_put_grow(offset, object, NULL);
        _values.at_put(field, value);
      }

      store_value(value);
    } else {
      // if we held onto field names we could alias based on names but
      // we don't know what's being stored to so kill it all.
      kill();
    }
    return st;
  }


  // return true if this value correspond to the default value of a field.
  bool is_default_value(Value value) {
    Constant* con = value->as_Constant();
    if (con) {
      switch (con->type()->tag()) {
        case intTag:    return con->type()->as_IntConstant()->value() == 0;
        case longTag:   return con->type()->as_LongConstant()->value() == 0;
        case floatTag:  return jint_cast(con->type()->as_FloatConstant()->value()) == 0;
        case doubleTag: return jlong_cast(con->type()->as_DoubleConstant()->value()) == jlong_cast(0);
        case objectTag: return con->type() == objectNull;
        default:  ShouldNotReachHere();
      }
    }
    return false;
  }


  // return either the actual value of a load or the load itself
  Value load(LoadField* load) {
    if (!EliminateFieldAccess) {
      return load;
    }

    if (RoundFPResults && UseSSE < 2 && load->type()->is_float_kind()) {
      // can't skip load since value might get rounded as a side effect
      return load;
    }

    ciField* field = load->field();
    Value object   = load->obj();
    if (field->holder()->is_loaded() && !field->is_volatile()) {
      int offset = field->offset();
      Value result = NULL;
      int index = _newobjects.find(object);
      if (index != -1) {
        result = _fields.at(index)->at(field);
      } else if (_objects.at_grow(offset, NULL) == object) {
        result = _values.at(field);
      }
      if (result != NULL) {
#ifndef PRODUCT
        if (PrintIRDuringConstruction && Verbose) {
          tty->print_cr("Eliminated load: ");
          load->print_line();
        }
#endif
        assert(result->type()->tag() == load->type()->tag(), "wrong types");
        return result;
      }
    }
    return load;
  }

  // Record this newly allocated object
  void new_instance(NewInstance* object) {
    int index = _newobjects.length();
    _newobjects.append(object);
    if (_fields.at_grow(index, NULL) == NULL) {
      _fields.at_put(index, new FieldBuffer());
    } else {
      _fields.at(index)->kill();
    }
  }

  void store_value(Value value) {
    int index = _newobjects.find(value);
    if (index != -1) {
      // stored a newly allocated object into another object.
      // Assume we've lost track of it as separate slice of memory.
      // We could do better by keeping track of whether individual
      // fields could alias each other.
      _newobjects.remove_at(index);
      // pull out the field info and store it at the end up the list
      // of field info list to be reused later.
      _fields.append(_fields.at(index));
      _fields.remove_at(index);
    }
  }

  void kill() {
    _newobjects.trunc_to(0);
    _objects.trunc_to(0);
    _values.kill();
  }
};


// Implementation of GraphBuilder's ScopeData

GraphBuilder::ScopeData::ScopeData(ScopeData* parent)
  : _parent(parent)
  , _bci2block(NULL)
  , _scope(NULL)
  , _has_handler(false)
  , _stream(NULL)
  , _work_list(NULL)
  , _parsing_jsr(false)
  , _jsr_xhandlers(NULL)
  , _caller_stack_size(-1)
  , _continuation(NULL)
  , _num_returns(0)
  , _cleanup_block(NULL)
  , _cleanup_return_prev(NULL)
  , _cleanup_state(NULL)
{
  if (parent != NULL) {
    _max_inline_size = (intx) ((float) NestedInliningSizeRatio * (float) parent->max_inline_size() / 100.0f);
  } else {
    _max_inline_size = MaxInlineSize;
  }
  if (_max_inline_size < MaxTrivialSize) {
    _max_inline_size = MaxTrivialSize;
  }
}


void GraphBuilder::kill_all() {
  if (UseLocalValueNumbering) {
    vmap()->kill_all();
  }
  _memory->kill();
}


BlockBegin* GraphBuilder::ScopeData::block_at(int bci) {
  if (parsing_jsr()) {
    // It is necessary to clone all blocks associated with a
    // subroutine, including those for exception handlers in the scope
    // of the method containing the jsr (because those exception
    // handlers may contain ret instructions in some cases).
    BlockBegin* block = bci2block()->at(bci);
    if (block != NULL && block == parent()->bci2block()->at(bci)) {
      BlockBegin* new_block = new BlockBegin(block->bci());
#ifndef PRODUCT
      if (PrintInitialBlockList) {
        tty->print_cr("CFG: cloned block %d (bci %d) as block %d for jsr",
                      block->block_id(), block->bci(), new_block->block_id());
      }
#endif
      // copy data from cloned blocked
      new_block->set_depth_first_number(block->depth_first_number());
      if (block->is_set(BlockBegin::parser_loop_header_flag)) new_block->set(BlockBegin::parser_loop_header_flag);
      // Preserve certain flags for assertion checking
      if (block->is_set(BlockBegin::subroutine_entry_flag)) new_block->set(BlockBegin::subroutine_entry_flag);
      if (block->is_set(BlockBegin::exception_entry_flag))  new_block->set(BlockBegin::exception_entry_flag);

      // copy was_visited_flag to allow early detection of bailouts
      // if a block that is used in a jsr has already been visited before,
      // it is shared between the normal control flow and a subroutine
      // BlockBegin::try_merge returns false when the flag is set, this leads
      // to a compilation bailout
      if (block->is_set(BlockBegin::was_visited_flag))  new_block->set(BlockBegin::was_visited_flag);

      bci2block()->at_put(bci, new_block);
      block = new_block;
    }
    return block;
  } else {
    return bci2block()->at(bci);
  }
}


XHandlers* GraphBuilder::ScopeData::xhandlers() const {
  if (_jsr_xhandlers == NULL) {
    assert(!parsing_jsr(), "");
    return scope()->xhandlers();
  }
  assert(parsing_jsr(), "");
  return _jsr_xhandlers;
}


void GraphBuilder::ScopeData::set_scope(IRScope* scope) {
  _scope = scope;
  bool parent_has_handler = false;
  if (parent() != NULL) {
    parent_has_handler = parent()->has_handler();
  }
  _has_handler = parent_has_handler || scope->xhandlers()->has_handlers();
}


void GraphBuilder::ScopeData::set_inline_cleanup_info(BlockBegin* block,
                                                      Instruction* return_prev,
                                                      ValueStack* return_state) {
  _cleanup_block       = block;
  _cleanup_return_prev = return_prev;
  _cleanup_state       = return_state;
}


void GraphBuilder::ScopeData::add_to_work_list(BlockBegin* block) {
  if (_work_list == NULL) {
    _work_list = new BlockList();
  }

  if (!block->is_set(BlockBegin::is_on_work_list_flag)) {
    // Do not start parsing the continuation block while in a
    // sub-scope
    if (parsing_jsr()) {
      if (block == jsr_continuation()) {
        return;
      }
    } else {
      if (block == continuation()) {
        return;
      }
    }
    block->set(BlockBegin::is_on_work_list_flag);
    _work_list->push(block);

    sort_top_into_worklist(_work_list, block);
  }
}


void GraphBuilder::sort_top_into_worklist(BlockList* worklist, BlockBegin* top) {
  assert(worklist->top() == top, "");
  // sort block descending into work list
  const int dfn = top->depth_first_number();
  assert(dfn != -1, "unknown depth first number");
  int i = worklist->length()-2;
  while (i >= 0) {
    BlockBegin* b = worklist->at(i);
    if (b->depth_first_number() < dfn) {
      worklist->at_put(i+1, b);
    } else {
      break;
    }
    i --;
  }
  if (i >= -1) worklist->at_put(i + 1, top);
}


BlockBegin* GraphBuilder::ScopeData::remove_from_work_list() {
  if (is_work_list_empty()) {
    return NULL;
  }
  return _work_list->pop();
}


bool GraphBuilder::ScopeData::is_work_list_empty() const {
  return (_work_list == NULL || _work_list->length() == 0);
}


void GraphBuilder::ScopeData::setup_jsr_xhandlers() {
  assert(parsing_jsr(), "");
  // clone all the exception handlers from the scope
  XHandlers* handlers = new XHandlers(scope()->xhandlers());
  const int n = handlers->length();
  for (int i = 0; i < n; i++) {
    // The XHandlers need to be adjusted to dispatch to the cloned
    // handler block instead of the default one but the synthetic
    // unlocker needs to be handled specially.  The synthetic unlocker
    // should be left alone since there can be only one and all code
    // should dispatch to the same one.
    XHandler* h = handlers->handler_at(i);
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    assert(h->handler_bci() != SynchronizationEntryBCI, "must be real");
    h->set_entry_block(block_at(h->handler_bci()));
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  }
  _jsr_xhandlers = handlers;
}


int GraphBuilder::ScopeData::num_returns() {
  if (parsing_jsr()) {
    return parent()->num_returns();
  }
  return _num_returns;
}


void GraphBuilder::ScopeData::incr_num_returns() {
  if (parsing_jsr()) {
    parent()->incr_num_returns();
  } else {
    ++_num_returns;
  }
}


// Implementation of GraphBuilder

#define INLINE_BAILOUT(msg)        { inline_bailout(msg); return false; }


void GraphBuilder::load_constant() {
  ciConstant con = stream()->get_constant();
  if (con.basic_type() == T_ILLEGAL) {
    BAILOUT("could not resolve a constant");
  } else {
    ValueType* t = illegalType;
    ValueStack* patch_state = NULL;
    switch (con.basic_type()) {
      case T_BOOLEAN: t = new IntConstant     (con.as_boolean()); break;
      case T_BYTE   : t = new IntConstant     (con.as_byte   ()); break;
      case T_CHAR   : t = new IntConstant     (con.as_char   ()); break;
      case T_SHORT  : t = new IntConstant     (con.as_short  ()); break;
      case T_INT    : t = new IntConstant     (con.as_int    ()); break;
      case T_LONG   : t = new LongConstant    (con.as_long   ()); break;
      case T_FLOAT  : t = new FloatConstant   (con.as_float  ()); break;
      case T_DOUBLE : t = new DoubleConstant  (con.as_double ()); break;
      case T_ARRAY  : t = new ArrayConstant   (con.as_object ()->as_array   ()); break;
      case T_OBJECT :
       {
        ciObject* obj = con.as_object();
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        if (!obj->is_loaded()
            || (PatchALot && obj->klass() != ciEnv::current()->String_klass())) {
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          patch_state = copy_state_before();
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          t = new ObjectConstant(obj);
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        } else {
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          assert(obj->is_instance(), "must be java_mirror of klass");
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          t = new InstanceConstant(obj->as_instance());
        }
        break;
       }
      default       : ShouldNotReachHere();
    }
    Value x;
    if (patch_state != NULL) {
      x = new Constant(t, patch_state);
    } else {
      x = new Constant(t);
    }
    push(t, append(x));
  }
}


void GraphBuilder::load_local(ValueType* type, int index) {
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  Value x = state()->local_at(index);
  assert(x != NULL && !x->type()->is_illegal(), "access of illegal local variable");
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  push(type, x);
}


void GraphBuilder::store_local(ValueType* type, int index) {
  Value x = pop(type);
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  store_local(state(), x, index);
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}


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void GraphBuilder::store_local(ValueStack* state, Value x, int index) {
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  if (parsing_jsr()) {
    // We need to do additional tracking of the location of the return
    // address for jsrs since we don't handle arbitrary jsr/ret
    // constructs. Here we are figuring out in which circumstances we
    // need to bail out.
    if (x->type()->is_address()) {
      scope_data()->set_jsr_return_address_local(index);

      // Also check parent jsrs (if any) at this time to see whether
      // they are using this local. We don't handle skipping over a
      // ret.
      for (ScopeData* cur_scope_data = scope_data()->parent();
           cur_scope_data != NULL && cur_scope_data->parsing_jsr() && cur_scope_data->scope() == scope();
           cur_scope_data = cur_scope_data->parent()) {
        if (cur_scope_data->jsr_return_address_local() == index) {
          BAILOUT("subroutine overwrites return address from previous subroutine");
        }
      }
    } else if (index == scope_data()->jsr_return_address_local()) {
      scope_data()->set_jsr_return_address_local(-1);
    }
  }

  state->store_local(index, round_fp(x));
}


void GraphBuilder::load_indexed(BasicType type) {
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  // In case of in block code motion in range check elimination
  ValueStack* state_before = copy_state_indexed_access();
  compilation()->set_has_access_indexed(true);
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  Value index = ipop();
  Value array = apop();
  Value length = NULL;
  if (CSEArrayLength ||
      (array->as_AccessField() && array->as_AccessField()->field()->is_constant()) ||
      (array->as_NewArray() && array->as_NewArray()->length() && array->as_NewArray()->length()->type()->is_constant())) {
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    length = append(new ArrayLength(array, state_before));
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  }
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  push(as_ValueType(type), append(new LoadIndexed(array, index, length, type, state_before)));
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}


void GraphBuilder::store_indexed(BasicType type) {
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  // In case of in block code motion in range check elimination
  ValueStack* state_before = copy_state_indexed_access();
  compilation()->set_has_access_indexed(true);
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  Value value = pop(as_ValueType(type));
  Value index = ipop();
  Value array = apop();
  Value length = NULL;
  if (CSEArrayLength ||
      (array->as_AccessField() && array->as_AccessField()->field()->is_constant()) ||
      (array->as_NewArray() && array->as_NewArray()->length() && array->as_NewArray()->length()->type()->is_constant())) {
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    length = append(new ArrayLength(array, state_before));
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  }
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  StoreIndexed* result = new StoreIndexed(array, index, length, type, value, state_before);
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  append(result);
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  _memory->store_value(value);
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  if (type == T_OBJECT && is_profiling()) {
    // Note that we'd collect profile data in this method if we wanted it.
    compilation()->set_would_profile(true);

    if (profile_checkcasts()) {
      result->set_profiled_method(method());
      result->set_profiled_bci(bci());
      result->set_should_profile(true);
    }
  }
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}


void GraphBuilder::stack_op(Bytecodes::Code code) {
  switch (code) {
    case Bytecodes::_pop:
      { state()->raw_pop();
      }
      break;
    case Bytecodes::_pop2:
      { state()->raw_pop();
        state()->raw_pop();
      }
      break;
    case Bytecodes::_dup:
      { Value w = state()->raw_pop();
        state()->raw_push(w);
        state()->raw_push(w);
      }
      break;
    case Bytecodes::_dup_x1:
      { Value w1 = state()->raw_pop();
        Value w2 = state()->raw_pop();
        state()->raw_push(w1);
        state()->raw_push(w2);
        state()->raw_push(w1);
      }
      break;
    case Bytecodes::_dup_x2:
      { Value w1 = state()->raw_pop();
        Value w2 = state()->raw_pop();
        Value w3 = state()->raw_pop();
        state()->raw_push(w1);
        state()->raw_push(w3);
        state()->raw_push(w2);
        state()->raw_push(w1);
      }
      break;
    case Bytecodes::_dup2:
      { Value w1 = state()->raw_pop();
        Value w2 = state()->raw_pop();
        state()->raw_push(w2);
        state()->raw_push(w1);
        state()->raw_push(w2);
        state()->raw_push(w1);
      }
      break;
    case Bytecodes::_dup2_x1:
      { Value w1 = state()->raw_pop();
        Value w2 = state()->raw_pop();
        Value w3 = state()->raw_pop();
        state()->raw_push(w2);
        state()->raw_push(w1);
        state()->raw_push(w3);
        state()->raw_push(w2);
        state()->raw_push(w1);
      }
      break;
    case Bytecodes::_dup2_x2:
      { Value w1 = state()->raw_pop();
        Value w2 = state()->raw_pop();
        Value w3 = state()->raw_pop();
        Value w4 = state()->raw_pop();
        state()->raw_push(w2);
        state()->raw_push(w1);
        state()->raw_push(w4);
        state()->raw_push(w3);
        state()->raw_push(w2);
        state()->raw_push(w1);
      }
      break;
    case Bytecodes::_swap:
      { Value w1 = state()->raw_pop();
        Value w2 = state()->raw_pop();
        state()->raw_push(w1);
        state()->raw_push(w2);
      }
      break;
    default:
      ShouldNotReachHere();
      break;
  }
}


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void GraphBuilder::arithmetic_op(ValueType* type, Bytecodes::Code code, ValueStack* state_before) {
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  Value y = pop(type);
  Value x = pop(type);
  // NOTE: strictfp can be queried from current method since we don't
  // inline methods with differing strictfp bits
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  Value res = new ArithmeticOp(code, x, y, method()->is_strict(), state_before);
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  // Note: currently single-precision floating-point rounding on Intel is handled at the LIRGenerator level
  res = append(res);
  if (method()->is_strict()) {
    res = round_fp(res);
  }
  push(type, res);
}


void GraphBuilder::negate_op(ValueType* type) {
  push(type, append(new NegateOp(pop(type))));
}


void GraphBuilder::shift_op(ValueType* type, Bytecodes::Code code) {
  Value s = ipop();
  Value x = pop(type);
  // try to simplify
  // Note: This code should go into the canonicalizer as soon as it can
  //       can handle canonicalized forms that contain more than one node.
  if (CanonicalizeNodes && code == Bytecodes::_iushr) {
    // pattern: x >>> s
    IntConstant* s1 = s->type()->as_IntConstant();
    if (s1 != NULL) {
      // pattern: x >>> s1, with s1 constant
      ShiftOp* l = x->as_ShiftOp();
      if (l != NULL && l->op() == Bytecodes::_ishl) {
        // pattern: (a << b) >>> s1
        IntConstant* s0 = l->y()->type()->as_IntConstant();
        if (s0 != NULL) {
          // pattern: (a << s0) >>> s1
          const int s0c = s0->value() & 0x1F; // only the low 5 bits are significant for shifts
          const int s1c = s1->value() & 0x1F; // only the low 5 bits are significant for shifts
          if (s0c == s1c) {
            if (s0c == 0) {
              // pattern: (a << 0) >>> 0 => simplify to: a
              ipush(l->x());
            } else {
              // pattern: (a << s0c) >>> s0c => simplify to: a & m, with m constant
              assert(0 < s0c && s0c < BitsPerInt, "adjust code below to handle corner cases");
              const int m = (1 << (BitsPerInt - s0c)) - 1;
              Value s = append(new Constant(new IntConstant(m)));
              ipush(append(new LogicOp(Bytecodes::_iand, l->x(), s)));
            }
            return;
          }
        }
      }
    }
  }
  // could not simplify
  push(type, append(new ShiftOp(code, x, s)));
}


void GraphBuilder::logic_op(ValueType* type, Bytecodes::Code code) {
  Value y = pop(type);
  Value x = pop(type);
  push(type, append(new LogicOp(code, x, y)));
}


void GraphBuilder::compare_op(ValueType* type, Bytecodes::Code code) {
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  ValueStack* state_before = copy_state_before();
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  Value y = pop(type);
  Value x = pop(type);
  ipush(append(new CompareOp(code, x, y, state_before)));
}


void GraphBuilder::convert(Bytecodes::Code op, BasicType from, BasicType to) {
  push(as_ValueType(to), append(new Convert(op, pop(as_ValueType(from)), as_ValueType(to))));
}


void GraphBuilder::increment() {
  int index = stream()->get_index();
  int delta = stream()->is_wide() ? (signed short)Bytes::get_Java_u2(stream()->cur_bcp() + 4) : (signed char)(stream()->cur_bcp()[2]);
  load_local(intType, index);
  ipush(append(new Constant(new IntConstant(delta))));
  arithmetic_op(intType, Bytecodes::_iadd);
  store_local(intType, index);
}


void GraphBuilder::_goto(int from_bci, int to_bci) {
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  Goto *x = new Goto(block_at(to_bci), to_bci <= from_bci);
  if (is_profiling()) {
    compilation()->set_would_profile(true);
    x->set_profiled_bci(bci());
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    if (profile_branches()) {
      x->set_profiled_method(method());
      x->set_should_profile(true);
    }
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  }
  append(x);
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}


void GraphBuilder::if_node(Value x, If::Condition cond, Value y, ValueStack* state_before) {
  BlockBegin* tsux = block_at(stream()->get_dest());
  BlockBegin* fsux = block_at(stream()->next_bci());
  bool is_bb = tsux->bci() < stream()->cur_bci() || fsux->bci() < stream()->cur_bci();
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  // In case of loop invariant code motion or predicate insertion
  // before the body of a loop the state is needed
  Instruction *i = append(new If(x, cond, false, y, tsux, fsux, (is_bb || compilation()->is_optimistic()) ? state_before : NULL, is_bb));
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  assert(i->as_Goto() == NULL ||
         (i->as_Goto()->sux_at(0) == tsux  && i->as_Goto()->is_safepoint() == tsux->bci() < stream()->cur_bci()) ||
         (i->as_Goto()->sux_at(0) == fsux  && i->as_Goto()->is_safepoint() == fsux->bci() < stream()->cur_bci()),
         "safepoint state of Goto returned by canonicalizer incorrect");

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  if (is_profiling()) {
    If* if_node = i->as_If();
    if (if_node != NULL) {
      // Note that we'd collect profile data in this method if we wanted it.
      compilation()->set_would_profile(true);
      // At level 2 we need the proper bci to count backedges
      if_node->set_profiled_bci(bci());
      if (profile_branches()) {
        // Successors can be rotated by the canonicalizer, check for this case.
        if_node->set_profiled_method(method());
        if_node->set_should_profile(true);
        if (if_node->tsux() == fsux) {
          if_node->set_swapped(true);
        }
      }
      return;
    }

    // Check if this If was reduced to Goto.
    Goto *goto_node = i->as_Goto();
    if (goto_node != NULL) {
      compilation()->set_would_profile(true);
1217
      goto_node->set_profiled_bci(bci());
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      if (profile_branches()) {
        goto_node->set_profiled_method(method());
        goto_node->set_should_profile(true);
        // Find out which successor is used.
        if (goto_node->default_sux() == tsux) {
          goto_node->set_direction(Goto::taken);
        } else if (goto_node->default_sux() == fsux) {
          goto_node->set_direction(Goto::not_taken);
        } else {
          ShouldNotReachHere();
        }
      }
      return;
    }
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  }
}


void GraphBuilder::if_zero(ValueType* type, If::Condition cond) {
  Value y = append(new Constant(intZero));
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  ValueStack* state_before = copy_state_before();
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  Value x = ipop();
  if_node(x, cond, y, state_before);
}


void GraphBuilder::if_null(ValueType* type, If::Condition cond) {
  Value y = append(new Constant(objectNull));
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  ValueStack* state_before = copy_state_before();
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  Value x = apop();
  if_node(x, cond, y, state_before);
}


void GraphBuilder::if_same(ValueType* type, If::Condition cond) {
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  ValueStack* state_before = copy_state_before();
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  Value y = pop(type);
  Value x = pop(type);
  if_node(x, cond, y, state_before);
}


void GraphBuilder::jsr(int dest) {
  // We only handle well-formed jsrs (those which are "block-structured").
  // If the bytecodes are strange (jumping out of a jsr block) then we
  // might end up trying to re-parse a block containing a jsr which
  // has already been activated. Watch for this case and bail out.
  for (ScopeData* cur_scope_data = scope_data();
       cur_scope_data != NULL && cur_scope_data->parsing_jsr() && cur_scope_data->scope() == scope();
       cur_scope_data = cur_scope_data->parent()) {
    if (cur_scope_data->jsr_entry_bci() == dest) {
      BAILOUT("too-complicated jsr/ret structure");
    }
  }

  push(addressType, append(new Constant(new AddressConstant(next_bci()))));
  if (!try_inline_jsr(dest)) {
    return; // bailed out while parsing and inlining subroutine
  }
}


void GraphBuilder::ret(int local_index) {
  if (!parsing_jsr()) BAILOUT("ret encountered while not parsing subroutine");

  if (local_index != scope_data()->jsr_return_address_local()) {
    BAILOUT("can not handle complicated jsr/ret constructs");
  }

  // Rets simply become (NON-SAFEPOINT) gotos to the jsr continuation
  append(new Goto(scope_data()->jsr_continuation(), false));
}


void GraphBuilder::table_switch() {
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  Bytecode_tableswitch sw(stream());
  const int l = sw.length();
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  if (CanonicalizeNodes && l == 1) {
    // total of 2 successors => use If instead of switch
    // Note: This code should go into the canonicalizer as soon as it can
    //       can handle canonicalized forms that contain more than one node.
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    Value key = append(new Constant(new IntConstant(sw.low_key())));
    BlockBegin* tsux = block_at(bci() + sw.dest_offset_at(0));
    BlockBegin* fsux = block_at(bci() + sw.default_offset());
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    bool is_bb = tsux->bci() < bci() || fsux->bci() < bci();
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    // In case of loop invariant code motion or predicate insertion
    // before the body of a loop the state is needed
    ValueStack* state_before = copy_state_if_bb(is_bb);
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    append(new If(ipop(), If::eql, true, key, tsux, fsux, state_before, is_bb));
  } else {
    // collect successors
    BlockList* sux = new BlockList(l + 1, NULL);
    int i;
    bool has_bb = false;
    for (i = 0; i < l; i++) {
1313 1314
      sux->at_put(i, block_at(bci() + sw.dest_offset_at(i)));
      if (sw.dest_offset_at(i) < 0) has_bb = true;
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    }
    // add default successor
1317
    if (sw.default_offset() < 0) has_bb = true;
1318
    sux->at_put(i, block_at(bci() + sw.default_offset()));
1319 1320 1321
    // In case of loop invariant code motion or predicate insertion
    // before the body of a loop the state is needed
    ValueStack* state_before = copy_state_if_bb(has_bb);
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    Instruction* res = append(new TableSwitch(ipop(), sux, sw.low_key(), state_before, has_bb));
#ifdef ASSERT
    if (res->as_Goto()) {
      for (i = 0; i < l; i++) {
        if (sux->at(i) == res->as_Goto()->sux_at(0)) {
          assert(res->as_Goto()->is_safepoint() == sw.dest_offset_at(i) < 0, "safepoint state of Goto returned by canonicalizer incorrect");
        }
      }
    }
#endif
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  }
}


void GraphBuilder::lookup_switch() {
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  Bytecode_lookupswitch sw(stream());
  const int l = sw.number_of_pairs();
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  if (CanonicalizeNodes && l == 1) {
    // total of 2 successors => use If instead of switch
    // Note: This code should go into the canonicalizer as soon as it can
    //       can handle canonicalized forms that contain more than one node.
    // simplify to If
1344 1345 1346 1347
    LookupswitchPair pair = sw.pair_at(0);
    Value key = append(new Constant(new IntConstant(pair.match())));
    BlockBegin* tsux = block_at(bci() + pair.offset());
    BlockBegin* fsux = block_at(bci() + sw.default_offset());
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    bool is_bb = tsux->bci() < bci() || fsux->bci() < bci();
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    // In case of loop invariant code motion or predicate insertion
    // before the body of a loop the state is needed
    ValueStack* state_before = copy_state_if_bb(is_bb);;
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    append(new If(ipop(), If::eql, true, key, tsux, fsux, state_before, is_bb));
  } else {
    // collect successors & keys
    BlockList* sux = new BlockList(l + 1, NULL);
    intArray* keys = new intArray(l, 0);
    int i;
    bool has_bb = false;
    for (i = 0; i < l; i++) {
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      LookupswitchPair pair = sw.pair_at(i);
      if (pair.offset() < 0) has_bb = true;
      sux->at_put(i, block_at(bci() + pair.offset()));
      keys->at_put(i, pair.match());
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    }
    // add default successor
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    if (sw.default_offset() < 0) has_bb = true;
1367
    sux->at_put(i, block_at(bci() + sw.default_offset()));
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    // In case of loop invariant code motion or predicate insertion
    // before the body of a loop the state is needed
    ValueStack* state_before = copy_state_if_bb(has_bb);
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    Instruction* res = append(new LookupSwitch(ipop(), sux, keys, state_before, has_bb));
#ifdef ASSERT
    if (res->as_Goto()) {
      for (i = 0; i < l; i++) {
        if (sux->at(i) == res->as_Goto()->sux_at(0)) {
          assert(res->as_Goto()->is_safepoint() == sw.pair_at(i).offset() < 0, "safepoint state of Goto returned by canonicalizer incorrect");
        }
      }
    }
#endif
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  }
}

void GraphBuilder::call_register_finalizer() {
  // If the receiver requires finalization then emit code to perform
  // the registration on return.

  // Gather some type information about the receiver
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  Value receiver = state()->local_at(0);
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  assert(receiver != NULL, "must have a receiver");
  ciType* declared_type = receiver->declared_type();
  ciType* exact_type = receiver->exact_type();
  if (exact_type == NULL &&
      receiver->as_Local() &&
      receiver->as_Local()->java_index() == 0) {
    ciInstanceKlass* ik = compilation()->method()->holder();
    if (ik->is_final()) {
      exact_type = ik;
    } else if (UseCHA && !(ik->has_subklass() || ik->is_interface())) {
      // test class is leaf class
      compilation()->dependency_recorder()->assert_leaf_type(ik);
      exact_type = ik;
    } else {
      declared_type = ik;
    }
  }

  // see if we know statically that registration isn't required
  bool needs_check = true;
  if (exact_type != NULL) {
    needs_check = exact_type->as_instance_klass()->has_finalizer();
  } else if (declared_type != NULL) {
    ciInstanceKlass* ik = declared_type->as_instance_klass();
    if (!Dependencies::has_finalizable_subclass(ik)) {
      compilation()->dependency_recorder()->assert_has_no_finalizable_subclasses(ik);
      needs_check = false;
    }
  }

  if (needs_check) {
    // Perform the registration of finalizable objects.
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    ValueStack* state_before = copy_state_for_exception();
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    load_local(objectType, 0);
    append_split(new Intrinsic(voidType, vmIntrinsics::_Object_init,
                               state()->pop_arguments(1),
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                               true, state_before, true));
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  }
}


void GraphBuilder::method_return(Value x) {
  if (RegisterFinalizersAtInit &&
      method()->intrinsic_id() == vmIntrinsics::_Object_init) {
    call_register_finalizer();
  }

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  bool need_mem_bar = false;
  if (method()->name() == ciSymbol::object_initializer_name() &&
      scope()->wrote_final()) {
    need_mem_bar = true;
  }

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  // Check to see whether we are inlining. If so, Return
  // instructions become Gotos to the continuation point.
  if (continuation() != NULL) {
    assert(!method()->is_synchronized() || InlineSynchronizedMethods, "can not inline synchronized methods yet");

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    if (compilation()->env()->dtrace_method_probes()) {
      // Report exit from inline methods
      Values* args = new Values(1);
1451
      args->push(append(new Constant(new MethodConstant(method()))));
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      append(new RuntimeCall(voidType, "dtrace_method_exit", CAST_FROM_FN_PTR(address, SharedRuntime::dtrace_method_exit), args));
    }

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    // If the inlined method is synchronized, the monitor must be
    // released before we jump to the continuation block.
    if (method()->is_synchronized()) {
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      assert(state()->locks_size() == 1, "receiver must be locked here");
      monitorexit(state()->lock_at(0), SynchronizationEntryBCI);
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    }

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    if (need_mem_bar) {
      append(new MemBar(lir_membar_storestore));
    }

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    // State at end of inlined method is the state of the caller
    // without the method parameters on stack, including the
    // return value, if any, of the inlined method on operand stack.
1469
    int invoke_bci = state()->caller_state()->bci();
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    set_state(state()->caller_state()->copy_for_parsing());
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    if (x != NULL) {
      state()->push(x->type(), x);
1473
      if (profile_return() && x->type()->is_object_kind()) {
1474 1475 1476 1477 1478 1479 1480 1481 1482 1483 1484
        ciMethod* caller = state()->scope()->method();
        ciMethodData* md = caller->method_data_or_null();
        ciProfileData* data = md->bci_to_data(invoke_bci);
        if (data->is_CallTypeData() || data->is_VirtualCallTypeData()) {
          bool has_return = data->is_CallTypeData() ? ((ciCallTypeData*)data)->has_return() : ((ciVirtualCallTypeData*)data)->has_return();
          // May not be true in case of an inlined call through a method handle intrinsic.
          if (has_return) {
            profile_return_type(x, method(), caller, invoke_bci);
          }
        }
      }
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    }
    Goto* goto_callee = new Goto(continuation(), false);

    // See whether this is the first return; if so, store off some
    // of the state for later examination
    if (num_returns() == 0) {
1491
      set_inline_cleanup_info();
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    }

    // The current bci() is in the wrong scope, so use the bci() of
    // the continuation point.
    append_with_bci(goto_callee, scope_data()->continuation()->bci());
    incr_num_returns();
    return;
  }

  state()->truncate_stack(0);
  if (method()->is_synchronized()) {
    // perform the unlocking before exiting the method
    Value receiver;
    if (!method()->is_static()) {
      receiver = _initial_state->local_at(0);
    } else {
      receiver = append(new Constant(new ClassConstant(method()->holder())));
    }
    append_split(new MonitorExit(receiver, state()->unlock()));
  }

1513 1514 1515 1516
  if (need_mem_bar) {
      append(new MemBar(lir_membar_storestore));
  }

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  append(new Return(x));
}


void GraphBuilder::access_field(Bytecodes::Code code) {
  bool will_link;
  ciField* field = stream()->get_field(will_link);
  ciInstanceKlass* holder = field->holder();
  BasicType field_type = field->type()->basic_type();
  ValueType* type = as_ValueType(field_type);
  // call will_link again to determine if the field is valid.
1528 1529 1530
  const bool needs_patching = !holder->is_loaded() ||
                              !field->will_link(method()->holder(), code) ||
                              PatchALot;
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  ValueStack* state_before = NULL;
1533
  if (!holder->is_initialized() || needs_patching) {
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    // save state before instruction for debug info when
    // deoptimization happens during patching
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    state_before = copy_state_before();
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  }

  Value obj = NULL;
  if (code == Bytecodes::_getstatic || code == Bytecodes::_putstatic) {
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    if (state_before != NULL) {
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      // build a patching constant
1543
      obj = new Constant(new InstanceConstant(holder->java_mirror()), state_before);
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    } else {
1545
      obj = new Constant(new InstanceConstant(holder->java_mirror()));
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    }
  }

1549 1550 1551
  if (field->is_final() && (code == Bytecodes::_putfield)) {
    scope()->set_wrote_final();
  }
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1553
  const int offset = !needs_patching ? field->offset() : -1;
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  switch (code) {
    case Bytecodes::_getstatic: {
      // check for compile-time constants, i.e., initialized static final fields
      Instruction* constant = NULL;
      if (field->is_constant() && !PatchALot) {
        ciConstant field_val = field->constant_value();
        BasicType field_type = field_val.basic_type();
        switch (field_type) {
        case T_ARRAY:
        case T_OBJECT:
1564
          if (field_val.as_object()->should_be_constant()) {
1565
            constant = new Constant(as_ValueType(field_val));
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          }
          break;

        default:
          constant = new Constant(as_ValueType(field_val));
        }
1572
        // Stable static fields are checked for non-default values in ciField::initialize_from().
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      }
      if (constant != NULL) {
        push(type, append(constant));
      } else {
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        if (state_before == NULL) {
          state_before = copy_state_for_exception();
        }
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        push(type, append(new LoadField(append(obj), offset, field, true,
1581
                                        state_before, needs_patching)));
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      }
      break;
    }
    case Bytecodes::_putstatic:
      { Value val = pop(type);
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        if (state_before == NULL) {
          state_before = copy_state_for_exception();
        }
1590
        append(new StoreField(append(obj), offset, field, val, true, state_before, needs_patching));
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      }
      break;
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    case Bytecodes::_getfield: {
      // Check for compile-time constants, i.e., trusted final non-static fields.
      Instruction* constant = NULL;
      obj = apop();
      ObjectType* obj_type = obj->type()->as_ObjectType();
      if (obj_type->is_constant() && !PatchALot) {
        ciObject* const_oop = obj_type->constant_value();
1600
        if (!const_oop->is_null_object() && const_oop->is_loaded()) {
1601 1602 1603 1604 1605 1606 1607 1608 1609 1610 1611
          if (field->is_constant()) {
            ciConstant field_val = field->constant_value_of(const_oop);
            BasicType field_type = field_val.basic_type();
            switch (field_type) {
            case T_ARRAY:
            case T_OBJECT:
              if (field_val.as_object()->should_be_constant()) {
                constant = new Constant(as_ValueType(field_val));
              }
              break;
            default:
1612 1613
              constant = new Constant(as_ValueType(field_val));
            }
1614 1615 1616 1617
            if (FoldStableValues && field->is_stable() && field_val.is_null_or_zero()) {
              // Stable field with default value can't be constant.
              constant = NULL;
            }
1618 1619 1620 1621 1622 1623 1624 1625 1626 1627 1628 1629 1630
          } else {
            // For CallSite objects treat the target field as a compile time constant.
            if (const_oop->is_call_site()) {
              ciCallSite* call_site = const_oop->as_call_site();
              if (field->is_call_site_target()) {
                ciMethodHandle* target = call_site->get_target();
                if (target != NULL) {  // just in case
                  ciConstant field_val(T_OBJECT, target);
                  constant = new Constant(as_ValueType(field_val));
                  // Add a dependence for invalidation of the optimization.
                  if (!call_site->is_constant_call_site()) {
                    dependency_recorder()->assert_call_site_target_value(call_site, target);
                  }
1631 1632 1633 1634 1635 1636 1637 1638 1639
                }
              }
            }
          }
        }
      }
      if (constant != NULL) {
        push(type, append(constant));
      } else {
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        if (state_before == NULL) {
          state_before = copy_state_for_exception();
        }
1643
        LoadField* load = new LoadField(obj, offset, field, false, state_before, needs_patching);
1644
        Value replacement = !needs_patching ? _memory->load(load) : load;
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        if (replacement != load) {
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          assert(replacement->is_linked() || !replacement->can_be_linked(), "should already by linked");
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          push(type, replacement);
        } else {
          push(type, append(load));
        }
      }
1652 1653 1654 1655 1656 1657 1658 1659 1660 1661 1662 1663
      break;
    }
    case Bytecodes::_putfield: {
      Value val = pop(type);
      obj = apop();
      if (state_before == NULL) {
        state_before = copy_state_for_exception();
      }
      StoreField* store = new StoreField(obj, offset, field, val, false, state_before, needs_patching);
      if (!needs_patching) store = _memory->store(store);
      if (store != NULL) {
        append(store);
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      }
      break;
1666 1667
    }
    default:
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      ShouldNotReachHere();
      break;
  }
}


Dependencies* GraphBuilder::dependency_recorder() const {
  assert(DeoptC1, "need debug information");
  return compilation()->dependency_recorder();
}

1679
// How many arguments do we want to profile?
1680
Values* GraphBuilder::args_list_for_profiling(ciMethod* target, int& start, bool may_have_receiver) {
1681
  int n = 0;
1682 1683 1684
  bool has_receiver = may_have_receiver && Bytecodes::has_receiver(method()->java_code_at_bci(bci()));
  start = has_receiver ? 1 : 0;
  if (profile_arguments()) {
1685 1686 1687
    ciProfileData* data = method()->method_data()->bci_to_data(bci());
    if (data->is_CallTypeData() || data->is_VirtualCallTypeData()) {
      n = data->is_CallTypeData() ? data->as_CallTypeData()->number_of_arguments() : data->as_VirtualCallTypeData()->number_of_arguments();
1688 1689 1690 1691 1692 1693 1694 1695 1696
    }
  }
  // If we are inlining then we need to collect arguments to profile parameters for the target
  if (profile_parameters() && target != NULL) {
    if (target->method_data() != NULL && target->method_data()->parameters_type_data() != NULL) {
      // The receiver is profiled on method entry so it's included in
      // the number of parameters but here we're only interested in
      // actual arguments.
      n = MAX2(n, target->method_data()->parameters_type_data()->number_of_parameters() - start);
1697 1698 1699 1700 1701 1702 1703 1704
    }
  }
  if (n > 0) {
    return new Values(n);
  }
  return NULL;
}

1705 1706 1707 1708 1709 1710 1711 1712 1713
void GraphBuilder::check_args_for_profiling(Values* obj_args, int expected) {
#ifdef ASSERT
  bool ignored_will_link;
  ciSignature* declared_signature = NULL;
  ciMethod* real_target = method()->get_method_at_bci(bci(), ignored_will_link, &declared_signature);
  assert(expected == obj_args->length() || real_target->is_method_handle_intrinsic(), "missed on arg?");
#endif
}

1714
// Collect arguments that we want to profile in a list
1715
Values* GraphBuilder::collect_args_for_profiling(Values* args, ciMethod* target, bool may_have_receiver) {
1716
  int start = 0;
1717
  Values* obj_args = args_list_for_profiling(target, start, may_have_receiver);
1718 1719 1720 1721
  if (obj_args == NULL) {
    return NULL;
  }
  int s = obj_args->size();
1722 1723
  // if called through method handle invoke, some arguments may have been popped
  for (int i = start, j = 0; j < s && i < args->length(); i++) {
1724 1725 1726 1727 1728
    if (args->at(i)->type()->is_object_kind()) {
      obj_args->push(args->at(i));
      j++;
    }
  }
1729
  check_args_for_profiling(obj_args, s);
1730 1731 1732
  return obj_args;
}

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void GraphBuilder::invoke(Bytecodes::Code code) {
  bool will_link;
1736 1737
  ciSignature* declared_signature = NULL;
  ciMethod*             target = stream()->get_method(will_link, &declared_signature);
1738 1739
  ciKlass*              holder = stream()->get_declared_method_holder();
  const Bytecodes::Code bc_raw = stream()->cur_bc_raw();
1740
  assert(declared_signature != NULL, "cannot be null");
1741

1742 1743
  if (!C1PatchInvokeDynamic && Bytecodes::has_optional_appendix(bc_raw) && !will_link) {
    BAILOUT("unlinked call site (C1PatchInvokeDynamic is off)");
1744 1745
  }

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  // we have to make sure the argument size (incl. the receiver)
  // is correct for compilation (the call would fail later during
  // linkage anyway) - was bug (gri 7/28/99)
1749 1750 1751 1752 1753 1754 1755 1756 1757 1758 1759 1760 1761 1762
  {
    // Use raw to get rewritten bytecode.
    const bool is_invokestatic = bc_raw == Bytecodes::_invokestatic;
    const bool allow_static =
          is_invokestatic ||
          bc_raw == Bytecodes::_invokehandle ||
          bc_raw == Bytecodes::_invokedynamic;
    if (target->is_loaded()) {
      if (( target->is_static() && !allow_static) ||
          (!target->is_static() &&  is_invokestatic)) {
        BAILOUT("will cause link error");
      }
    }
  }
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  ciInstanceKlass* klass = target->holder();

  // check if CHA possible: if so, change the code to invoke_special
  ciInstanceKlass* calling_klass = method()->holder();
  ciInstanceKlass* callee_holder = ciEnv::get_instance_klass_for_declared_method_holder(holder);
  ciInstanceKlass* actual_recv = callee_holder;

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  CompileLog* log = compilation()->log();
  if (log != NULL)
      log->elem("call method='%d' instr='%s'",
                log->identify(target),
                Bytecodes::name(code));

1776 1777 1778 1779
  // Some methods are obviously bindable without any type checks so
  // convert them directly to an invokespecial or invokestatic.
  if (target->is_loaded() && !target->is_abstract() && target->can_be_statically_bound()) {
    switch (bc_raw) {
1780 1781 1782 1783 1784 1785
    case Bytecodes::_invokevirtual:
      code = Bytecodes::_invokespecial;
      break;
    case Bytecodes::_invokehandle:
      code = target->is_static() ? Bytecodes::_invokestatic : Bytecodes::_invokespecial;
      break;
1786
    }
1787 1788 1789 1790 1791
  } else {
    if (bc_raw == Bytecodes::_invokehandle) {
      assert(!will_link, "should come here only for unlinked call");
      code = Bytecodes::_invokespecial;
    }
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  }

1794
  // Push appendix argument (MethodType, CallSite, etc.), if one.
1795 1796 1797 1798 1799 1800 1801 1802 1803
  bool patch_for_appendix = false;
  int patching_appendix_arg = 0;
  if (C1PatchInvokeDynamic &&
      (Bytecodes::has_optional_appendix(bc_raw) && (!will_link || PatchALot))) {
    Value arg = append(new Constant(new ObjectConstant(compilation()->env()->unloaded_ciinstance()), copy_state_before()));
    apush(arg);
    patch_for_appendix = true;
    patching_appendix_arg = (will_link && stream()->has_appendix()) ? 0 : 1;
  } else if (stream()->has_appendix()) {
1804 1805 1806 1807
    ciObject* appendix = stream()->get_appendix();
    Value arg = append(new Constant(new ObjectConstant(appendix)));
    apush(arg);
  }
1808

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  // NEEDS_CLEANUP
1810
  // I've added the target->is_loaded() test below but I don't really understand
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  // how klass->is_loaded() can be true and yet target->is_loaded() is false.
  // this happened while running the JCK invokevirtual tests under doit.  TKR
  ciMethod* cha_monomorphic_target = NULL;
  ciMethod* exact_target = NULL;
1815
  Value better_receiver = NULL;
1816
  if (UseCHA && DeoptC1 && klass->is_loaded() && target->is_loaded() &&
1817 1818
      !(// %%% FIXME: Are both of these relevant?
        target->is_method_handle_intrinsic() ||
1819 1820
        target->is_compiled_lambda_form()) &&
      !patch_for_appendix) {
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    Value receiver = NULL;
    ciInstanceKlass* receiver_klass = NULL;
    bool type_is_exact = false;
    // try to find a precise receiver type
    if (will_link && !target->is_static()) {
      int index = state()->stack_size() - (target->arg_size_no_receiver() + 1);
      receiver = state()->stack_at(index);
      ciType* type = receiver->exact_type();
      if (type != NULL && type->is_loaded() &&
          type->is_instance_klass() && !type->as_instance_klass()->is_interface()) {
        receiver_klass = (ciInstanceKlass*) type;
        type_is_exact = true;
      }
      if (type == NULL) {
        type = receiver->declared_type();
        if (type != NULL && type->is_loaded() &&
            type->is_instance_klass() && !type->as_instance_klass()->is_interface()) {
          receiver_klass = (ciInstanceKlass*) type;
          if (receiver_klass->is_leaf_type() && !receiver_klass->is_final()) {
            // Insert a dependency on this type since
            // find_monomorphic_target may assume it's already done.
            dependency_recorder()->assert_leaf_type(receiver_klass);
            type_is_exact = true;
          }
        }
      }
    }
    if (receiver_klass != NULL && type_is_exact &&
        receiver_klass->is_loaded() && code != Bytecodes::_invokespecial) {
      // If we have the exact receiver type we can bind directly to
      // the method to call.
      exact_target = target->resolve_invoke(calling_klass, receiver_klass);
      if (exact_target != NULL) {
        target = exact_target;
        code = Bytecodes::_invokespecial;
      }
    }
    if (receiver_klass != NULL &&
        receiver_klass->is_subtype_of(actual_recv) &&
        actual_recv->is_initialized()) {
      actual_recv = receiver_klass;
    }

    if ((code == Bytecodes::_invokevirtual && callee_holder->is_initialized()) ||
        (code == Bytecodes::_invokeinterface && callee_holder->is_initialized() && !actual_recv->is_interface())) {
      // Use CHA on the receiver to select a more precise method.
      cha_monomorphic_target = target->find_monomorphic_target(calling_klass, callee_holder, actual_recv);
    } else if (code == Bytecodes::_invokeinterface && callee_holder->is_loaded() && receiver != NULL) {
      // if there is only one implementor of this interface then we
      // may be able bind this invoke directly to the implementing
      // klass but we need both a dependence on the single interface
      // and on the method we bind to.  Additionally since all we know
      // about the receiver type is the it's supposed to implement the
      // interface we have to insert a check that it's the class we
      // expect.  Interface types are not checked by the verifier so
      // they are roughly equivalent to Object.
      ciInstanceKlass* singleton = NULL;
      if (target->holder()->nof_implementors() == 1) {
1879 1880 1881
        singleton = target->holder()->implementor();
        assert(singleton != NULL && singleton != target->holder(),
               "just checking");
1882 1883 1884 1885 1886 1887 1888 1889 1890

        assert(holder->is_interface(), "invokeinterface to non interface?");
        ciInstanceKlass* decl_interface = (ciInstanceKlass*)holder;
        // the number of implementors for decl_interface is less or
        // equal to the number of implementors for target->holder() so
        // if number of implementors of target->holder() == 1 then
        // number of implementors for decl_interface is 0 or 1. If
        // it's 0 then no class implements decl_interface and there's
        // no point in inlining.
1891
        if (!holder->is_loaded() || decl_interface->nof_implementors() != 1 || decl_interface->has_default_methods()) {
1892 1893
          singleton = NULL;
        }
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      }
      if (singleton) {
        cha_monomorphic_target = target->find_monomorphic_target(calling_klass, target->holder(), singleton);
        if (cha_monomorphic_target != NULL) {
          // If CHA is able to bind this invoke then update the class
          // to match that class, otherwise klass will refer to the
          // interface.
          klass = cha_monomorphic_target->holder();
          actual_recv = target->holder();

          // insert a check it's really the expected class.
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          CheckCast* c = new CheckCast(klass, receiver, copy_state_for_exception());
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          c->set_incompatible_class_change_check();
          c->set_direct_compare(klass->is_final());
1908 1909 1910
          // pass the result of the checkcast so that the compiler has
          // more accurate type info in the inlinee
          better_receiver = append_split(c);
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        }
      }
    }
  }

  if (cha_monomorphic_target != NULL) {
    if (cha_monomorphic_target->is_abstract()) {
      // Do not optimize for abstract methods
      cha_monomorphic_target = NULL;
    }
  }

  if (cha_monomorphic_target != NULL) {
    if (!(target->is_final_method())) {
      // If we inlined because CHA revealed only a single target method,
      // then we are dependent on that target method not getting overridden
      // by dynamic class loading.  Be sure to test the "static" receiver
      // dest_method here, as opposed to the actual receiver, which may
      // falsely lead us to believe that the receiver is final or private.
      dependency_recorder()->assert_unique_concrete_method(actual_recv, cha_monomorphic_target);
    }
    code = Bytecodes::_invokespecial;
  }
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  // check if we could do inlining
  if (!PatchALot && Inline && klass->is_loaded() &&
      (klass->is_initialized() || klass->is_interface() && target->holder()->is_initialized())
1938 1939
      && target->is_loaded()
      && !patch_for_appendix) {
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    // callee is known => check if we have static binding
    assert(target->is_loaded(), "callee must be known");
1942 1943 1944 1945 1946
    if (code == Bytecodes::_invokestatic  ||
        code == Bytecodes::_invokespecial ||
        code == Bytecodes::_invokevirtual && target->is_final_method() ||
        code == Bytecodes::_invokedynamic) {
      ciMethod* inline_target = (cha_monomorphic_target != NULL) ? cha_monomorphic_target : target;
1947 1948
      // static binding => check if callee is ok
      bool success = try_inline(inline_target, (cha_monomorphic_target != NULL) || (exact_target != NULL), code, better_receiver);
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1950
      CHECK_BAILOUT();
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      clear_inline_bailout();
1952

1953
      if (success) {
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        // Register dependence if JVMTI has either breakpoint
        // setting or hotswapping of methods capabilities since they may
        // cause deoptimization.
1957
        if (compilation()->env()->jvmti_can_hotswap_or_post_breakpoint()) {
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          dependency_recorder()->assert_evol_method(inline_target);
        }
        return;
      }
1962 1963
    } else {
      print_inlining(target, "no static binding", /*success*/ false);
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    }
1965 1966
  } else {
    print_inlining(target, "not inlineable", /*success*/ false);
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  }
1968

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  // If we attempted an inline which did not succeed because of a
  // bailout during construction of the callee graph, the entire
  // compilation has to be aborted. This is fairly rare and currently
  // seems to only occur for jasm-generated classes which contain
  // jsr/ret pairs which are not associated with finally clauses and
  // do not have exception handlers in the containing method, and are
  // therefore not caught early enough to abort the inlining without
  // corrupting the graph. (We currently bail out with a non-empty
  // stack at a ret in these situations.)
  CHECK_BAILOUT();

  // inlining not successful => standard invoke
1981
  bool is_loaded = target->is_loaded();
1982
  ValueType* result_type = as_ValueType(declared_signature->return_type());
1983
  ValueStack* state_before = copy_state_exhandling();
1984

1985 1986 1987 1988 1989
  // The bytecode (code) might change in this method so we are checking this very late.
  const bool has_receiver =
    code == Bytecodes::_invokespecial   ||
    code == Bytecodes::_invokevirtual   ||
    code == Bytecodes::_invokeinterface;
1990
  Values* args = state()->pop_arguments(target->arg_size_no_receiver() + patching_appendix_arg);
1991
  Value recv = has_receiver ? apop() : NULL;
1992
  int vtable_index = Method::invalid_vtable_index;
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#ifdef SPARC
  // Currently only supported on Sparc.
  // The UseInlineCaches only controls dispatch to invokevirtuals for
  // loaded classes which we weren't able to statically bind.
  if (!UseInlineCaches && is_loaded && code == Bytecodes::_invokevirtual
      && !target->can_be_statically_bound()) {
    // Find a vtable index if one is available
2001 2002 2003 2004 2005 2006 2007
    // For arrays, callee_holder is Object. Resolving the call with
    // Object would allow an illegal call to finalize() on an
    // array. We use holder instead: illegal calls to finalize() won't
    // be compiled as vtable calls (IC call resolution will catch the
    // illegal call) and the few legal calls on array types won't be
    // either.
    vtable_index = target->resolve_vtable_index(calling_klass, holder);
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  }
#endif

  if (recv != NULL &&
      (code == Bytecodes::_invokespecial ||
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       !is_loaded || target->is_final())) {
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    // invokespecial always needs a NULL check.  invokevirtual where
    // the target is final or where it's not known that whether the
    // target is final requires a NULL check.  Otherwise normal
    // invokevirtual will perform the null check during the lookup
    // logic or the unverified entry point.  Profiling of calls
    // requires that the null check is performed in all cases.
    null_check(recv);
  }

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  if (is_profiling()) {
    if (recv != NULL && profile_calls()) {
      null_check(recv);
    }
    // Note that we'd collect profile data in this method if we wanted it.
    compilation()->set_would_profile(true);

    if (profile_calls()) {
      assert(cha_monomorphic_target == NULL || exact_target == NULL, "both can not be set");
      ciKlass* target_klass = NULL;
      if (cha_monomorphic_target != NULL) {
        target_klass = cha_monomorphic_target->holder();
      } else if (exact_target != NULL) {
        target_klass = exact_target->holder();
      }
2038
      profile_call(target, recv, target_klass, collect_args_for_profiling(args, NULL, false), false);
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    }
  }

2042
  Invoke* result = new Invoke(code, result_type, recv, args, vtable_index, target, state_before);
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  // push result
  append_split(result);

  if (result_type != voidType) {
    if (method()->is_strict()) {
      push(result_type, round_fp(result));
    } else {
      push(result_type, result);
    }
  }
2053
  if (profile_return() && result_type->is_object_kind()) {
2054 2055
    profile_return_type(result, target);
  }
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}


void GraphBuilder::new_instance(int klass_index) {
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  ValueStack* state_before = copy_state_exhandling();
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  bool will_link;
  ciKlass* klass = stream()->get_klass(will_link);
  assert(klass->is_instance_klass(), "must be an instance klass");
2064
  NewInstance* new_instance = new NewInstance(klass->as_instance_klass(), state_before, stream()->is_unresolved_klass());
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  _memory->new_instance(new_instance);
  apush(append_split(new_instance));
}


void GraphBuilder::new_type_array() {
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  ValueStack* state_before = copy_state_exhandling();
  apush(append_split(new NewTypeArray(ipop(), (BasicType)stream()->get_index(), state_before)));
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}


void GraphBuilder::new_object_array() {
  bool will_link;
  ciKlass* klass = stream()->get_klass(will_link);
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  ValueStack* state_before = !klass->is_loaded() || PatchALot ? copy_state_before() : copy_state_exhandling();
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  NewArray* n = new NewObjectArray(klass, ipop(), state_before);
  apush(append_split(n));
}


bool GraphBuilder::direct_compare(ciKlass* k) {
  if (k->is_loaded() && k->is_instance_klass() && !UseSlowPath) {
    ciInstanceKlass* ik = k->as_instance_klass();
    if (ik->is_final()) {
      return true;
    } else {
      if (DeoptC1 && UseCHA && !(ik->has_subklass() || ik->is_interface())) {
        // test class is leaf class
        dependency_recorder()->assert_leaf_type(ik);
        return true;
      }
    }
  }
  return false;
}


void GraphBuilder::check_cast(int klass_index) {
  bool will_link;
  ciKlass* klass = stream()->get_klass(will_link);
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  ValueStack* state_before = !klass->is_loaded() || PatchALot ? copy_state_before() : copy_state_for_exception();
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  CheckCast* c = new CheckCast(klass, apop(), state_before);
  apush(append_split(c));
  c->set_direct_compare(direct_compare(klass));
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  if (is_profiling()) {
    // Note that we'd collect profile data in this method if we wanted it.
    compilation()->set_would_profile(true);

    if (profile_checkcasts()) {
      c->set_profiled_method(method());
      c->set_profiled_bci(bci());
      c->set_should_profile(true);
    }
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  }
}


void GraphBuilder::instance_of(int klass_index) {
  bool will_link;
  ciKlass* klass = stream()->get_klass(will_link);
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  ValueStack* state_before = !klass->is_loaded() || PatchALot ? copy_state_before() : copy_state_exhandling();
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  InstanceOf* i = new InstanceOf(klass, apop(), state_before);
  ipush(append_split(i));
  i->set_direct_compare(direct_compare(klass));
2130 2131 2132 2133 2134 2135 2136 2137 2138 2139 2140

  if (is_profiling()) {
    // Note that we'd collect profile data in this method if we wanted it.
    compilation()->set_would_profile(true);

    if (profile_checkcasts()) {
      i->set_profiled_method(method());
      i->set_profiled_bci(bci());
      i->set_should_profile(true);
    }
  }
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}


void GraphBuilder::monitorenter(Value x, int bci) {
  // save state before locking in case of deoptimization after a NullPointerException
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  ValueStack* state_before = copy_state_for_exception_with_bci(bci);
  append_with_bci(new MonitorEnter(x, state()->lock(x), state_before), bci);
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  kill_all();
}


void GraphBuilder::monitorexit(Value x, int bci) {
  append_with_bci(new MonitorExit(x, state()->unlock()), bci);
  kill_all();
}


void GraphBuilder::new_multi_array(int dimensions) {
  bool will_link;
  ciKlass* klass = stream()->get_klass(will_link);
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  ValueStack* state_before = !klass->is_loaded() || PatchALot ? copy_state_before() : copy_state_exhandling();
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  Values* dims = new Values(dimensions, NULL);
  // fill in all dimensions
  int i = dimensions;
  while (i-- > 0) dims->at_put(i, ipop());
  // create array
  NewArray* n = new NewMultiArray(klass, dims, state_before);
  apush(append_split(n));
}


void GraphBuilder::throw_op(int bci) {
  // We require that the debug info for a Throw be the "state before"
  // the Throw (i.e., exception oop is still on TOS)
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  ValueStack* state_before = copy_state_before_with_bci(bci);
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  Throw* t = new Throw(apop(), state_before);
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  // operand stack not needed after a throw
  state()->truncate_stack(0);
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  append_with_bci(t, bci);
}


Value GraphBuilder::round_fp(Value fp_value) {
  // no rounding needed if SSE2 is used
  if (RoundFPResults && UseSSE < 2) {
    // Must currently insert rounding node for doubleword values that
    // are results of expressions (i.e., not loads from memory or
    // constants)
    if (fp_value->type()->tag() == doubleTag &&
        fp_value->as_Constant() == NULL &&
        fp_value->as_Local() == NULL &&       // method parameters need no rounding
        fp_value->as_RoundFP() == NULL) {
      return append(new RoundFP(fp_value));
    }
  }
  return fp_value;
}


Instruction* GraphBuilder::append_with_bci(Instruction* instr, int bci) {
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  Canonicalizer canon(compilation(), instr, bci);
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  Instruction* i1 = canon.canonical();
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  if (i1->is_linked() || !i1->can_be_linked()) {
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    // Canonicalizer returned an instruction which was already
    // appended so simply return it.
    return i1;
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  }

  if (UseLocalValueNumbering) {
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    // Lookup the instruction in the ValueMap and add it to the map if
    // it's not found.
    Instruction* i2 = vmap()->find_insert(i1);
    if (i2 != i1) {
      // found an entry in the value map, so just return it.
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      assert(i2->is_linked(), "should already be linked");
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      return i2;
    }
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    ValueNumberingEffects vne(vmap());
    i1->visit(&vne);
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  }

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  // i1 was not eliminated => append it
  assert(i1->next() == NULL, "shouldn't already be linked");
  _last = _last->set_next(i1, canon.bci());

  if (++_instruction_count >= InstructionCountCutoff && !bailed_out()) {
    // set the bailout state but complete normal processing.  We
    // might do a little more work before noticing the bailout so we
    // want processing to continue normally until it's noticed.
    bailout("Method and/or inlining is too large");
  }
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#ifndef PRODUCT
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  if (PrintIRDuringConstruction) {
    InstructionPrinter ip;
    ip.print_line(i1);
    if (Verbose) {
      state()->print();
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    }
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  }
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#endif
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  // save state after modification of operand stack for StateSplit instructions
  StateSplit* s = i1->as_StateSplit();
  if (s != NULL) {
    if (EliminateFieldAccess) {
      Intrinsic* intrinsic = s->as_Intrinsic();
      if (s->as_Invoke() != NULL || (intrinsic && !intrinsic->preserves_state())) {
        _memory->kill();
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      }
    }
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    s->set_state(state()->copy(ValueStack::StateAfter, canon.bci()));
  }

  // set up exception handlers for this instruction if necessary
  if (i1->can_trap()) {
    i1->set_exception_handlers(handle_exception(i1));
    assert(i1->exception_state() != NULL || !i1->needs_exception_state() || bailed_out(), "handle_exception must set exception state");
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  }
  return i1;
}


Instruction* GraphBuilder::append(Instruction* instr) {
  assert(instr->as_StateSplit() == NULL || instr->as_BlockEnd() != NULL, "wrong append used");
  return append_with_bci(instr, bci());
}


Instruction* GraphBuilder::append_split(StateSplit* instr) {
  return append_with_bci(instr, bci());
}


void GraphBuilder::null_check(Value value) {
  if (value->as_NewArray() != NULL || value->as_NewInstance() != NULL) {
    return;
  } else {
    Constant* con = value->as_Constant();
    if (con) {
      ObjectType* c = con->type()->as_ObjectType();
      if (c && c->is_loaded()) {
        ObjectConstant* oc = c->as_ObjectConstant();
        if (!oc || !oc->value()->is_null_object()) {
          return;
        }
      }
    }
  }
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  append(new NullCheck(value, copy_state_for_exception()));
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}



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XHandlers* GraphBuilder::handle_exception(Instruction* instruction) {
  if (!has_handler() && (!instruction->needs_exception_state() || instruction->exception_state() != NULL)) {
    assert(instruction->exception_state() == NULL
           || instruction->exception_state()->kind() == ValueStack::EmptyExceptionState
           || (instruction->exception_state()->kind() == ValueStack::ExceptionState && _compilation->env()->jvmti_can_access_local_variables()),
           "exception_state should be of exception kind");
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    return new XHandlers();
  }

  XHandlers*  exception_handlers = new XHandlers();
  ScopeData*  cur_scope_data = scope_data();
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  ValueStack* cur_state = instruction->state_before();
  ValueStack* prev_state = NULL;
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  int scope_count = 0;

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  assert(cur_state != NULL, "state_before must be set");
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  do {
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    int cur_bci = cur_state->bci();
    assert(cur_scope_data->scope() == cur_state->scope(), "scopes do not match");
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    assert(cur_bci == SynchronizationEntryBCI || cur_bci == cur_scope_data->stream()->cur_bci(), "invalid bci");

    // join with all potential exception handlers
    XHandlers* list = cur_scope_data->xhandlers();
    const int n = list->length();
    for (int i = 0; i < n; i++) {
      XHandler* h = list->handler_at(i);
      if (h->covers(cur_bci)) {
        // h is a potential exception handler => join it
        compilation()->set_has_exception_handlers(true);

        BlockBegin* entry = h->entry_block();
        if (entry == block()) {
          // It's acceptable for an exception handler to cover itself
          // but we don't handle that in the parser currently.  It's
          // very rare so we bailout instead of trying to handle it.
          BAILOUT_("exception handler covers itself", exception_handlers);
        }
        assert(entry->bci() == h->handler_bci(), "must match");
        assert(entry->bci() == -1 || entry == cur_scope_data->block_at(entry->bci()), "blocks must correspond");

        // previously this was a BAILOUT, but this is not necessary
        // now because asynchronous exceptions are not handled this way.
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        assert(entry->state() == NULL || cur_state->total_locks_size() == entry->state()->total_locks_size(), "locks do not match");
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        // xhandler start with an empty expression stack
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        if (cur_state->stack_size() != 0) {
          cur_state = cur_state->copy(ValueStack::ExceptionState, cur_state->bci());
        }
        if (instruction->exception_state() == NULL) {
          instruction->set_exception_state(cur_state);
        }
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        // Note: Usually this join must work. However, very
        // complicated jsr-ret structures where we don't ret from
        // the subroutine can cause the objects on the monitor
        // stacks to not match because blocks can be parsed twice.
        // The only test case we've seen so far which exhibits this
        // problem is caught by the infinite recursion test in
        // GraphBuilder::jsr() if the join doesn't work.
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        if (!entry->try_merge(cur_state)) {
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          BAILOUT_("error while joining with exception handler, prob. due to complicated jsr/rets", exception_handlers);
        }

        // add current state for correct handling of phi functions at begin of xhandler
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        int phi_operand = entry->add_exception_state(cur_state);
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        // add entry to the list of xhandlers of this block
        _block->add_exception_handler(entry);

        // add back-edge from xhandler entry to this block
        if (!entry->is_predecessor(_block)) {
          entry->add_predecessor(_block);
        }

        // clone XHandler because phi_operand and scope_count can not be shared
        XHandler* new_xhandler = new XHandler(h);
        new_xhandler->set_phi_operand(phi_operand);
        new_xhandler->set_scope_count(scope_count);
        exception_handlers->append(new_xhandler);

        // fill in exception handler subgraph lazily
        assert(!entry->is_set(BlockBegin::was_visited_flag), "entry must not be visited yet");
        cur_scope_data->add_to_work_list(entry);

        // stop when reaching catchall
        if (h->catch_type() == 0) {
          return exception_handlers;
        }
      }
    }

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    if (exception_handlers->length() == 0) {
      // This scope and all callees do not handle exceptions, so the local
      // variables of this scope are not needed. However, the scope itself is
      // required for a correct exception stack trace -> clear out the locals.
      if (_compilation->env()->jvmti_can_access_local_variables()) {
        cur_state = cur_state->copy(ValueStack::ExceptionState, cur_state->bci());
      } else {
        cur_state = cur_state->copy(ValueStack::EmptyExceptionState, cur_state->bci());
      }
      if (prev_state != NULL) {
        prev_state->set_caller_state(cur_state);
      }
      if (instruction->exception_state() == NULL) {
        instruction->set_exception_state(cur_state);
      }
    }

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    // Set up iteration for next time.
    // If parsing a jsr, do not grab exception handlers from the
    // parent scopes for this method (already got them, and they
    // needed to be cloned)
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    while (cur_scope_data->parsing_jsr()) {
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      cur_scope_data = cur_scope_data->parent();
    }
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    assert(cur_scope_data->scope() == cur_state->scope(), "scopes do not match");
    assert(cur_state->locks_size() == 0 || cur_state->locks_size() == 1, "unlocking must be done in a catchall exception handler");

    prev_state = cur_state;
    cur_state = cur_state->caller_state();
    cur_scope_data = cur_scope_data->parent();
    scope_count++;
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  } while (cur_scope_data != NULL);

  return exception_handlers;
}


// Helper class for simplifying Phis.
class PhiSimplifier : public BlockClosure {
 private:
  bool _has_substitutions;
  Value simplify(Value v);

 public:
  PhiSimplifier(BlockBegin* start) : _has_substitutions(false) {
    start->iterate_preorder(this);
    if (_has_substitutions) {
      SubstitutionResolver sr(start);
    }
  }
  void block_do(BlockBegin* b);
  bool has_substitutions() const { return _has_substitutions; }
};


Value PhiSimplifier::simplify(Value v) {
  Phi* phi = v->as_Phi();

  if (phi == NULL) {
    // no phi function
    return v;
  } else if (v->has_subst()) {
    // already substituted; subst can be phi itself -> simplify
    return simplify(v->subst());
  } else if (phi->is_set(Phi::cannot_simplify)) {
    // already tried to simplify phi before
    return phi;
  } else if (phi->is_set(Phi::visited)) {
    // break cycles in phi functions
    return phi;
  } else if (phi->type()->is_illegal()) {
    // illegal phi functions are ignored anyway
    return phi;

  } else {
    // mark phi function as processed to break cycles in phi functions
    phi->set(Phi::visited);

    // simplify x = [y, x] and x = [y, y] to y
    Value subst = NULL;
    int opd_count = phi->operand_count();
    for (int i = 0; i < opd_count; i++) {
      Value opd = phi->operand_at(i);
      assert(opd != NULL, "Operand must exist!");

      if (opd->type()->is_illegal()) {
        // if one operand is illegal, the entire phi function is illegal
        phi->make_illegal();
        phi->clear(Phi::visited);
        return phi;
      }

      Value new_opd = simplify(opd);
      assert(new_opd != NULL, "Simplified operand must exist!");

      if (new_opd != phi && new_opd != subst) {
        if (subst == NULL) {
          subst = new_opd;
        } else {
          // no simplification possible
          phi->set(Phi::cannot_simplify);
          phi->clear(Phi::visited);
          return phi;
        }
      }
    }

    // sucessfully simplified phi function
    assert(subst != NULL, "illegal phi function");
    _has_substitutions = true;
    phi->clear(Phi::visited);
    phi->set_subst(subst);

#ifndef PRODUCT
    if (PrintPhiFunctions) {
      tty->print_cr("simplified phi function %c%d to %c%d (Block B%d)", phi->type()->tchar(), phi->id(), subst->type()->tchar(), subst->id(), phi->block()->block_id());
    }
#endif

    return subst;
  }
}


void PhiSimplifier::block_do(BlockBegin* b) {
  for_each_phi_fun(b, phi,
    simplify(phi);
  );

#ifdef ASSERT
  for_each_phi_fun(b, phi,
                   assert(phi->operand_count() != 1 || phi->subst() != phi, "missed trivial simplification");
  );

  ValueStack* state = b->state()->caller_state();
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  for_each_state_value(state, value,
    Phi* phi = value->as_Phi();
    assert(phi == NULL || phi->block() != b, "must not have phi function to simplify in caller state");
  );
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#endif
}

// This method is called after all blocks are filled with HIR instructions
// It eliminates all Phi functions of the form x = [y, y] and x = [y, x]
void GraphBuilder::eliminate_redundant_phis(BlockBegin* start) {
  PhiSimplifier simplifier(start);
}


void GraphBuilder::connect_to_end(BlockBegin* beg) {
  // setup iteration
  kill_all();
  _block = beg;
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  _state = beg->state()->copy_for_parsing();
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  _last  = beg;
  iterate_bytecodes_for_block(beg->bci());
}


BlockEnd* GraphBuilder::iterate_bytecodes_for_block(int bci) {
#ifndef PRODUCT
  if (PrintIRDuringConstruction) {
    tty->cr();
    InstructionPrinter ip;
    ip.print_instr(_block); tty->cr();
    ip.print_stack(_block->state()); tty->cr();
    ip.print_inline_level(_block);
    ip.print_head();
    tty->print_cr("locals size: %d stack size: %d", state()->locals_size(), state()->stack_size());
  }
#endif
  _skip_block = false;
  assert(state() != NULL, "ValueStack missing!");
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  CompileLog* log = compilation()->log();
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  ciBytecodeStream s(method());
  s.reset_to_bci(bci);
  int prev_bci = bci;
  scope_data()->set_stream(&s);
  // iterate
  Bytecodes::Code code = Bytecodes::_illegal;
  bool push_exception = false;

  if (block()->is_set(BlockBegin::exception_entry_flag) && block()->next() == NULL) {
    // first thing in the exception entry block should be the exception object.
    push_exception = true;
  }

  while (!bailed_out() && last()->as_BlockEnd() == NULL &&
         (code = stream()->next()) != ciBytecodeStream::EOBC() &&
         (block_at(s.cur_bci()) == NULL || block_at(s.cur_bci()) == block())) {
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    assert(state()->kind() == ValueStack::Parsing, "invalid state kind");
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    if (log != NULL)
      log->set_context("bc code='%d' bci='%d'", (int)code, s.cur_bci());

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    // Check for active jsr during OSR compilation
    if (compilation()->is_osr_compile()
        && scope()->is_top_scope()
        && parsing_jsr()
        && s.cur_bci() == compilation()->osr_bci()) {
      bailout("OSR not supported while a jsr is active");
    }

    if (push_exception) {
      apush(append(new ExceptionObject()));
      push_exception = false;
    }

    // handle bytecode
    switch (code) {
      case Bytecodes::_nop            : /* nothing to do */ break;
      case Bytecodes::_aconst_null    : apush(append(new Constant(objectNull            ))); break;
      case Bytecodes::_iconst_m1      : ipush(append(new Constant(new IntConstant   (-1)))); break;
      case Bytecodes::_iconst_0       : ipush(append(new Constant(intZero               ))); break;
      case Bytecodes::_iconst_1       : ipush(append(new Constant(intOne                ))); break;
      case Bytecodes::_iconst_2       : ipush(append(new Constant(new IntConstant   ( 2)))); break;
      case Bytecodes::_iconst_3       : ipush(append(new Constant(new IntConstant   ( 3)))); break;
      case Bytecodes::_iconst_4       : ipush(append(new Constant(new IntConstant   ( 4)))); break;
      case Bytecodes::_iconst_5       : ipush(append(new Constant(new IntConstant   ( 5)))); break;
      case Bytecodes::_lconst_0       : lpush(append(new Constant(new LongConstant  ( 0)))); break;
      case Bytecodes::_lconst_1       : lpush(append(new Constant(new LongConstant  ( 1)))); break;
      case Bytecodes::_fconst_0       : fpush(append(new Constant(new FloatConstant ( 0)))); break;
      case Bytecodes::_fconst_1       : fpush(append(new Constant(new FloatConstant ( 1)))); break;
      case Bytecodes::_fconst_2       : fpush(append(new Constant(new FloatConstant ( 2)))); break;
      case Bytecodes::_dconst_0       : dpush(append(new Constant(new DoubleConstant( 0)))); break;
      case Bytecodes::_dconst_1       : dpush(append(new Constant(new DoubleConstant( 1)))); break;
      case Bytecodes::_bipush         : ipush(append(new Constant(new IntConstant(((signed char*)s.cur_bcp())[1])))); break;
      case Bytecodes::_sipush         : ipush(append(new Constant(new IntConstant((short)Bytes::get_Java_u2(s.cur_bcp()+1))))); break;
      case Bytecodes::_ldc            : // fall through
      case Bytecodes::_ldc_w          : // fall through
      case Bytecodes::_ldc2_w         : load_constant(); break;
      case Bytecodes::_iload          : load_local(intType     , s.get_index()); break;
      case Bytecodes::_lload          : load_local(longType    , s.get_index()); break;
      case Bytecodes::_fload          : load_local(floatType   , s.get_index()); break;
      case Bytecodes::_dload          : load_local(doubleType  , s.get_index()); break;
      case Bytecodes::_aload          : load_local(instanceType, s.get_index()); break;
      case Bytecodes::_iload_0        : load_local(intType   , 0); break;
      case Bytecodes::_iload_1        : load_local(intType   , 1); break;
      case Bytecodes::_iload_2        : load_local(intType   , 2); break;
      case Bytecodes::_iload_3        : load_local(intType   , 3); break;
      case Bytecodes::_lload_0        : load_local(longType  , 0); break;
      case Bytecodes::_lload_1        : load_local(longType  , 1); break;
      case Bytecodes::_lload_2        : load_local(longType  , 2); break;
      case Bytecodes::_lload_3        : load_local(longType  , 3); break;
      case Bytecodes::_fload_0        : load_local(floatType , 0); break;
      case Bytecodes::_fload_1        : load_local(floatType , 1); break;
      case Bytecodes::_fload_2        : load_local(floatType , 2); break;
      case Bytecodes::_fload_3        : load_local(floatType , 3); break;
      case Bytecodes::_dload_0        : load_local(doubleType, 0); break;
      case Bytecodes::_dload_1        : load_local(doubleType, 1); break;
      case Bytecodes::_dload_2        : load_local(doubleType, 2); break;
      case Bytecodes::_dload_3        : load_local(doubleType, 3); break;
      case Bytecodes::_aload_0        : load_local(objectType, 0); break;
      case Bytecodes::_aload_1        : load_local(objectType, 1); break;
      case Bytecodes::_aload_2        : load_local(objectType, 2); break;
      case Bytecodes::_aload_3        : load_local(objectType, 3); break;
      case Bytecodes::_iaload         : load_indexed(T_INT   ); break;
      case Bytecodes::_laload         : load_indexed(T_LONG  ); break;
      case Bytecodes::_faload         : load_indexed(T_FLOAT ); break;
      case Bytecodes::_daload         : load_indexed(T_DOUBLE); break;
      case Bytecodes::_aaload         : load_indexed(T_OBJECT); break;
      case Bytecodes::_baload         : load_indexed(T_BYTE  ); break;
      case Bytecodes::_caload         : load_indexed(T_CHAR  ); break;
      case Bytecodes::_saload         : load_indexed(T_SHORT ); break;
      case Bytecodes::_istore         : store_local(intType   , s.get_index()); break;
      case Bytecodes::_lstore         : store_local(longType  , s.get_index()); break;
      case Bytecodes::_fstore         : store_local(floatType , s.get_index()); break;
      case Bytecodes::_dstore         : store_local(doubleType, s.get_index()); break;
      case Bytecodes::_astore         : store_local(objectType, s.get_index()); break;
      case Bytecodes::_istore_0       : store_local(intType   , 0); break;
      case Bytecodes::_istore_1       : store_local(intType   , 1); break;
      case Bytecodes::_istore_2       : store_local(intType   , 2); break;
      case Bytecodes::_istore_3       : store_local(intType   , 3); break;
      case Bytecodes::_lstore_0       : store_local(longType  , 0); break;
      case Bytecodes::_lstore_1       : store_local(longType  , 1); break;
      case Bytecodes::_lstore_2       : store_local(longType  , 2); break;
      case Bytecodes::_lstore_3       : store_local(longType  , 3); break;
      case Bytecodes::_fstore_0       : store_local(floatType , 0); break;
      case Bytecodes::_fstore_1       : store_local(floatType , 1); break;
      case Bytecodes::_fstore_2       : store_local(floatType , 2); break;
      case Bytecodes::_fstore_3       : store_local(floatType , 3); break;
      case Bytecodes::_dstore_0       : store_local(doubleType, 0); break;
      case Bytecodes::_dstore_1       : store_local(doubleType, 1); break;
      case Bytecodes::_dstore_2       : store_local(doubleType, 2); break;
      case Bytecodes::_dstore_3       : store_local(doubleType, 3); break;
      case Bytecodes::_astore_0       : store_local(objectType, 0); break;
      case Bytecodes::_astore_1       : store_local(objectType, 1); break;
      case Bytecodes::_astore_2       : store_local(objectType, 2); break;
      case Bytecodes::_astore_3       : store_local(objectType, 3); break;
      case Bytecodes::_iastore        : store_indexed(T_INT   ); break;
      case Bytecodes::_lastore        : store_indexed(T_LONG  ); break;
      case Bytecodes::_fastore        : store_indexed(T_FLOAT ); break;
      case Bytecodes::_dastore        : store_indexed(T_DOUBLE); break;
      case Bytecodes::_aastore        : store_indexed(T_OBJECT); break;
      case Bytecodes::_bastore        : store_indexed(T_BYTE  ); break;
      case Bytecodes::_castore        : store_indexed(T_CHAR  ); break;
      case Bytecodes::_sastore        : store_indexed(T_SHORT ); break;
      case Bytecodes::_pop            : // fall through
      case Bytecodes::_pop2           : // fall through
      case Bytecodes::_dup            : // fall through
      case Bytecodes::_dup_x1         : // fall through
      case Bytecodes::_dup_x2         : // fall through
      case Bytecodes::_dup2           : // fall through
      case Bytecodes::_dup2_x1        : // fall through
      case Bytecodes::_dup2_x2        : // fall through
      case Bytecodes::_swap           : stack_op(code); break;
      case Bytecodes::_iadd           : arithmetic_op(intType   , code); break;
      case Bytecodes::_ladd           : arithmetic_op(longType  , code); break;
      case Bytecodes::_fadd           : arithmetic_op(floatType , code); break;
      case Bytecodes::_dadd           : arithmetic_op(doubleType, code); break;
      case Bytecodes::_isub           : arithmetic_op(intType   , code); break;
      case Bytecodes::_lsub           : arithmetic_op(longType  , code); break;
      case Bytecodes::_fsub           : arithmetic_op(floatType , code); break;
      case Bytecodes::_dsub           : arithmetic_op(doubleType, code); break;
      case Bytecodes::_imul           : arithmetic_op(intType   , code); break;
      case Bytecodes::_lmul           : arithmetic_op(longType  , code); break;
      case Bytecodes::_fmul           : arithmetic_op(floatType , code); break;
      case Bytecodes::_dmul           : arithmetic_op(doubleType, code); break;
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      case Bytecodes::_idiv           : arithmetic_op(intType   , code, copy_state_for_exception()); break;
      case Bytecodes::_ldiv           : arithmetic_op(longType  , code, copy_state_for_exception()); break;
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      case Bytecodes::_fdiv           : arithmetic_op(floatType , code); break;
      case Bytecodes::_ddiv           : arithmetic_op(doubleType, code); break;
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      case Bytecodes::_irem           : arithmetic_op(intType   , code, copy_state_for_exception()); break;
      case Bytecodes::_lrem           : arithmetic_op(longType  , code, copy_state_for_exception()); break;
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      case Bytecodes::_frem           : arithmetic_op(floatType , code); break;
      case Bytecodes::_drem           : arithmetic_op(doubleType, code); break;
      case Bytecodes::_ineg           : negate_op(intType   ); break;
      case Bytecodes::_lneg           : negate_op(longType  ); break;
      case Bytecodes::_fneg           : negate_op(floatType ); break;
      case Bytecodes::_dneg           : negate_op(doubleType); break;
      case Bytecodes::_ishl           : shift_op(intType , code); break;
      case Bytecodes::_lshl           : shift_op(longType, code); break;
      case Bytecodes::_ishr           : shift_op(intType , code); break;
      case Bytecodes::_lshr           : shift_op(longType, code); break;
      case Bytecodes::_iushr          : shift_op(intType , code); break;
      case Bytecodes::_lushr          : shift_op(longType, code); break;
      case Bytecodes::_iand           : logic_op(intType , code); break;
      case Bytecodes::_land           : logic_op(longType, code); break;
      case Bytecodes::_ior            : logic_op(intType , code); break;
      case Bytecodes::_lor            : logic_op(longType, code); break;
      case Bytecodes::_ixor           : logic_op(intType , code); break;
      case Bytecodes::_lxor           : logic_op(longType, code); break;
      case Bytecodes::_iinc           : increment(); break;
      case Bytecodes::_i2l            : convert(code, T_INT   , T_LONG  ); break;
      case Bytecodes::_i2f            : convert(code, T_INT   , T_FLOAT ); break;
      case Bytecodes::_i2d            : convert(code, T_INT   , T_DOUBLE); break;
      case Bytecodes::_l2i            : convert(code, T_LONG  , T_INT   ); break;
      case Bytecodes::_l2f            : convert(code, T_LONG  , T_FLOAT ); break;
      case Bytecodes::_l2d            : convert(code, T_LONG  , T_DOUBLE); break;
      case Bytecodes::_f2i            : convert(code, T_FLOAT , T_INT   ); break;
      case Bytecodes::_f2l            : convert(code, T_FLOAT , T_LONG  ); break;
      case Bytecodes::_f2d            : convert(code, T_FLOAT , T_DOUBLE); break;
      case Bytecodes::_d2i            : convert(code, T_DOUBLE, T_INT   ); break;
      case Bytecodes::_d2l            : convert(code, T_DOUBLE, T_LONG  ); break;
      case Bytecodes::_d2f            : convert(code, T_DOUBLE, T_FLOAT ); break;
      case Bytecodes::_i2b            : convert(code, T_INT   , T_BYTE  ); break;
      case Bytecodes::_i2c            : convert(code, T_INT   , T_CHAR  ); break;
      case Bytecodes::_i2s            : convert(code, T_INT   , T_SHORT ); break;
      case Bytecodes::_lcmp           : compare_op(longType  , code); break;
      case Bytecodes::_fcmpl          : compare_op(floatType , code); break;
      case Bytecodes::_fcmpg          : compare_op(floatType , code); break;
      case Bytecodes::_dcmpl          : compare_op(doubleType, code); break;
      case Bytecodes::_dcmpg          : compare_op(doubleType, code); break;
      case Bytecodes::_ifeq           : if_zero(intType   , If::eql); break;
      case Bytecodes::_ifne           : if_zero(intType   , If::neq); break;
      case Bytecodes::_iflt           : if_zero(intType   , If::lss); break;
      case Bytecodes::_ifge           : if_zero(intType   , If::geq); break;
      case Bytecodes::_ifgt           : if_zero(intType   , If::gtr); break;
      case Bytecodes::_ifle           : if_zero(intType   , If::leq); break;
      case Bytecodes::_if_icmpeq      : if_same(intType   , If::eql); break;
      case Bytecodes::_if_icmpne      : if_same(intType   , If::neq); break;
      case Bytecodes::_if_icmplt      : if_same(intType   , If::lss); break;
      case Bytecodes::_if_icmpge      : if_same(intType   , If::geq); break;
      case Bytecodes::_if_icmpgt      : if_same(intType   , If::gtr); break;
      case Bytecodes::_if_icmple      : if_same(intType   , If::leq); break;
      case Bytecodes::_if_acmpeq      : if_same(objectType, If::eql); break;
      case Bytecodes::_if_acmpne      : if_same(objectType, If::neq); break;
      case Bytecodes::_goto           : _goto(s.cur_bci(), s.get_dest()); break;
      case Bytecodes::_jsr            : jsr(s.get_dest()); break;
      case Bytecodes::_ret            : ret(s.get_index()); break;
      case Bytecodes::_tableswitch    : table_switch(); break;
      case Bytecodes::_lookupswitch   : lookup_switch(); break;
      case Bytecodes::_ireturn        : method_return(ipop()); break;
      case Bytecodes::_lreturn        : method_return(lpop()); break;
      case Bytecodes::_freturn        : method_return(fpop()); break;
      case Bytecodes::_dreturn        : method_return(dpop()); break;
      case Bytecodes::_areturn        : method_return(apop()); break;
      case Bytecodes::_return         : method_return(NULL  ); break;
      case Bytecodes::_getstatic      : // fall through
      case Bytecodes::_putstatic      : // fall through
      case Bytecodes::_getfield       : // fall through
      case Bytecodes::_putfield       : access_field(code); break;
      case Bytecodes::_invokevirtual  : // fall through
      case Bytecodes::_invokespecial  : // fall through
      case Bytecodes::_invokestatic   : // fall through
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      case Bytecodes::_invokedynamic  : // fall through
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      case Bytecodes::_invokeinterface: invoke(code); break;
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      case Bytecodes::_new            : new_instance(s.get_index_u2()); break;
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      case Bytecodes::_newarray       : new_type_array(); break;
      case Bytecodes::_anewarray      : new_object_array(); break;
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      case Bytecodes::_arraylength    : { ValueStack* state_before = copy_state_for_exception(); ipush(append(new ArrayLength(apop(), state_before))); break; }
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      case Bytecodes::_athrow         : throw_op(s.cur_bci()); break;
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      case Bytecodes::_checkcast      : check_cast(s.get_index_u2()); break;
      case Bytecodes::_instanceof     : instance_of(s.get_index_u2()); break;
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      case Bytecodes::_monitorenter   : monitorenter(apop(), s.cur_bci()); break;
      case Bytecodes::_monitorexit    : monitorexit (apop(), s.cur_bci()); break;
      case Bytecodes::_wide           : ShouldNotReachHere(); break;
      case Bytecodes::_multianewarray : new_multi_array(s.cur_bcp()[3]); break;
      case Bytecodes::_ifnull         : if_null(objectType, If::eql); break;
      case Bytecodes::_ifnonnull      : if_null(objectType, If::neq); break;
      case Bytecodes::_goto_w         : _goto(s.cur_bci(), s.get_far_dest()); break;
      case Bytecodes::_jsr_w          : jsr(s.get_far_dest()); break;
      case Bytecodes::_breakpoint     : BAILOUT_("concurrent setting of breakpoint", NULL);
      default                         : ShouldNotReachHere(); break;
    }
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    if (log != NULL)
      log->clear_context(); // skip marker if nothing was printed

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    // save current bci to setup Goto at the end
    prev_bci = s.cur_bci();
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  }
  CHECK_BAILOUT_(NULL);
  // stop processing of this block (see try_inline_full)
  if (_skip_block) {
    _skip_block = false;
    assert(_last && _last->as_BlockEnd(), "");
    return _last->as_BlockEnd();
  }
  // if there are any, check if last instruction is a BlockEnd instruction
  BlockEnd* end = last()->as_BlockEnd();
  if (end == NULL) {
    // all blocks must end with a BlockEnd instruction => add a Goto
    end = new Goto(block_at(s.cur_bci()), false);
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    append(end);
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  }
  assert(end == last()->as_BlockEnd(), "inconsistency");

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  assert(end->state() != NULL, "state must already be present");
  assert(end->as_Return() == NULL || end->as_Throw() == NULL || end->state()->stack_size() == 0, "stack not needed for return and throw");
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  // connect to begin & set state
  // NOTE that inlining may have changed the block we are parsing
  block()->set_end(end);
  // propagate state
  for (int i = end->number_of_sux() - 1; i >= 0; i--) {
    BlockBegin* sux = end->sux_at(i);
    assert(sux->is_predecessor(block()), "predecessor missing");
    // be careful, bailout if bytecodes are strange
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    if (!sux->try_merge(end->state())) BAILOUT_("block join failed", NULL);
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    scope_data()->add_to_work_list(end->sux_at(i));
  }

  scope_data()->set_stream(NULL);

  // done
  return end;
}


void GraphBuilder::iterate_all_blocks(bool start_in_current_block_for_inlining) {
  do {
    if (start_in_current_block_for_inlining && !bailed_out()) {
      iterate_bytecodes_for_block(0);
      start_in_current_block_for_inlining = false;
    } else {
      BlockBegin* b;
      while ((b = scope_data()->remove_from_work_list()) != NULL) {
        if (!b->is_set(BlockBegin::was_visited_flag)) {
          if (b->is_set(BlockBegin::osr_entry_flag)) {
            // we're about to parse the osr entry block, so make sure
            // we setup the OSR edge leading into this block so that
            // Phis get setup correctly.
            setup_osr_entry_block();
            // this is no longer the osr entry block, so clear it.
            b->clear(BlockBegin::osr_entry_flag);
          }
          b->set(BlockBegin::was_visited_flag);
          connect_to_end(b);
        }
      }
    }
  } while (!bailed_out() && !scope_data()->is_work_list_empty());
}


bool GraphBuilder::_can_trap      [Bytecodes::number_of_java_codes];

void GraphBuilder::initialize() {
  // the following bytecodes are assumed to potentially
  // throw exceptions in compiled code - note that e.g.
  // monitorexit & the return bytecodes do not throw
  // exceptions since monitor pairing proved that they
  // succeed (if monitor pairing succeeded)
  Bytecodes::Code can_trap_list[] =
    { Bytecodes::_ldc
    , Bytecodes::_ldc_w
    , Bytecodes::_ldc2_w
    , Bytecodes::_iaload
    , Bytecodes::_laload
    , Bytecodes::_faload
    , Bytecodes::_daload
    , Bytecodes::_aaload
    , Bytecodes::_baload
    , Bytecodes::_caload
    , Bytecodes::_saload
    , Bytecodes::_iastore
    , Bytecodes::_lastore
    , Bytecodes::_fastore
    , Bytecodes::_dastore
    , Bytecodes::_aastore
    , Bytecodes::_bastore
    , Bytecodes::_castore
    , Bytecodes::_sastore
    , Bytecodes::_idiv
    , Bytecodes::_ldiv
    , Bytecodes::_irem
    , Bytecodes::_lrem
    , Bytecodes::_getstatic
    , Bytecodes::_putstatic
    , Bytecodes::_getfield
    , Bytecodes::_putfield
    , Bytecodes::_invokevirtual
    , Bytecodes::_invokespecial
    , Bytecodes::_invokestatic
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    , Bytecodes::_invokedynamic
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    , Bytecodes::_invokeinterface
    , Bytecodes::_new
    , Bytecodes::_newarray
    , Bytecodes::_anewarray
    , Bytecodes::_arraylength
    , Bytecodes::_athrow
    , Bytecodes::_checkcast
    , Bytecodes::_instanceof
    , Bytecodes::_monitorenter
    , Bytecodes::_multianewarray
    };

  // inititialize trap tables
  for (int i = 0; i < Bytecodes::number_of_java_codes; i++) {
    _can_trap[i] = false;
  }
  // set standard trap info
  for (uint j = 0; j < ARRAY_SIZE(can_trap_list); j++) {
    _can_trap[can_trap_list[j]] = true;
  }
}


BlockBegin* GraphBuilder::header_block(BlockBegin* entry, BlockBegin::Flag f, ValueStack* state) {
  assert(entry->is_set(f), "entry/flag mismatch");
  // create header block
  BlockBegin* h = new BlockBegin(entry->bci());
  h->set_depth_first_number(0);

  Value l = h;
  BlockEnd* g = new Goto(entry, false);
  l->set_next(g, entry->bci());
  h->set_end(g);
  h->set(f);
  // setup header block end state
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  ValueStack* s = state->copy(ValueStack::StateAfter, entry->bci()); // can use copy since stack is empty (=> no phis)
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  assert(s->stack_is_empty(), "must have empty stack at entry point");
  g->set_state(s);
  return h;
}



BlockBegin* GraphBuilder::setup_start_block(int osr_bci, BlockBegin* std_entry, BlockBegin* osr_entry, ValueStack* state) {
  BlockBegin* start = new BlockBegin(0);

  // This code eliminates the empty start block at the beginning of
  // each method.  Previously, each method started with the
  // start-block created below, and this block was followed by the
  // header block that was always empty.  This header block is only
  // necesary if std_entry is also a backward branch target because
  // then phi functions may be necessary in the header block.  It's
  // also necessary when profiling so that there's a single block that
  // can increment the interpreter_invocation_count.
  BlockBegin* new_header_block;
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  if (std_entry->number_of_preds() > 0 || count_invocations() || count_backedges()) {
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    new_header_block = header_block(std_entry, BlockBegin::std_entry_flag, state);
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  } else {
    new_header_block = std_entry;
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  }

  // setup start block (root for the IR graph)
  Base* base =
    new Base(
      new_header_block,
      osr_entry
    );
  start->set_next(base, 0);
  start->set_end(base);
  // create & setup state for start block
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  start->set_state(state->copy(ValueStack::StateAfter, std_entry->bci()));
  base->set_state(state->copy(ValueStack::StateAfter, std_entry->bci()));
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  if (base->std_entry()->state() == NULL) {
    // setup states for header blocks
    base->std_entry()->merge(state);
  }

  assert(base->std_entry()->state() != NULL, "");
  return start;
}


void GraphBuilder::setup_osr_entry_block() {
  assert(compilation()->is_osr_compile(), "only for osrs");

  int osr_bci = compilation()->osr_bci();
  ciBytecodeStream s(method());
  s.reset_to_bci(osr_bci);
  s.next();
  scope_data()->set_stream(&s);

  // create a new block to be the osr setup code
  _osr_entry = new BlockBegin(osr_bci);
  _osr_entry->set(BlockBegin::osr_entry_flag);
  _osr_entry->set_depth_first_number(0);
  BlockBegin* target = bci2block()->at(osr_bci);
  assert(target != NULL && target->is_set(BlockBegin::osr_entry_flag), "must be there");
  // the osr entry has no values for locals
  ValueStack* state = target->state()->copy();
  _osr_entry->set_state(state);

  kill_all();
  _block = _osr_entry;
  _state = _osr_entry->state()->copy();
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  assert(_state->bci() == osr_bci, "mismatch");
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  _last  = _osr_entry;
  Value e = append(new OsrEntry());
  e->set_needs_null_check(false);

  // OSR buffer is
  //
  // locals[nlocals-1..0]
  // monitors[number_of_locks-1..0]
  //
  // locals is a direct copy of the interpreter frame so in the osr buffer
  // so first slot in the local array is the last local from the interpreter
  // and last slot is local[0] (receiver) from the interpreter
  //
  // Similarly with locks. The first lock slot in the osr buffer is the nth lock
  // from the interpreter frame, the nth lock slot in the osr buffer is 0th lock
  // in the interpreter frame (the method lock if a sync method)

  // Initialize monitors in the compiled activation.

  int index;
  Value local;

  // find all the locals that the interpreter thinks contain live oops
  const BitMap live_oops = method()->live_local_oops_at_bci(osr_bci);

  // compute the offset into the locals so that we can treat the buffer
  // as if the locals were still in the interpreter frame
  int locals_offset = BytesPerWord * (method()->max_locals() - 1);
  for_each_local_value(state, index, local) {
    int offset = locals_offset - (index + local->type()->size() - 1) * BytesPerWord;
    Value get;
    if (local->type()->is_object_kind() && !live_oops.at(index)) {
      // The interpreter thinks this local is dead but the compiler
      // doesn't so pretend that the interpreter passed in null.
      get = append(new Constant(objectNull));
    } else {
      get = append(new UnsafeGetRaw(as_BasicType(local->type()), e,
                                    append(new Constant(new IntConstant(offset))),
                                    0,
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                                    true /*unaligned*/, true /*wide*/));
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    }
    _state->store_local(index, get);
  }

  // the storage for the OSR buffer is freed manually in the LIRGenerator.

  assert(state->caller_state() == NULL, "should be top scope");
  state->clear_locals();
  Goto* g = new Goto(target, false);
  append(g);
  _osr_entry->set_end(g);
  target->merge(_osr_entry->end()->state());

  scope_data()->set_stream(NULL);
}


ValueStack* GraphBuilder::state_at_entry() {
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  ValueStack* state = new ValueStack(scope(), NULL);
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  // Set up locals for receiver
  int idx = 0;
  if (!method()->is_static()) {
    // we should always see the receiver
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    state->store_local(idx, new Local(method()->holder(), objectType, idx));
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    idx = 1;
  }

  // Set up locals for incoming arguments
  ciSignature* sig = method()->signature();
  for (int i = 0; i < sig->count(); i++) {
    ciType* type = sig->type_at(i);
    BasicType basic_type = type->basic_type();
    // don't allow T_ARRAY to propagate into locals types
    if (basic_type == T_ARRAY) basic_type = T_OBJECT;
    ValueType* vt = as_ValueType(basic_type);
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    state->store_local(idx, new Local(type, vt, idx));
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    idx += type->size();
  }

  // lock synchronized method
  if (method()->is_synchronized()) {
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    state->lock(NULL);
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  }

  return state;
}


GraphBuilder::GraphBuilder(Compilation* compilation, IRScope* scope)
  : _scope_data(NULL)
  , _instruction_count(0)
  , _osr_entry(NULL)
  , _memory(new MemoryBuffer())
  , _compilation(compilation)
  , _inline_bailout_msg(NULL)
{
  int osr_bci = compilation->osr_bci();

  // determine entry points and bci2block mapping
  BlockListBuilder blm(compilation, scope, osr_bci);
  CHECK_BAILOUT();

  BlockList* bci2block = blm.bci2block();
  BlockBegin* start_block = bci2block->at(0);

  push_root_scope(scope, bci2block, start_block);

  // setup state for std entry
  _initial_state = state_at_entry();
  start_block->merge(_initial_state);

  // complete graph
  _vmap        = new ValueMap();
  switch (scope->method()->intrinsic_id()) {
  case vmIntrinsics::_dabs          : // fall through
  case vmIntrinsics::_dsqrt         : // fall through
  case vmIntrinsics::_dsin          : // fall through
  case vmIntrinsics::_dcos          : // fall through
  case vmIntrinsics::_dtan          : // fall through
  case vmIntrinsics::_dlog          : // fall through
  case vmIntrinsics::_dlog10        : // fall through
3144 3145
  case vmIntrinsics::_dexp          : // fall through
  case vmIntrinsics::_dpow          : // fall through
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    {
      // Compiles where the root method is an intrinsic need a special
      // compilation environment because the bytecodes for the method
      // shouldn't be parsed during the compilation, only the special
      // Intrinsic node should be emitted.  If this isn't done the the
      // code for the inlined version will be different than the root
      // compiled version which could lead to monotonicity problems on
      // intel.

      // Set up a stream so that appending instructions works properly.
      ciBytecodeStream s(scope->method());
      s.reset_to_bci(0);
      scope_data()->set_stream(&s);
      s.next();

      // setup the initial block state
      _block = start_block;
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      _state = start_block->state()->copy_for_parsing();
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      _last  = start_block;
      load_local(doubleType, 0);
3166 3167 3168
      if (scope->method()->intrinsic_id() == vmIntrinsics::_dpow) {
        load_local(doubleType, 2);
      }
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      // Emit the intrinsic node.
      bool result = try_inline_intrinsics(scope->method());
      if (!result) BAILOUT("failed to inline intrinsic");
      method_return(dpop());

      // connect the begin and end blocks and we're all done.
      BlockEnd* end = last()->as_BlockEnd();
      block()->set_end(end);
      break;
    }
3180 3181 3182

  case vmIntrinsics::_Reference_get:
    {
3183
      {
3184 3185 3186 3187 3188 3189 3190 3191 3192 3193 3194
        // With java.lang.ref.reference.get() we must go through the
        // intrinsic - when G1 is enabled - even when get() is the root
        // method of the compile so that, if necessary, the value in
        // the referent field of the reference object gets recorded by
        // the pre-barrier code.
        // Specifically, if G1 is enabled, the value in the referent
        // field is recorded by the G1 SATB pre barrier. This will
        // result in the referent being marked live and the reference
        // object removed from the list of discovered references during
        // reference processing.

3195 3196 3197
        // Also we need intrinsic to prevent commoning reads from this field
        // across safepoint since GC can change its value.

3198 3199 3200 3201 3202 3203 3204 3205 3206 3207 3208 3209 3210 3211 3212 3213 3214 3215 3216 3217 3218 3219 3220 3221 3222
        // Set up a stream so that appending instructions works properly.
        ciBytecodeStream s(scope->method());
        s.reset_to_bci(0);
        scope_data()->set_stream(&s);
        s.next();

        // setup the initial block state
        _block = start_block;
        _state = start_block->state()->copy_for_parsing();
        _last  = start_block;
        load_local(objectType, 0);

        // Emit the intrinsic node.
        bool result = try_inline_intrinsics(scope->method());
        if (!result) BAILOUT("failed to inline intrinsic");
        method_return(apop());

        // connect the begin and end blocks and we're all done.
        BlockEnd* end = last()->as_BlockEnd();
        block()->set_end(end);
        break;
      }
      // Otherwise, fall thru
    }

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  default:
    scope_data()->add_to_work_list(start_block);
    iterate_all_blocks();
    break;
  }
  CHECK_BAILOUT();

  _start = setup_start_block(osr_bci, start_block, _osr_entry, _initial_state);

  eliminate_redundant_phis(_start);

  NOT_PRODUCT(if (PrintValueNumbering && Verbose) print_stats());
  // for osr compile, bailout if some requirements are not fulfilled
  if (osr_bci != -1) {
    BlockBegin* osr_block = blm.bci2block()->at(osr_bci);
    assert(osr_block->is_set(BlockBegin::was_visited_flag),"osr entry must have been visited for osr compile");

    // check if osr entry point has empty stack - we cannot handle non-empty stacks at osr entry points
    if (!osr_block->state()->stack_is_empty()) {
      BAILOUT("stack not empty at OSR entry point");
    }
  }
#ifndef PRODUCT
  if (PrintCompilation && Verbose) tty->print_cr("Created %d Instructions", _instruction_count);
#endif
}


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ValueStack* GraphBuilder::copy_state_before() {
  return copy_state_before_with_bci(bci());
}

ValueStack* GraphBuilder::copy_state_exhandling() {
  return copy_state_exhandling_with_bci(bci());
}

ValueStack* GraphBuilder::copy_state_for_exception() {
  return copy_state_for_exception_with_bci(bci());
}

ValueStack* GraphBuilder::copy_state_before_with_bci(int bci) {
  return state()->copy(ValueStack::StateBefore, bci);
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}

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ValueStack* GraphBuilder::copy_state_exhandling_with_bci(int bci) {
  if (!has_handler()) return NULL;
  return state()->copy(ValueStack::StateBefore, bci);
}

ValueStack* GraphBuilder::copy_state_for_exception_with_bci(int bci) {
  ValueStack* s = copy_state_exhandling_with_bci(bci);
  if (s == NULL) {
    if (_compilation->env()->jvmti_can_access_local_variables()) {
      s = state()->copy(ValueStack::ExceptionState, bci);
    } else {
      s = state()->copy(ValueStack::EmptyExceptionState, bci);
    }
  }
  return s;
}
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int GraphBuilder::recursive_inline_level(ciMethod* cur_callee) const {
  int recur_level = 0;
  for (IRScope* s = scope(); s != NULL; s = s->caller()) {
    if (s->method() == cur_callee) {
      ++recur_level;
    }
  }
  return recur_level;
}


3295 3296 3297 3298
bool GraphBuilder::try_inline(ciMethod* callee, bool holder_known, Bytecodes::Code bc, Value receiver) {
  const char* msg = NULL;

  // clear out any existing inline bailout condition
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  clear_inline_bailout();

3301 3302 3303 3304 3305 3306 3307
  // exclude methods we don't want to inline
  msg = should_not_inline(callee);
  if (msg != NULL) {
    print_inlining(callee, msg, /*success*/ false);
    return false;
  }

3308 3309 3310 3311 3312
  // method handle invokes
  if (callee->is_method_handle_intrinsic()) {
    return try_method_handle_inline(callee);
  }

3313 3314 3315 3316 3317 3318 3319 3320 3321 3322 3323 3324 3325 3326
  // handle intrinsics
  if (callee->intrinsic_id() != vmIntrinsics::_none) {
    if (try_inline_intrinsics(callee)) {
      print_inlining(callee, "intrinsic");
      return true;
    }
    // try normal inlining
  }

  // certain methods cannot be parsed at all
  msg = check_can_parse(callee);
  if (msg != NULL) {
    print_inlining(callee, msg, /*success*/ false);
    return false;
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  }
3328 3329 3330 3331 3332 3333 3334

  // If bytecode not set use the current one.
  if (bc == Bytecodes::_illegal) {
    bc = code();
  }
  if (try_inline_full(callee, holder_known, bc, receiver))
    return true;
3335 3336 3337 3338 3339 3340

  // Entire compilation could fail during try_inline_full call.
  // In that case printing inlining decision info is useless.
  if (!bailed_out())
    print_inlining(callee, _inline_bailout_msg, /*success*/ false);

3341 3342 3343 3344 3345 3346 3347 3348 3349 3350 3351 3352 3353 3354 3355 3356 3357 3358 3359
  return false;
}


const char* GraphBuilder::check_can_parse(ciMethod* callee) const {
  // Certain methods cannot be parsed at all:
  if ( callee->is_native())            return "native method";
  if ( callee->is_abstract())          return "abstract method";
  if (!callee->can_be_compiled())      return "not compilable (disabled)";
  return NULL;
}


// negative filter: should callee NOT be inlined?  returns NULL, ok to inline, or rejection msg
const char* GraphBuilder::should_not_inline(ciMethod* callee) const {
  if ( callee->should_exclude())       return "excluded by CompilerOracle";
  if ( callee->should_not_inline())    return "disallowed by CompilerOracle";
  if ( callee->dont_inline())          return "don't inline by annotation";
  return NULL;
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}


bool GraphBuilder::try_inline_intrinsics(ciMethod* callee) {
3364 3365 3366 3367 3368
  if (callee->is_synchronized()) {
    // We don't currently support any synchronized intrinsics
    return false;
  }

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  // callee seems like a good candidate
  // determine id
3371 3372 3373 3374 3375
  vmIntrinsics::ID id = callee->intrinsic_id();
  if (!InlineNatives && id != vmIntrinsics::_Reference_get) {
    // InlineNatives does not control Reference.get
    INLINE_BAILOUT("intrinsic method inlining disabled");
  }
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  bool preserves_state = false;
  bool cantrap = true;
  switch (id) {
3379
    case vmIntrinsics::_arraycopy:
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      if (!InlineArrayCopy) return false;
      break;

3383 3384 3385 3386 3387 3388 3389 3390 3391 3392 3393 3394 3395
#ifdef TRACE_HAVE_INTRINSICS
    case vmIntrinsics::_classID:
    case vmIntrinsics::_threadID:
      preserves_state = true;
      cantrap = true;
      break;

    case vmIntrinsics::_counterTime:
      preserves_state = true;
      cantrap = false;
      break;
#endif

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    case vmIntrinsics::_currentTimeMillis:
    case vmIntrinsics::_nanoTime:
      preserves_state = true;
      cantrap = false;
      break;

    case vmIntrinsics::_floatToRawIntBits   :
    case vmIntrinsics::_intBitsToFloat      :
    case vmIntrinsics::_doubleToRawLongBits :
    case vmIntrinsics::_longBitsToDouble    :
      if (!InlineMathNatives) return false;
      preserves_state = true;
      cantrap = false;
      break;

    case vmIntrinsics::_getClass      :
3412
    case vmIntrinsics::_isInstance    :
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      if (!InlineClassNatives) return false;
      preserves_state = true;
      break;

    case vmIntrinsics::_currentThread :
      if (!InlineThreadNatives) return false;
      preserves_state = true;
      cantrap = false;
      break;

    case vmIntrinsics::_dabs          : // fall through
    case vmIntrinsics::_dsqrt         : // fall through
    case vmIntrinsics::_dsin          : // fall through
    case vmIntrinsics::_dcos          : // fall through
    case vmIntrinsics::_dtan          : // fall through
    case vmIntrinsics::_dlog          : // fall through
    case vmIntrinsics::_dlog10        : // fall through
3430 3431
    case vmIntrinsics::_dexp          : // fall through
    case vmIntrinsics::_dpow          : // fall through
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      if (!InlineMathNatives) return false;
      cantrap = false;
      preserves_state = true;
      break;

    // Use special nodes for Unsafe instructions so we can more easily
    // perform an address-mode optimization on the raw variants
    case vmIntrinsics::_getObject : return append_unsafe_get_obj(callee, T_OBJECT,  false);
    case vmIntrinsics::_getBoolean: return append_unsafe_get_obj(callee, T_BOOLEAN, false);
    case vmIntrinsics::_getByte   : return append_unsafe_get_obj(callee, T_BYTE,    false);
    case vmIntrinsics::_getShort  : return append_unsafe_get_obj(callee, T_SHORT,   false);
    case vmIntrinsics::_getChar   : return append_unsafe_get_obj(callee, T_CHAR,    false);
    case vmIntrinsics::_getInt    : return append_unsafe_get_obj(callee, T_INT,     false);
    case vmIntrinsics::_getLong   : return append_unsafe_get_obj(callee, T_LONG,    false);
    case vmIntrinsics::_getFloat  : return append_unsafe_get_obj(callee, T_FLOAT,   false);
    case vmIntrinsics::_getDouble : return append_unsafe_get_obj(callee, T_DOUBLE,  false);

    case vmIntrinsics::_putObject : return append_unsafe_put_obj(callee, T_OBJECT,  false);
    case vmIntrinsics::_putBoolean: return append_unsafe_put_obj(callee, T_BOOLEAN, false);
    case vmIntrinsics::_putByte   : return append_unsafe_put_obj(callee, T_BYTE,    false);
    case vmIntrinsics::_putShort  : return append_unsafe_put_obj(callee, T_SHORT,   false);
    case vmIntrinsics::_putChar   : return append_unsafe_put_obj(callee, T_CHAR,    false);
    case vmIntrinsics::_putInt    : return append_unsafe_put_obj(callee, T_INT,     false);
    case vmIntrinsics::_putLong   : return append_unsafe_put_obj(callee, T_LONG,    false);
    case vmIntrinsics::_putFloat  : return append_unsafe_put_obj(callee, T_FLOAT,   false);
    case vmIntrinsics::_putDouble : return append_unsafe_put_obj(callee, T_DOUBLE,  false);

    case vmIntrinsics::_getObjectVolatile : return append_unsafe_get_obj(callee, T_OBJECT,  true);
    case vmIntrinsics::_getBooleanVolatile: return append_unsafe_get_obj(callee, T_BOOLEAN, true);
    case vmIntrinsics::_getByteVolatile   : return append_unsafe_get_obj(callee, T_BYTE,    true);
    case vmIntrinsics::_getShortVolatile  : return append_unsafe_get_obj(callee, T_SHORT,   true);
    case vmIntrinsics::_getCharVolatile   : return append_unsafe_get_obj(callee, T_CHAR,    true);
    case vmIntrinsics::_getIntVolatile    : return append_unsafe_get_obj(callee, T_INT,     true);
    case vmIntrinsics::_getLongVolatile   : return append_unsafe_get_obj(callee, T_LONG,    true);
    case vmIntrinsics::_getFloatVolatile  : return append_unsafe_get_obj(callee, T_FLOAT,   true);
    case vmIntrinsics::_getDoubleVolatile : return append_unsafe_get_obj(callee, T_DOUBLE,  true);

    case vmIntrinsics::_putObjectVolatile : return append_unsafe_put_obj(callee, T_OBJECT,  true);
    case vmIntrinsics::_putBooleanVolatile: return append_unsafe_put_obj(callee, T_BOOLEAN, true);
    case vmIntrinsics::_putByteVolatile   : return append_unsafe_put_obj(callee, T_BYTE,    true);
    case vmIntrinsics::_putShortVolatile  : return append_unsafe_put_obj(callee, T_SHORT,   true);
    case vmIntrinsics::_putCharVolatile   : return append_unsafe_put_obj(callee, T_CHAR,    true);
    case vmIntrinsics::_putIntVolatile    : return append_unsafe_put_obj(callee, T_INT,     true);
    case vmIntrinsics::_putLongVolatile   : return append_unsafe_put_obj(callee, T_LONG,    true);
    case vmIntrinsics::_putFloatVolatile  : return append_unsafe_put_obj(callee, T_FLOAT,   true);
    case vmIntrinsics::_putDoubleVolatile : return append_unsafe_put_obj(callee, T_DOUBLE,  true);

    case vmIntrinsics::_getByte_raw   : return append_unsafe_get_raw(callee, T_BYTE);
    case vmIntrinsics::_getShort_raw  : return append_unsafe_get_raw(callee, T_SHORT);
    case vmIntrinsics::_getChar_raw   : return append_unsafe_get_raw(callee, T_CHAR);
    case vmIntrinsics::_getInt_raw    : return append_unsafe_get_raw(callee, T_INT);
    case vmIntrinsics::_getLong_raw   : return append_unsafe_get_raw(callee, T_LONG);
    case vmIntrinsics::_getFloat_raw  : return append_unsafe_get_raw(callee, T_FLOAT);
    case vmIntrinsics::_getDouble_raw : return append_unsafe_get_raw(callee, T_DOUBLE);

    case vmIntrinsics::_putByte_raw   : return append_unsafe_put_raw(callee, T_BYTE);
    case vmIntrinsics::_putShort_raw  : return append_unsafe_put_raw(callee, T_SHORT);
    case vmIntrinsics::_putChar_raw   : return append_unsafe_put_raw(callee, T_CHAR);
    case vmIntrinsics::_putInt_raw    : return append_unsafe_put_raw(callee, T_INT);
    case vmIntrinsics::_putLong_raw   : return append_unsafe_put_raw(callee, T_LONG);
    case vmIntrinsics::_putFloat_raw  : return append_unsafe_put_raw(callee, T_FLOAT);
    case vmIntrinsics::_putDouble_raw : return append_unsafe_put_raw(callee, T_DOUBLE);

    case vmIntrinsics::_prefetchRead        : return append_unsafe_prefetch(callee, false, false);
    case vmIntrinsics::_prefetchWrite       : return append_unsafe_prefetch(callee, false, true);
    case vmIntrinsics::_prefetchReadStatic  : return append_unsafe_prefetch(callee, true,  false);
    case vmIntrinsics::_prefetchWriteStatic : return append_unsafe_prefetch(callee, true,  true);

    case vmIntrinsics::_checkIndex    :
      if (!InlineNIOCheckIndex) return false;
      preserves_state = true;
      break;
    case vmIntrinsics::_putOrderedObject : return append_unsafe_put_obj(callee, T_OBJECT,  true);
    case vmIntrinsics::_putOrderedInt    : return append_unsafe_put_obj(callee, T_INT,     true);
    case vmIntrinsics::_putOrderedLong   : return append_unsafe_put_obj(callee, T_LONG,    true);

    case vmIntrinsics::_compareAndSwapLong:
      if (!VM_Version::supports_cx8()) return false;
      // fall through
    case vmIntrinsics::_compareAndSwapInt:
    case vmIntrinsics::_compareAndSwapObject:
      append_unsafe_CAS(callee);
      return true;

3516 3517 3518 3519 3520 3521 3522 3523 3524 3525 3526 3527 3528 3529 3530 3531 3532 3533 3534 3535 3536 3537 3538 3539 3540 3541 3542 3543 3544 3545 3546 3547 3548 3549 3550
    case vmIntrinsics::_getAndAddInt:
      if (!VM_Version::supports_atomic_getadd4()) {
        return false;
      }
      return append_unsafe_get_and_set_obj(callee, true);
    case vmIntrinsics::_getAndAddLong:
      if (!VM_Version::supports_atomic_getadd8()) {
        return false;
      }
      return append_unsafe_get_and_set_obj(callee, true);
    case vmIntrinsics::_getAndSetInt:
      if (!VM_Version::supports_atomic_getset4()) {
        return false;
      }
      return append_unsafe_get_and_set_obj(callee, false);
    case vmIntrinsics::_getAndSetLong:
      if (!VM_Version::supports_atomic_getset8()) {
        return false;
      }
      return append_unsafe_get_and_set_obj(callee, false);
    case vmIntrinsics::_getAndSetObject:
#ifdef _LP64
      if (!UseCompressedOops && !VM_Version::supports_atomic_getset8()) {
        return false;
      }
      if (UseCompressedOops && !VM_Version::supports_atomic_getset4()) {
        return false;
      }
#else
      if (!VM_Version::supports_atomic_getset4()) {
        return false;
      }
#endif
      return append_unsafe_get_and_set_obj(callee, false);

3551
    case vmIntrinsics::_Reference_get:
3552 3553 3554 3555
      // Use the intrinsic version of Reference.get() so that the value in
      // the referent field can be registered by the G1 pre-barrier code.
      // Also to prevent commoning reads from this field across safepoint
      // since GC can change its value.
3556 3557 3558
      preserves_state = true;
      break;

3559 3560 3561 3562 3563 3564 3565 3566
    case vmIntrinsics::_updateCRC32:
    case vmIntrinsics::_updateBytesCRC32:
    case vmIntrinsics::_updateByteBufferCRC32:
      if (!UseCRC32Intrinsics) return false;
      cantrap = false;
      preserves_state = true;
      break;

3567 3568 3569 3570 3571
    case vmIntrinsics::_loadFence :
    case vmIntrinsics::_storeFence:
    case vmIntrinsics::_fullFence :
      break;

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    default                       : return false; // do not inline
  }
  // create intrinsic node
  const bool has_receiver = !callee->is_static();
  ValueType* result_type = as_ValueType(callee->return_type());
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  ValueStack* state_before = copy_state_for_exception();
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  Values* args = state()->pop_arguments(callee->arg_size());
I
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  if (is_profiling()) {
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3582 3583 3584
    // Don't profile in the special case where the root method
    // is the intrinsic
    if (callee != method()) {
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      // Note that we'd collect profile data in this method if we wanted it.
      compilation()->set_would_profile(true);
      if (profile_calls()) {
        Value recv = NULL;
        if (has_receiver) {
          recv = args->at(0);
          null_check(recv);
        }
3593
        profile_call(callee, recv, NULL, collect_args_for_profiling(args, callee, true), true);
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3594 3595 3596 3597
      }
    }
  }

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  Intrinsic* result = new Intrinsic(result_type, id, args, has_receiver, state_before,
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                                    preserves_state, cantrap);
  // append instruction & push result
  Value value = append_split(result);
  if (result_type != voidType) push(result_type, value);

3604
  if (callee != method() && profile_return() && result_type->is_object_kind()) {
3605 3606 3607
    profile_return_type(result, callee);
  }

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  // done
  return true;
}


bool GraphBuilder::try_inline_jsr(int jsr_dest_bci) {
  // Introduce a new callee continuation point - all Ret instructions
  // will be replaced with Gotos to this point.
  BlockBegin* cont = block_at(next_bci());
  assert(cont != NULL, "continuation must exist (BlockListBuilder starts a new block after a jsr");

  // Note: can not assign state to continuation yet, as we have to
  // pick up the state from the Ret instructions.

  // Push callee scope
  push_scope_for_jsr(cont, jsr_dest_bci);

  // Temporarily set up bytecode stream so we can append instructions
  // (only using the bci of this stream)
  scope_data()->set_stream(scope_data()->parent()->stream());

  BlockBegin* jsr_start_block = block_at(jsr_dest_bci);
  assert(jsr_start_block != NULL, "jsr start block must exist");
  assert(!jsr_start_block->is_set(BlockBegin::was_visited_flag), "should not have visited jsr yet");
  Goto* goto_sub = new Goto(jsr_start_block, false);
  // Must copy state to avoid wrong sharing when parsing bytecodes
  assert(jsr_start_block->state() == NULL, "should have fresh jsr starting block");
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3635
  jsr_start_block->set_state(copy_state_before_with_bci(jsr_dest_bci));
D
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3636 3637 3638 3639 3640 3641 3642 3643 3644 3645 3646 3647 3648 3649 3650 3651 3652 3653 3654 3655 3656 3657 3658 3659 3660 3661 3662 3663 3664 3665 3666 3667 3668 3669 3670 3671 3672 3673 3674 3675 3676 3677 3678 3679 3680 3681 3682 3683 3684 3685 3686 3687 3688 3689 3690 3691 3692 3693 3694 3695 3696 3697 3698 3699 3700 3701 3702 3703 3704 3705 3706 3707 3708 3709 3710 3711 3712 3713 3714 3715 3716 3717 3718 3719 3720 3721 3722 3723
  append(goto_sub);
  _block->set_end(goto_sub);
  _last = _block = jsr_start_block;

  // Clear out bytecode stream
  scope_data()->set_stream(NULL);

  scope_data()->add_to_work_list(jsr_start_block);

  // Ready to resume parsing in subroutine
  iterate_all_blocks();

  // If we bailed out during parsing, return immediately (this is bad news)
  CHECK_BAILOUT_(false);

  // Detect whether the continuation can actually be reached. If not,
  // it has not had state set by the join() operations in
  // iterate_bytecodes_for_block()/ret() and we should not touch the
  // iteration state. The calling activation of
  // iterate_bytecodes_for_block will then complete normally.
  if (cont->state() != NULL) {
    if (!cont->is_set(BlockBegin::was_visited_flag)) {
      // add continuation to work list instead of parsing it immediately
      scope_data()->parent()->add_to_work_list(cont);
    }
  }

  assert(jsr_continuation() == cont, "continuation must not have changed");
  assert(!jsr_continuation()->is_set(BlockBegin::was_visited_flag) ||
         jsr_continuation()->is_set(BlockBegin::parser_loop_header_flag),
         "continuation can only be visited in case of backward branches");
  assert(_last && _last->as_BlockEnd(), "block must have end");

  // continuation is in work list, so end iteration of current block
  _skip_block = true;
  pop_scope_for_jsr();

  return true;
}


// Inline the entry of a synchronized method as a monitor enter and
// register the exception handler which releases the monitor if an
// exception is thrown within the callee. Note that the monitor enter
// cannot throw an exception itself, because the receiver is
// guaranteed to be non-null by the explicit null check at the
// beginning of inlining.
void GraphBuilder::inline_sync_entry(Value lock, BlockBegin* sync_handler) {
  assert(lock != NULL && sync_handler != NULL, "lock or handler missing");

  monitorenter(lock, SynchronizationEntryBCI);
  assert(_last->as_MonitorEnter() != NULL, "monitor enter expected");
  _last->set_needs_null_check(false);

  sync_handler->set(BlockBegin::exception_entry_flag);
  sync_handler->set(BlockBegin::is_on_work_list_flag);

  ciExceptionHandler* desc = new ciExceptionHandler(method()->holder(), 0, method()->code_size(), -1, 0);
  XHandler* h = new XHandler(desc);
  h->set_entry_block(sync_handler);
  scope_data()->xhandlers()->append(h);
  scope_data()->set_has_handler();
}


// If an exception is thrown and not handled within an inlined
// synchronized method, the monitor must be released before the
// exception is rethrown in the outer scope. Generate the appropriate
// instructions here.
void GraphBuilder::fill_sync_handler(Value lock, BlockBegin* sync_handler, bool default_handler) {
  BlockBegin* orig_block = _block;
  ValueStack* orig_state = _state;
  Instruction* orig_last = _last;
  _last = _block = sync_handler;
  _state = sync_handler->state()->copy();

  assert(sync_handler != NULL, "handler missing");
  assert(!sync_handler->is_set(BlockBegin::was_visited_flag), "is visited here");

  assert(lock != NULL || default_handler, "lock or handler missing");

  XHandler* h = scope_data()->xhandlers()->remove_last();
  assert(h->entry_block() == sync_handler, "corrupt list of handlers");

  block()->set(BlockBegin::was_visited_flag);
  Value exception = append_with_bci(new ExceptionObject(), SynchronizationEntryBCI);
  assert(exception->is_pinned(), "must be");

3724
  int bci = SynchronizationEntryBCI;
3725
  if (compilation()->env()->dtrace_method_probes()) {
3726 3727
    // Report exit from inline methods.  We don't have a stream here
    // so pass an explicit bci of SynchronizationEntryBCI.
3728
    Values* args = new Values(1);
3729
    args->push(append_with_bci(new Constant(new MethodConstant(method())), bci));
3730
    append_with_bci(new RuntimeCall(voidType, "dtrace_method_exit", CAST_FROM_FN_PTR(address, SharedRuntime::dtrace_method_exit), args), bci);
3731 3732
  }

D
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3733 3734
  if (lock) {
    assert(state()->locks_size() > 0 && state()->lock_at(state()->locks_size() - 1) == lock, "lock is missing");
R
roland 已提交
3735
    if (!lock->is_linked()) {
3736
      lock = append_with_bci(lock, bci);
D
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3737 3738 3739
    }

    // exit the monitor in the context of the synchronized method
3740
    monitorexit(lock, bci);
D
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3741 3742 3743 3744

    // exit the context of the synchronized method
    if (!default_handler) {
      pop_scope();
R
roland 已提交
3745 3746
      bci = _state->caller_state()->bci();
      _state = _state->caller_state()->copy_for_parsing();
D
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3747 3748 3749 3750 3751 3752 3753 3754 3755 3756 3757 3758 3759 3760 3761 3762
    }
  }

  // perform the throw as if at the the call site
  apush(exception);
  throw_op(bci);

  BlockEnd* end = last()->as_BlockEnd();
  block()->set_end(end);

  _block = orig_block;
  _state = orig_state;
  _last = orig_last;
}


3763
bool GraphBuilder::try_inline_full(ciMethod* callee, bool holder_known, Bytecodes::Code bc, Value receiver) {
D
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3764
  assert(!callee->is_native(), "callee must not be native");
3765 3766
  if (CompilationPolicy::policy()->should_not_inline(compilation()->env(), callee)) {
    INLINE_BAILOUT("inlining prohibited by policy");
I
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3767
  }
D
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3768 3769 3770 3771 3772 3773 3774 3775 3776 3777 3778 3779 3780 3781 3782 3783 3784 3785
  // first perform tests of things it's not possible to inline
  if (callee->has_exception_handlers() &&
      !InlineMethodsWithExceptionHandlers) INLINE_BAILOUT("callee has exception handlers");
  if (callee->is_synchronized() &&
      !InlineSynchronizedMethods         ) INLINE_BAILOUT("callee is synchronized");
  if (!callee->holder()->is_initialized()) INLINE_BAILOUT("callee's klass not initialized yet");
  if (!callee->has_balanced_monitors())    INLINE_BAILOUT("callee's monitors do not match");

  // Proper inlining of methods with jsrs requires a little more work.
  if (callee->has_jsrs()                 ) INLINE_BAILOUT("jsrs not handled properly by inliner yet");

  // When SSE2 is used on intel, then no special handling is needed
  // for strictfp because the enum-constant is fixed at compile time,
  // the check for UseSSE2 is needed here
  if (strict_fp_requires_explicit_rounding && UseSSE < 2 && method()->is_strict() != callee->is_strict()) {
    INLINE_BAILOUT("caller and callee have different strict fp requirements");
  }

3786 3787 3788
  if (is_profiling() && !callee->ensure_method_data()) {
    INLINE_BAILOUT("mdo allocation failed");
  }
3789 3790

  // now perform tests that are based on flag settings
3791 3792 3793 3794 3795 3796 3797 3798
  if (callee->force_inline() || callee->should_inline()) {
    if (inline_level() > MaxForceInlineLevel                    ) INLINE_BAILOUT("MaxForceInlineLevel");
    if (recursive_inline_level(callee) > MaxRecursiveInlineLevel) INLINE_BAILOUT("recursive inlining too deep");

    const char* msg = "";
    if (callee->force_inline())  msg = "force inline by annotation";
    if (callee->should_inline()) msg = "force inline by CompileOracle";
    print_inlining(callee, msg);
3799
  } else {
3800
    // use heuristic controls on inlining
3801 3802
    if (inline_level() > MaxInlineLevel                         ) INLINE_BAILOUT("inlining too deep");
    if (recursive_inline_level(callee) > MaxRecursiveInlineLevel) INLINE_BAILOUT("recursive inlining too deep");
3803
    if (callee->code_size_for_inlining() > max_inline_size()    ) INLINE_BAILOUT("callee is too large");
3804 3805 3806 3807 3808 3809 3810 3811 3812 3813 3814 3815 3816 3817 3818 3819 3820

    // don't inline throwable methods unless the inlining tree is rooted in a throwable class
    if (callee->name() == ciSymbol::object_initializer_name() &&
        callee->holder()->is_subclass_of(ciEnv::current()->Throwable_klass())) {
      // Throwable constructor call
      IRScope* top = scope();
      while (top->caller() != NULL) {
        top = top->caller();
      }
      if (!top->method()->holder()->is_subclass_of(ciEnv::current()->Throwable_klass())) {
        INLINE_BAILOUT("don't inline Throwable constructors");
      }
    }

    if (compilation()->env()->num_inlined_bytecodes() > DesiredMethodLimit) {
      INLINE_BAILOUT("total inlining greater than DesiredMethodLimit");
    }
3821
    // printing
V
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3822
    print_inlining(callee);
3823 3824
  }

D
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3825 3826 3827 3828 3829 3830
  // NOTE: Bailouts from this point on, which occur at the
  // GraphBuilder level, do not cause bailout just of the inlining but
  // in fact of the entire compilation.

  BlockBegin* orig_block = block();

3831 3832 3833
  const bool is_invokedynamic = bc == Bytecodes::_invokedynamic;
  const bool has_receiver = (bc != Bytecodes::_invokestatic && !is_invokedynamic);

D
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3834 3835 3836 3837 3838
  const int args_base = state()->stack_size() - callee->arg_size();
  assert(args_base >= 0, "stack underflow during inlining");

  // Insert null check if necessary
  Value recv = NULL;
3839
  if (has_receiver) {
D
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3840 3841 3842 3843 3844 3845 3846 3847 3848
    // note: null check must happen even if first instruction of callee does
    //       an implicit null check since the callee is in a different scope
    //       and we must make sure exception handling does the right thing
    assert(!callee->is_static(), "callee must not be static");
    assert(callee->arg_size() > 0, "must have at least a receiver");
    recv = state()->stack_at(args_base);
    null_check(recv);
  }

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3849 3850 3851 3852
  if (is_profiling()) {
    // Note that we'd collect profile data in this method if we wanted it.
    // this may be redundant here...
    compilation()->set_would_profile(true);
D
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3853

I
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3854
    if (profile_calls()) {
3855
      int start = 0;
3856
      Values* obj_args = args_list_for_profiling(callee, start, has_receiver);
3857 3858 3859 3860 3861 3862 3863 3864 3865 3866
      if (obj_args != NULL) {
        int s = obj_args->size();
        // if called through method handle invoke, some arguments may have been popped
        for (int i = args_base+start, j = 0; j < obj_args->size() && i < state()->stack_size(); ) {
          Value v = state()->stack_at_inc(i);
          if (v->type()->is_object_kind()) {
            obj_args->push(v);
            j++;
          }
        }
3867
        check_args_for_profiling(obj_args, s);
3868 3869
      }
      profile_call(callee, recv, holder_known ? callee->holder() : NULL, obj_args, true);
I
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3870 3871
    }
  }
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3872 3873 3874 3875 3876 3877

  // Introduce a new callee continuation point - if the callee has
  // more than one return instruction or the return does not allow
  // fall-through of control flow, all return instructions of the
  // callee will need to be replaced by Goto's pointing to this
  // continuation point.
3878
  BlockBegin* cont = block_at(next_bci());
D
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3879 3880 3881 3882 3883 3884 3885 3886 3887 3888 3889 3890 3891 3892 3893 3894 3895 3896 3897 3898 3899 3900
  bool continuation_existed = true;
  if (cont == NULL) {
    cont = new BlockBegin(next_bci());
    // low number so that continuation gets parsed as early as possible
    cont->set_depth_first_number(0);
#ifndef PRODUCT
    if (PrintInitialBlockList) {
      tty->print_cr("CFG: created block %d (bci %d) as continuation for inline at bci %d",
                    cont->block_id(), cont->bci(), bci());
    }
#endif
    continuation_existed = false;
  }
  // Record number of predecessors of continuation block before
  // inlining, to detect if inlined method has edges to its
  // continuation after inlining.
  int continuation_preds = cont->number_of_preds();

  // Push callee scope
  push_scope(callee, cont);

  // the BlockListBuilder for the callee could have bailed out
3901 3902
  if (bailed_out())
      return false;
D
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3903 3904 3905 3906 3907 3908 3909 3910

  // Temporarily set up bytecode stream so we can append instructions
  // (only using the bci of this stream)
  scope_data()->set_stream(scope_data()->parent()->stream());

  // Pass parameters into callee state: add assignments
  // note: this will also ensure that all arguments are computed before being passed
  ValueStack* callee_state = state();
R
roland 已提交
3911
  ValueStack* caller_state = state()->caller_state();
3912 3913 3914 3915
  for (int i = args_base; i < caller_state->stack_size(); ) {
    const int arg_no = i - args_base;
    Value arg = caller_state->stack_at_inc(i);
    store_local(callee_state, arg, arg_no);
D
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3916 3917 3918 3919 3920 3921
  }

  // Remove args from stack.
  // Note that we preserve locals state in case we can use it later
  // (see use of pop_scope() below)
  caller_state->truncate_stack(args_base);
R
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3922
  assert(callee_state->stack_size() == 0, "callee stack must be empty");
D
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3923 3924 3925 3926 3927 3928 3929 3930

  Value lock;
  BlockBegin* sync_handler;

  // Inline the locking of the receiver if the callee is synchronized
  if (callee->is_synchronized()) {
    lock = callee->is_static() ? append(new Constant(new InstanceConstant(callee->holder()->java_mirror())))
                               : state()->local_at(0);
R
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3931
    sync_handler = new BlockBegin(SynchronizationEntryBCI);
D
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3932 3933 3934
    inline_sync_entry(lock, sync_handler);
  }

3935 3936
  if (compilation()->env()->dtrace_method_probes()) {
    Values* args = new Values(1);
3937
    args->push(append(new Constant(new MethodConstant(method()))));
3938 3939
    append(new RuntimeCall(voidType, "dtrace_method_entry", CAST_FROM_FN_PTR(address, SharedRuntime::dtrace_method_entry), args));
  }
D
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3940

3941 3942 3943 3944
  if (profile_inlined_calls()) {
    profile_invocation(callee, copy_state_before_with_bci(SynchronizationEntryBCI));
  }

D
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3945 3946 3947 3948 3949 3950 3951 3952 3953 3954 3955 3956 3957 3958 3959 3960 3961 3962 3963 3964 3965 3966 3967
  BlockBegin* callee_start_block = block_at(0);
  if (callee_start_block != NULL) {
    assert(callee_start_block->is_set(BlockBegin::parser_loop_header_flag), "must be loop header");
    Goto* goto_callee = new Goto(callee_start_block, false);
    // The state for this goto is in the scope of the callee, so use
    // the entry bci for the callee instead of the call site bci.
    append_with_bci(goto_callee, 0);
    _block->set_end(goto_callee);
    callee_start_block->merge(callee_state);

    _last = _block = callee_start_block;

    scope_data()->add_to_work_list(callee_start_block);
  }

  // Clear out bytecode stream
  scope_data()->set_stream(NULL);

  // Ready to resume parsing in callee (either in the same block we
  // were in before or in the callee's start block)
  iterate_all_blocks(callee_start_block == NULL);

  // If we bailed out during parsing, return immediately (this is bad news)
3968 3969
  if (bailed_out())
      return false;
D
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3970 3971 3972 3973 3974 3975 3976 3977 3978 3979 3980 3981 3982 3983 3984 3985 3986 3987 3988

  // iterate_all_blocks theoretically traverses in random order; in
  // practice, we have only traversed the continuation if we are
  // inlining into a subroutine
  assert(continuation_existed ||
         !continuation()->is_set(BlockBegin::was_visited_flag),
         "continuation should not have been parsed yet if we created it");

  // At this point we are almost ready to return and resume parsing of
  // the caller back in the GraphBuilder. The only thing we want to do
  // first is an optimization: during parsing of the callee we
  // generated at least one Goto to the continuation block. If we
  // generated exactly one, and if the inlined method spanned exactly
  // one block (and we didn't have to Goto its entry), then we snip
  // off the Goto to the continuation, allowing control to fall
  // through back into the caller block and effectively performing
  // block merging. This allows load elimination and CSE to take place
  // across multiple callee scopes if they are relatively simple, and
  // is currently essential to making inlining profitable.
3989 3990 3991 3992 3993 3994 3995 3996 3997 3998 3999 4000 4001 4002 4003 4004 4005 4006
  if (num_returns() == 1
      && block() == orig_block
      && block() == inline_cleanup_block()) {
    _last  = inline_cleanup_return_prev();
    _state = inline_cleanup_state();
  } else if (continuation_preds == cont->number_of_preds()) {
    // Inlining caused that the instructions after the invoke in the
    // caller are not reachable any more. So skip filling this block
    // with instructions!
    assert(cont == continuation(), "");
    assert(_last && _last->as_BlockEnd(), "");
    _skip_block = true;
  } else {
    // Resume parsing in continuation block unless it was already parsed.
    // Note that if we don't change _last here, iteration in
    // iterate_bytecodes_for_block will stop when we return.
    if (!continuation()->is_set(BlockBegin::was_visited_flag)) {
      // add continuation to work list instead of parsing it immediately
D
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4007
      assert(_last && _last->as_BlockEnd(), "");
4008
      scope_data()->parent()->add_to_work_list(continuation());
D
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4009 4010 4011 4012 4013 4014 4015 4016 4017 4018 4019 4020 4021 4022 4023 4024 4025
      _skip_block = true;
    }
  }

  // Fill the exception handler for synchronized methods with instructions
  if (callee->is_synchronized() && sync_handler->state() != NULL) {
    fill_sync_handler(lock, sync_handler);
  } else {
    pop_scope();
  }

  compilation()->notice_inlined_method(callee);

  return true;
}


4026
bool GraphBuilder::try_method_handle_inline(ciMethod* callee) {
4027 4028 4029 4030 4031 4032 4033 4034 4035 4036
  ValueStack* state_before = state()->copy_for_parsing();
  vmIntrinsics::ID iid = callee->intrinsic_id();
  switch (iid) {
  case vmIntrinsics::_invokeBasic:
    {
      // get MethodHandle receiver
      const int args_base = state()->stack_size() - callee->arg_size();
      ValueType* type = state()->stack_at(args_base)->type();
      if (type->is_constant()) {
        ciMethod* target = type->as_ObjectType()->constant_value()->as_method_handle()->get_vmtarget();
4037 4038 4039 4040 4041 4042 4043 4044
        // We don't do CHA here so only inline static and statically bindable methods.
        if (target->is_static() || target->can_be_statically_bound()) {
          Bytecodes::Code bc = target->is_static() ? Bytecodes::_invokestatic : Bytecodes::_invokevirtual;
          if (try_inline(target, /*holder_known*/ true, bc)) {
            return true;
          }
        } else {
          print_inlining(target, "not static or statically bindable", /*success*/ false);
4045
        }
4046 4047
      } else {
        print_inlining(callee, "receiver not constant", /*success*/ false);
4048 4049
      }
    }
4050
    break;
4051

4052 4053 4054 4055 4056 4057 4058 4059 4060 4061 4062 4063 4064
  case vmIntrinsics::_linkToVirtual:
  case vmIntrinsics::_linkToStatic:
  case vmIntrinsics::_linkToSpecial:
  case vmIntrinsics::_linkToInterface:
    {
      // pop MemberName argument
      const int args_base = state()->stack_size() - callee->arg_size();
      ValueType* type = apop()->type();
      if (type->is_constant()) {
        ciMethod* target = type->as_ObjectType()->constant_value()->as_member_name()->get_vmtarget();
        // If the target is another method handle invoke try recursivly to get
        // a better target.
        if (target->is_method_handle_intrinsic()) {
4065
          if (try_method_handle_inline(target)) {
4066 4067 4068 4069 4070 4071 4072 4073 4074 4075 4076 4077 4078 4079 4080 4081 4082 4083 4084 4085 4086 4087 4088 4089 4090 4091 4092 4093 4094 4095 4096
            return true;
          }
        } else {
          ciSignature* signature = target->signature();
          const int receiver_skip = target->is_static() ? 0 : 1;
          // Cast receiver to its type.
          if (!target->is_static()) {
            ciKlass* tk = signature->accessing_klass();
            Value obj = state()->stack_at(args_base);
            if (obj->exact_type() == NULL &&
                obj->declared_type() != tk && tk != compilation()->env()->Object_klass()) {
              TypeCast* c = new TypeCast(tk, obj, state_before);
              append(c);
              state()->stack_at_put(args_base, c);
            }
          }
          // Cast reference arguments to its type.
          for (int i = 0, j = 0; i < signature->count(); i++) {
            ciType* t = signature->type_at(i);
            if (t->is_klass()) {
              ciKlass* tk = t->as_klass();
              Value obj = state()->stack_at(args_base + receiver_skip + j);
              if (obj->exact_type() == NULL &&
                  obj->declared_type() != tk && tk != compilation()->env()->Object_klass()) {
                TypeCast* c = new TypeCast(t, obj, state_before);
                append(c);
                state()->stack_at_put(args_base + receiver_skip + j, c);
              }
            }
            j += t->size();  // long and double take two slots
          }
4097 4098 4099 4100 4101 4102 4103 4104
          // We don't do CHA here so only inline static and statically bindable methods.
          if (target->is_static() || target->can_be_statically_bound()) {
            Bytecodes::Code bc = target->is_static() ? Bytecodes::_invokestatic : Bytecodes::_invokevirtual;
            if (try_inline(target, /*holder_known*/ true, bc)) {
              return true;
            }
          } else {
            print_inlining(target, "not static or statically bindable", /*success*/ false);
4105 4106 4107 4108
          }
        }
      } else {
        print_inlining(callee, "MemberName not constant", /*success*/ false);
4109 4110
      }
    }
4111 4112 4113 4114 4115
    break;

  default:
    fatal(err_msg("unexpected intrinsic %d: %s", iid, vmIntrinsics::name_at(iid)));
    break;
4116
  }
4117
  set_state(state_before);
4118 4119 4120 4121
  return false;
}


D
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4122 4123 4124 4125 4126 4127 4128 4129 4130 4131 4132 4133 4134 4135 4136 4137 4138 4139 4140 4141 4142 4143 4144 4145 4146 4147 4148 4149 4150 4151 4152 4153 4154
void GraphBuilder::inline_bailout(const char* msg) {
  assert(msg != NULL, "inline bailout msg must exist");
  _inline_bailout_msg = msg;
}


void GraphBuilder::clear_inline_bailout() {
  _inline_bailout_msg = NULL;
}


void GraphBuilder::push_root_scope(IRScope* scope, BlockList* bci2block, BlockBegin* start) {
  ScopeData* data = new ScopeData(NULL);
  data->set_scope(scope);
  data->set_bci2block(bci2block);
  _scope_data = data;
  _block = start;
}


void GraphBuilder::push_scope(ciMethod* callee, BlockBegin* continuation) {
  IRScope* callee_scope = new IRScope(compilation(), scope(), bci(), callee, -1, false);
  scope()->add_callee(callee_scope);

  BlockListBuilder blb(compilation(), callee_scope, -1);
  CHECK_BAILOUT();

  if (!blb.bci2block()->at(0)->is_set(BlockBegin::parser_loop_header_flag)) {
    // this scope can be inlined directly into the caller so remove
    // the block at bci 0.
    blb.bci2block()->at_put(0, NULL);
  }

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  set_state(new ValueStack(callee_scope, state()->copy(ValueStack::CallerState, bci())));
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  ScopeData* data = new ScopeData(scope_data());
  data->set_scope(callee_scope);
  data->set_bci2block(blb.bci2block());
  data->set_continuation(continuation);
  _scope_data = data;
}


void GraphBuilder::push_scope_for_jsr(BlockBegin* jsr_continuation, int jsr_dest_bci) {
  ScopeData* data = new ScopeData(scope_data());
  data->set_parsing_jsr();
  data->set_jsr_entry_bci(jsr_dest_bci);
  data->set_jsr_return_address_local(-1);
  // Must clone bci2block list as we will be mutating it in order to
  // properly clone all blocks in jsr region as well as exception
  // handlers containing rets
  BlockList* new_bci2block = new BlockList(bci2block()->length());
  new_bci2block->push_all(bci2block());
  data->set_bci2block(new_bci2block);
  data->set_scope(scope());
  data->setup_jsr_xhandlers();
  data->set_continuation(continuation());
  data->set_jsr_continuation(jsr_continuation);
  _scope_data = data;
}


void GraphBuilder::pop_scope() {
  int number_of_locks = scope()->number_of_locks();
  _scope_data = scope_data()->parent();
  // accumulate minimum number of monitor slots to be reserved
  scope()->set_min_number_of_locks(number_of_locks);
}


void GraphBuilder::pop_scope_for_jsr() {
  _scope_data = scope_data()->parent();
}

bool GraphBuilder::append_unsafe_get_obj(ciMethod* callee, BasicType t, bool is_volatile) {
  if (InlineUnsafeOps) {
    Values* args = state()->pop_arguments(callee->arg_size());
    null_check(args->at(0));
    Instruction* offset = args->at(2);
#ifndef _LP64
    offset = append(new Convert(Bytecodes::_l2i, offset, as_ValueType(T_INT)));
#endif
    Instruction* op = append(new UnsafeGetObject(t, args->at(1), offset, is_volatile));
    push(op->type(), op);
    compilation()->set_has_unsafe_access(true);
  }
  return InlineUnsafeOps;
}


bool GraphBuilder::append_unsafe_put_obj(ciMethod* callee, BasicType t, bool is_volatile) {
  if (InlineUnsafeOps) {
    Values* args = state()->pop_arguments(callee->arg_size());
    null_check(args->at(0));
    Instruction* offset = args->at(2);
#ifndef _LP64
    offset = append(new Convert(Bytecodes::_l2i, offset, as_ValueType(T_INT)));
#endif
    Instruction* op = append(new UnsafePutObject(t, args->at(1), offset, args->at(3), is_volatile));
    compilation()->set_has_unsafe_access(true);
    kill_all();
  }
  return InlineUnsafeOps;
}


bool GraphBuilder::append_unsafe_get_raw(ciMethod* callee, BasicType t) {
  if (InlineUnsafeOps) {
    Values* args = state()->pop_arguments(callee->arg_size());
    null_check(args->at(0));
    Instruction* op = append(new UnsafeGetRaw(t, args->at(1), false));
    push(op->type(), op);
    compilation()->set_has_unsafe_access(true);
  }
  return InlineUnsafeOps;
}


bool GraphBuilder::append_unsafe_put_raw(ciMethod* callee, BasicType t) {
  if (InlineUnsafeOps) {
    Values* args = state()->pop_arguments(callee->arg_size());
    null_check(args->at(0));
    Instruction* op = append(new UnsafePutRaw(t, args->at(1), args->at(2)));
    compilation()->set_has_unsafe_access(true);
  }
  return InlineUnsafeOps;
}


bool GraphBuilder::append_unsafe_prefetch(ciMethod* callee, bool is_static, bool is_store) {
  if (InlineUnsafeOps) {
    Values* args = state()->pop_arguments(callee->arg_size());
    int obj_arg_index = 1; // Assume non-static case
    if (is_static) {
      obj_arg_index = 0;
    } else {
      null_check(args->at(0));
    }
    Instruction* offset = args->at(obj_arg_index + 1);
#ifndef _LP64
    offset = append(new Convert(Bytecodes::_l2i, offset, as_ValueType(T_INT)));
#endif
    Instruction* op = is_store ? append(new UnsafePrefetchWrite(args->at(obj_arg_index), offset))
                               : append(new UnsafePrefetchRead (args->at(obj_arg_index), offset));
    compilation()->set_has_unsafe_access(true);
  }
  return InlineUnsafeOps;
}


void GraphBuilder::append_unsafe_CAS(ciMethod* callee) {
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  ValueStack* state_before = copy_state_for_exception();
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  ValueType* result_type = as_ValueType(callee->return_type());
  assert(result_type->is_int(), "int result");
  Values* args = state()->pop_arguments(callee->arg_size());

  // Pop off some args to speically handle, then push back
  Value newval = args->pop();
  Value cmpval = args->pop();
  Value offset = args->pop();
  Value src = args->pop();
  Value unsafe_obj = args->pop();

  // Separately handle the unsafe arg. It is not needed for code
  // generation, but must be null checked
  null_check(unsafe_obj);

#ifndef _LP64
  offset = append(new Convert(Bytecodes::_l2i, offset, as_ValueType(T_INT)));
#endif

  args->push(src);
  args->push(offset);
  args->push(cmpval);
  args->push(newval);

  // An unsafe CAS can alias with other field accesses, but we don't
  // know which ones so mark the state as no preserved.  This will
  // cause CSE to invalidate memory across it.
  bool preserves_state = false;
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  Intrinsic* result = new Intrinsic(result_type, callee->intrinsic_id(), args, false, state_before, preserves_state);
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  append_split(result);
  push(result_type, result);
  compilation()->set_has_unsafe_access(true);
}


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void GraphBuilder::print_inlining(ciMethod* callee, const char* msg, bool success) {
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  CompileLog* log = compilation()->log();
  if (log != NULL) {
    if (success) {
      if (msg != NULL)
        log->inline_success(msg);
      else
        log->inline_success("receiver is statically known");
    } else {
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      if (msg != NULL)
        log->inline_fail(msg);
      else
        log->inline_fail("reason unknown");
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    }
  }

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  if (!PrintInlining && !compilation()->method()->has_option("PrintInlining")) {
    return;
  }
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  CompileTask::print_inlining(callee, scope()->level(), bci(), msg);
  if (success && CIPrintMethodCodes) {
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    callee->print_codes();
  }
}

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bool GraphBuilder::append_unsafe_get_and_set_obj(ciMethod* callee, bool is_add) {
  if (InlineUnsafeOps) {
    Values* args = state()->pop_arguments(callee->arg_size());
    BasicType t = callee->return_type()->basic_type();
    null_check(args->at(0));
    Instruction* offset = args->at(2);
#ifndef _LP64
    offset = append(new Convert(Bytecodes::_l2i, offset, as_ValueType(T_INT)));
#endif
    Instruction* op = append(new UnsafeGetAndSetObject(t, args->at(1), offset, args->at(3), is_add));
    compilation()->set_has_unsafe_access(true);
    kill_all();
    push(op->type(), op);
  }
  return InlineUnsafeOps;
}
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4351
#ifndef PRODUCT
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void GraphBuilder::print_stats() {
  vmap()->print();
}
#endif // PRODUCT

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void GraphBuilder::profile_call(ciMethod* callee, Value recv, ciKlass* known_holder, Values* obj_args, bool inlined) {
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  assert(known_holder == NULL || (known_holder->is_instance_klass() &&
                                  (!known_holder->is_interface() ||
                                   ((ciInstanceKlass*)known_holder)->has_default_methods())), "should be default method");
  if (known_holder != NULL) {
    if (known_holder->exact_klass() == NULL) {
      known_holder = compilation()->cha_exact_type(known_holder);
    }
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  }
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  append(new ProfileCall(method(), bci(), callee, recv, known_holder, obj_args, inlined));
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}

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void GraphBuilder::profile_return_type(Value ret, ciMethod* callee, ciMethod* m, int invoke_bci) {
  assert((m == NULL) == (invoke_bci < 0), "invalid method and invalid bci together");
  if (m == NULL) {
    m = method();
  }
  if (invoke_bci < 0) {
    invoke_bci = bci();
  }
  ciMethodData* md = m->method_data_or_null();
  ciProfileData* data = md->bci_to_data(invoke_bci);
  if (data->is_CallTypeData() || data->is_VirtualCallTypeData()) {
    append(new ProfileReturnType(m , invoke_bci, callee, ret));
  }
}

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void GraphBuilder::profile_invocation(ciMethod* callee, ValueStack* state) {
  append(new ProfileInvoke(callee, state));
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}