escape.cpp 77.4 KB
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/*
 * Copyright 2005-2006 Sun Microsystems, Inc.  All Rights Reserved.
 * DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
 *
 * This code is free software; you can redistribute it and/or modify it
 * under the terms of the GNU General Public License version 2 only, as
 * published by the Free Software Foundation.
 *
 * This code is distributed in the hope that it will be useful, but WITHOUT
 * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
 * FITNESS FOR A PARTICULAR PURPOSE.  See the GNU General Public License
 * version 2 for more details (a copy is included in the LICENSE file that
 * accompanied this code).
 *
 * You should have received a copy of the GNU General Public License version
 * 2 along with this work; if not, write to the Free Software Foundation,
 * Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA.
 *
 * Please contact Sun Microsystems, Inc., 4150 Network Circle, Santa Clara,
 * CA 95054 USA or visit www.sun.com if you need additional information or
 * have any questions.
 *
 */

#include "incls/_precompiled.incl"
#include "incls/_escape.cpp.incl"

uint PointsToNode::edge_target(uint e) const {
  assert(_edges != NULL && e < (uint)_edges->length(), "valid edge index");
  return (_edges->at(e) >> EdgeShift);
}

PointsToNode::EdgeType PointsToNode::edge_type(uint e) const {
  assert(_edges != NULL && e < (uint)_edges->length(), "valid edge index");
  return (EdgeType) (_edges->at(e) & EdgeMask);
}

void PointsToNode::add_edge(uint targIdx, PointsToNode::EdgeType et) {
  uint v = (targIdx << EdgeShift) + ((uint) et);
  if (_edges == NULL) {
     Arena *a = Compile::current()->comp_arena();
    _edges = new(a) GrowableArray<uint>(a, INITIAL_EDGE_COUNT, 0, 0);
  }
  _edges->append_if_missing(v);
}

void PointsToNode::remove_edge(uint targIdx, PointsToNode::EdgeType et) {
  uint v = (targIdx << EdgeShift) + ((uint) et);

  _edges->remove(v);
}

#ifndef PRODUCT
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static const char *node_type_names[] = {
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  "UnknownType",
  "JavaObject",
  "LocalVar",
  "Field"
};

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static const char *esc_names[] = {
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  "UnknownEscape",
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  "NoEscape",
  "ArgEscape",
  "GlobalEscape"
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};

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static const char *edge_type_suffix[] = {
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 "?", // UnknownEdge
 "P", // PointsToEdge
 "D", // DeferredEdge
 "F"  // FieldEdge
};

void PointsToNode::dump() const {
  NodeType nt = node_type();
  EscapeState es = escape_state();
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  tty->print("%s %s %s [[", node_type_names[(int) nt], esc_names[(int) es], _scalar_replaceable ? "" : "NSR");
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  for (uint i = 0; i < edge_count(); i++) {
    tty->print(" %d%s", edge_target(i), edge_type_suffix[(int) edge_type(i)]);
  }
  tty->print("]]  ");
  if (_node == NULL)
    tty->print_cr("<null>");
  else
    _node->dump();
}
#endif

ConnectionGraph::ConnectionGraph(Compile * C) : _processed(C->comp_arena()), _node_map(C->comp_arena()) {
  _collecting = true;
  this->_compile = C;
  const PointsToNode &dummy = PointsToNode();
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  int sz = C->unique();
  _nodes = new(C->comp_arena()) GrowableArray<PointsToNode>(C->comp_arena(), sz, sz, dummy);
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  _phantom_object = C->top()->_idx;
  PointsToNode *phn = ptnode_adr(_phantom_object);
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  phn->_node = C->top();
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  phn->set_node_type(PointsToNode::JavaObject);
  phn->set_escape_state(PointsToNode::GlobalEscape);
}

void ConnectionGraph::add_pointsto_edge(uint from_i, uint to_i) {
  PointsToNode *f = ptnode_adr(from_i);
  PointsToNode *t = ptnode_adr(to_i);

  assert(f->node_type() != PointsToNode::UnknownType && t->node_type() != PointsToNode::UnknownType, "node types must be set");
  assert(f->node_type() == PointsToNode::LocalVar || f->node_type() == PointsToNode::Field, "invalid source of PointsTo edge");
  assert(t->node_type() == PointsToNode::JavaObject, "invalid destination of PointsTo edge");
  f->add_edge(to_i, PointsToNode::PointsToEdge);
}

void ConnectionGraph::add_deferred_edge(uint from_i, uint to_i) {
  PointsToNode *f = ptnode_adr(from_i);
  PointsToNode *t = ptnode_adr(to_i);

  assert(f->node_type() != PointsToNode::UnknownType && t->node_type() != PointsToNode::UnknownType, "node types must be set");
  assert(f->node_type() == PointsToNode::LocalVar || f->node_type() == PointsToNode::Field, "invalid source of Deferred edge");
  assert(t->node_type() == PointsToNode::LocalVar || t->node_type() == PointsToNode::Field, "invalid destination of Deferred edge");
  // don't add a self-referential edge, this can occur during removal of
  // deferred edges
  if (from_i != to_i)
    f->add_edge(to_i, PointsToNode::DeferredEdge);
}

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int ConnectionGraph::address_offset(Node* adr, PhaseTransform *phase) {
  const Type *adr_type = phase->type(adr);
  if (adr->is_AddP() && adr_type->isa_oopptr() == NULL &&
      adr->in(AddPNode::Address)->is_Proj() &&
      adr->in(AddPNode::Address)->in(0)->is_Allocate()) {
    // We are computing a raw address for a store captured by an Initialize
    // compute an appropriate address type. AddP cases #3 and #5 (see below).
    int offs = (int)phase->find_intptr_t_con(adr->in(AddPNode::Offset), Type::OffsetBot);
    assert(offs != Type::OffsetBot ||
           adr->in(AddPNode::Address)->in(0)->is_AllocateArray(),
           "offset must be a constant or it is initialization of array");
    return offs;
  }
  const TypePtr *t_ptr = adr_type->isa_ptr();
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  assert(t_ptr != NULL, "must be a pointer type");
  return t_ptr->offset();
}

void ConnectionGraph::add_field_edge(uint from_i, uint to_i, int offset) {
  PointsToNode *f = ptnode_adr(from_i);
  PointsToNode *t = ptnode_adr(to_i);

  assert(f->node_type() != PointsToNode::UnknownType && t->node_type() != PointsToNode::UnknownType, "node types must be set");
  assert(f->node_type() == PointsToNode::JavaObject, "invalid destination of Field edge");
  assert(t->node_type() == PointsToNode::Field, "invalid destination of Field edge");
  assert (t->offset() == -1 || t->offset() == offset, "conflicting field offsets");
  t->set_offset(offset);

  f->add_edge(to_i, PointsToNode::FieldEdge);
}

void ConnectionGraph::set_escape_state(uint ni, PointsToNode::EscapeState es) {
  PointsToNode *npt = ptnode_adr(ni);
  PointsToNode::EscapeState old_es = npt->escape_state();
  if (es > old_es)
    npt->set_escape_state(es);
}

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void ConnectionGraph::add_node(Node *n, PointsToNode::NodeType nt,
                               PointsToNode::EscapeState es, bool done) {
  PointsToNode* ptadr = ptnode_adr(n->_idx);
  ptadr->_node = n;
  ptadr->set_node_type(nt);

  // inline set_escape_state(idx, es);
  PointsToNode::EscapeState old_es = ptadr->escape_state();
  if (es > old_es)
    ptadr->set_escape_state(es);

  if (done)
    _processed.set(n->_idx);
}

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PointsToNode::EscapeState ConnectionGraph::escape_state(Node *n, PhaseTransform *phase) {
  uint idx = n->_idx;
  PointsToNode::EscapeState es;

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  // If we are still collecting or there were no non-escaping allocations
  // we don't know the answer yet
  if (_collecting || !_has_allocations)
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    return PointsToNode::UnknownEscape;

  // if the node was created after the escape computation, return
  // UnknownEscape
  if (idx >= (uint)_nodes->length())
    return PointsToNode::UnknownEscape;

  es = _nodes->at_grow(idx).escape_state();

  // if we have already computed a value, return it
  if (es != PointsToNode::UnknownEscape)
    return es;

  // compute max escape state of anything this node could point to
  VectorSet ptset(Thread::current()->resource_area());
  PointsTo(ptset, n, phase);
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  for(VectorSetI i(&ptset); i.test() && es != PointsToNode::GlobalEscape; ++i) {
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    uint pt = i.elem;
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    PointsToNode::EscapeState pes = _nodes->adr_at(pt)->escape_state();
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    if (pes > es)
      es = pes;
  }
  // cache the computed escape state
  assert(es != PointsToNode::UnknownEscape, "should have computed an escape state");
  _nodes->adr_at(idx)->set_escape_state(es);
  return es;
}

void ConnectionGraph::PointsTo(VectorSet &ptset, Node * n, PhaseTransform *phase) {
  VectorSet visited(Thread::current()->resource_area());
  GrowableArray<uint>  worklist;

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#ifdef ASSERT
  Node *orig_n = n;
#endif

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  n = n->uncast();
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  PointsToNode  npt = _nodes->at_grow(n->_idx);

  // If we have a JavaObject, return just that object
  if (npt.node_type() == PointsToNode::JavaObject) {
    ptset.set(n->_idx);
    return;
  }
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#ifdef ASSERT
  if (npt._node == NULL) {
    if (orig_n != n)
      orig_n->dump();
    n->dump();
    assert(npt._node != NULL, "unregistered node");
  }
#endif
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  worklist.push(n->_idx);
  while(worklist.length() > 0) {
    int ni = worklist.pop();
    PointsToNode pn = _nodes->at_grow(ni);
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    if (!visited.test_set(ni)) {
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      // ensure that all inputs of a Phi have been processed
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      assert(!_collecting || !pn._node->is_Phi() || _processed.test(ni),"");
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      int edges_processed = 0;
      for (uint e = 0; e < pn.edge_count(); e++) {
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        uint etgt = pn.edge_target(e);
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        PointsToNode::EdgeType et = pn.edge_type(e);
        if (et == PointsToNode::PointsToEdge) {
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          ptset.set(etgt);
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          edges_processed++;
        } else if (et == PointsToNode::DeferredEdge) {
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          worklist.push(etgt);
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          edges_processed++;
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        } else {
          assert(false,"neither PointsToEdge or DeferredEdge");
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        }
      }
      if (edges_processed == 0) {
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        // no deferred or pointsto edges found.  Assume the value was set
        // outside this method.  Add the phantom object to the pointsto set.
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        ptset.set(_phantom_object);
      }
    }
  }
}

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void ConnectionGraph::remove_deferred(uint ni, GrowableArray<uint>* deferred_edges, VectorSet* visited) {
  // This method is most expensive during ConnectionGraph construction.
  // Reuse vectorSet and an additional growable array for deferred edges.
  deferred_edges->clear();
  visited->Clear();
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  uint i = 0;
  PointsToNode *ptn = ptnode_adr(ni);

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  // Mark current edges as visited and move deferred edges to separate array.
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  while (i < ptn->edge_count()) {
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    uint t = ptn->edge_target(i);
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#ifdef ASSERT
    assert(!visited->test_set(t), "expecting no duplications");
#else
    visited->set(t);
#endif
    if (ptn->edge_type(i) == PointsToNode::DeferredEdge) {
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      ptn->remove_edge(t, PointsToNode::DeferredEdge);
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      deferred_edges->append(t);
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    } else {
      i++;
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    }
  }
  for (int next = 0; next < deferred_edges->length(); ++next) {
    uint t = deferred_edges->at(next);
    PointsToNode *ptt = ptnode_adr(t);
    for (uint j = 0; j < ptt->edge_count(); j++) {
      uint n1 = ptt->edge_target(j);
      if (visited->test_set(n1))
        continue;
      switch(ptt->edge_type(j)) {
        case PointsToNode::PointsToEdge:
          add_pointsto_edge(ni, n1);
          if(n1 == _phantom_object) {
            // Special case - field set outside (globally escaping).
            ptn->set_escape_state(PointsToNode::GlobalEscape);
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          }
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          break;
        case PointsToNode::DeferredEdge:
          deferred_edges->append(n1);
          break;
        case PointsToNode::FieldEdge:
          assert(false, "invalid connection graph");
          break;
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      }
    }
  }
}


//  Add an edge to node given by "to_i" from any field of adr_i whose offset
//  matches "offset"  A deferred edge is added if to_i is a LocalVar, and
//  a pointsto edge is added if it is a JavaObject

void ConnectionGraph::add_edge_from_fields(uint adr_i, uint to_i, int offs) {
  PointsToNode an = _nodes->at_grow(adr_i);
  PointsToNode to = _nodes->at_grow(to_i);
  bool deferred = (to.node_type() == PointsToNode::LocalVar);

  for (uint fe = 0; fe < an.edge_count(); fe++) {
    assert(an.edge_type(fe) == PointsToNode::FieldEdge, "expecting a field edge");
    int fi = an.edge_target(fe);
    PointsToNode pf = _nodes->at_grow(fi);
    int po = pf.offset();
    if (po == offs || po == Type::OffsetBot || offs == Type::OffsetBot) {
      if (deferred)
        add_deferred_edge(fi, to_i);
      else
        add_pointsto_edge(fi, to_i);
    }
  }
}

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// Add a deferred  edge from node given by "from_i" to any field of adr_i
// whose offset matches "offset".
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void ConnectionGraph::add_deferred_edge_to_fields(uint from_i, uint adr_i, int offs) {
  PointsToNode an = _nodes->at_grow(adr_i);
  for (uint fe = 0; fe < an.edge_count(); fe++) {
    assert(an.edge_type(fe) == PointsToNode::FieldEdge, "expecting a field edge");
    int fi = an.edge_target(fe);
    PointsToNode pf = _nodes->at_grow(fi);
    int po = pf.offset();
    if (pf.edge_count() == 0) {
      // we have not seen any stores to this field, assume it was set outside this method
      add_pointsto_edge(fi, _phantom_object);
    }
    if (po == offs || po == Type::OffsetBot || offs == Type::OffsetBot) {
      add_deferred_edge(from_i, fi);
    }
  }
}

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// Helper functions

static Node* get_addp_base(Node *addp) {
  assert(addp->is_AddP(), "must be AddP");
  //
  // AddP cases for Base and Address inputs:
  // case #1. Direct object's field reference:
  //     Allocate
  //       |
  //     Proj #5 ( oop result )
  //       |
  //     CheckCastPP (cast to instance type)
  //      | |
  //     AddP  ( base == address )
  //
  // case #2. Indirect object's field reference:
  //      Phi
  //       |
  //     CastPP (cast to instance type)
  //      | |
  //     AddP  ( base == address )
  //
  // case #3. Raw object's field reference for Initialize node:
  //      Allocate
  //        |
  //      Proj #5 ( oop result )
  //  top   |
  //     \  |
  //     AddP  ( base == top )
  //
  // case #4. Array's element reference:
  //   {CheckCastPP | CastPP}
  //     |  | |
  //     |  AddP ( array's element offset )
  //     |  |
  //     AddP ( array's offset )
  //
  // case #5. Raw object's field reference for arraycopy stub call:
  //          The inline_native_clone() case when the arraycopy stub is called
  //          after the allocation before Initialize and CheckCastPP nodes.
  //      Allocate
  //        |
  //      Proj #5 ( oop result )
  //       | |
  //       AddP  ( base == address )
  //
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  // case #6. Constant Pool, ThreadLocal, CastX2P or
  //          Raw object's field reference:
  //      {ConP, ThreadLocal, CastX2P, raw Load}
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  //  top   |
  //     \  |
  //     AddP  ( base == top )
  //
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  // case #7. Klass's field reference.
  //      LoadKlass
  //       | |
  //       AddP  ( base == address )
  //
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  // case #8. narrow Klass's field reference.
  //      LoadNKlass
  //       |
  //      DecodeN
  //       | |
  //       AddP  ( base == address )
  //
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  Node *base = addp->in(AddPNode::Base)->uncast();
  if (base->is_top()) { // The AddP case #3 and #6.
    base = addp->in(AddPNode::Address)->uncast();
    assert(base->Opcode() == Op_ConP || base->Opcode() == Op_ThreadLocal ||
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           base->Opcode() == Op_CastX2P || base->is_DecodeN() ||
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           (base->is_Mem() && base->bottom_type() == TypeRawPtr::NOTNULL) ||
           (base->is_Proj() && base->in(0)->is_Allocate()), "sanity");
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  }
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  return base;
}

static Node* find_second_addp(Node* addp, Node* n) {
  assert(addp->is_AddP() && addp->outcnt() > 0, "Don't process dead nodes");

  Node* addp2 = addp->raw_out(0);
  if (addp->outcnt() == 1 && addp2->is_AddP() &&
      addp2->in(AddPNode::Base) == n &&
      addp2->in(AddPNode::Address) == addp) {

    assert(addp->in(AddPNode::Base) == n, "expecting the same base");
    //
    // Find array's offset to push it on worklist first and
    // as result process an array's element offset first (pushed second)
    // to avoid CastPP for the array's offset.
    // Otherwise the inserted CastPP (LocalVar) will point to what
    // the AddP (Field) points to. Which would be wrong since
    // the algorithm expects the CastPP has the same point as
    // as AddP's base CheckCastPP (LocalVar).
    //
    //    ArrayAllocation
    //     |
    //    CheckCastPP
    //     |
    //    memProj (from ArrayAllocation CheckCastPP)
    //     |  ||
    //     |  ||   Int (element index)
    //     |  ||    |   ConI (log(element size))
    //     |  ||    |   /
    //     |  ||   LShift
    //     |  ||  /
    //     |  AddP (array's element offset)
    //     |  |
    //     |  | ConI (array's offset: #12(32-bits) or #24(64-bits))
    //     | / /
    //     AddP (array's offset)
    //      |
    //     Load/Store (memory operation on array's element)
    //
    return addp2;
  }
  return NULL;
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}

//
// Adjust the type and inputs of an AddP which computes the
// address of a field of an instance
//
void ConnectionGraph::split_AddP(Node *addp, Node *base,  PhaseGVN  *igvn) {
  const TypeOopPtr *base_t = igvn->type(base)->isa_oopptr();
  assert(base_t != NULL && base_t->is_instance(), "expecting instance oopptr");
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  const TypeOopPtr *t = igvn->type(addp)->isa_oopptr();
  if (t == NULL) {
    // We are computing a raw address for a store captured by an Initialize
    // compute an appropriate address type.
    assert(igvn->type(addp) == TypeRawPtr::NOTNULL, "must be raw pointer");
    assert(addp->in(AddPNode::Address)->is_Proj(), "base of raw address must be result projection from allocation");
    int offs = (int)igvn->find_intptr_t_con(addp->in(AddPNode::Offset), Type::OffsetBot);
    assert(offs != Type::OffsetBot, "offset must be a constant");
    t = base_t->add_offset(offs)->is_oopptr();
  }
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  uint inst_id =  base_t->instance_id();
  assert(!t->is_instance() || t->instance_id() == inst_id,
                             "old type must be non-instance or match new type");
  const TypeOopPtr *tinst = base_t->add_offset(t->offset())->is_oopptr();
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  // Do NOT remove the next call: ensure an new alias index is allocated
  // for the instance type
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  int alias_idx = _compile->get_alias_index(tinst);
  igvn->set_type(addp, tinst);
  // record the allocation in the node map
  set_map(addp->_idx, get_map(base->_idx));
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  // if the Address input is not the appropriate instance type
  // (due to intervening casts,) insert a cast
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  Node *adr = addp->in(AddPNode::Address);
  const TypeOopPtr  *atype = igvn->type(adr)->isa_oopptr();
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  if (atype != NULL && atype->instance_id() != inst_id) {
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    assert(!atype->is_instance(), "no conflicting instances");
    const TypeOopPtr *new_atype = base_t->add_offset(atype->offset())->isa_oopptr();
    Node *acast = new (_compile, 2) CastPPNode(adr, new_atype);
    acast->set_req(0, adr->in(0));
    igvn->set_type(acast, new_atype);
    record_for_optimizer(acast);
    Node *bcast = acast;
    Node *abase = addp->in(AddPNode::Base);
    if (abase != adr) {
      bcast = new (_compile, 2) CastPPNode(abase, base_t);
      bcast->set_req(0, abase->in(0));
      igvn->set_type(bcast, base_t);
      record_for_optimizer(bcast);
    }
    igvn->hash_delete(addp);
    addp->set_req(AddPNode::Base, bcast);
    addp->set_req(AddPNode::Address, acast);
    igvn->hash_insert(addp);
  }
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  // Put on IGVN worklist since at least addp's type was changed above.
  record_for_optimizer(addp);
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}

//
// Create a new version of orig_phi if necessary. Returns either the newly
// created phi or an existing phi.  Sets create_new to indicate wheter  a new
// phi was created.  Cache the last newly created phi in the node map.
//
PhiNode *ConnectionGraph::create_split_phi(PhiNode *orig_phi, int alias_idx, GrowableArray<PhiNode *>  &orig_phi_worklist, PhaseGVN  *igvn, bool &new_created) {
  Compile *C = _compile;
  new_created = false;
  int phi_alias_idx = C->get_alias_index(orig_phi->adr_type());
  // nothing to do if orig_phi is bottom memory or matches alias_idx
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  if (phi_alias_idx == alias_idx) {
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    return orig_phi;
  }
  // have we already created a Phi for this alias index?
  PhiNode *result = get_map_phi(orig_phi->_idx);
  if (result != NULL && C->get_alias_index(result->adr_type()) == alias_idx) {
    return result;
  }
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  if ((int)C->unique() + 2*NodeLimitFudgeFactor > MaxNodeLimit) {
    if (C->do_escape_analysis() == true && !C->failing()) {
      // Retry compilation without escape analysis.
      // If this is the first failure, the sentinel string will "stick"
      // to the Compile object, and the C2Compiler will see it and retry.
      C->record_failure(C2Compiler::retry_no_escape_analysis());
    }
    return NULL;
  }
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  orig_phi_worklist.append_if_missing(orig_phi);
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  const TypePtr *atype = C->get_adr_type(alias_idx);
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  result = PhiNode::make(orig_phi->in(0), NULL, Type::MEMORY, atype);
  set_map_phi(orig_phi->_idx, result);
  igvn->set_type(result, result->bottom_type());
  record_for_optimizer(result);
  new_created = true;
  return result;
}

//
// Return a new version  of Memory Phi "orig_phi" with the inputs having the
// specified alias index.
//
PhiNode *ConnectionGraph::split_memory_phi(PhiNode *orig_phi, int alias_idx, GrowableArray<PhiNode *>  &orig_phi_worklist, PhaseGVN  *igvn) {

  assert(alias_idx != Compile::AliasIdxBot, "can't split out bottom memory");
  Compile *C = _compile;
  bool new_phi_created;
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  PhiNode *result = create_split_phi(orig_phi, alias_idx, orig_phi_worklist, igvn, new_phi_created);
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  if (!new_phi_created) {
    return result;
  }

  GrowableArray<PhiNode *>  phi_list;
  GrowableArray<uint>  cur_input;

  PhiNode *phi = orig_phi;
  uint idx = 1;
  bool finished = false;
  while(!finished) {
    while (idx < phi->req()) {
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      Node *mem = find_inst_mem(phi->in(idx), alias_idx, orig_phi_worklist, igvn);
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      if (mem != NULL && mem->is_Phi()) {
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        PhiNode *newphi = create_split_phi(mem->as_Phi(), alias_idx, orig_phi_worklist, igvn, new_phi_created);
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        if (new_phi_created) {
          // found an phi for which we created a new split, push current one on worklist and begin
          // processing new one
          phi_list.push(phi);
          cur_input.push(idx);
          phi = mem->as_Phi();
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          result = newphi;
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          idx = 1;
          continue;
        } else {
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          mem = newphi;
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        }
      }
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      if (C->failing()) {
        return NULL;
      }
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      result->set_req(idx++, mem);
    }
#ifdef ASSERT
    // verify that the new Phi has an input for each input of the original
    assert( phi->req() == result->req(), "must have same number of inputs.");
    assert( result->in(0) != NULL && result->in(0) == phi->in(0), "regions must match");
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#endif
    // Check if all new phi's inputs have specified alias index.
    // Otherwise use old phi.
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    for (uint i = 1; i < phi->req(); i++) {
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      Node* in = result->in(i);
      assert((phi->in(i) == NULL) == (in == NULL), "inputs must correspond.");
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    }
    // we have finished processing a Phi, see if there are any more to do
    finished = (phi_list.length() == 0 );
    if (!finished) {
      phi = phi_list.pop();
      idx = cur_input.pop();
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      PhiNode *prev_result = get_map_phi(phi->_idx);
      prev_result->set_req(idx++, result);
      result = prev_result;
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    }
  }
  return result;
}

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//
// The next methods are derived from methods in MemNode.
//
static Node *step_through_mergemem(MergeMemNode *mmem, int alias_idx, const TypeOopPtr *tinst) {
  Node *mem = mmem;
  // TypeInstPtr::NOTNULL+any is an OOP with unknown offset - generally
  // means an array I have not precisely typed yet.  Do not do any
  // alias stuff with it any time soon.
  if( tinst->base() != Type::AnyPtr &&
      !(tinst->klass()->is_java_lang_Object() &&
        tinst->offset() == Type::OffsetBot) ) {
    mem = mmem->memory_at(alias_idx);
    // Update input if it is progress over what we have now
  }
  return mem;
}

//
// Search memory chain of "mem" to find a MemNode whose address
// is the specified alias index.
//
Node* ConnectionGraph::find_inst_mem(Node *orig_mem, int alias_idx, GrowableArray<PhiNode *>  &orig_phis, PhaseGVN *phase) {
  if (orig_mem == NULL)
    return orig_mem;
  Compile* C = phase->C;
  const TypeOopPtr *tinst = C->get_adr_type(alias_idx)->isa_oopptr();
  bool is_instance = (tinst != NULL) && tinst->is_instance();
  Node *prev = NULL;
  Node *result = orig_mem;
  while (prev != result) {
    prev = result;
    if (result->is_Mem()) {
      MemNode *mem = result->as_Mem();
      const Type *at = phase->type(mem->in(MemNode::Address));
      if (at != Type::TOP) {
        assert (at->isa_ptr() != NULL, "pointer type required.");
        int idx = C->get_alias_index(at->is_ptr());
        if (idx == alias_idx)
          break;
      }
      result = mem->in(MemNode::Memory);
    }
    if (!is_instance)
      continue;  // don't search further for non-instance types
    // skip over a call which does not affect this memory slice
    if (result->is_Proj() && result->as_Proj()->_con == TypeFunc::Memory) {
      Node *proj_in = result->in(0);
      if (proj_in->is_Call()) {
        CallNode *call = proj_in->as_Call();
        if (!call->may_modify(tinst, phase)) {
          result = call->in(TypeFunc::Memory);
        }
      } else if (proj_in->is_Initialize()) {
        AllocateNode* alloc = proj_in->as_Initialize()->allocation();
        // Stop if this is the initialization for the object instance which
        // which contains this memory slice, otherwise skip over it.
        if (alloc == NULL || alloc->_idx != tinst->instance_id()) {
          result = proj_in->in(TypeFunc::Memory);
        }
      } else if (proj_in->is_MemBar()) {
        result = proj_in->in(TypeFunc::Memory);
      }
    } else if (result->is_MergeMem()) {
      MergeMemNode *mmem = result->as_MergeMem();
      result = step_through_mergemem(mmem, alias_idx, tinst);
      if (result == mmem->base_memory()) {
        // Didn't find instance memory, search through general slice recursively.
        result = mmem->memory_at(C->get_general_index(alias_idx));
        result = find_inst_mem(result, alias_idx, orig_phis, phase);
        if (C->failing()) {
          return NULL;
        }
        mmem->set_memory_at(alias_idx, result);
      }
    } else if (result->is_Phi() &&
               C->get_alias_index(result->as_Phi()->adr_type()) != alias_idx) {
      Node *un = result->as_Phi()->unique_input(phase);
      if (un != NULL) {
        result = un;
      } else {
        break;
      }
    }
  }
  if (is_instance && result->is_Phi()) {
    PhiNode *mphi = result->as_Phi();
    assert(mphi->bottom_type() == Type::MEMORY, "memory phi required");
    const TypePtr *t = mphi->adr_type();
    if (C->get_alias_index(t) != alias_idx) {
      result = split_memory_phi(mphi, alias_idx, orig_phis, phase);
    }
  }
  // the result is either MemNode, PhiNode, InitializeNode.
  return result;
}


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//
//  Convert the types of unescaped object to instance types where possible,
//  propagate the new type information through the graph, and update memory
//  edges and MergeMem inputs to reflect the new type.
//
//  We start with allocations (and calls which may be allocations)  on alloc_worklist.
//  The processing is done in 4 phases:
//
//  Phase 1:  Process possible allocations from alloc_worklist.  Create instance
//            types for the CheckCastPP for allocations where possible.
//            Propagate the the new types through users as follows:
//               casts and Phi:  push users on alloc_worklist
//               AddP:  cast Base and Address inputs to the instance type
//                      push any AddP users on alloc_worklist and push any memnode
//                      users onto memnode_worklist.
//  Phase 2:  Process MemNode's from memnode_worklist. compute new address type and
//            search the Memory chain for a store with the appropriate type
//            address type.  If a Phi is found, create a new version with
//            the approriate memory slices from each of the Phi inputs.
//            For stores, process the users as follows:
//               MemNode:  push on memnode_worklist
//               MergeMem: push on mergemem_worklist
//  Phase 3:  Process MergeMem nodes from mergemem_worklist.  Walk each memory slice
//            moving the first node encountered of each  instance type to the
//            the input corresponding to its alias index.
//            appropriate memory slice.
//  Phase 4:  Update the inputs of non-instance memory Phis and the Memory input of memnodes.
//
// In the following example, the CheckCastPP nodes are the cast of allocation
// results and the allocation of node 29 is unescaped and eligible to be an
// instance type.
//
// We start with:
//
//     7 Parm #memory
//    10  ConI  "12"
//    19  CheckCastPP   "Foo"
//    20  AddP  _ 19 19 10  Foo+12  alias_index=4
//    29  CheckCastPP   "Foo"
//    30  AddP  _ 29 29 10  Foo+12  alias_index=4
//
//    40  StoreP  25   7  20   ... alias_index=4
//    50  StoreP  35  40  30   ... alias_index=4
//    60  StoreP  45  50  20   ... alias_index=4
//    70  LoadP    _  60  30   ... alias_index=4
//    80  Phi     75  50  60   Memory alias_index=4
//    90  LoadP    _  80  30   ... alias_index=4
//   100  LoadP    _  80  20   ... alias_index=4
//
//
// Phase 1 creates an instance type for node 29 assigning it an instance id of 24
// and creating a new alias index for node 30.  This gives:
//
//     7 Parm #memory
//    10  ConI  "12"
//    19  CheckCastPP   "Foo"
//    20  AddP  _ 19 19 10  Foo+12  alias_index=4
//    29  CheckCastPP   "Foo"  iid=24
//    30  AddP  _ 29 29 10  Foo+12  alias_index=6  iid=24
//
//    40  StoreP  25   7  20   ... alias_index=4
//    50  StoreP  35  40  30   ... alias_index=6
//    60  StoreP  45  50  20   ... alias_index=4
//    70  LoadP    _  60  30   ... alias_index=6
//    80  Phi     75  50  60   Memory alias_index=4
//    90  LoadP    _  80  30   ... alias_index=6
//   100  LoadP    _  80  20   ... alias_index=4
//
// In phase 2, new memory inputs are computed for the loads and stores,
// And a new version of the phi is created.  In phase 4, the inputs to
// node 80 are updated and then the memory nodes are updated with the
// values computed in phase 2.  This results in:
//
//     7 Parm #memory
//    10  ConI  "12"
//    19  CheckCastPP   "Foo"
//    20  AddP  _ 19 19 10  Foo+12  alias_index=4
//    29  CheckCastPP   "Foo"  iid=24
//    30  AddP  _ 29 29 10  Foo+12  alias_index=6  iid=24
//
//    40  StoreP  25  7   20   ... alias_index=4
//    50  StoreP  35  7   30   ... alias_index=6
//    60  StoreP  45  40  20   ... alias_index=4
//    70  LoadP    _  50  30   ... alias_index=6
//    80  Phi     75  40  60   Memory alias_index=4
//   120  Phi     75  50  50   Memory alias_index=6
//    90  LoadP    _ 120  30   ... alias_index=6
//   100  LoadP    _  80  20   ... alias_index=4
//
void ConnectionGraph::split_unique_types(GrowableArray<Node *>  &alloc_worklist) {
  GrowableArray<Node *>  memnode_worklist;
  GrowableArray<Node *>  mergemem_worklist;
  GrowableArray<PhiNode *>  orig_phis;
  PhaseGVN  *igvn = _compile->initial_gvn();
  uint new_index_start = (uint) _compile->num_alias_types();
  VectorSet visited(Thread::current()->resource_area());
  VectorSet ptset(Thread::current()->resource_area());

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  //  Phase 1:  Process possible allocations from alloc_worklist.
  //  Create instance types for the CheckCastPP for allocations where possible.
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  while (alloc_worklist.length() != 0) {
    Node *n = alloc_worklist.pop();
    uint ni = n->_idx;
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    const TypeOopPtr* tinst = NULL;
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    if (n->is_Call()) {
      CallNode *alloc = n->as_Call();
      // copy escape information to call node
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      PointsToNode* ptn = _nodes->adr_at(alloc->_idx);
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      PointsToNode::EscapeState es = escape_state(alloc, igvn);
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      // We have an allocation or call which returns a Java object,
      // see if it is unescaped.
      if (es != PointsToNode::NoEscape || !ptn->_scalar_replaceable)
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        continue;
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      if (alloc->is_Allocate()) {
        // Set the scalar_replaceable flag before the next check.
        alloc->as_Allocate()->_is_scalar_replaceable = true;
      }
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      // find CheckCastPP of call return value
      n = alloc->result_cast();
      if (n == NULL ||          // No uses accept Initialize or
          !n->is_CheckCastPP()) // not unique CheckCastPP.
        continue;
      // The inline code for Object.clone() casts the allocation result to
      // java.lang.Object and then to the the actual type of the allocated
      // object. Detect this case and use the second cast.
      if (alloc->is_Allocate() && n->as_Type()->type() == TypeInstPtr::NOTNULL
          && igvn->type(alloc->in(AllocateNode::KlassNode)) != TypeKlassPtr::OBJECT) {
        Node *cast2 = NULL;
        for (DUIterator_Fast imax, i = n->fast_outs(imax); i < imax; i++) {
          Node *use = n->fast_out(i);
          if (use->is_CheckCastPP()) {
            cast2 = use;
            break;
          }
        }
        if (cast2 != NULL) {
          n = cast2;
        } else {
          continue;
        }
      }
      set_escape_state(n->_idx, es);
      // in order for an object to be stackallocatable, it must be:
      //   - a direct allocation (not a call returning an object)
      //   - non-escaping
      //   - eligible to be a unique type
      //   - not determined to be ineligible by escape analysis
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      set_map(alloc->_idx, n);
      set_map(n->_idx, alloc);
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      const TypeOopPtr *t = igvn->type(n)->isa_oopptr();
      if (t == NULL)
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        continue;  // not a TypeInstPtr
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      tinst = t->cast_to_instance(ni);
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      igvn->hash_delete(n);
      igvn->set_type(n,  tinst);
      n->raise_bottom_type(tinst);
      igvn->hash_insert(n);
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      record_for_optimizer(n);
      if (alloc->is_Allocate() && ptn->_scalar_replaceable &&
          (t->isa_instptr() || t->isa_aryptr())) {
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        // First, put on the worklist all Field edges from Connection Graph
        // which is more accurate then putting immediate users from Ideal Graph.
        for (uint e = 0; e < ptn->edge_count(); e++) {
          Node *use = _nodes->adr_at(ptn->edge_target(e))->_node;
          assert(ptn->edge_type(e) == PointsToNode::FieldEdge && use->is_AddP(),
                 "only AddP nodes are Field edges in CG");
          if (use->outcnt() > 0) { // Don't process dead nodes
            Node* addp2 = find_second_addp(use, use->in(AddPNode::Base));
            if (addp2 != NULL) {
              assert(alloc->is_AllocateArray(),"array allocation was expected");
              alloc_worklist.append_if_missing(addp2);
            }
            alloc_worklist.append_if_missing(use);
          }
        }

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        // An allocation may have an Initialize which has raw stores. Scan
        // the users of the raw allocation result and push AddP users
        // on alloc_worklist.
        Node *raw_result = alloc->proj_out(TypeFunc::Parms);
        assert (raw_result != NULL, "must have an allocation result");
        for (DUIterator_Fast imax, i = raw_result->fast_outs(imax); i < imax; i++) {
          Node *use = raw_result->fast_out(i);
          if (use->is_AddP() && use->outcnt() > 0) { // Don't process dead nodes
            Node* addp2 = find_second_addp(use, raw_result);
            if (addp2 != NULL) {
              assert(alloc->is_AllocateArray(),"array allocation was expected");
              alloc_worklist.append_if_missing(addp2);
            }
            alloc_worklist.append_if_missing(use);
          } else if (use->is_Initialize()) {
            memnode_worklist.append_if_missing(use);
          }
        }
      }
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    } else if (n->is_AddP()) {
      ptset.Clear();
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      PointsTo(ptset, get_addp_base(n), igvn);
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      assert(ptset.Size() == 1, "AddP address is unique");
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      uint elem = ptset.getelem(); // Allocation node's index
      if (elem == _phantom_object)
        continue; // Assume the value was set outside this method.
      Node *base = get_map(elem);  // CheckCastPP node
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      split_AddP(n, base, igvn);
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      tinst = igvn->type(base)->isa_oopptr();
    } else if (n->is_Phi() ||
               n->is_CheckCastPP() ||
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               n->is_EncodeP() ||
               n->is_DecodeN() ||
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               (n->is_ConstraintCast() && n->Opcode() == Op_CastPP)) {
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      if (visited.test_set(n->_idx)) {
        assert(n->is_Phi(), "loops only through Phi's");
        continue;  // already processed
      }
      ptset.Clear();
      PointsTo(ptset, n, igvn);
      if (ptset.Size() == 1) {
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        uint elem = ptset.getelem(); // Allocation node's index
        if (elem == _phantom_object)
          continue; // Assume the value was set outside this method.
        Node *val = get_map(elem);   // CheckCastPP node
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        TypeNode *tn = n->as_Type();
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        tinst = igvn->type(val)->isa_oopptr();
        assert(tinst != NULL && tinst->is_instance() &&
               tinst->instance_id() == elem , "instance type expected.");
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        const Type *tn_type = igvn->type(tn);
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        const TypeOopPtr *tn_t = tn_type->make_ptr()->isa_oopptr();
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        if (tn_t != NULL &&
 tinst->cast_to_instance(TypeOopPtr::UNKNOWN_INSTANCE)->higher_equal(tn_t)) {
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          if (tn_type->isa_narrowoop()) {
            tn_type = tinst->make_narrowoop();
          } else {
            tn_type = tinst;
          }
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          igvn->hash_delete(tn);
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          igvn->set_type(tn, tn_type);
          tn->set_type(tn_type);
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          igvn->hash_insert(tn);
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          record_for_optimizer(n);
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        }
      }
    } else {
      continue;
    }
    // push users on appropriate worklist
    for (DUIterator_Fast imax, i = n->fast_outs(imax); i < imax; i++) {
      Node *use = n->fast_out(i);
      if(use->is_Mem() && use->in(MemNode::Address) == n) {
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        memnode_worklist.append_if_missing(use);
      } else if (use->is_Initialize()) {
        memnode_worklist.append_if_missing(use);
      } else if (use->is_MergeMem()) {
        mergemem_worklist.append_if_missing(use);
      } else if (use->is_Call() && tinst != NULL) {
        // Look for MergeMem nodes for calls which reference unique allocation
        // (through CheckCastPP nodes) even for debug info.
        Node* m = use->in(TypeFunc::Memory);
        uint iid = tinst->instance_id();
        while (m->is_Proj() && m->in(0)->is_Call() &&
               m->in(0) != use && !m->in(0)->_idx != iid) {
          m = m->in(0)->in(TypeFunc::Memory);
        }
        if (m->is_MergeMem()) {
          mergemem_worklist.append_if_missing(m);
        }
      } else if (use->is_AddP() && use->outcnt() > 0) { // No dead nodes
        Node* addp2 = find_second_addp(use, n);
        if (addp2 != NULL) {
          alloc_worklist.append_if_missing(addp2);
        }
        alloc_worklist.append_if_missing(use);
      } else if (use->is_Phi() ||
                 use->is_CheckCastPP() ||
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                 use->is_EncodeP() ||
                 use->is_DecodeN() ||
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                 (use->is_ConstraintCast() && use->Opcode() == Op_CastPP)) {
        alloc_worklist.append_if_missing(use);
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      }
    }

  }
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  // New alias types were created in split_AddP().
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  uint new_index_end = (uint) _compile->num_alias_types();

  //  Phase 2:  Process MemNode's from memnode_worklist. compute new address type and
  //            compute new values for Memory inputs  (the Memory inputs are not
  //            actually updated until phase 4.)
  if (memnode_worklist.length() == 0)
    return;  // nothing to do

  while (memnode_worklist.length() != 0) {
    Node *n = memnode_worklist.pop();
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    if (visited.test_set(n->_idx))
      continue;
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    if (n->is_Phi()) {
      assert(n->as_Phi()->adr_type() != TypePtr::BOTTOM, "narrow memory slice required");
      // we don't need to do anything, but the users must be pushed if we haven't processed
      // this Phi before
1039 1040 1041 1042
    } else if (n->is_Initialize()) {
      // we don't need to do anything, but the users of the memory projection must be pushed
      n = n->as_Initialize()->proj_out(TypeFunc::Memory);
      if (n == NULL)
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        continue;
    } else {
      assert(n->is_Mem(), "memory node required.");
      Node *addr = n->in(MemNode::Address);
1047
      assert(addr->is_AddP(), "AddP required");
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      const Type *addr_t = igvn->type(addr);
      if (addr_t == Type::TOP)
        continue;
      assert (addr_t->isa_ptr() != NULL, "pointer type required.");
      int alias_idx = _compile->get_alias_index(addr_t->is_ptr());
1053 1054
      assert ((uint)alias_idx < new_index_end, "wrong alias index");
      Node *mem = find_inst_mem(n->in(MemNode::Memory), alias_idx, orig_phis, igvn);
1055 1056 1057
      if (_compile->failing()) {
        return;
      }
1058
      if (mem != n->in(MemNode::Memory)) {
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        set_map(n->_idx, mem);
1060 1061
        _nodes->adr_at(n->_idx)->_node = n;
      }
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      if (n->is_Load()) {
        continue;  // don't push users
      } else if (n->is_LoadStore()) {
        // get the memory projection
        for (DUIterator_Fast imax, i = n->fast_outs(imax); i < imax; i++) {
          Node *use = n->fast_out(i);
          if (use->Opcode() == Op_SCMemProj) {
            n = use;
            break;
          }
        }
        assert(n->Opcode() == Op_SCMemProj, "memory projection required");
      }
    }
    // push user on appropriate worklist
    for (DUIterator_Fast imax, i = n->fast_outs(imax); i < imax; i++) {
      Node *use = n->fast_out(i);
      if (use->is_Phi()) {
1080
        memnode_worklist.append_if_missing(use);
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      } else if(use->is_Mem() && use->in(MemNode::Memory) == n) {
1082 1083 1084
        memnode_worklist.append_if_missing(use);
      } else if (use->is_Initialize()) {
        memnode_worklist.append_if_missing(use);
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      } else if (use->is_MergeMem()) {
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        mergemem_worklist.append_if_missing(use);
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      }
    }
  }

1091 1092 1093
  //  Phase 3:  Process MergeMem nodes from mergemem_worklist.
  //            Walk each memory moving the first node encountered of each
  //            instance type to the the input corresponding to its alias index.
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  while (mergemem_worklist.length() != 0) {
    Node *n = mergemem_worklist.pop();
    assert(n->is_MergeMem(), "MergeMem node required.");
1097 1098
    if (visited.test_set(n->_idx))
      continue;
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    MergeMemNode *nmm = n->as_MergeMem();
    // Note: we don't want to use MergeMemStream here because we only want to
1101
    //  scan inputs which exist at the start, not ones we add during processing.
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    uint nslices = nmm->req();
    igvn->hash_delete(nmm);
    for (uint i = Compile::AliasIdxRaw+1; i < nslices; i++) {
1105 1106
      Node* mem = nmm->in(i);
      Node* cur = NULL;
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      if (mem == NULL || mem->is_top())
        continue;
      while (mem->is_Mem()) {
        const Type *at = igvn->type(mem->in(MemNode::Address));
        if (at != Type::TOP) {
          assert (at->isa_ptr() != NULL, "pointer type required.");
          uint idx = (uint)_compile->get_alias_index(at->is_ptr());
          if (idx == i) {
            if (cur == NULL)
              cur = mem;
          } else {
            if (idx >= nmm->req() || nmm->is_empty_memory(nmm->in(idx))) {
              nmm->set_memory_at(idx, mem);
            }
          }
        }
        mem = mem->in(MemNode::Memory);
      }
      nmm->set_memory_at(i, (cur != NULL) ? cur : mem);
1126 1127 1128 1129 1130 1131 1132 1133 1134
      // Find any instance of the current type if we haven't encountered
      // a value of the instance along the chain.
      for (uint ni = new_index_start; ni < new_index_end; ni++) {
        if((uint)_compile->get_general_index(ni) == i) {
          Node *m = (ni >= nmm->req()) ? nmm->empty_memory() : nmm->in(ni);
          if (nmm->is_empty_memory(m)) {
            Node* result = find_inst_mem(mem, ni, orig_phis, igvn);
            if (_compile->failing()) {
              return;
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            }
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            nmm->set_memory_at(ni, result);
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          }
        }
      }
    }
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    // Find the rest of instances values
    for (uint ni = new_index_start; ni < new_index_end; ni++) {
      const TypeOopPtr *tinst = igvn->C->get_adr_type(ni)->isa_oopptr();
      Node* result = step_through_mergemem(nmm, ni, tinst);
      if (result == nmm->base_memory()) {
        // Didn't find instance memory, search through general slice recursively.
        result = nmm->memory_at(igvn->C->get_general_index(ni));
        result = find_inst_mem(result, ni, orig_phis, igvn);
        if (_compile->failing()) {
          return;
        }
        nmm->set_memory_at(ni, result);
      }
    }
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    igvn->hash_insert(nmm);
    record_for_optimizer(nmm);
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    // Propagate new memory slices to following MergeMem nodes.
    for (DUIterator_Fast imax, i = n->fast_outs(imax); i < imax; i++) {
      Node *use = n->fast_out(i);
      if (use->is_Call()) {
        CallNode* in = use->as_Call();
        if (in->proj_out(TypeFunc::Memory) != NULL) {
          Node* m = in->proj_out(TypeFunc::Memory);
          for (DUIterator_Fast jmax, j = m->fast_outs(jmax); j < jmax; j++) {
            Node* mm = m->fast_out(j);
            if (mm->is_MergeMem()) {
              mergemem_worklist.append_if_missing(mm);
            }
          }
        }
        if (use->is_Allocate()) {
          use = use->as_Allocate()->initialization();
          if (use == NULL) {
            continue;
          }
        }
      }
      if (use->is_Initialize()) {
        InitializeNode* in = use->as_Initialize();
        if (in->proj_out(TypeFunc::Memory) != NULL) {
          Node* m = in->proj_out(TypeFunc::Memory);
          for (DUIterator_Fast jmax, j = m->fast_outs(jmax); j < jmax; j++) {
            Node* mm = m->fast_out(j);
            if (mm->is_MergeMem()) {
              mergemem_worklist.append_if_missing(mm);
            }
          }
        }
      }
    }
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  }

1194 1195
  //  Phase 4:  Update the inputs of non-instance memory Phis and
  //            the Memory input of memnodes
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  // First update the inputs of any non-instance Phi's from
  // which we split out an instance Phi.  Note we don't have
  // to recursively process Phi's encounted on the input memory
  // chains as is done in split_memory_phi() since they  will
  // also be processed here.
  while (orig_phis.length() != 0) {
    PhiNode *phi = orig_phis.pop();
    int alias_idx = _compile->get_alias_index(phi->adr_type());
    igvn->hash_delete(phi);
    for (uint i = 1; i < phi->req(); i++) {
      Node *mem = phi->in(i);
1207 1208 1209 1210
      Node *new_mem = find_inst_mem(mem, alias_idx, orig_phis, igvn);
      if (_compile->failing()) {
        return;
      }
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      if (mem != new_mem) {
        phi->set_req(i, new_mem);
      }
    }
    igvn->hash_insert(phi);
    record_for_optimizer(phi);
  }

  // Update the memory inputs of MemNodes with the value we computed
  // in Phase 2.
  for (int i = 0; i < _nodes->length(); i++) {
    Node *nmem = get_map(i);
    if (nmem != NULL) {
1224
      Node *n = _nodes->adr_at(i)->_node;
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      if (n != NULL && n->is_Mem()) {
        igvn->hash_delete(n);
        n->set_req(MemNode::Memory, nmem);
        igvn->hash_insert(n);
        record_for_optimizer(n);
      }
    }
  }
}

void ConnectionGraph::compute_escape() {

1237
  // 1. Populate Connection Graph (CG) with Ideal nodes.
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1239 1240 1241 1242 1243 1244 1245 1246 1247 1248 1249 1250 1251 1252 1253 1254 1255 1256 1257 1258 1259 1260 1261 1262 1263 1264 1265 1266 1267 1268 1269 1270 1271 1272 1273 1274 1275 1276 1277 1278 1279 1280 1281 1282 1283 1284 1285 1286 1287 1288 1289 1290 1291 1292 1293 1294 1295 1296 1297 1298 1299
  Unique_Node_List worklist_init;
  worklist_init.map(_compile->unique(), NULL);  // preallocate space

  // Initialize worklist
  if (_compile->root() != NULL) {
    worklist_init.push(_compile->root());
  }

  GrowableArray<int> cg_worklist;
  PhaseGVN* igvn = _compile->initial_gvn();
  bool has_allocations = false;

  // Push all useful nodes onto CG list and set their type.
  for( uint next = 0; next < worklist_init.size(); ++next ) {
    Node* n = worklist_init.at(next);
    record_for_escape_analysis(n, igvn);
    if (n->is_Call() &&
        _nodes->adr_at(n->_idx)->node_type() == PointsToNode::JavaObject) {
      has_allocations = true;
    }
    if(n->is_AddP())
      cg_worklist.append(n->_idx);
    for (DUIterator_Fast imax, i = n->fast_outs(imax); i < imax; i++) {
      Node* m = n->fast_out(i);   // Get user
      worklist_init.push(m);
    }
  }

  if (has_allocations) {
    _has_allocations = true;
  } else {
    _has_allocations = false;
    _collecting = false;
    return; // Nothing to do.
  }

  // 2. First pass to create simple CG edges (doesn't require to walk CG).
  for( uint next = 0; next < _delayed_worklist.size(); ++next ) {
    Node* n = _delayed_worklist.at(next);
    build_connection_graph(n, igvn);
  }

  // 3. Pass to create fields edges (Allocate -F-> AddP).
  for( int next = 0; next < cg_worklist.length(); ++next ) {
    int ni = cg_worklist.at(next);
    build_connection_graph(_nodes->adr_at(ni)->_node, igvn);
  }

  cg_worklist.clear();
  cg_worklist.append(_phantom_object);

  // 4. Build Connection Graph which need
  //    to walk the connection graph.
  for (uint ni = 0; ni < (uint)_nodes->length(); ni++) {
    PointsToNode* ptn = _nodes->adr_at(ni);
    Node *n = ptn->_node;
    if (n != NULL) { // Call, AddP, LoadP, StoreP
      build_connection_graph(n, igvn);
      if (ptn->node_type() != PointsToNode::UnknownType)
        cg_worklist.append(n->_idx); // Collect CG nodes
    }
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  }

  VectorSet ptset(Thread::current()->resource_area());
1303 1304 1305 1306
  GrowableArray<Node*> alloc_worklist;
  GrowableArray<int>   worklist;
  GrowableArray<uint>  deferred_edges;
  VectorSet visited(Thread::current()->resource_area());
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  // remove deferred edges from the graph and collect
  // information we will need for type splitting
1310 1311 1312
  for( int next = 0; next < cg_worklist.length(); ++next ) {
    int ni = cg_worklist.at(next);
    PointsToNode* ptn = _nodes->adr_at(ni);
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    PointsToNode::NodeType nt = ptn->node_type();
    Node *n = ptn->_node;
    if (nt == PointsToNode::LocalVar || nt == PointsToNode::Field) {
1316
      remove_deferred(ni, &deferred_edges, &visited);
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      if (n->is_AddP()) {
1318
        // If this AddP computes an address which may point to more that one
1319 1320
        // object or more then one field (array's element), nothing the address
        // points to can be scalar replaceable.
1321
        Node *base = get_addp_base(n);
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        ptset.Clear();
        PointsTo(ptset, base, igvn);
1324 1325
        if (ptset.Size() > 1 ||
            (ptset.Size() != 0 && ptn->offset() == Type::OffsetBot)) {
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          for( VectorSetI j(&ptset); j.test(); ++j ) {
1327 1328
            uint pt = j.elem;
            ptnode_adr(pt)->_scalar_replaceable = false;
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          }
        }
      }
1332 1333 1334 1335
    } else if (nt == PointsToNode::JavaObject && n->is_Call()) {
      // Push call on alloc_worlist (alocations are calls)
      // for processing by split_unique_types().
      alloc_worklist.append(n);
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    }
  }
1338

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  // push all GlobalEscape nodes on the worklist
1340 1341 1342 1343
  for( int next = 0; next < cg_worklist.length(); ++next ) {
    int nk = cg_worklist.at(next);
    if (_nodes->adr_at(nk)->escape_state() == PointsToNode::GlobalEscape)
      worklist.append(nk);
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  }
  // mark all node reachable from GlobalEscape nodes
  while(worklist.length() > 0) {
    PointsToNode n = _nodes->at(worklist.pop());
    for (uint ei = 0; ei < n.edge_count(); ei++) {
      uint npi = n.edge_target(ei);
      PointsToNode *np = ptnode_adr(npi);
1351
      if (np->escape_state() < PointsToNode::GlobalEscape) {
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        np->set_escape_state(PointsToNode::GlobalEscape);
        worklist.append_if_missing(npi);
      }
    }
  }

  // push all ArgEscape nodes on the worklist
1359 1360 1361
  for( int next = 0; next < cg_worklist.length(); ++next ) {
    int nk = cg_worklist.at(next);
    if (_nodes->adr_at(nk)->escape_state() == PointsToNode::ArgEscape)
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      worklist.push(nk);
  }
  // mark all node reachable from ArgEscape nodes
  while(worklist.length() > 0) {
    PointsToNode n = _nodes->at(worklist.pop());
    for (uint ei = 0; ei < n.edge_count(); ei++) {
      uint npi = n.edge_target(ei);
      PointsToNode *np = ptnode_adr(npi);
1370
      if (np->escape_state() < PointsToNode::ArgEscape) {
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        np->set_escape_state(PointsToNode::ArgEscape);
        worklist.append_if_missing(npi);
      }
    }
  }

1377 1378 1379 1380 1381 1382 1383 1384 1385 1386 1387 1388 1389 1390 1391 1392 1393 1394
  // push all NoEscape nodes on the worklist
  for( int next = 0; next < cg_worklist.length(); ++next ) {
    int nk = cg_worklist.at(next);
    if (_nodes->adr_at(nk)->escape_state() == PointsToNode::NoEscape)
      worklist.push(nk);
  }
  // mark all node reachable from NoEscape nodes
  while(worklist.length() > 0) {
    PointsToNode n = _nodes->at(worklist.pop());
    for (uint ei = 0; ei < n.edge_count(); ei++) {
      uint npi = n.edge_target(ei);
      PointsToNode *np = ptnode_adr(npi);
      if (np->escape_state() < PointsToNode::NoEscape) {
        np->set_escape_state(PointsToNode::NoEscape);
        worklist.append_if_missing(npi);
      }
    }
  }
1395

1396
  _collecting = false;
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1398
  has_allocations = false; // Are there scalar replaceable allocations?
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1400 1401 1402 1403 1404 1405 1406 1407 1408 1409 1410 1411 1412 1413
  for( int next = 0; next < alloc_worklist.length(); ++next ) {
    Node* n = alloc_worklist.at(next);
    uint ni = n->_idx;
    PointsToNode* ptn = _nodes->adr_at(ni);
    PointsToNode::EscapeState es = ptn->escape_state();
    if (ptn->escape_state() == PointsToNode::NoEscape &&
        ptn->_scalar_replaceable) {
      has_allocations = true;
      break;
    }
  }
  if (!has_allocations) {
    return; // Nothing to do.
  }
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1415 1416 1417 1418 1419
  if(_compile->AliasLevel() >= 3 && EliminateAllocations) {
    // Now use the escape information to create unique types for
    // unescaped objects
    split_unique_types(alloc_worklist);
    if (_compile->failing())  return;
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1421 1422 1423
    // Clean up after split unique types.
    ResourceMark rm;
    PhaseRemoveUseless pru(_compile->initial_gvn(), _compile->for_igvn());
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1425 1426 1427 1428 1429 1430 1431 1432
#ifdef ASSERT
  } else if (PrintEscapeAnalysis || PrintEliminateAllocations) {
    tty->print("=== No allocations eliminated for ");
    C()->method()->print_short_name();
    if(!EliminateAllocations) {
      tty->print(" since EliminateAllocations is off ===");
    } else if(_compile->AliasLevel() < 3) {
      tty->print(" since AliasLevel < 3 ===");
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    }
1434 1435
    tty->cr();
#endif
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  }
}

void ConnectionGraph::process_call_arguments(CallNode *call, PhaseTransform *phase) {

    switch (call->Opcode()) {
1442
#ifdef ASSERT
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    case Op_Allocate:
    case Op_AllocateArray:
    case Op_Lock:
    case Op_Unlock:
1447 1448 1449 1450 1451 1452 1453 1454 1455 1456 1457 1458 1459 1460 1461 1462 1463 1464 1465 1466 1467 1468 1469 1470 1471 1472 1473 1474 1475 1476 1477 1478 1479 1480 1481
      assert(false, "should be done already");
      break;
#endif
    case Op_CallLeafNoFP:
    {
      // Stub calls, objects do not escape but they are not scale replaceable.
      // Adjust escape state for outgoing arguments.
      const TypeTuple * d = call->tf()->domain();
      VectorSet ptset(Thread::current()->resource_area());
      for (uint i = TypeFunc::Parms; i < d->cnt(); i++) {
        const Type* at = d->field_at(i);
        Node *arg = call->in(i)->uncast();
        const Type *aat = phase->type(arg);
        if (!arg->is_top() && at->isa_ptr() && aat->isa_ptr()) {
          assert(aat == Type::TOP || aat == TypePtr::NULL_PTR ||
                 aat->isa_ptr() != NULL, "expecting an Ptr");
          set_escape_state(arg->_idx, PointsToNode::ArgEscape);
          if (arg->is_AddP()) {
            //
            // The inline_native_clone() case when the arraycopy stub is called
            // after the allocation before Initialize and CheckCastPP nodes.
            //
            // Set AddP's base (Allocate) as not scalar replaceable since
            // pointer to the base (with offset) is passed as argument.
            //
            arg = get_addp_base(arg);
          }
          ptset.Clear();
          PointsTo(ptset, arg, phase);
          for( VectorSetI j(&ptset); j.test(); ++j ) {
            uint pt = j.elem;
            set_escape_state(pt, PointsToNode::ArgEscape);
          }
        }
      }
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      break;
1483
    }
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    case Op_CallStaticJava:
    // For a static call, we know exactly what method is being called.
    // Use bytecode estimator to record the call's escape affects
    {
      ciMethod *meth = call->as_CallJava()->method();
1490 1491 1492
      BCEscapeAnalyzer *call_analyzer = (meth !=NULL) ? meth->get_bcea() : NULL;
      // fall-through if not a Java method or no analyzer information
      if (call_analyzer != NULL) {
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        const TypeTuple * d = call->tf()->domain();
        VectorSet ptset(Thread::current()->resource_area());
1495
        bool copy_dependencies = false;
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        for (uint i = TypeFunc::Parms; i < d->cnt(); i++) {
          const Type* at = d->field_at(i);
          int k = i - TypeFunc::Parms;

          if (at->isa_oopptr() != NULL) {
1501
            Node *arg = call->in(i)->uncast();
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1503 1504 1505
            bool global_escapes = false;
            bool fields_escapes = false;
            if (!call_analyzer->is_arg_stack(k)) {
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              // The argument global escapes, mark everything it could point to
1507 1508 1509 1510 1511 1512 1513 1514 1515 1516
              set_escape_state(arg->_idx, PointsToNode::GlobalEscape);
              global_escapes = true;
            } else {
              if (!call_analyzer->is_arg_local(k)) {
                // The argument itself doesn't escape, but any fields might
                fields_escapes = true;
              }
              set_escape_state(arg->_idx, PointsToNode::ArgEscape);
              copy_dependencies = true;
            }
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1518 1519 1520 1521 1522 1523
            ptset.Clear();
            PointsTo(ptset, arg, phase);
            for( VectorSetI j(&ptset); j.test(); ++j ) {
              uint pt = j.elem;
              if (global_escapes) {
                //The argument global escapes, mark everything it could point to
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                set_escape_state(pt, PointsToNode::GlobalEscape);
1525 1526 1527 1528 1529 1530
              } else {
                if (fields_escapes) {
                  // The argument itself doesn't escape, but any fields might
                  add_edge_from_fields(pt, _phantom_object, Type::OffsetBot);
                }
                set_escape_state(pt, PointsToNode::ArgEscape);
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              }
            }
          }
        }
1535 1536
        if (copy_dependencies)
          call_analyzer->copy_dependencies(C()->dependencies());
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        break;
      }
    }

    default:
1542 1543
    // Fall-through here if not a Java method or no analyzer information
    // or some other type of call, assume the worst case: all arguments
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    // globally escape.
    {
      // adjust escape state for  outgoing arguments
      const TypeTuple * d = call->tf()->domain();
      VectorSet ptset(Thread::current()->resource_area());
      for (uint i = TypeFunc::Parms; i < d->cnt(); i++) {
        const Type* at = d->field_at(i);
        if (at->isa_oopptr() != NULL) {
1552 1553
          Node *arg = call->in(i)->uncast();
          set_escape_state(arg->_idx, PointsToNode::GlobalEscape);
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          ptset.Clear();
          PointsTo(ptset, arg, phase);
          for( VectorSetI j(&ptset); j.test(); ++j ) {
            uint pt = j.elem;
            set_escape_state(pt, PointsToNode::GlobalEscape);
1559
            PointsToNode *ptadr = ptnode_adr(pt);
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          }
        }
      }
    }
  }
}
void ConnectionGraph::process_call_result(ProjNode *resproj, PhaseTransform *phase) {
  PointsToNode *ptadr = ptnode_adr(resproj->_idx);

1569
  CallNode *call = resproj->in(0)->as_Call();
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  switch (call->Opcode()) {
    case Op_Allocate:
    {
      Node *k = call->in(AllocateNode::KlassNode);
      const TypeKlassPtr *kt;
      if (k->Opcode() == Op_LoadKlass) {
        kt = k->as_Load()->type()->isa_klassptr();
      } else {
1578
        // Also works for DecodeN(LoadNKlass).
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        kt = k->as_Type()->type()->isa_klassptr();
      }
      assert(kt != NULL, "TypeKlassPtr  required.");
      ciKlass* cik = kt->klass();
      ciInstanceKlass* ciik = cik->as_instance_klass();

      PointsToNode *ptadr = ptnode_adr(call->_idx);
1586 1587
      PointsToNode::EscapeState es;
      uint edge_to;
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      if (cik->is_subclass_of(_compile->env()->Thread_klass()) || ciik->has_finalizer()) {
1589 1590
        es = PointsToNode::GlobalEscape;
        edge_to = _phantom_object; // Could not be worse
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      } else {
1592 1593
        es = PointsToNode::NoEscape;
        edge_to = call->_idx;
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      }
1595 1596 1597
      set_escape_state(call->_idx, es);
      add_pointsto_edge(resproj->_idx, edge_to);
      _processed.set(resproj->_idx);
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      break;
    }

    case Op_AllocateArray:
    {
      PointsToNode *ptadr = ptnode_adr(call->_idx);
1604 1605 1606 1607 1608
      int length = call->in(AllocateNode::ALength)->find_int_con(-1);
      if (length < 0 || length > EliminateAllocationArraySizeLimit) {
        // Not scalar replaceable if the length is not constant or too big.
        ptadr->_scalar_replaceable = false;
      }
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      set_escape_state(call->_idx, PointsToNode::NoEscape);
      add_pointsto_edge(resproj->_idx, call->_idx);
1611
      _processed.set(resproj->_idx);
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      break;
    }

    case Op_CallStaticJava:
    // For a static call, we know exactly what method is being called.
    // Use bytecode estimator to record whether the call's return value escapes
    {
1619
      bool done = true;
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      const TypeTuple *r = call->tf()->range();
      const Type* ret_type = NULL;

      if (r->cnt() > TypeFunc::Parms)
        ret_type = r->field_at(TypeFunc::Parms);

      // Note:  we use isa_ptr() instead of isa_oopptr()  here because the
      //        _multianewarray functions return a TypeRawPtr.
1628 1629
      if (ret_type == NULL || ret_type->isa_ptr() == NULL) {
        _processed.set(resproj->_idx);
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        break;  // doesn't return a pointer type
1631
      }
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      ciMethod *meth = call->as_CallJava()->method();
1633
      const TypeTuple * d = call->tf()->domain();
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      if (meth == NULL) {
        // not a Java method, assume global escape
        set_escape_state(call->_idx, PointsToNode::GlobalEscape);
        if (resproj != NULL)
          add_pointsto_edge(resproj->_idx, _phantom_object);
      } else {
1640
        BCEscapeAnalyzer *call_analyzer = meth->get_bcea();
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        VectorSet ptset(Thread::current()->resource_area());
1642
        bool copy_dependencies = false;
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1644 1645 1646 1647 1648 1649 1650 1651 1652 1653
        if (call_analyzer->is_return_allocated()) {
          // Returns a newly allocated unescaped object, simply
          // update dependency information.
          // Mark it as NoEscape so that objects referenced by
          // it's fields will be marked as NoEscape at least.
          set_escape_state(call->_idx, PointsToNode::NoEscape);
          if (resproj != NULL)
            add_pointsto_edge(resproj->_idx, call->_idx);
          copy_dependencies = true;
        } else if (call_analyzer->is_return_local() && resproj != NULL) {
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          // determine whether any arguments are returned
          set_escape_state(call->_idx, PointsToNode::NoEscape);
          for (uint i = TypeFunc::Parms; i < d->cnt(); i++) {
            const Type* at = d->field_at(i);

            if (at->isa_oopptr() != NULL) {
1660
              Node *arg = call->in(i)->uncast();
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1662
              if (call_analyzer->is_arg_returned(i - TypeFunc::Parms)) {
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                PointsToNode *arg_esp = _nodes->adr_at(arg->_idx);
1664 1665 1666
                if (arg_esp->node_type() == PointsToNode::UnknownType)
                  done = false;
                else if (arg_esp->node_type() == PointsToNode::JavaObject)
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                  add_pointsto_edge(resproj->_idx, arg->_idx);
                else
                  add_deferred_edge(resproj->_idx, arg->_idx);
                arg_esp->_hidden_alias = true;
              }
            }
          }
1674
          copy_dependencies = true;
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        } else {
          set_escape_state(call->_idx, PointsToNode::GlobalEscape);
          if (resproj != NULL)
            add_pointsto_edge(resproj->_idx, _phantom_object);
1679 1680 1681 1682 1683 1684 1685 1686
          for (uint i = TypeFunc::Parms; i < d->cnt(); i++) {
            const Type* at = d->field_at(i);
            if (at->isa_oopptr() != NULL) {
              Node *arg = call->in(i)->uncast();
              PointsToNode *arg_esp = _nodes->adr_at(arg->_idx);
              arg_esp->_hidden_alias = true;
            }
          }
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        }
1688 1689
        if (copy_dependencies)
          call_analyzer->copy_dependencies(C()->dependencies());
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      }
1691 1692
      if (done)
        _processed.set(resproj->_idx);
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      break;
    }

    default:
    // Some other type of call, assume the worst case that the
    // returned value, if any, globally escapes.
    {
      const TypeTuple *r = call->tf()->range();
      if (r->cnt() > TypeFunc::Parms) {
        const Type* ret_type = r->field_at(TypeFunc::Parms);

        // Note:  we use isa_ptr() instead of isa_oopptr()  here because the
        //        _multianewarray functions return a TypeRawPtr.
        if (ret_type->isa_ptr() != NULL) {
          PointsToNode *ptadr = ptnode_adr(call->_idx);
          set_escape_state(call->_idx, PointsToNode::GlobalEscape);
          if (resproj != NULL)
            add_pointsto_edge(resproj->_idx, _phantom_object);
        }
      }
1713
      _processed.set(resproj->_idx);
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    }
  }
}

1718 1719 1720 1721 1722 1723 1724 1725 1726 1727 1728 1729 1730 1731 1732 1733 1734 1735 1736 1737 1738 1739 1740 1741 1742 1743 1744 1745 1746 1747
// Populate Connection Graph with Ideal nodes and create simple
// connection graph edges (do not need to check the node_type of inputs
// or to call PointsTo() to walk the connection graph).
void ConnectionGraph::record_for_escape_analysis(Node *n, PhaseTransform *phase) {
  if (_processed.test(n->_idx))
    return; // No need to redefine node's state.

  if (n->is_Call()) {
    // Arguments to allocation and locking don't escape.
    if (n->is_Allocate()) {
      add_node(n, PointsToNode::JavaObject, PointsToNode::UnknownEscape, true);
      record_for_optimizer(n);
    } else if (n->is_Lock() || n->is_Unlock()) {
      // Put Lock and Unlock nodes on IGVN worklist to process them during
      // the first IGVN optimization when escape information is still available.
      record_for_optimizer(n);
      _processed.set(n->_idx);
    } else {
      // Have to process call's arguments first.
      PointsToNode::NodeType nt = PointsToNode::UnknownType;

      // Check if a call returns an object.
      const TypeTuple *r = n->as_Call()->tf()->range();
      if (r->cnt() > TypeFunc::Parms &&
          n->as_Call()->proj_out(TypeFunc::Parms) != NULL) {
        // Note:  use isa_ptr() instead of isa_oopptr() here because
        //        the _multianewarray functions return a TypeRawPtr.
        if (r->field_at(TypeFunc::Parms)->isa_ptr() != NULL) {
          nt = PointsToNode::JavaObject;
        }
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      }
1749
      add_node(n, nt, PointsToNode::UnknownEscape, false);
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    }
1751
    return;
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  }

1754 1755 1756 1757 1758 1759 1760 1761 1762 1763 1764 1765 1766 1767 1768
  // Using isa_ptr() instead of isa_oopptr() for LoadP and Phi because
  // ThreadLocal has RawPrt type.
  switch (n->Opcode()) {
    case Op_AddP:
    {
      add_node(n, PointsToNode::Field, PointsToNode::UnknownEscape, false);
      break;
    }
    case Op_CastX2P:
    { // "Unsafe" memory access.
      add_node(n, PointsToNode::JavaObject, PointsToNode::GlobalEscape, true);
      break;
    }
    case Op_CastPP:
    case Op_CheckCastPP:
1769 1770
    case Op_EncodeP:
    case Op_DecodeN:
1771 1772 1773 1774 1775 1776 1777 1778 1779 1780 1781 1782 1783 1784 1785 1786 1787 1788 1789 1790 1791 1792 1793
    {
      add_node(n, PointsToNode::LocalVar, PointsToNode::UnknownEscape, false);
      int ti = n->in(1)->_idx;
      PointsToNode::NodeType nt = _nodes->adr_at(ti)->node_type();
      if (nt == PointsToNode::UnknownType) {
        _delayed_worklist.push(n); // Process it later.
        break;
      } else if (nt == PointsToNode::JavaObject) {
        add_pointsto_edge(n->_idx, ti);
      } else {
        add_deferred_edge(n->_idx, ti);
      }
      _processed.set(n->_idx);
      break;
    }
    case Op_ConP:
    {
      // assume all pointer constants globally escape except for null
      PointsToNode::EscapeState es;
      if (phase->type(n) == TypePtr::NULL_PTR)
        es = PointsToNode::NoEscape;
      else
        es = PointsToNode::GlobalEscape;
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1795 1796 1797
      add_node(n, PointsToNode::JavaObject, es, true);
      break;
    }
1798 1799 1800 1801 1802 1803 1804 1805 1806 1807 1808 1809
    case Op_ConN:
    {
      // assume all narrow oop constants globally escape except for null
      PointsToNode::EscapeState es;
      if (phase->type(n) == TypeNarrowOop::NULL_PTR)
        es = PointsToNode::NoEscape;
      else
        es = PointsToNode::GlobalEscape;

      add_node(n, PointsToNode::JavaObject, es, true);
      break;
    }
1810 1811 1812 1813 1814 1815
    case Op_CreateEx:
    {
      // assume that all exception objects globally escape
      add_node(n, PointsToNode::JavaObject, PointsToNode::GlobalEscape, true);
      break;
    }
1816
    case Op_LoadKlass:
1817
    case Op_LoadNKlass:
1818 1819 1820 1821 1822
    {
      add_node(n, PointsToNode::JavaObject, PointsToNode::GlobalEscape, true);
      break;
    }
    case Op_LoadP:
1823
    case Op_LoadN:
1824 1825
    {
      const Type *t = phase->type(n);
1826
      if (!t->isa_narrowoop() && t->isa_ptr() == NULL) {
1827 1828 1829 1830 1831 1832 1833 1834 1835 1836 1837 1838 1839 1840 1841 1842 1843 1844 1845 1846 1847 1848 1849 1850 1851 1852 1853 1854 1855 1856 1857 1858 1859 1860 1861 1862 1863 1864 1865 1866 1867 1868 1869 1870 1871 1872 1873 1874 1875 1876 1877 1878 1879 1880 1881 1882 1883 1884 1885 1886 1887 1888 1889 1890 1891 1892 1893 1894 1895 1896 1897 1898 1899 1900 1901 1902 1903 1904 1905 1906 1907 1908 1909 1910 1911 1912 1913 1914 1915
        _processed.set(n->_idx);
        return;
      }
      add_node(n, PointsToNode::LocalVar, PointsToNode::UnknownEscape, false);
      break;
    }
    case Op_Parm:
    {
      _processed.set(n->_idx); // No need to redefine it state.
      uint con = n->as_Proj()->_con;
      if (con < TypeFunc::Parms)
        return;
      const Type *t = n->in(0)->as_Start()->_domain->field_at(con);
      if (t->isa_ptr() == NULL)
        return;
      // We have to assume all input parameters globally escape
      // (Note: passing 'false' since _processed is already set).
      add_node(n, PointsToNode::JavaObject, PointsToNode::GlobalEscape, false);
      break;
    }
    case Op_Phi:
    {
      if (n->as_Phi()->type()->isa_ptr() == NULL) {
        // nothing to do if not an oop
        _processed.set(n->_idx);
        return;
      }
      add_node(n, PointsToNode::LocalVar, PointsToNode::UnknownEscape, false);
      uint i;
      for (i = 1; i < n->req() ; i++) {
        Node* in = n->in(i);
        if (in == NULL)
          continue;  // ignore NULL
        in = in->uncast();
        if (in->is_top() || in == n)
          continue;  // ignore top or inputs which go back this node
        int ti = in->_idx;
        PointsToNode::NodeType nt = _nodes->adr_at(ti)->node_type();
        if (nt == PointsToNode::UnknownType) {
          break;
        } else if (nt == PointsToNode::JavaObject) {
          add_pointsto_edge(n->_idx, ti);
        } else {
          add_deferred_edge(n->_idx, ti);
        }
      }
      if (i >= n->req())
        _processed.set(n->_idx);
      else
        _delayed_worklist.push(n);
      break;
    }
    case Op_Proj:
    {
      // we are only interested in the result projection from a call
      if (n->as_Proj()->_con == TypeFunc::Parms && n->in(0)->is_Call() ) {
        add_node(n, PointsToNode::LocalVar, PointsToNode::UnknownEscape, false);
        process_call_result(n->as_Proj(), phase);
        if (!_processed.test(n->_idx)) {
          // The call's result may need to be processed later if the call
          // returns it's argument and the argument is not processed yet.
          _delayed_worklist.push(n);
        }
      } else {
        _processed.set(n->_idx);
      }
      break;
    }
    case Op_Return:
    {
      if( n->req() > TypeFunc::Parms &&
          phase->type(n->in(TypeFunc::Parms))->isa_oopptr() ) {
        // Treat Return value as LocalVar with GlobalEscape escape state.
        add_node(n, PointsToNode::LocalVar, PointsToNode::GlobalEscape, false);
        int ti = n->in(TypeFunc::Parms)->_idx;
        PointsToNode::NodeType nt = _nodes->adr_at(ti)->node_type();
        if (nt == PointsToNode::UnknownType) {
          _delayed_worklist.push(n); // Process it later.
          break;
        } else if (nt == PointsToNode::JavaObject) {
          add_pointsto_edge(n->_idx, ti);
        } else {
          add_deferred_edge(n->_idx, ti);
        }
      }
      _processed.set(n->_idx);
      break;
    }
    case Op_StoreP:
1916
    case Op_StoreN:
1917 1918
    {
      const Type *adr_type = phase->type(n->in(MemNode::Address));
1919
      adr_type = adr_type->make_ptr();
1920 1921 1922 1923 1924 1925 1926 1927 1928 1929 1930 1931 1932 1933 1934 1935 1936 1937 1938 1939 1940
      if (adr_type->isa_oopptr()) {
        add_node(n, PointsToNode::UnknownType, PointsToNode::UnknownEscape, false);
      } else {
        Node* adr = n->in(MemNode::Address);
        if (adr->is_AddP() && phase->type(adr) == TypeRawPtr::NOTNULL &&
            adr->in(AddPNode::Address)->is_Proj() &&
            adr->in(AddPNode::Address)->in(0)->is_Allocate()) {
          add_node(n, PointsToNode::UnknownType, PointsToNode::UnknownEscape, false);
          // We are computing a raw address for a store captured
          // by an Initialize compute an appropriate address type.
          int offs = (int)phase->find_intptr_t_con(adr->in(AddPNode::Offset), Type::OffsetBot);
          assert(offs != Type::OffsetBot, "offset must be a constant");
        } else {
          _processed.set(n->_idx);
          return;
        }
      }
      break;
    }
    case Op_StorePConditional:
    case Op_CompareAndSwapP:
1941
    case Op_CompareAndSwapN:
1942 1943
    {
      const Type *adr_type = phase->type(n->in(MemNode::Address));
1944
      adr_type = adr_type->make_ptr();
1945 1946 1947 1948 1949 1950 1951 1952 1953 1954 1955 1956 1957 1958 1959 1960 1961 1962 1963
      if (adr_type->isa_oopptr()) {
        add_node(n, PointsToNode::UnknownType, PointsToNode::UnknownEscape, false);
      } else {
        _processed.set(n->_idx);
        return;
      }
      break;
    }
    case Op_ThreadLocal:
    {
      add_node(n, PointsToNode::JavaObject, PointsToNode::ArgEscape, true);
      break;
    }
    default:
      ;
      // nothing to do
  }
  return;
}
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1965 1966 1967
void ConnectionGraph::build_connection_graph(Node *n, PhaseTransform *phase) {
  // Don't set processed bit for AddP, LoadP, StoreP since
  // they may need more then one pass to process.
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  if (_processed.test(n->_idx))
1969 1970 1971
    return; // No need to redefine node's state.

  PointsToNode *ptadr = ptnode_adr(n->_idx);
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  if (n->is_Call()) {
    CallNode *call = n->as_Call();
    process_call_arguments(call, phase);
1976
    _processed.set(n->_idx);
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    return;
  }

1980
  switch (n->Opcode()) {
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    case Op_AddP:
    {
1983 1984
      Node *base = get_addp_base(n);
      // Create a field edge to this node from everything base could point to.
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      VectorSet ptset(Thread::current()->resource_area());
      PointsTo(ptset, base, phase);
      for( VectorSetI i(&ptset); i.test(); ++i ) {
        uint pt = i.elem;
1989
        add_field_edge(pt, n->_idx, address_offset(n, phase));
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1990 1991 1992
      }
      break;
    }
1993
    case Op_CastX2P:
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    {
1995 1996 1997 1998 1999
      assert(false, "Op_CastX2P");
      break;
    }
    case Op_CastPP:
    case Op_CheckCastPP:
2000 2001
    case Op_EncodeP:
    case Op_DecodeN:
2002 2003 2004 2005
    {
      int ti = n->in(1)->_idx;
      if (_nodes->adr_at(ti)->node_type() == PointsToNode::JavaObject) {
        add_pointsto_edge(n->_idx, ti);
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      } else {
2007
        add_deferred_edge(n->_idx, ti);
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2008 2009 2010 2011
      }
      _processed.set(n->_idx);
      break;
    }
2012
    case Op_ConP:
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    {
2014
      assert(false, "Op_ConP");
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      break;
    }
2017 2018 2019 2020 2021
    case Op_ConN:
    {
      assert(false, "Op_ConN");
      break;
    }
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2022 2023
    case Op_CreateEx:
    {
2024
      assert(false, "Op_CreateEx");
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2025 2026 2027
      break;
    }
    case Op_LoadKlass:
2028
    case Op_LoadNKlass:
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2029
    {
2030
      assert(false, "Op_LoadKlass");
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2031 2032 2033
      break;
    }
    case Op_LoadP:
2034
    case Op_LoadN:
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2035 2036
    {
      const Type *t = phase->type(n);
2037
#ifdef ASSERT
2038
      if (!t->isa_narrowoop() && t->isa_ptr() == NULL)
2039 2040
        assert(false, "Op_LoadP");
#endif
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2042
      Node* adr = n->in(MemNode::Address)->uncast();
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2043
      const Type *adr_type = phase->type(adr);
2044 2045 2046 2047 2048 2049
      Node* adr_base;
      if (adr->is_AddP()) {
        adr_base = get_addp_base(adr);
      } else {
        adr_base = adr;
      }
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2051 2052
      // For everything "adr_base" could point to, create a deferred edge from
      // this node to each field with the same offset.
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      VectorSet ptset(Thread::current()->resource_area());
      PointsTo(ptset, adr_base, phase);
2055
      int offset = address_offset(adr, phase);
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      for( VectorSetI i(&ptset); i.test(); ++i ) {
        uint pt = i.elem;
2058
        add_deferred_edge_to_fields(n->_idx, pt, offset);
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2059 2060 2061
      }
      break;
    }
2062 2063 2064 2065 2066 2067 2068 2069 2070 2071 2072 2073 2074 2075 2076 2077 2078 2079 2080 2081 2082 2083 2084 2085 2086 2087 2088 2089 2090 2091 2092 2093 2094 2095 2096 2097 2098 2099 2100 2101 2102 2103 2104 2105 2106 2107 2108 2109 2110 2111 2112 2113 2114 2115 2116 2117
    case Op_Parm:
    {
      assert(false, "Op_Parm");
      break;
    }
    case Op_Phi:
    {
#ifdef ASSERT
      if (n->as_Phi()->type()->isa_ptr() == NULL)
        assert(false, "Op_Phi");
#endif
      for (uint i = 1; i < n->req() ; i++) {
        Node* in = n->in(i);
        if (in == NULL)
          continue;  // ignore NULL
        in = in->uncast();
        if (in->is_top() || in == n)
          continue;  // ignore top or inputs which go back this node
        int ti = in->_idx;
        if (_nodes->adr_at(in->_idx)->node_type() == PointsToNode::JavaObject) {
          add_pointsto_edge(n->_idx, ti);
        } else {
          add_deferred_edge(n->_idx, ti);
        }
      }
      _processed.set(n->_idx);
      break;
    }
    case Op_Proj:
    {
      // we are only interested in the result projection from a call
      if (n->as_Proj()->_con == TypeFunc::Parms && n->in(0)->is_Call() ) {
        process_call_result(n->as_Proj(), phase);
        assert(_processed.test(n->_idx), "all call results should be processed");
      } else {
        assert(false, "Op_Proj");
      }
      break;
    }
    case Op_Return:
    {
#ifdef ASSERT
      if( n->req() <= TypeFunc::Parms ||
          !phase->type(n->in(TypeFunc::Parms))->isa_oopptr() ) {
        assert(false, "Op_Return");
      }
#endif
      int ti = n->in(TypeFunc::Parms)->_idx;
      if (_nodes->adr_at(ti)->node_type() == PointsToNode::JavaObject) {
        add_pointsto_edge(n->_idx, ti);
      } else {
        add_deferred_edge(n->_idx, ti);
      }
      _processed.set(n->_idx);
      break;
    }
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    case Op_StoreP:
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    case Op_StoreN:
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    case Op_StorePConditional:
    case Op_CompareAndSwapP:
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    case Op_CompareAndSwapN:
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    {
      Node *adr = n->in(MemNode::Address);
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      const Type *adr_type = phase->type(adr)->make_ptr();
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#ifdef ASSERT
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      if (!adr_type->isa_oopptr())
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        assert(phase->type(adr) == TypeRawPtr::NOTNULL, "Op_StoreP");
#endif
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      assert(adr->is_AddP(), "expecting an AddP");
      Node *adr_base = get_addp_base(adr);
      Node *val = n->in(MemNode::ValueIn)->uncast();
      // For everything "adr_base" could point to, create a deferred edge
      // to "val" from each field with the same offset.
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      VectorSet ptset(Thread::current()->resource_area());
      PointsTo(ptset, adr_base, phase);
      for( VectorSetI i(&ptset); i.test(); ++i ) {
        uint pt = i.elem;
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        add_edge_from_fields(pt, val->_idx, address_offset(adr, phase));
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      }
      break;
    }
2144
    case Op_ThreadLocal:
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    {
2146
      assert(false, "Op_ThreadLocal");
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      break;
    }
    default:
      ;
      // nothing to do
  }
}

#ifndef PRODUCT
void ConnectionGraph::dump() {
  PhaseGVN  *igvn = _compile->initial_gvn();
  bool first = true;

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  uint size = (uint)_nodes->length();
  for (uint ni = 0; ni < size; ni++) {
    PointsToNode *ptn = _nodes->adr_at(ni);
    PointsToNode::NodeType ptn_type = ptn->node_type();

    if (ptn_type != PointsToNode::JavaObject || ptn->_node == NULL)
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      continue;
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    PointsToNode::EscapeState es = escape_state(ptn->_node, igvn);
    if (ptn->_node->is_Allocate() && (es == PointsToNode::NoEscape || Verbose)) {
      if (first) {
        tty->cr();
        tty->print("======== Connection graph for ");
        C()->method()->print_short_name();
        tty->cr();
        first = false;
      }
      tty->print("%6d ", ni);
      ptn->dump();
      // Print all locals which reference this allocation
      for (uint li = ni; li < size; li++) {
        PointsToNode *ptn_loc = _nodes->adr_at(li);
        PointsToNode::NodeType ptn_loc_type = ptn_loc->node_type();
        if ( ptn_loc_type == PointsToNode::LocalVar && ptn_loc->_node != NULL &&
             ptn_loc->edge_count() == 1 && ptn_loc->edge_target(0) == ni ) {
          tty->print("%6d  LocalVar [[%d]]", li, ni);
          _nodes->adr_at(li)->_node->dump();
        }
      }
      if (Verbose) {
        // Print all fields which reference this allocation
        for (uint i = 0; i < ptn->edge_count(); i++) {
          uint ei = ptn->edge_target(i);
          tty->print("%6d  Field [[%d]]", ei, ni);
          _nodes->adr_at(ei)->_node->dump();
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        }
      }
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      tty->cr();
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    }
  }
}
#endif