1fa0734ecSArgyrios Kyrtzidis //=-- ExplodedGraph.cpp - Local, Path-Sens. "Exploded Graph" -*- C++ -*------=// 2fa0734ecSArgyrios Kyrtzidis // 3fa0734ecSArgyrios Kyrtzidis // The LLVM Compiler Infrastructure 4fa0734ecSArgyrios Kyrtzidis // 5fa0734ecSArgyrios Kyrtzidis // This file is distributed under the University of Illinois Open Source 6fa0734ecSArgyrios Kyrtzidis // License. See LICENSE.TXT for details. 7fa0734ecSArgyrios Kyrtzidis // 8fa0734ecSArgyrios Kyrtzidis //===----------------------------------------------------------------------===// 9fa0734ecSArgyrios Kyrtzidis // 10fa0734ecSArgyrios Kyrtzidis // This file defines the template classes ExplodedNode and ExplodedGraph, 11fa0734ecSArgyrios Kyrtzidis // which represent a path-sensitive, intra-procedural "exploded graph." 12fa0734ecSArgyrios Kyrtzidis // 13fa0734ecSArgyrios Kyrtzidis //===----------------------------------------------------------------------===// 14fa0734ecSArgyrios Kyrtzidis 15f8cbac4bSTed Kremenek #include "clang/StaticAnalyzer/Core/PathSensitive/ExplodedGraph.h" 16001fd5b4STed Kremenek #include "clang/StaticAnalyzer/Core/PathSensitive/ProgramState.h" 17fa0734ecSArgyrios Kyrtzidis #include "clang/AST/Stmt.h" 1844d2973bSTed Kremenek #include "clang/AST/ParentMap.h" 19fa0734ecSArgyrios Kyrtzidis #include "llvm/ADT/DenseSet.h" 20fa0734ecSArgyrios Kyrtzidis #include "llvm/ADT/DenseMap.h" 21fa0734ecSArgyrios Kyrtzidis #include "llvm/ADT/SmallVector.h" 22fa0734ecSArgyrios Kyrtzidis #include <vector> 23fa0734ecSArgyrios Kyrtzidis 24fa0734ecSArgyrios Kyrtzidis using namespace clang; 25fa0734ecSArgyrios Kyrtzidis using namespace ento; 26fa0734ecSArgyrios Kyrtzidis 27fa0734ecSArgyrios Kyrtzidis //===----------------------------------------------------------------------===// 28fa0734ecSArgyrios Kyrtzidis // Node auditing. 29fa0734ecSArgyrios Kyrtzidis //===----------------------------------------------------------------------===// 30fa0734ecSArgyrios Kyrtzidis 31fa0734ecSArgyrios Kyrtzidis // An out of line virtual method to provide a home for the class vtable. 32fa0734ecSArgyrios Kyrtzidis ExplodedNode::Auditor::~Auditor() {} 33fa0734ecSArgyrios Kyrtzidis 34fa0734ecSArgyrios Kyrtzidis #ifndef NDEBUG 35fa0734ecSArgyrios Kyrtzidis static ExplodedNode::Auditor* NodeAuditor = 0; 36fa0734ecSArgyrios Kyrtzidis #endif 37fa0734ecSArgyrios Kyrtzidis 38fa0734ecSArgyrios Kyrtzidis void ExplodedNode::SetAuditor(ExplodedNode::Auditor* A) { 39fa0734ecSArgyrios Kyrtzidis #ifndef NDEBUG 40fa0734ecSArgyrios Kyrtzidis NodeAuditor = A; 41fa0734ecSArgyrios Kyrtzidis #endif 42fa0734ecSArgyrios Kyrtzidis } 43fa0734ecSArgyrios Kyrtzidis 44fa0734ecSArgyrios Kyrtzidis //===----------------------------------------------------------------------===// 45a40f8ebcSTed Kremenek // Cleanup. 46a40f8ebcSTed Kremenek //===----------------------------------------------------------------------===// 47a40f8ebcSTed Kremenek 48a40f8ebcSTed Kremenek typedef std::vector<ExplodedNode*> NodeList; 49a40f8ebcSTed Kremenek static inline NodeList*& getNodeList(void *&p) { return (NodeList*&) p; } 50a40f8ebcSTed Kremenek 5144d2973bSTed Kremenek static const unsigned CounterTop = 1000; 5244d2973bSTed Kremenek 5344d2973bSTed Kremenek ExplodedGraph::ExplodedGraph() 5444d2973bSTed Kremenek : NumNodes(0), recentlyAllocatedNodes(0), 5544d2973bSTed Kremenek freeNodes(0), reclaimNodes(false), 5644d2973bSTed Kremenek reclaimCounter(CounterTop) {} 5744d2973bSTed Kremenek 58a40f8ebcSTed Kremenek ExplodedGraph::~ExplodedGraph() { 59a40f8ebcSTed Kremenek if (reclaimNodes) { 60a40f8ebcSTed Kremenek delete getNodeList(recentlyAllocatedNodes); 61a40f8ebcSTed Kremenek delete getNodeList(freeNodes); 62a40f8ebcSTed Kremenek } 63a40f8ebcSTed Kremenek } 64a40f8ebcSTed Kremenek 65a40f8ebcSTed Kremenek //===----------------------------------------------------------------------===// 66a40f8ebcSTed Kremenek // Node reclamation. 67a40f8ebcSTed Kremenek //===----------------------------------------------------------------------===// 68a40f8ebcSTed Kremenek 69*1dd7fd71STed Kremenek bool ExplodedGraph::shouldCollect(const ExplodedNode *node) { 70*1dd7fd71STed Kremenek // Reclaimn all nodes that match *all* the following criteria: 71*1dd7fd71STed Kremenek // 72*1dd7fd71STed Kremenek // (1) 1 predecessor (that has one successor) 73*1dd7fd71STed Kremenek // (2) 1 successor (that has one predecessor) 74*1dd7fd71STed Kremenek // (3) The ProgramPoint is for a PostStmt. 75*1dd7fd71STed Kremenek // (4) There is no 'tag' for the ProgramPoint. 76*1dd7fd71STed Kremenek // (5) The 'store' is the same as the predecessor. 77*1dd7fd71STed Kremenek // (6) The 'GDM' is the same as the predecessor. 78*1dd7fd71STed Kremenek // (7) The LocationContext is the same as the predecessor. 79*1dd7fd71STed Kremenek // (8) The PostStmt is for a non-consumed Stmt or Expr. 80*1dd7fd71STed Kremenek 81*1dd7fd71STed Kremenek // Conditions 1 and 2. 82*1dd7fd71STed Kremenek if (node->pred_size() != 1 || node->succ_size() != 1) 83*1dd7fd71STed Kremenek return false; 84*1dd7fd71STed Kremenek 85*1dd7fd71STed Kremenek const ExplodedNode *pred = *(node->pred_begin()); 86*1dd7fd71STed Kremenek if (pred->succ_size() != 1) 87*1dd7fd71STed Kremenek return false; 88*1dd7fd71STed Kremenek 89*1dd7fd71STed Kremenek const ExplodedNode *succ = *(node->succ_begin()); 90*1dd7fd71STed Kremenek if (succ->pred_size() != 1) 91*1dd7fd71STed Kremenek return false; 92*1dd7fd71STed Kremenek 93*1dd7fd71STed Kremenek // Condition 3. 94*1dd7fd71STed Kremenek ProgramPoint progPoint = node->getLocation(); 95*1dd7fd71STed Kremenek if (!isa<PostStmt>(progPoint) || 96*1dd7fd71STed Kremenek (isa<CallEnter>(progPoint) || isa<CallExit>(progPoint))) 97*1dd7fd71STed Kremenek return false; 98*1dd7fd71STed Kremenek 99*1dd7fd71STed Kremenek // Condition 4. 100*1dd7fd71STed Kremenek PostStmt ps = cast<PostStmt>(progPoint); 101*1dd7fd71STed Kremenek if (ps.getTag()) 102*1dd7fd71STed Kremenek return false; 103*1dd7fd71STed Kremenek 104*1dd7fd71STed Kremenek if (isa<BinaryOperator>(ps.getStmt())) 105*1dd7fd71STed Kremenek return false; 106*1dd7fd71STed Kremenek 107*1dd7fd71STed Kremenek // Conditions 5, 6, and 7. 108*1dd7fd71STed Kremenek ProgramStateRef state = node->getState(); 109*1dd7fd71STed Kremenek ProgramStateRef pred_state = pred->getState(); 110*1dd7fd71STed Kremenek if (state->store != pred_state->store || state->GDM != pred_state->GDM || 111*1dd7fd71STed Kremenek progPoint.getLocationContext() != pred->getLocationContext()) 112*1dd7fd71STed Kremenek return false; 113*1dd7fd71STed Kremenek 114*1dd7fd71STed Kremenek // Condition 8. 115*1dd7fd71STed Kremenek if (const Expr *Ex = dyn_cast<Expr>(ps.getStmt())) { 116*1dd7fd71STed Kremenek ParentMap &PM = progPoint.getLocationContext()->getParentMap(); 117*1dd7fd71STed Kremenek if (!PM.isConsumedExpr(Ex)) 118*1dd7fd71STed Kremenek return false; 119*1dd7fd71STed Kremenek } 120*1dd7fd71STed Kremenek 121*1dd7fd71STed Kremenek return true; 122*1dd7fd71STed Kremenek } 123*1dd7fd71STed Kremenek 124*1dd7fd71STed Kremenek void ExplodedGraph::collectNode(ExplodedNode *node) { 125*1dd7fd71STed Kremenek // Removing a node means: 126*1dd7fd71STed Kremenek // (a) changing the predecessors successor to the successor of this node 127*1dd7fd71STed Kremenek // (b) changing the successors predecessor to the predecessor of this node 128*1dd7fd71STed Kremenek // (c) Putting 'node' onto freeNodes. 129*1dd7fd71STed Kremenek assert(node->pred_size() == 1 || node->succ_size() == 1); 130*1dd7fd71STed Kremenek ExplodedNode *pred = *(node->pred_begin()); 131*1dd7fd71STed Kremenek ExplodedNode *succ = *(node->succ_begin()); 132*1dd7fd71STed Kremenek pred->replaceSuccessor(succ); 133*1dd7fd71STed Kremenek succ->replacePredecessor(pred); 134*1dd7fd71STed Kremenek if (!freeNodes) 135*1dd7fd71STed Kremenek freeNodes = new NodeList(); 136*1dd7fd71STed Kremenek getNodeList(freeNodes)->push_back(node); 137*1dd7fd71STed Kremenek Nodes.RemoveNode(node); 138*1dd7fd71STed Kremenek --NumNodes; 139*1dd7fd71STed Kremenek node->~ExplodedNode(); 140*1dd7fd71STed Kremenek } 141*1dd7fd71STed Kremenek 142a40f8ebcSTed Kremenek void ExplodedGraph::reclaimRecentlyAllocatedNodes() { 143a40f8ebcSTed Kremenek if (!recentlyAllocatedNodes) 144a40f8ebcSTed Kremenek return; 14544d2973bSTed Kremenek 14644d2973bSTed Kremenek // Only periodically relcaim nodes so that we can build up a set of 14744d2973bSTed Kremenek // nodes that meet the reclamation criteria. Freshly created nodes 14844d2973bSTed Kremenek // by definition have no successor, and thus cannot be reclaimed (see below). 14944d2973bSTed Kremenek assert(reclaimCounter > 0); 15044d2973bSTed Kremenek if (--reclaimCounter != 0) 15144d2973bSTed Kremenek return; 15244d2973bSTed Kremenek reclaimCounter = CounterTop; 15344d2973bSTed Kremenek 154a40f8ebcSTed Kremenek NodeList &nl = *getNodeList(recentlyAllocatedNodes); 155a40f8ebcSTed Kremenek 156a40f8ebcSTed Kremenek for (NodeList::iterator i = nl.begin(), e = nl.end() ; i != e; ++i) { 157a40f8ebcSTed Kremenek ExplodedNode *node = *i; 158*1dd7fd71STed Kremenek if (shouldCollect(node)) 159*1dd7fd71STed Kremenek collectNode(node); 160a40f8ebcSTed Kremenek } 161a40f8ebcSTed Kremenek 162a40f8ebcSTed Kremenek nl.clear(); 163a40f8ebcSTed Kremenek } 164a40f8ebcSTed Kremenek 165a40f8ebcSTed Kremenek //===----------------------------------------------------------------------===// 166fa0734ecSArgyrios Kyrtzidis // ExplodedNode. 167fa0734ecSArgyrios Kyrtzidis //===----------------------------------------------------------------------===// 168fa0734ecSArgyrios Kyrtzidis 169fa0734ecSArgyrios Kyrtzidis static inline BumpVector<ExplodedNode*>& getVector(void *P) { 170fa0734ecSArgyrios Kyrtzidis return *reinterpret_cast<BumpVector<ExplodedNode*>*>(P); 171fa0734ecSArgyrios Kyrtzidis } 172fa0734ecSArgyrios Kyrtzidis 173fa0734ecSArgyrios Kyrtzidis void ExplodedNode::addPredecessor(ExplodedNode *V, ExplodedGraph &G) { 174fa0734ecSArgyrios Kyrtzidis assert (!V->isSink()); 175fa0734ecSArgyrios Kyrtzidis Preds.addNode(V, G); 176fa0734ecSArgyrios Kyrtzidis V->Succs.addNode(this, G); 177fa0734ecSArgyrios Kyrtzidis #ifndef NDEBUG 178fa0734ecSArgyrios Kyrtzidis if (NodeAuditor) NodeAuditor->AddEdge(V, this); 179fa0734ecSArgyrios Kyrtzidis #endif 180fa0734ecSArgyrios Kyrtzidis } 181fa0734ecSArgyrios Kyrtzidis 182a40f8ebcSTed Kremenek void ExplodedNode::NodeGroup::replaceNode(ExplodedNode *node) { 183a40f8ebcSTed Kremenek assert(getKind() == Size1); 184a40f8ebcSTed Kremenek P = reinterpret_cast<uintptr_t>(node); 185a40f8ebcSTed Kremenek assert(getKind() == Size1); 186a40f8ebcSTed Kremenek } 187a40f8ebcSTed Kremenek 188fa0734ecSArgyrios Kyrtzidis void ExplodedNode::NodeGroup::addNode(ExplodedNode *N, ExplodedGraph &G) { 189fa0734ecSArgyrios Kyrtzidis assert((reinterpret_cast<uintptr_t>(N) & Mask) == 0x0); 190fa0734ecSArgyrios Kyrtzidis assert(!getFlag()); 191fa0734ecSArgyrios Kyrtzidis 192fa0734ecSArgyrios Kyrtzidis if (getKind() == Size1) { 193fa0734ecSArgyrios Kyrtzidis if (ExplodedNode *NOld = getNode()) { 194fa0734ecSArgyrios Kyrtzidis BumpVectorContext &Ctx = G.getNodeAllocator(); 195fa0734ecSArgyrios Kyrtzidis BumpVector<ExplodedNode*> *V = 196fa0734ecSArgyrios Kyrtzidis G.getAllocator().Allocate<BumpVector<ExplodedNode*> >(); 197fa0734ecSArgyrios Kyrtzidis new (V) BumpVector<ExplodedNode*>(Ctx, 4); 198fa0734ecSArgyrios Kyrtzidis 199fa0734ecSArgyrios Kyrtzidis assert((reinterpret_cast<uintptr_t>(V) & Mask) == 0x0); 200fa0734ecSArgyrios Kyrtzidis V->push_back(NOld, Ctx); 201fa0734ecSArgyrios Kyrtzidis V->push_back(N, Ctx); 202fa0734ecSArgyrios Kyrtzidis P = reinterpret_cast<uintptr_t>(V) | SizeOther; 203fa0734ecSArgyrios Kyrtzidis assert(getPtr() == (void*) V); 204fa0734ecSArgyrios Kyrtzidis assert(getKind() == SizeOther); 205fa0734ecSArgyrios Kyrtzidis } 206fa0734ecSArgyrios Kyrtzidis else { 207fa0734ecSArgyrios Kyrtzidis P = reinterpret_cast<uintptr_t>(N); 208fa0734ecSArgyrios Kyrtzidis assert(getKind() == Size1); 209fa0734ecSArgyrios Kyrtzidis } 210fa0734ecSArgyrios Kyrtzidis } 211fa0734ecSArgyrios Kyrtzidis else { 212fa0734ecSArgyrios Kyrtzidis assert(getKind() == SizeOther); 213fa0734ecSArgyrios Kyrtzidis getVector(getPtr()).push_back(N, G.getNodeAllocator()); 214fa0734ecSArgyrios Kyrtzidis } 215fa0734ecSArgyrios Kyrtzidis } 216fa0734ecSArgyrios Kyrtzidis 217fa0734ecSArgyrios Kyrtzidis unsigned ExplodedNode::NodeGroup::size() const { 218fa0734ecSArgyrios Kyrtzidis if (getFlag()) 219fa0734ecSArgyrios Kyrtzidis return 0; 220fa0734ecSArgyrios Kyrtzidis 221fa0734ecSArgyrios Kyrtzidis if (getKind() == Size1) 222fa0734ecSArgyrios Kyrtzidis return getNode() ? 1 : 0; 223fa0734ecSArgyrios Kyrtzidis else 224fa0734ecSArgyrios Kyrtzidis return getVector(getPtr()).size(); 225fa0734ecSArgyrios Kyrtzidis } 226fa0734ecSArgyrios Kyrtzidis 227fa0734ecSArgyrios Kyrtzidis ExplodedNode **ExplodedNode::NodeGroup::begin() const { 228fa0734ecSArgyrios Kyrtzidis if (getFlag()) 229fa0734ecSArgyrios Kyrtzidis return NULL; 230fa0734ecSArgyrios Kyrtzidis 231fa0734ecSArgyrios Kyrtzidis if (getKind() == Size1) 232fa0734ecSArgyrios Kyrtzidis return (ExplodedNode**) (getPtr() ? &P : NULL); 233fa0734ecSArgyrios Kyrtzidis else 234fa0734ecSArgyrios Kyrtzidis return const_cast<ExplodedNode**>(&*(getVector(getPtr()).begin())); 235fa0734ecSArgyrios Kyrtzidis } 236fa0734ecSArgyrios Kyrtzidis 237fa0734ecSArgyrios Kyrtzidis ExplodedNode** ExplodedNode::NodeGroup::end() const { 238fa0734ecSArgyrios Kyrtzidis if (getFlag()) 239fa0734ecSArgyrios Kyrtzidis return NULL; 240fa0734ecSArgyrios Kyrtzidis 241fa0734ecSArgyrios Kyrtzidis if (getKind() == Size1) 242fa0734ecSArgyrios Kyrtzidis return (ExplodedNode**) (getPtr() ? &P+1 : NULL); 243fa0734ecSArgyrios Kyrtzidis else { 244fa0734ecSArgyrios Kyrtzidis // Dereferencing end() is undefined behaviour. The vector is not empty, so 245fa0734ecSArgyrios Kyrtzidis // we can dereference the last elem and then add 1 to the result. 246fa0734ecSArgyrios Kyrtzidis return const_cast<ExplodedNode**>(getVector(getPtr()).end()); 247fa0734ecSArgyrios Kyrtzidis } 248fa0734ecSArgyrios Kyrtzidis } 249fa0734ecSArgyrios Kyrtzidis 250fa0734ecSArgyrios Kyrtzidis ExplodedNode *ExplodedGraph::getNode(const ProgramPoint &L, 25149b1e38eSTed Kremenek ProgramStateRef State, 25249ea5bf5SAnna Zaks bool IsSink, 25349ea5bf5SAnna Zaks bool* IsNew) { 254fa0734ecSArgyrios Kyrtzidis // Profile 'State' to determine if we already have an existing node. 255fa0734ecSArgyrios Kyrtzidis llvm::FoldingSetNodeID profile; 256fa0734ecSArgyrios Kyrtzidis void *InsertPos = 0; 257fa0734ecSArgyrios Kyrtzidis 25849ea5bf5SAnna Zaks NodeTy::Profile(profile, L, State, IsSink); 259fa0734ecSArgyrios Kyrtzidis NodeTy* V = Nodes.FindNodeOrInsertPos(profile, InsertPos); 260fa0734ecSArgyrios Kyrtzidis 261fa0734ecSArgyrios Kyrtzidis if (!V) { 262a40f8ebcSTed Kremenek if (freeNodes && !getNodeList(freeNodes)->empty()) { 263a40f8ebcSTed Kremenek NodeList *nl = getNodeList(freeNodes); 264a40f8ebcSTed Kremenek V = nl->back(); 265a40f8ebcSTed Kremenek nl->pop_back(); 266a40f8ebcSTed Kremenek } 267a40f8ebcSTed Kremenek else { 268fa0734ecSArgyrios Kyrtzidis // Allocate a new node. 269fa0734ecSArgyrios Kyrtzidis V = (NodeTy*) getAllocator().Allocate<NodeTy>(); 270a40f8ebcSTed Kremenek } 271a40f8ebcSTed Kremenek 27249ea5bf5SAnna Zaks new (V) NodeTy(L, State, IsSink); 273fa0734ecSArgyrios Kyrtzidis 274a40f8ebcSTed Kremenek if (reclaimNodes) { 275a40f8ebcSTed Kremenek if (!recentlyAllocatedNodes) 276a40f8ebcSTed Kremenek recentlyAllocatedNodes = new NodeList(); 277a40f8ebcSTed Kremenek getNodeList(recentlyAllocatedNodes)->push_back(V); 278a40f8ebcSTed Kremenek } 279a40f8ebcSTed Kremenek 280fa0734ecSArgyrios Kyrtzidis // Insert the node into the node set and return it. 281fa0734ecSArgyrios Kyrtzidis Nodes.InsertNode(V, InsertPos); 282fa0734ecSArgyrios Kyrtzidis 283fa0734ecSArgyrios Kyrtzidis ++NumNodes; 284fa0734ecSArgyrios Kyrtzidis 285fa0734ecSArgyrios Kyrtzidis if (IsNew) *IsNew = true; 286fa0734ecSArgyrios Kyrtzidis } 287fa0734ecSArgyrios Kyrtzidis else 288fa0734ecSArgyrios Kyrtzidis if (IsNew) *IsNew = false; 289fa0734ecSArgyrios Kyrtzidis 290fa0734ecSArgyrios Kyrtzidis return V; 291fa0734ecSArgyrios Kyrtzidis } 292fa0734ecSArgyrios Kyrtzidis 293fa0734ecSArgyrios Kyrtzidis std::pair<ExplodedGraph*, InterExplodedGraphMap*> 294fa0734ecSArgyrios Kyrtzidis ExplodedGraph::Trim(const NodeTy* const* NBeg, const NodeTy* const* NEnd, 295fa0734ecSArgyrios Kyrtzidis llvm::DenseMap<const void*, const void*> *InverseMap) const { 296fa0734ecSArgyrios Kyrtzidis 297fa0734ecSArgyrios Kyrtzidis if (NBeg == NEnd) 298fa0734ecSArgyrios Kyrtzidis return std::make_pair((ExplodedGraph*) 0, 299fa0734ecSArgyrios Kyrtzidis (InterExplodedGraphMap*) 0); 300fa0734ecSArgyrios Kyrtzidis 301fa0734ecSArgyrios Kyrtzidis assert (NBeg < NEnd); 302fa0734ecSArgyrios Kyrtzidis 303fa0734ecSArgyrios Kyrtzidis llvm::OwningPtr<InterExplodedGraphMap> M(new InterExplodedGraphMap()); 304fa0734ecSArgyrios Kyrtzidis 305fa0734ecSArgyrios Kyrtzidis ExplodedGraph* G = TrimInternal(NBeg, NEnd, M.get(), InverseMap); 306fa0734ecSArgyrios Kyrtzidis 307fa0734ecSArgyrios Kyrtzidis return std::make_pair(static_cast<ExplodedGraph*>(G), M.take()); 308fa0734ecSArgyrios Kyrtzidis } 309fa0734ecSArgyrios Kyrtzidis 310fa0734ecSArgyrios Kyrtzidis ExplodedGraph* 311fa0734ecSArgyrios Kyrtzidis ExplodedGraph::TrimInternal(const ExplodedNode* const* BeginSources, 312fa0734ecSArgyrios Kyrtzidis const ExplodedNode* const* EndSources, 313fa0734ecSArgyrios Kyrtzidis InterExplodedGraphMap* M, 314fa0734ecSArgyrios Kyrtzidis llvm::DenseMap<const void*, const void*> *InverseMap) const { 315fa0734ecSArgyrios Kyrtzidis 316fa0734ecSArgyrios Kyrtzidis typedef llvm::DenseSet<const ExplodedNode*> Pass1Ty; 317fa0734ecSArgyrios Kyrtzidis Pass1Ty Pass1; 318fa0734ecSArgyrios Kyrtzidis 319fa0734ecSArgyrios Kyrtzidis typedef llvm::DenseMap<const ExplodedNode*, ExplodedNode*> Pass2Ty; 320fa0734ecSArgyrios Kyrtzidis Pass2Ty& Pass2 = M->M; 321fa0734ecSArgyrios Kyrtzidis 3220e62c1ccSChris Lattner SmallVector<const ExplodedNode*, 10> WL1, WL2; 323fa0734ecSArgyrios Kyrtzidis 324fa0734ecSArgyrios Kyrtzidis // ===- Pass 1 (reverse DFS) -=== 325fa0734ecSArgyrios Kyrtzidis for (const ExplodedNode* const* I = BeginSources; I != EndSources; ++I) { 326fa0734ecSArgyrios Kyrtzidis assert(*I); 327fa0734ecSArgyrios Kyrtzidis WL1.push_back(*I); 328fa0734ecSArgyrios Kyrtzidis } 329fa0734ecSArgyrios Kyrtzidis 330fa0734ecSArgyrios Kyrtzidis // Process the first worklist until it is empty. Because it is a std::list 331fa0734ecSArgyrios Kyrtzidis // it acts like a FIFO queue. 332fa0734ecSArgyrios Kyrtzidis while (!WL1.empty()) { 333fa0734ecSArgyrios Kyrtzidis const ExplodedNode *N = WL1.back(); 334fa0734ecSArgyrios Kyrtzidis WL1.pop_back(); 335fa0734ecSArgyrios Kyrtzidis 336fa0734ecSArgyrios Kyrtzidis // Have we already visited this node? If so, continue to the next one. 337fa0734ecSArgyrios Kyrtzidis if (Pass1.count(N)) 338fa0734ecSArgyrios Kyrtzidis continue; 339fa0734ecSArgyrios Kyrtzidis 340fa0734ecSArgyrios Kyrtzidis // Otherwise, mark this node as visited. 341fa0734ecSArgyrios Kyrtzidis Pass1.insert(N); 342fa0734ecSArgyrios Kyrtzidis 343fa0734ecSArgyrios Kyrtzidis // If this is a root enqueue it to the second worklist. 344fa0734ecSArgyrios Kyrtzidis if (N->Preds.empty()) { 345fa0734ecSArgyrios Kyrtzidis WL2.push_back(N); 346fa0734ecSArgyrios Kyrtzidis continue; 347fa0734ecSArgyrios Kyrtzidis } 348fa0734ecSArgyrios Kyrtzidis 349fa0734ecSArgyrios Kyrtzidis // Visit our predecessors and enqueue them. 350fa0734ecSArgyrios Kyrtzidis for (ExplodedNode** I=N->Preds.begin(), **E=N->Preds.end(); I!=E; ++I) 351fa0734ecSArgyrios Kyrtzidis WL1.push_back(*I); 352fa0734ecSArgyrios Kyrtzidis } 353fa0734ecSArgyrios Kyrtzidis 354fa0734ecSArgyrios Kyrtzidis // We didn't hit a root? Return with a null pointer for the new graph. 355fa0734ecSArgyrios Kyrtzidis if (WL2.empty()) 356fa0734ecSArgyrios Kyrtzidis return 0; 357fa0734ecSArgyrios Kyrtzidis 358fa0734ecSArgyrios Kyrtzidis // Create an empty graph. 359fa0734ecSArgyrios Kyrtzidis ExplodedGraph* G = MakeEmptyGraph(); 360fa0734ecSArgyrios Kyrtzidis 361fa0734ecSArgyrios Kyrtzidis // ===- Pass 2 (forward DFS to construct the new graph) -=== 362fa0734ecSArgyrios Kyrtzidis while (!WL2.empty()) { 363fa0734ecSArgyrios Kyrtzidis const ExplodedNode *N = WL2.back(); 364fa0734ecSArgyrios Kyrtzidis WL2.pop_back(); 365fa0734ecSArgyrios Kyrtzidis 366fa0734ecSArgyrios Kyrtzidis // Skip this node if we have already processed it. 367fa0734ecSArgyrios Kyrtzidis if (Pass2.find(N) != Pass2.end()) 368fa0734ecSArgyrios Kyrtzidis continue; 369fa0734ecSArgyrios Kyrtzidis 370fa0734ecSArgyrios Kyrtzidis // Create the corresponding node in the new graph and record the mapping 371fa0734ecSArgyrios Kyrtzidis // from the old node to the new node. 37249ea5bf5SAnna Zaks ExplodedNode *NewN = G->getNode(N->getLocation(), N->State, N->isSink(), 0); 373fa0734ecSArgyrios Kyrtzidis Pass2[N] = NewN; 374fa0734ecSArgyrios Kyrtzidis 375fa0734ecSArgyrios Kyrtzidis // Also record the reverse mapping from the new node to the old node. 376fa0734ecSArgyrios Kyrtzidis if (InverseMap) (*InverseMap)[NewN] = N; 377fa0734ecSArgyrios Kyrtzidis 378fa0734ecSArgyrios Kyrtzidis // If this node is a root, designate it as such in the graph. 379fa0734ecSArgyrios Kyrtzidis if (N->Preds.empty()) 380fa0734ecSArgyrios Kyrtzidis G->addRoot(NewN); 381fa0734ecSArgyrios Kyrtzidis 382fa0734ecSArgyrios Kyrtzidis // In the case that some of the intended predecessors of NewN have already 383fa0734ecSArgyrios Kyrtzidis // been created, we should hook them up as predecessors. 384fa0734ecSArgyrios Kyrtzidis 385fa0734ecSArgyrios Kyrtzidis // Walk through the predecessors of 'N' and hook up their corresponding 386fa0734ecSArgyrios Kyrtzidis // nodes in the new graph (if any) to the freshly created node. 387fa0734ecSArgyrios Kyrtzidis for (ExplodedNode **I=N->Preds.begin(), **E=N->Preds.end(); I!=E; ++I) { 388fa0734ecSArgyrios Kyrtzidis Pass2Ty::iterator PI = Pass2.find(*I); 389fa0734ecSArgyrios Kyrtzidis if (PI == Pass2.end()) 390fa0734ecSArgyrios Kyrtzidis continue; 391fa0734ecSArgyrios Kyrtzidis 392fa0734ecSArgyrios Kyrtzidis NewN->addPredecessor(PI->second, *G); 393fa0734ecSArgyrios Kyrtzidis } 394fa0734ecSArgyrios Kyrtzidis 395fa0734ecSArgyrios Kyrtzidis // In the case that some of the intended successors of NewN have already 396fa0734ecSArgyrios Kyrtzidis // been created, we should hook them up as successors. Otherwise, enqueue 397fa0734ecSArgyrios Kyrtzidis // the new nodes from the original graph that should have nodes created 398fa0734ecSArgyrios Kyrtzidis // in the new graph. 399fa0734ecSArgyrios Kyrtzidis for (ExplodedNode **I=N->Succs.begin(), **E=N->Succs.end(); I!=E; ++I) { 400fa0734ecSArgyrios Kyrtzidis Pass2Ty::iterator PI = Pass2.find(*I); 401fa0734ecSArgyrios Kyrtzidis if (PI != Pass2.end()) { 402fa0734ecSArgyrios Kyrtzidis PI->second->addPredecessor(NewN, *G); 403fa0734ecSArgyrios Kyrtzidis continue; 404fa0734ecSArgyrios Kyrtzidis } 405fa0734ecSArgyrios Kyrtzidis 406fa0734ecSArgyrios Kyrtzidis // Enqueue nodes to the worklist that were marked during pass 1. 407fa0734ecSArgyrios Kyrtzidis if (Pass1.count(*I)) 408fa0734ecSArgyrios Kyrtzidis WL2.push_back(*I); 409fa0734ecSArgyrios Kyrtzidis } 410fa0734ecSArgyrios Kyrtzidis } 411fa0734ecSArgyrios Kyrtzidis 412fa0734ecSArgyrios Kyrtzidis return G; 413fa0734ecSArgyrios Kyrtzidis } 414fa0734ecSArgyrios Kyrtzidis 41568e081d6SDavid Blaikie void InterExplodedGraphMap::anchor() { } 41668e081d6SDavid Blaikie 417fa0734ecSArgyrios Kyrtzidis ExplodedNode* 418fa0734ecSArgyrios Kyrtzidis InterExplodedGraphMap::getMappedNode(const ExplodedNode *N) const { 419fa0734ecSArgyrios Kyrtzidis llvm::DenseMap<const ExplodedNode*, ExplodedNode*>::const_iterator I = 420fa0734ecSArgyrios Kyrtzidis M.find(N); 421fa0734ecSArgyrios Kyrtzidis 422fa0734ecSArgyrios Kyrtzidis return I == M.end() ? 0 : I->second; 423fa0734ecSArgyrios Kyrtzidis } 424fa0734ecSArgyrios Kyrtzidis 425