StaticAnalyzer/Core/ExplodedGraph.cpp

fa0734ecSArgyrios Kyrtzidis//=-- ExplodedGraph.cpp - Local, Path-Sens. "Exploded Graph" -*- C++ -*------=//
fa0734ecSArgyrios Kyrtzidis//
fa0734ecSArgyrios Kyrtzidis//                     The LLVM Compiler Infrastructure
fa0734ecSArgyrios Kyrtzidis//
fa0734ecSArgyrios Kyrtzidis// This file is distributed under the University of Illinois Open Source
fa0734ecSArgyrios Kyrtzidis// License. See LICENSE.TXT for details.
fa0734ecSArgyrios Kyrtzidis//
fa0734ecSArgyrios Kyrtzidis//===----------------------------------------------------------------------===//
fa0734ecSArgyrios Kyrtzidis//
fa0734ecSArgyrios Kyrtzidis//  This file defines the template classes ExplodedNode and ExplodedGraph,
fa0734ecSArgyrios Kyrtzidis//  which represent a path-sensitive, intra-procedural "exploded graph."
fa0734ecSArgyrios Kyrtzidis//
fa0734ecSArgyrios Kyrtzidis//===----------------------------------------------------------------------===//
fa0734ecSArgyrios Kyrtzidis
f8cbac4bSTed Kremenek#include "clang/StaticAnalyzer/Core/PathSensitive/ExplodedGraph.h"
3a02247dSChandler Carruth#include "clang/AST/ParentMap.h"
3a02247dSChandler Carruth#include "clang/AST/Stmt.h"
4f7df9beSJordan Rose#include "clang/StaticAnalyzer/Core/PathSensitive/CallEvent.h"
001fd5b4STed Kremenek#include "clang/StaticAnalyzer/Core/PathSensitive/ProgramState.h"
fa0734ecSArgyrios Kyrtzidis#include "llvm/ADT/DenseMap.h"
3a02247dSChandler Carruth#include "llvm/ADT/DenseSet.h"
fa0734ecSArgyrios Kyrtzidis#include "llvm/ADT/SmallVector.h"
7aa3687bSAnna Zaks#include "llvm/ADT/Statistic.h"
fa0734ecSArgyrios Kyrtzidis#include <vector>
fa0734ecSArgyrios Kyrtzidis
fa0734ecSArgyrios Kyrtzidisusing namespace clang;
fa0734ecSArgyrios Kyrtzidisusing namespace ento;
fa0734ecSArgyrios Kyrtzidis
fa0734ecSArgyrios Kyrtzidis//===----------------------------------------------------------------------===//
fa0734ecSArgyrios Kyrtzidis// Node auditing.
fa0734ecSArgyrios Kyrtzidis//===----------------------------------------------------------------------===//
fa0734ecSArgyrios Kyrtzidis
fa0734ecSArgyrios Kyrtzidis// An out of line virtual method to provide a home for the class vtable.
fa0734ecSArgyrios KyrtzidisExplodedNode::Auditor::~Auditor() {}
fa0734ecSArgyrios Kyrtzidis
fa0734ecSArgyrios Kyrtzidis#ifndef NDEBUG
fa0734ecSArgyrios Kyrtzidisstatic ExplodedNode::Auditor* NodeAuditor = 0;
fa0734ecSArgyrios Kyrtzidis#endif
fa0734ecSArgyrios Kyrtzidis
fa0734ecSArgyrios Kyrtzidisvoid ExplodedNode::SetAuditor(ExplodedNode::Auditor* A) {
fa0734ecSArgyrios Kyrtzidis#ifndef NDEBUG
fa0734ecSArgyrios Kyrtzidis  NodeAuditor = A;
fa0734ecSArgyrios Kyrtzidis#endif
fa0734ecSArgyrios Kyrtzidis}
fa0734ecSArgyrios Kyrtzidis
fa0734ecSArgyrios Kyrtzidis//===----------------------------------------------------------------------===//
a40f8ebcSTed Kremenek// Cleanup.
a40f8ebcSTed Kremenek//===----------------------------------------------------------------------===//
a40f8ebcSTed Kremenek
44d2973bSTed KremenekExplodedGraph::ExplodedGraph()
746c06d0SJordan Rose  : NumNodes(0), ReclaimNodeInterval(0) {}
44d2973bSTed Kremenek
a2aa929eSTed KremenekExplodedGraph::~ExplodedGraph() {}
a40f8ebcSTed Kremenek
a40f8ebcSTed Kremenek//===----------------------------------------------------------------------===//
a40f8ebcSTed Kremenek// Node reclamation.
a40f8ebcSTed Kremenek//===----------------------------------------------------------------------===//
a40f8ebcSTed Kremenek
04fa9e3dSTed Kremenekbool ExplodedGraph::isInterestingLValueExpr(const Expr *Ex) {
04fa9e3dSTed Kremenek  if (!Ex->isLValue())
04fa9e3dSTed Kremenek    return false;
04fa9e3dSTed Kremenek  return isa<DeclRefExpr>(Ex) ||
04fa9e3dSTed Kremenek         isa<MemberExpr>(Ex) ||
04fa9e3dSTed Kremenek         isa<ObjCIvarRefExpr>(Ex);
04fa9e3dSTed Kremenek}
04fa9e3dSTed Kremenek
1dd7fd71STed Kremenekbool ExplodedGraph::shouldCollect(const ExplodedNode *node) {
8f564058STed Kremenek  // First, we only consider nodes for reclamation of the following
8f564058STed Kremenek  // conditions apply:
1dd7fd71STed Kremenek  //
1dd7fd71STed Kremenek  // (1) 1 predecessor (that has one successor)
1dd7fd71STed Kremenek  // (2) 1 successor (that has one predecessor)
8f564058STed Kremenek  //
8f564058STed Kremenek  // If a node has no successor it is on the "frontier", while a node
8f564058STed Kremenek  // with no predecessor is a root.
8f564058STed Kremenek  //
8f564058STed Kremenek  // After these prerequisites, we discard all "filler" nodes that
8f564058STed Kremenek  // are used only for intermediate processing, and are not essential
8f564058STed Kremenek  // for analyzer history:
8f564058STed Kremenek  //
8f564058STed Kremenek  // (a) PreStmtPurgeDeadSymbols
8f564058STed Kremenek  //
8f564058STed Kremenek  // We then discard all other nodes where *all* of the following conditions
8f564058STed Kremenek  // apply:
8f564058STed Kremenek  //
199fdd82SJordan Rose  // (3) The ProgramPoint is for a PostStmt, but not a PostStore.
1dd7fd71STed Kremenek  // (4) There is no 'tag' for the ProgramPoint.
1dd7fd71STed Kremenek  // (5) The 'store' is the same as the predecessor.
1dd7fd71STed Kremenek  // (6) The 'GDM' is the same as the predecessor.
1dd7fd71STed Kremenek  // (7) The LocationContext is the same as the predecessor.
96250482STed Kremenek  // (8) Expressions that are *not* lvalue expressions.
96250482STed Kremenek  // (9) The PostStmt isn't for a non-consumed Stmt or Expr.
96250482STed Kremenek  // (10) The successor is not a CallExpr StmtPoint (so that we would
96250482STed Kremenek  //      be able to find it when retrying a call with no inlining).
681cce99SJordan Rose  // FIXME: It may be safe to reclaim PreCall and PostCall nodes as well.
1dd7fd71STed Kremenek
1dd7fd71STed Kremenek  // Conditions 1 and 2.
1dd7fd71STed Kremenek  if (node->pred_size() != 1 || node->succ_size() != 1)
1dd7fd71STed Kremenek    return false;
1dd7fd71STed Kremenek
1dd7fd71STed Kremenek  const ExplodedNode *pred = *(node->pred_begin());
1dd7fd71STed Kremenek  if (pred->succ_size() != 1)
1dd7fd71STed Kremenek    return false;
1dd7fd71STed Kremenek
1dd7fd71STed Kremenek  const ExplodedNode *succ = *(node->succ_begin());
1dd7fd71STed Kremenek  if (succ->pred_size() != 1)
1dd7fd71STed Kremenek    return false;
1dd7fd71STed Kremenek
8f564058STed Kremenek  // Now reclaim any nodes that are (by definition) not essential to
8f564058STed Kremenek  // analysis history and are not consulted by any client code.
1dd7fd71STed Kremenek  ProgramPoint progPoint = node->getLocation();
8f564058STed Kremenek  if (progPoint.getAs<PreStmtPurgeDeadSymbols>())
f352d8c7STed Kremenek    return !progPoint.getTag();
8f564058STed Kremenek
8f564058STed Kremenek  // Condition 3.
87396b9bSDavid Blaikie  if (!progPoint.getAs<PostStmt>() || progPoint.getAs<PostStore>())
1dd7fd71STed Kremenek    return false;
1dd7fd71STed Kremenek
1dd7fd71STed Kremenek  // Condition 4.
87396b9bSDavid Blaikie  PostStmt ps = progPoint.castAs<PostStmt>();
1dd7fd71STed Kremenek  if (ps.getTag())
1dd7fd71STed Kremenek    return false;
1dd7fd71STed Kremenek
1dd7fd71STed Kremenek  // Conditions 5, 6, and 7.
1dd7fd71STed Kremenek  ProgramStateRef state = node->getState();
1dd7fd71STed Kremenek  ProgramStateRef pred_state = pred->getState();
1dd7fd71STed Kremenek  if (state->store != pred_state->store || state->GDM != pred_state->GDM ||
1dd7fd71STed Kremenek      progPoint.getLocationContext() != pred->getLocationContext())
1dd7fd71STed Kremenek    return false;
1dd7fd71STed Kremenek
04fa9e3dSTed Kremenek  // All further checks require expressions.
96250482STed Kremenek  const Expr *Ex = dyn_cast<Expr>(ps.getStmt());
04fa9e3dSTed Kremenek  if (!Ex)
04fa9e3dSTed Kremenek    return false;
04fa9e3dSTed Kremenek
04fa9e3dSTed Kremenek  // Condition 8.
04fa9e3dSTed Kremenek  // Do not collect nodes for "interesting" lvalue expressions since they are
04fa9e3dSTed Kremenek  // used extensively for generating path diagnostics.
04fa9e3dSTed Kremenek  if (isInterestingLValueExpr(Ex))
96250482STed Kremenek    return false;
96250482STed Kremenek
96250482STed Kremenek  // Condition 9.
67e0062bSAnna Zaks  // Do not collect nodes for non-consumed Stmt or Expr to ensure precise
67e0062bSAnna Zaks  // diagnostic generation; specifically, so that we could anchor arrows
67e0062bSAnna Zaks  // pointing to the beginning of statements (as written in code).
1dd7fd71STed Kremenek  ParentMap &PM = progPoint.getLocationContext()->getParentMap();
1dd7fd71STed Kremenek  if (!PM.isConsumedExpr(Ex))
1dd7fd71STed Kremenek    return false;
1dd7fd71STed Kremenek
96250482STed Kremenek  // Condition 10.
bec49efdSAnna Zaks  const ProgramPoint SuccLoc = succ->getLocation();
87396b9bSDavid Blaikie  if (Optional<StmtPoint> SP = SuccLoc.getAs<StmtPoint>())
e537cc05SJordan Rose    if (CallEvent::isCallStmt(SP->getStmt()))
bec49efdSAnna Zaks      return false;
bec49efdSAnna Zaks
1dd7fd71STed Kremenek  return true;
1dd7fd71STed Kremenek}
1dd7fd71STed Kremenek
1dd7fd71STed Kremenekvoid ExplodedGraph::collectNode(ExplodedNode *node) {
1dd7fd71STed Kremenek  // Removing a node means:
1dd7fd71STed Kremenek  // (a) changing the predecessors successor to the successor of this node
1dd7fd71STed Kremenek  // (b) changing the successors predecessor to the predecessor of this node
1dd7fd71STed Kremenek  // (c) Putting 'node' onto freeNodes.
1dd7fd71STed Kremenek  assert(node->pred_size() == 1 || node->succ_size() == 1);
1dd7fd71STed Kremenek  ExplodedNode *pred = *(node->pred_begin());
1dd7fd71STed Kremenek  ExplodedNode *succ = *(node->succ_begin());
1dd7fd71STed Kremenek  pred->replaceSuccessor(succ);
1dd7fd71STed Kremenek  succ->replacePredecessor(pred);
a2aa929eSTed Kremenek  FreeNodes.push_back(node);
1dd7fd71STed Kremenek  Nodes.RemoveNode(node);
1dd7fd71STed Kremenek  --NumNodes;
1dd7fd71STed Kremenek  node->~ExplodedNode();
1dd7fd71STed Kremenek}
1dd7fd71STed Kremenek
35e55fe4STed Kremenekvoid ExplodedGraph::reclaimRecentlyAllocatedNodes() {
a2aa929eSTed Kremenek  if (ChangedNodes.empty())
a40f8ebcSTed Kremenek    return;
44d2973bSTed Kremenek
746c06d0SJordan Rose  // Only periodically reclaim nodes so that we can build up a set of
35e55fe4STed Kremenek  // nodes that meet the reclamation criteria.  Freshly created nodes
35e55fe4STed Kremenek  // by definition have no successor, and thus cannot be reclaimed (see below).
746c06d0SJordan Rose  assert(ReclaimCounter > 0);
746c06d0SJordan Rose  if (--ReclaimCounter != 0)
35e55fe4STed Kremenek    return;
746c06d0SJordan Rose  ReclaimCounter = ReclaimNodeInterval;
35e55fe4STed Kremenek
35e55fe4STed Kremenek  for (NodeVector::iterator it = ChangedNodes.begin(), et = ChangedNodes.end();
a2aa929eSTed Kremenek       it != et; ++it) {
a2aa929eSTed Kremenek    ExplodedNode *node = *it;
1dd7fd71STed Kremenek    if (shouldCollect(node))
1dd7fd71STed Kremenek      collectNode(node);
a40f8ebcSTed Kremenek  }
a2aa929eSTed Kremenek  ChangedNodes.clear();
a40f8ebcSTed Kremenek}
a40f8ebcSTed Kremenek
a40f8ebcSTed Kremenek//===----------------------------------------------------------------------===//
fa0734ecSArgyrios Kyrtzidis// ExplodedNode.
fa0734ecSArgyrios Kyrtzidis//===----------------------------------------------------------------------===//
fa0734ecSArgyrios Kyrtzidis
2b10f3f8SJordan Rose// An NodeGroup's storage type is actually very much like a TinyPtrVector:
2b10f3f8SJordan Rose// it can be either a pointer to a single ExplodedNode, or a pointer to a
2b10f3f8SJordan Rose// BumpVector allocated with the ExplodedGraph's allocator. This allows the
2b10f3f8SJordan Rose// common case of single-node NodeGroups to be implemented with no extra memory.
2b10f3f8SJordan Rose//
2b10f3f8SJordan Rose// Consequently, each of the NodeGroup methods have up to four cases to handle:
2b10f3f8SJordan Rose// 1. The flag is set and this group does not actually contain any nodes.
2b10f3f8SJordan Rose// 2. The group is empty, in which case the storage value is null.
2b10f3f8SJordan Rose// 3. The group contains a single node.
2b10f3f8SJordan Rose// 4. The group contains more than one node.
80547386SJordan Rosetypedef BumpVector<ExplodedNode *> ExplodedNodeVector;
80547386SJordan Rosetypedef llvm::PointerUnion<ExplodedNode *, ExplodedNodeVector *> GroupStorage;
fa0734ecSArgyrios Kyrtzidis
fa0734ecSArgyrios Kyrtzidisvoid ExplodedNode::addPredecessor(ExplodedNode *V, ExplodedGraph &G) {
fa0734ecSArgyrios Kyrtzidis  assert (!V->isSink());
fa0734ecSArgyrios Kyrtzidis  Preds.addNode(V, G);
fa0734ecSArgyrios Kyrtzidis  V->Succs.addNode(this, G);
fa0734ecSArgyrios Kyrtzidis#ifndef NDEBUG
fa0734ecSArgyrios Kyrtzidis  if (NodeAuditor) NodeAuditor->AddEdge(V, this);
fa0734ecSArgyrios Kyrtzidis#endif
fa0734ecSArgyrios Kyrtzidis}
fa0734ecSArgyrios Kyrtzidis
a40f8ebcSTed Kremenekvoid ExplodedNode::NodeGroup::replaceNode(ExplodedNode *node) {
2b10f3f8SJordan Rose  assert(!getFlag());
2b10f3f8SJordan Rose
80547386SJordan Rose  GroupStorage &Storage = reinterpret_cast<GroupStorage&>(P);
80547386SJordan Rose  assert(Storage.is<ExplodedNode *>());
80547386SJordan Rose  Storage = node;
80547386SJordan Rose  assert(Storage.is<ExplodedNode *>());
a40f8ebcSTed Kremenek}
a40f8ebcSTed Kremenek
fa0734ecSArgyrios Kyrtzidisvoid ExplodedNode::NodeGroup::addNode(ExplodedNode *N, ExplodedGraph &G) {
fa0734ecSArgyrios Kyrtzidis  assert(!getFlag());
fa0734ecSArgyrios Kyrtzidis
80547386SJordan Rose  GroupStorage &Storage = reinterpret_cast<GroupStorage&>(P);
80547386SJordan Rose  if (Storage.isNull()) {
80547386SJordan Rose    Storage = N;
80547386SJordan Rose    assert(Storage.is<ExplodedNode *>());
80547386SJordan Rose    return;
80547386SJordan Rose  }
fa0734ecSArgyrios Kyrtzidis
80547386SJordan Rose  ExplodedNodeVector *V = Storage.dyn_cast<ExplodedNodeVector *>();
80547386SJordan Rose
80547386SJordan Rose  if (!V) {
80547386SJordan Rose    // Switch from single-node to multi-node representation.
80547386SJordan Rose    ExplodedNode *Old = Storage.get<ExplodedNode *>();
80547386SJordan Rose
80547386SJordan Rose    BumpVectorContext &Ctx = G.getNodeAllocator();
80547386SJordan Rose    V = G.getAllocator().Allocate<ExplodedNodeVector>();
80547386SJordan Rose    new (V) ExplodedNodeVector(Ctx, 4);
80547386SJordan Rose    V->push_back(Old, Ctx);
80547386SJordan Rose
80547386SJordan Rose    Storage = V;
80547386SJordan Rose    assert(!getFlag());
80547386SJordan Rose    assert(Storage.is<ExplodedNodeVector *>());
fa0734ecSArgyrios Kyrtzidis  }
80547386SJordan Rose
80547386SJordan Rose  V->push_back(N, G.getNodeAllocator());
fa0734ecSArgyrios Kyrtzidis}
fa0734ecSArgyrios Kyrtzidis
fa0734ecSArgyrios Kyrtzidisunsigned ExplodedNode::NodeGroup::size() const {
fa0734ecSArgyrios Kyrtzidis  if (getFlag())
fa0734ecSArgyrios Kyrtzidis    return 0;
fa0734ecSArgyrios Kyrtzidis
80547386SJordan Rose  const GroupStorage &Storage = reinterpret_cast<const GroupStorage &>(P);
80547386SJordan Rose  if (Storage.isNull())
80547386SJordan Rose    return 0;
80547386SJordan Rose  if (ExplodedNodeVector *V = Storage.dyn_cast<ExplodedNodeVector *>())
80547386SJordan Rose    return V->size();
80547386SJordan Rose  return 1;
fa0734ecSArgyrios Kyrtzidis}
fa0734ecSArgyrios Kyrtzidis
80547386SJordan RoseExplodedNode * const *ExplodedNode::NodeGroup::begin() const {
fa0734ecSArgyrios Kyrtzidis  if (getFlag())
80547386SJordan Rose    return 0;
fa0734ecSArgyrios Kyrtzidis
80547386SJordan Rose  const GroupStorage &Storage = reinterpret_cast<const GroupStorage &>(P);
80547386SJordan Rose  if (Storage.isNull())
80547386SJordan Rose    return 0;
80547386SJordan Rose  if (ExplodedNodeVector *V = Storage.dyn_cast<ExplodedNodeVector *>())
80547386SJordan Rose    return V->begin();
80547386SJordan Rose  return Storage.getAddrOfPtr1();
fa0734ecSArgyrios Kyrtzidis}
fa0734ecSArgyrios Kyrtzidis
80547386SJordan RoseExplodedNode * const *ExplodedNode::NodeGroup::end() const {
fa0734ecSArgyrios Kyrtzidis  if (getFlag())
80547386SJordan Rose    return 0;
fa0734ecSArgyrios Kyrtzidis
80547386SJordan Rose  const GroupStorage &Storage = reinterpret_cast<const GroupStorage &>(P);
80547386SJordan Rose  if (Storage.isNull())
80547386SJordan Rose    return 0;
80547386SJordan Rose  if (ExplodedNodeVector *V = Storage.dyn_cast<ExplodedNodeVector *>())
80547386SJordan Rose    return V->end();
80547386SJordan Rose  return Storage.getAddrOfPtr1() + 1;
fa0734ecSArgyrios Kyrtzidis}
fa0734ecSArgyrios Kyrtzidis
fa0734ecSArgyrios KyrtzidisExplodedNode *ExplodedGraph::getNode(const ProgramPoint &L,
49b1e38eSTed Kremenek                                     ProgramStateRef State,
49ea5bf5SAnna Zaks                                     bool IsSink,
49ea5bf5SAnna Zaks                                     bool* IsNew) {
fa0734ecSArgyrios Kyrtzidis  // Profile 'State' to determine if we already have an existing node.
fa0734ecSArgyrios Kyrtzidis  llvm::FoldingSetNodeID profile;
fa0734ecSArgyrios Kyrtzidis  void *InsertPos = 0;
fa0734ecSArgyrios Kyrtzidis
49ea5bf5SAnna Zaks  NodeTy::Profile(profile, L, State, IsSink);
fa0734ecSArgyrios Kyrtzidis  NodeTy* V = Nodes.FindNodeOrInsertPos(profile, InsertPos);
fa0734ecSArgyrios Kyrtzidis
fa0734ecSArgyrios Kyrtzidis  if (!V) {
a2aa929eSTed Kremenek    if (!FreeNodes.empty()) {
a2aa929eSTed Kremenek      V = FreeNodes.back();
a2aa929eSTed Kremenek      FreeNodes.pop_back();
a40f8ebcSTed Kremenek    }
a40f8ebcSTed Kremenek    else {
fa0734ecSArgyrios Kyrtzidis      // Allocate a new node.
fa0734ecSArgyrios Kyrtzidis      V = (NodeTy*) getAllocator().Allocate<NodeTy>();
a40f8ebcSTed Kremenek    }
a40f8ebcSTed Kremenek
49ea5bf5SAnna Zaks    new (V) NodeTy(L, State, IsSink);
fa0734ecSArgyrios Kyrtzidis
746c06d0SJordan Rose    if (ReclaimNodeInterval)
35e55fe4STed Kremenek      ChangedNodes.push_back(V);
35e55fe4STed Kremenek
fa0734ecSArgyrios Kyrtzidis    // Insert the node into the node set and return it.
fa0734ecSArgyrios Kyrtzidis    Nodes.InsertNode(V, InsertPos);
fa0734ecSArgyrios Kyrtzidis    ++NumNodes;
fa0734ecSArgyrios Kyrtzidis
fa0734ecSArgyrios Kyrtzidis    if (IsNew) *IsNew = true;
fa0734ecSArgyrios Kyrtzidis  }
fa0734ecSArgyrios Kyrtzidis  else
fa0734ecSArgyrios Kyrtzidis    if (IsNew) *IsNew = false;
fa0734ecSArgyrios Kyrtzidis
fa0734ecSArgyrios Kyrtzidis  return V;
fa0734ecSArgyrios Kyrtzidis}
fa0734ecSArgyrios Kyrtzidis
fa0734ecSArgyrios KyrtzidisExplodedGraph *
*25fac2f6SJordan RoseExplodedGraph::trim(ArrayRef<const NodeTy *> Sinks,
0833c84aSJordan Rose                    InterExplodedGraphMap *ForwardMap,
0833c84aSJordan Rose                    InterExplodedGraphMap *InverseMap) const{
0833c84aSJordan Rose
0833c84aSJordan Rose  if (Nodes.empty())
0833c84aSJordan Rose    return 0;
fa0734ecSArgyrios Kyrtzidis
fa0734ecSArgyrios Kyrtzidis  typedef llvm::DenseSet<const ExplodedNode*> Pass1Ty;
fa0734ecSArgyrios Kyrtzidis  Pass1Ty Pass1;
fa0734ecSArgyrios Kyrtzidis
0833c84aSJordan Rose  typedef InterExplodedGraphMap Pass2Ty;
0833c84aSJordan Rose  InterExplodedGraphMap Pass2Scratch;
0833c84aSJordan Rose  Pass2Ty &Pass2 = ForwardMap ? *ForwardMap : Pass2Scratch;
fa0734ecSArgyrios Kyrtzidis
0e62c1ccSChris Lattner  SmallVector<const ExplodedNode*, 10> WL1, WL2;
fa0734ecSArgyrios Kyrtzidis
fa0734ecSArgyrios Kyrtzidis  // ===- Pass 1 (reverse DFS) -===
0833c84aSJordan Rose  for (ArrayRef<const NodeTy *>::iterator I = Sinks.begin(), E = Sinks.end();
0833c84aSJordan Rose       I != E; ++I) {
5a751b99SJordan Rose    if (*I)
fa0734ecSArgyrios Kyrtzidis      WL1.push_back(*I);
fa0734ecSArgyrios Kyrtzidis  }
fa0734ecSArgyrios Kyrtzidis
0833c84aSJordan Rose  // Process the first worklist until it is empty.
fa0734ecSArgyrios Kyrtzidis  while (!WL1.empty()) {
fa0734ecSArgyrios Kyrtzidis    const ExplodedNode *N = WL1.back();
fa0734ecSArgyrios Kyrtzidis    WL1.pop_back();
fa0734ecSArgyrios Kyrtzidis
fa0734ecSArgyrios Kyrtzidis    // Have we already visited this node?  If so, continue to the next one.
fa0734ecSArgyrios Kyrtzidis    if (Pass1.count(N))
fa0734ecSArgyrios Kyrtzidis      continue;
fa0734ecSArgyrios Kyrtzidis
fa0734ecSArgyrios Kyrtzidis    // Otherwise, mark this node as visited.
fa0734ecSArgyrios Kyrtzidis    Pass1.insert(N);
fa0734ecSArgyrios Kyrtzidis
fa0734ecSArgyrios Kyrtzidis    // If this is a root enqueue it to the second worklist.
fa0734ecSArgyrios Kyrtzidis    if (N->Preds.empty()) {
fa0734ecSArgyrios Kyrtzidis      WL2.push_back(N);
fa0734ecSArgyrios Kyrtzidis      continue;
fa0734ecSArgyrios Kyrtzidis    }
fa0734ecSArgyrios Kyrtzidis
fa0734ecSArgyrios Kyrtzidis    // Visit our predecessors and enqueue them.
80547386SJordan Rose    for (ExplodedNode::pred_iterator I = N->Preds.begin(), E = N->Preds.end();
80547386SJordan Rose         I != E; ++I)
fa0734ecSArgyrios Kyrtzidis      WL1.push_back(*I);
fa0734ecSArgyrios Kyrtzidis  }
fa0734ecSArgyrios Kyrtzidis
fa0734ecSArgyrios Kyrtzidis  // We didn't hit a root? Return with a null pointer for the new graph.
fa0734ecSArgyrios Kyrtzidis  if (WL2.empty())
fa0734ecSArgyrios Kyrtzidis    return 0;
fa0734ecSArgyrios Kyrtzidis
fa0734ecSArgyrios Kyrtzidis  // Create an empty graph.
fa0734ecSArgyrios Kyrtzidis  ExplodedGraph* G = MakeEmptyGraph();
fa0734ecSArgyrios Kyrtzidis
fa0734ecSArgyrios Kyrtzidis  // ===- Pass 2 (forward DFS to construct the new graph) -===
fa0734ecSArgyrios Kyrtzidis  while (!WL2.empty()) {
fa0734ecSArgyrios Kyrtzidis    const ExplodedNode *N = WL2.back();
fa0734ecSArgyrios Kyrtzidis    WL2.pop_back();
fa0734ecSArgyrios Kyrtzidis
fa0734ecSArgyrios Kyrtzidis    // Skip this node if we have already processed it.
fa0734ecSArgyrios Kyrtzidis    if (Pass2.find(N) != Pass2.end())
fa0734ecSArgyrios Kyrtzidis      continue;
fa0734ecSArgyrios Kyrtzidis
fa0734ecSArgyrios Kyrtzidis    // Create the corresponding node in the new graph and record the mapping
fa0734ecSArgyrios Kyrtzidis    // from the old node to the new node.
49ea5bf5SAnna Zaks    ExplodedNode *NewN = G->getNode(N->getLocation(), N->State, N->isSink(), 0);
fa0734ecSArgyrios Kyrtzidis    Pass2[N] = NewN;
fa0734ecSArgyrios Kyrtzidis
fa0734ecSArgyrios Kyrtzidis    // Also record the reverse mapping from the new node to the old node.
fa0734ecSArgyrios Kyrtzidis    if (InverseMap) (*InverseMap)[NewN] = N;
fa0734ecSArgyrios Kyrtzidis
fa0734ecSArgyrios Kyrtzidis    // If this node is a root, designate it as such in the graph.
fa0734ecSArgyrios Kyrtzidis    if (N->Preds.empty())
fa0734ecSArgyrios Kyrtzidis      G->addRoot(NewN);
fa0734ecSArgyrios Kyrtzidis
fa0734ecSArgyrios Kyrtzidis    // In the case that some of the intended predecessors of NewN have already
fa0734ecSArgyrios Kyrtzidis    // been created, we should hook them up as predecessors.
fa0734ecSArgyrios Kyrtzidis
fa0734ecSArgyrios Kyrtzidis    // Walk through the predecessors of 'N' and hook up their corresponding
fa0734ecSArgyrios Kyrtzidis    // nodes in the new graph (if any) to the freshly created node.
80547386SJordan Rose    for (ExplodedNode::pred_iterator I = N->Preds.begin(), E = N->Preds.end();
80547386SJordan Rose         I != E; ++I) {
fa0734ecSArgyrios Kyrtzidis      Pass2Ty::iterator PI = Pass2.find(*I);
fa0734ecSArgyrios Kyrtzidis      if (PI == Pass2.end())
fa0734ecSArgyrios Kyrtzidis        continue;
fa0734ecSArgyrios Kyrtzidis
0833c84aSJordan Rose      NewN->addPredecessor(const_cast<ExplodedNode *>(PI->second), *G);
fa0734ecSArgyrios Kyrtzidis    }
fa0734ecSArgyrios Kyrtzidis
fa0734ecSArgyrios Kyrtzidis    // In the case that some of the intended successors of NewN have already
fa0734ecSArgyrios Kyrtzidis    // been created, we should hook them up as successors.  Otherwise, enqueue
fa0734ecSArgyrios Kyrtzidis    // the new nodes from the original graph that should have nodes created
fa0734ecSArgyrios Kyrtzidis    // in the new graph.
80547386SJordan Rose    for (ExplodedNode::succ_iterator I = N->Succs.begin(), E = N->Succs.end();
80547386SJordan Rose         I != E; ++I) {
fa0734ecSArgyrios Kyrtzidis      Pass2Ty::iterator PI = Pass2.find(*I);
fa0734ecSArgyrios Kyrtzidis      if (PI != Pass2.end()) {
0833c84aSJordan Rose        const_cast<ExplodedNode *>(PI->second)->addPredecessor(NewN, *G);
fa0734ecSArgyrios Kyrtzidis        continue;
fa0734ecSArgyrios Kyrtzidis      }
fa0734ecSArgyrios Kyrtzidis
fa0734ecSArgyrios Kyrtzidis      // Enqueue nodes to the worklist that were marked during pass 1.
fa0734ecSArgyrios Kyrtzidis      if (Pass1.count(*I))
fa0734ecSArgyrios Kyrtzidis        WL2.push_back(*I);
fa0734ecSArgyrios Kyrtzidis    }
fa0734ecSArgyrios Kyrtzidis  }
fa0734ecSArgyrios Kyrtzidis
fa0734ecSArgyrios Kyrtzidis  return G;
fa0734ecSArgyrios Kyrtzidis}
fa0734ecSArgyrios Kyrtzidis