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Zhongxing Xu17892752008-10-08 02:50:44 +00001//== RegionStore.cpp - Field-sensitive store model --------------*- C++ -*--==//
2//
3// The LLVM Compiler Infrastructure
4//
5// This file is distributed under the University of Illinois Open Source
6// License. See LICENSE.TXT for details.
7//
8//===----------------------------------------------------------------------===//
9//
10// This file defines a basic region store model. In this model, we do have field
11// sensitivity. But we assume nothing about the heap shape. So recursive data
12// structures are largely ignored. Basically we do 1-limiting analysis.
13// Parameter pointers are assumed with no aliasing. Pointee objects of
14// parameters are created lazily.
15//
16//===----------------------------------------------------------------------===//
17#include "clang/Analysis/PathSensitive/MemRegion.h"
18#include "clang/Analysis/PathSensitive/GRState.h"
Zhongxing Xudc0a25d2008-11-16 04:07:26 +000019#include "clang/Analysis/PathSensitive/GRStateTrait.h"
Zhongxing Xu17892752008-10-08 02:50:44 +000020#include "clang/Analysis/Analyses/LiveVariables.h"
Zhongxing Xu41fd0182009-05-06 11:51:48 +000021#include "clang/Basic/TargetInfo.h"
Zhongxing Xu17892752008-10-08 02:50:44 +000022
23#include "llvm/ADT/ImmutableMap.h"
Zhongxing Xudc0a25d2008-11-16 04:07:26 +000024#include "llvm/ADT/ImmutableList.h"
Zhongxing Xua071eb02008-10-24 06:01:33 +000025#include "llvm/Support/raw_ostream.h"
Zhongxing Xu17892752008-10-08 02:50:44 +000026#include "llvm/Support/Compiler.h"
27
28using namespace clang;
29
Zhongxing Xubaf03a72008-11-24 09:44:56 +000030// Actual Store type.
Zhongxing Xu1c96b242008-10-17 05:57:07 +000031typedef llvm::ImmutableMap<const MemRegion*, SVal> RegionBindingsTy;
Zhongxing Xubaf03a72008-11-24 09:44:56 +000032
Ted Kremenek50dc1b32008-12-24 01:05:03 +000033//===----------------------------------------------------------------------===//
Ted Kremenek9af46f52009-06-16 22:36:44 +000034// Fine-grained control of RegionStoreManager.
35//===----------------------------------------------------------------------===//
36
37namespace {
38struct VISIBILITY_HIDDEN minimal_features_tag {};
39struct VISIBILITY_HIDDEN maximal_features_tag {};
40
41class VISIBILITY_HIDDEN RegionStoreFeatures {
42 bool SupportsFields;
43 bool SupportsRemaining;
44
45public:
46 RegionStoreFeatures(minimal_features_tag) :
47 SupportsFields(false), SupportsRemaining(false) {}
48
49 RegionStoreFeatures(maximal_features_tag) :
50 SupportsFields(true), SupportsRemaining(false) {}
51
52 void enableFields(bool t) { SupportsFields = t; }
53
54 bool supportsFields() const { return SupportsFields; }
55 bool supportsRemaining() const { return SupportsRemaining; }
56};
57}
58
59//===----------------------------------------------------------------------===//
Ted Kremenek50dc1b32008-12-24 01:05:03 +000060// Region "Views"
61//===----------------------------------------------------------------------===//
62//
63// MemRegions can be layered on top of each other. This GDM entry tracks
64// what are the MemRegions that layer a given MemRegion.
65//
Zhongxing Xu5834ed62009-01-13 01:49:57 +000066typedef llvm::ImmutableSet<const MemRegion*> RegionViews;
Ted Kremenek50dc1b32008-12-24 01:05:03 +000067namespace { class VISIBILITY_HIDDEN RegionViewMap {}; }
68static int RegionViewMapIndex = 0;
Zhongxing Xudc0a25d2008-11-16 04:07:26 +000069namespace clang {
Ted Kremenek50dc1b32008-12-24 01:05:03 +000070 template<> struct GRStateTrait<RegionViewMap>
71 : public GRStatePartialTrait<llvm::ImmutableMap<const MemRegion*,
72 RegionViews> > {
73
74 static void* GDMIndex() { return &RegionViewMapIndex; }
75 };
Zhongxing Xudc0a25d2008-11-16 04:07:26 +000076}
Zhongxing Xu17892752008-10-08 02:50:44 +000077
Zhongxing Xu20794942009-05-06 08:33:50 +000078// RegionCasts records the current cast type of a region.
79namespace { class VISIBILITY_HIDDEN RegionCasts {}; }
80static int RegionCastsIndex = 0;
81namespace clang {
82 template<> struct GRStateTrait<RegionCasts>
83 : public GRStatePartialTrait<llvm::ImmutableMap<const MemRegion*,
84 QualType> > {
85 static void* GDMIndex() { return &RegionCastsIndex; }
86 };
87}
88
Ted Kremenek50dc1b32008-12-24 01:05:03 +000089//===----------------------------------------------------------------------===//
90// Region "Extents"
91//===----------------------------------------------------------------------===//
92//
93// MemRegions represent chunks of memory with a size (their "extent"). This
94// GDM entry tracks the extents for regions. Extents are in bytes.
Ted Kremenekd6cfbe42009-01-07 22:18:50 +000095//
Ted Kremenek50dc1b32008-12-24 01:05:03 +000096namespace { class VISIBILITY_HIDDEN RegionExtents {}; }
97static int RegionExtentsIndex = 0;
Zhongxing Xubaf03a72008-11-24 09:44:56 +000098namespace clang {
Ted Kremenek50dc1b32008-12-24 01:05:03 +000099 template<> struct GRStateTrait<RegionExtents>
100 : public GRStatePartialTrait<llvm::ImmutableMap<const MemRegion*, SVal> > {
101 static void* GDMIndex() { return &RegionExtentsIndex; }
102 };
Zhongxing Xubaf03a72008-11-24 09:44:56 +0000103}
104
Ted Kremenek50dc1b32008-12-24 01:05:03 +0000105//===----------------------------------------------------------------------===//
Zhongxing Xu5834ed62009-01-13 01:49:57 +0000106// Regions with default values.
Ted Kremenek50dc1b32008-12-24 01:05:03 +0000107//===----------------------------------------------------------------------===//
108//
Zhongxing Xu5834ed62009-01-13 01:49:57 +0000109// This GDM entry tracks what regions have a default value if they have no bound
110// value and have not been killed.
Ted Kremenek50dc1b32008-12-24 01:05:03 +0000111//
112namespace { class VISIBILITY_HIDDEN RegionDefaultValue {}; }
113static int RegionDefaultValueIndex = 0;
114namespace clang {
115 template<> struct GRStateTrait<RegionDefaultValue>
116 : public GRStatePartialTrait<llvm::ImmutableMap<const MemRegion*, SVal> > {
117 static void* GDMIndex() { return &RegionDefaultValueIndex; }
118 };
119}
120
121//===----------------------------------------------------------------------===//
122// Main RegionStore logic.
123//===----------------------------------------------------------------------===//
Ted Kremenekc48ea6e2008-12-04 02:08:27 +0000124
Zhongxing Xu17892752008-10-08 02:50:44 +0000125namespace {
126
Ted Kremenek59e8f112009-03-03 01:35:36 +0000127class VISIBILITY_HIDDEN RegionStoreSubRegionMap : public SubRegionMap {
128 typedef llvm::DenseMap<const MemRegion*,
129 llvm::ImmutableSet<const MemRegion*> > Map;
130
131 llvm::ImmutableSet<const MemRegion*>::Factory F;
132 Map M;
133
134public:
135 void add(const MemRegion* Parent, const MemRegion* SubRegion) {
136 Map::iterator I = M.find(Parent);
137 M.insert(std::make_pair(Parent,
138 F.Add(I == M.end() ? F.GetEmptySet() : I->second, SubRegion)));
139 }
140
141 ~RegionStoreSubRegionMap() {}
142
Ted Kremenek5dc27462009-03-03 02:51:43 +0000143 bool iterSubRegions(const MemRegion* Parent, Visitor& V) const {
Ted Kremenek59e8f112009-03-03 01:35:36 +0000144 Map::iterator I = M.find(Parent);
145
146 if (I == M.end())
Ted Kremenek5dc27462009-03-03 02:51:43 +0000147 return true;
Ted Kremenek59e8f112009-03-03 01:35:36 +0000148
149 llvm::ImmutableSet<const MemRegion*> S = I->second;
150 for (llvm::ImmutableSet<const MemRegion*>::iterator SI=S.begin(),SE=S.end();
151 SI != SE; ++SI) {
152 if (!V.Visit(Parent, *SI))
Ted Kremenek5dc27462009-03-03 02:51:43 +0000153 return false;
Ted Kremenek59e8f112009-03-03 01:35:36 +0000154 }
Ted Kremenek5dc27462009-03-03 02:51:43 +0000155
156 return true;
Ted Kremenek59e8f112009-03-03 01:35:36 +0000157 }
158};
159
Zhongxing Xu17892752008-10-08 02:50:44 +0000160class VISIBILITY_HIDDEN RegionStoreManager : public StoreManager {
Ted Kremenek9af46f52009-06-16 22:36:44 +0000161 const RegionStoreFeatures Features;
Zhongxing Xu17892752008-10-08 02:50:44 +0000162 RegionBindingsTy::Factory RBFactory;
Ted Kremenek50dc1b32008-12-24 01:05:03 +0000163 RegionViews::Factory RVFactory;
Zhongxing Xudc0a25d2008-11-16 04:07:26 +0000164
Ted Kremenek6fd8f912009-01-22 23:43:57 +0000165 const MemRegion* SelfRegion;
166 const ImplicitParamDecl *SelfDecl;
Zhongxing Xu17892752008-10-08 02:50:44 +0000167
168public:
Ted Kremenek9af46f52009-06-16 22:36:44 +0000169 RegionStoreManager(GRStateManager& mgr, const RegionStoreFeatures &f)
Ted Kremenekc62abc12009-04-21 21:51:34 +0000170 : StoreManager(mgr),
Ted Kremenek9af46f52009-06-16 22:36:44 +0000171 Features(f),
Ted Kremenekd6cfbe42009-01-07 22:18:50 +0000172 RBFactory(mgr.getAllocator()),
Zhongxing Xudc0a25d2008-11-16 04:07:26 +0000173 RVFactory(mgr.getAllocator()),
Ted Kremenekc62abc12009-04-21 21:51:34 +0000174 SelfRegion(0), SelfDecl(0) {
Ted Kremenek6fd8f912009-01-22 23:43:57 +0000175 if (const ObjCMethodDecl* MD =
176 dyn_cast<ObjCMethodDecl>(&StateMgr.getCodeDecl()))
177 SelfDecl = MD->getSelfDecl();
178 }
Zhongxing Xu17892752008-10-08 02:50:44 +0000179
180 virtual ~RegionStoreManager() {}
181
Ted Kremenek14453bf2009-03-03 19:02:42 +0000182 SubRegionMap* getSubRegionMap(const GRState *state);
Ted Kremenek59e8f112009-03-03 01:35:36 +0000183
Ted Kremenek869fb4a2008-12-24 07:46:32 +0000184 /// getLValueString - Returns an SVal representing the lvalue of a
185 /// StringLiteral. Within RegionStore a StringLiteral has an
186 /// associated StringRegion, and the lvalue of a StringLiteral is
187 /// the lvalue of that region.
Ted Kremenek67f28532009-06-17 22:02:04 +0000188 SVal getLValueString(const GRState *state, const StringLiteral* S);
Zhongxing Xu143bf822008-10-25 14:18:57 +0000189
Ted Kremenek869fb4a2008-12-24 07:46:32 +0000190 /// getLValueCompoundLiteral - Returns an SVal representing the
191 /// lvalue of a compound literal. Within RegionStore a compound
192 /// literal has an associated region, and the lvalue of the
193 /// compound literal is the lvalue of that region.
Ted Kremenek67f28532009-06-17 22:02:04 +0000194 SVal getLValueCompoundLiteral(const GRState *state, const CompoundLiteralExpr*);
Zhongxing Xuf22679e2008-11-07 10:38:33 +0000195
Ted Kremenek869fb4a2008-12-24 07:46:32 +0000196 /// getLValueVar - Returns an SVal that represents the lvalue of a
197 /// variable. Within RegionStore a variable has an associated
198 /// VarRegion, and the lvalue of the variable is the lvalue of that region.
Ted Kremenek67f28532009-06-17 22:02:04 +0000199 SVal getLValueVar(const GRState *state, const VarDecl* VD);
Zhongxing Xuc4bf72c2008-10-22 13:44:38 +0000200
Ted Kremenek67f28532009-06-17 22:02:04 +0000201 SVal getLValueIvar(const GRState *state, const ObjCIvarDecl* D, SVal Base);
Zhongxing Xuc4bf72c2008-10-22 13:44:38 +0000202
Ted Kremenek67f28532009-06-17 22:02:04 +0000203 SVal getLValueField(const GRState *state, SVal Base, const FieldDecl* D);
Ted Kremenek3de2d3c2009-03-05 04:50:08 +0000204
Ted Kremenek67f28532009-06-17 22:02:04 +0000205 SVal getLValueFieldOrIvar(const GRState *state, SVal Base, const Decl* D);
Zhongxing Xuc4bf72c2008-10-22 13:44:38 +0000206
Ted Kremenek67f28532009-06-17 22:02:04 +0000207 SVal getLValueElement(const GRState *state, QualType elementType,
Ted Kremenekf936f452009-05-04 06:18:28 +0000208 SVal Base, SVal Offset);
Zhongxing Xub1d542a2008-10-24 01:09:32 +0000209
Zhongxing Xue8a964b2008-11-22 13:21:46 +0000210
Ted Kremenek869fb4a2008-12-24 07:46:32 +0000211 /// ArrayToPointer - Emulates the "decay" of an array to a pointer
212 /// type. 'Array' represents the lvalue of the array being decayed
213 /// to a pointer, and the returned SVal represents the decayed
214 /// version of that lvalue (i.e., a pointer to the first element of
215 /// the array). This is called by GRExprEngine when evaluating
216 /// casts from arrays to pointers.
Zhongxing Xuf1d537f2009-03-30 05:55:46 +0000217 SVal ArrayToPointer(Loc Array);
Zhongxing Xub1d542a2008-10-24 01:09:32 +0000218
Ted Kremenek67f28532009-06-17 22:02:04 +0000219 CastResult CastRegion(const GRState *state, const MemRegion* R,
Zhongxing Xu88980592009-05-06 02:42:32 +0000220 QualType CastToTy);
221
Ted Kremenek53ba0b62009-06-24 23:06:47 +0000222 SVal EvalBinOp(const GRState *state, BinaryOperator::Opcode Op,Loc L,
Ted Kremenek5c734622009-06-26 00:41:43 +0000223 NonLoc R, QualType resultTy);
Zhongxing Xu24194ef2008-10-24 01:38:55 +0000224
Zhongxing Xu4193eca2008-12-20 06:32:12 +0000225 Store getInitialStore() { return RBFactory.GetEmptyMap().getRoot(); }
Ted Kremenek9deb0e32008-10-24 20:32:16 +0000226
227 /// getSelfRegion - Returns the region for the 'self' (Objective-C) or
228 /// 'this' object (C++). When used when analyzing a normal function this
229 /// method returns NULL.
230 const MemRegion* getSelfRegion(Store) {
Ted Kremenek6fd8f912009-01-22 23:43:57 +0000231 if (!SelfDecl)
232 return 0;
233
234 if (!SelfRegion) {
235 const ObjCMethodDecl *MD = cast<ObjCMethodDecl>(&StateMgr.getCodeDecl());
236 SelfRegion = MRMgr.getObjCObjectRegion(MD->getClassInterface(),
237 MRMgr.getHeapRegion());
238 }
239
240 return SelfRegion;
Ted Kremenek9deb0e32008-10-24 20:32:16 +0000241 }
Ted Kremenek67f28532009-06-17 22:02:04 +0000242
243 //===-------------------------------------------------------------------===//
244 // Binding values to regions.
245 //===-------------------------------------------------------------------===//
Zhongxing Xu4193eca2008-12-20 06:32:12 +0000246
Ted Kremenek67f28532009-06-17 22:02:04 +0000247 const GRState *Bind(const GRState *state, Loc LV, SVal V);
248
249 const GRState *BindCompoundLiteral(const GRState *state,
250 const CompoundLiteralExpr* CL, SVal V);
251
252 const GRState *BindDecl(const GRState *state, const VarDecl* VD, SVal InitVal);
253
254 const GRState *BindDeclWithNoInit(const GRState *state, const VarDecl* VD) {
255 return state;
Zhongxing Xu4193eca2008-12-20 06:32:12 +0000256 }
Zhongxing Xu53bcdd42008-10-21 05:29:26 +0000257
Ted Kremenek67f28532009-06-17 22:02:04 +0000258 /// BindStruct - Bind a compound value to a structure.
259 const GRState *BindStruct(const GRState *, const TypedRegion* R, SVal V);
260
261 const GRState *BindArray(const GRState *state, const TypedRegion* R, SVal V);
262
263 /// KillStruct - Set the entire struct to unknown.
264 const GRState *KillStruct(const GRState *state, const TypedRegion* R);
265
266 const GRState *setDefaultValue(const GRState *state, const MemRegion* R, SVal V);
267
268 Store Remove(Store store, Loc LV);
269
270 //===------------------------------------------------------------------===//
271 // Loading values from regions.
272 //===------------------------------------------------------------------===//
273
274 /// The high level logic for this method is this:
275 /// Retrieve (L)
276 /// if L has binding
277 /// return L's binding
278 /// else if L is in killset
279 /// return unknown
280 /// else
281 /// if L is on stack or heap
282 /// return undefined
283 /// else
284 /// return symbolic
285 SVal Retrieve(const GRState *state, Loc L, QualType T = QualType());
Zhongxing Xu490b0f02009-06-25 04:50:44 +0000286
Zhongxing Xuc00346f2009-06-25 05:29:39 +0000287 SVal RetrieveElement(const GRState* state, const ElementRegion* R);
288
Zhongxing Xu490b0f02009-06-25 04:50:44 +0000289 SVal RetrieveField(const GRState* state, const FieldRegion* R);
290
Ted Kremenek67f28532009-06-17 22:02:04 +0000291 /// Retrieve the values in a struct and return a CompoundVal, used when doing
292 /// struct copy:
293 /// struct s x, y;
294 /// x = y;
295 /// y's value is retrieved by this method.
296 SVal RetrieveStruct(const GRState *St, const TypedRegion* R);
297
298 SVal RetrieveArray(const GRState *St, const TypedRegion* R);
299
300 //===------------------------------------------------------------------===//
301 // State pruning.
302 //===------------------------------------------------------------------===//
303
304 /// RemoveDeadBindings - Scans the RegionStore of 'state' for dead values.
305 /// It returns a new Store with these values removed.
306 Store RemoveDeadBindings(const GRState *state, Stmt* Loc, SymbolReaper& SymReaper,
307 llvm::SmallVectorImpl<const MemRegion*>& RegionRoots);
308
309 //===------------------------------------------------------------------===//
310 // Region "extents".
311 //===------------------------------------------------------------------===//
312
313 const GRState *setExtent(const GRState *state, const MemRegion* R, SVal Extent);
314 SVal getSizeInElements(const GRState *state, const MemRegion* R);
315
316 //===------------------------------------------------------------------===//
317 // Region "views".
318 //===------------------------------------------------------------------===//
319
320 const GRState *AddRegionView(const GRState *state, const MemRegion* View,
321 const MemRegion* Base);
322
323 const GRState *RemoveRegionView(const GRState *state, const MemRegion* View,
324 const MemRegion* Base);
325
326 //===------------------------------------------------------------------===//
327 // Utility methods.
328 //===------------------------------------------------------------------===//
329
330 const GRState *setCastType(const GRState *state, const MemRegion* R, QualType T);
Zhongxing Xubaf03a72008-11-24 09:44:56 +0000331
Zhongxing Xu17892752008-10-08 02:50:44 +0000332 static inline RegionBindingsTy GetRegionBindings(Store store) {
Zhongxing Xu9c9ca082008-12-16 02:36:30 +0000333 return RegionBindingsTy(static_cast<const RegionBindingsTy::TreeTy*>(store));
Zhongxing Xu17892752008-10-08 02:50:44 +0000334 }
Zhongxing Xu24194ef2008-10-24 01:38:55 +0000335
Ted Kremenek53ba0b62009-06-24 23:06:47 +0000336 void print(Store store, llvm::raw_ostream& Out, const char* nl,
337 const char *sep);
Zhongxing Xu24194ef2008-10-24 01:38:55 +0000338
339 void iterBindings(Store store, BindingsHandler& f) {
340 // FIXME: Implement.
341 }
Zhongxing Xu6e3f01c2008-10-31 07:16:08 +0000342
Ted Kremenek67f28532009-06-17 22:02:04 +0000343 // FIXME: Remove.
344 BasicValueFactory& getBasicVals() {
345 return StateMgr.getBasicVals();
346 }
347
348 // FIXME: Remove.
Zhongxing Xu6e3f01c2008-10-31 07:16:08 +0000349 ASTContext& getContext() { return StateMgr.getContext(); }
Zhongxing Xua15f7ac2009-05-08 01:33:18 +0000350
Ted Kremenek67f28532009-06-17 22:02:04 +0000351 // FIXME: Use ValueManager?
352 SymbolManager& getSymbolManager() { return StateMgr.getSymbolManager(); }
Zhongxing Xu17892752008-10-08 02:50:44 +0000353};
354
355} // end anonymous namespace
356
Ted Kremenek9af46f52009-06-16 22:36:44 +0000357//===----------------------------------------------------------------------===//
358// RegionStore creation.
359//===----------------------------------------------------------------------===//
360
361StoreManager *clang::CreateRegionStoreManager(GRStateManager& StMgr) {
362 RegionStoreFeatures F = maximal_features_tag();
363 return new RegionStoreManager(StMgr, F);
364}
365
366StoreManager *clang::CreateFieldsOnlyRegionStoreManager(GRStateManager &StMgr) {
367 RegionStoreFeatures F = minimal_features_tag();
368 F.enableFields(true);
369 return new RegionStoreManager(StMgr, F);
Ted Kremenek95c7b002008-10-24 01:04:59 +0000370}
371
Ted Kremenek14453bf2009-03-03 19:02:42 +0000372SubRegionMap* RegionStoreManager::getSubRegionMap(const GRState *state) {
Ted Kremenek59e8f112009-03-03 01:35:36 +0000373 RegionBindingsTy B = GetRegionBindings(state->getStore());
374 RegionStoreSubRegionMap *M = new RegionStoreSubRegionMap();
375
376 for (RegionBindingsTy::iterator I=B.begin(), E=B.end(); I!=E; ++I) {
377 if (const SubRegion* R = dyn_cast<SubRegion>(I.getKey()))
378 M->add(R->getSuperRegion(), R);
379 }
380
Ted Kremenek14453bf2009-03-03 19:02:42 +0000381 return M;
Ted Kremenek59e8f112009-03-03 01:35:36 +0000382}
Ted Kremenek869fb4a2008-12-24 07:46:32 +0000383
Ted Kremenek9af46f52009-06-16 22:36:44 +0000384//===----------------------------------------------------------------------===//
385// getLValueXXX methods.
386//===----------------------------------------------------------------------===//
387
Ted Kremenek869fb4a2008-12-24 07:46:32 +0000388/// getLValueString - Returns an SVal representing the lvalue of a
389/// StringLiteral. Within RegionStore a StringLiteral has an
390/// associated StringRegion, and the lvalue of a StringLiteral is the
391/// lvalue of that region.
Ted Kremenek67f28532009-06-17 22:02:04 +0000392SVal RegionStoreManager::getLValueString(const GRState *St,
Zhongxing Xu143bf822008-10-25 14:18:57 +0000393 const StringLiteral* S) {
394 return loc::MemRegionVal(MRMgr.getStringRegion(S));
395}
396
Ted Kremenek869fb4a2008-12-24 07:46:32 +0000397/// getLValueVar - Returns an SVal that represents the lvalue of a
398/// variable. Within RegionStore a variable has an associated
399/// VarRegion, and the lvalue of the variable is the lvalue of that region.
Ted Kremenek67f28532009-06-17 22:02:04 +0000400SVal RegionStoreManager::getLValueVar(const GRState *St, const VarDecl* VD) {
Zhongxing Xuc4bf72c2008-10-22 13:44:38 +0000401 return loc::MemRegionVal(MRMgr.getVarRegion(VD));
402}
Zhongxing Xuf22679e2008-11-07 10:38:33 +0000403
Ted Kremenek869fb4a2008-12-24 07:46:32 +0000404/// getLValueCompoundLiteral - Returns an SVal representing the lvalue
405/// of a compound literal. Within RegionStore a compound literal
406/// has an associated region, and the lvalue of the compound literal
407/// is the lvalue of that region.
408SVal
Ted Kremenek67f28532009-06-17 22:02:04 +0000409RegionStoreManager::getLValueCompoundLiteral(const GRState *St,
Ted Kremenek869fb4a2008-12-24 07:46:32 +0000410 const CompoundLiteralExpr* CL) {
Zhongxing Xuf22679e2008-11-07 10:38:33 +0000411 return loc::MemRegionVal(MRMgr.getCompoundLiteralRegion(CL));
412}
413
Ted Kremenek67f28532009-06-17 22:02:04 +0000414SVal RegionStoreManager::getLValueIvar(const GRState *St, const ObjCIvarDecl* D,
Zhongxing Xuc4bf72c2008-10-22 13:44:38 +0000415 SVal Base) {
Ted Kremenek3de2d3c2009-03-05 04:50:08 +0000416 return getLValueFieldOrIvar(St, Base, D);
Zhongxing Xuc4bf72c2008-10-22 13:44:38 +0000417}
418
Ted Kremenek67f28532009-06-17 22:02:04 +0000419SVal RegionStoreManager::getLValueField(const GRState *St, SVal Base,
Zhongxing Xuc4bf72c2008-10-22 13:44:38 +0000420 const FieldDecl* D) {
Ted Kremenek3de2d3c2009-03-05 04:50:08 +0000421 return getLValueFieldOrIvar(St, Base, D);
422}
423
Ted Kremenek67f28532009-06-17 22:02:04 +0000424SVal RegionStoreManager::getLValueFieldOrIvar(const GRState *St, SVal Base,
Ted Kremenek3de2d3c2009-03-05 04:50:08 +0000425 const Decl* D) {
Zhongxing Xuc4bf72c2008-10-22 13:44:38 +0000426 if (Base.isUnknownOrUndef())
427 return Base;
428
429 Loc BaseL = cast<Loc>(Base);
430 const MemRegion* BaseR = 0;
431
432 switch (BaseL.getSubKind()) {
433 case loc::MemRegionKind:
434 BaseR = cast<loc::MemRegionVal>(BaseL).getRegion();
435 break;
436
Zhongxing Xuc4bf72c2008-10-22 13:44:38 +0000437 case loc::GotoLabelKind:
Zhongxing Xuc4bf72c2008-10-22 13:44:38 +0000438 // These are anormal cases. Flag an undefined value.
439 return UndefinedVal();
440
441 case loc::ConcreteIntKind:
Zhongxing Xuc4bf72c2008-10-22 13:44:38 +0000442 // While these seem funny, this can happen through casts.
443 // FIXME: What we should return is the field offset. For example,
444 // add the field offset to the integer value. That way funny things
445 // like this work properly: &(((struct foo *) 0xa)->f)
446 return Base;
447
448 default:
Zhongxing Xu13d1ee22008-11-07 08:57:30 +0000449 assert(0 && "Unhandled Base.");
Zhongxing Xuc4bf72c2008-10-22 13:44:38 +0000450 return Base;
451 }
Ted Kremenek3de2d3c2009-03-05 04:50:08 +0000452
453 // NOTE: We must have this check first because ObjCIvarDecl is a subclass
454 // of FieldDecl.
455 if (const ObjCIvarDecl *ID = dyn_cast<ObjCIvarDecl>(D))
456 return loc::MemRegionVal(MRMgr.getObjCIvarRegion(ID, BaseR));
Zhongxing Xuc4bf72c2008-10-22 13:44:38 +0000457
Ted Kremenek3de2d3c2009-03-05 04:50:08 +0000458 return loc::MemRegionVal(MRMgr.getFieldRegion(cast<FieldDecl>(D), BaseR));
Zhongxing Xuc4bf72c2008-10-22 13:44:38 +0000459}
460
Ted Kremenek67f28532009-06-17 22:02:04 +0000461SVal RegionStoreManager::getLValueElement(const GRState *St,
Ted Kremenekf936f452009-05-04 06:18:28 +0000462 QualType elementType,
Zhongxing Xub1d542a2008-10-24 01:09:32 +0000463 SVal Base, SVal Offset) {
Zhongxing Xub1d542a2008-10-24 01:09:32 +0000464
Ted Kremenekde7ec632009-03-09 22:44:49 +0000465 // If the base is an unknown or undefined value, just return it back.
466 // FIXME: For absolute pointer addresses, we just return that value back as
467 // well, although in reality we should return the offset added to that
468 // value.
469 if (Base.isUnknownOrUndef() || isa<loc::ConcreteInt>(Base))
Zhongxing Xu4a1513e2008-10-27 12:23:17 +0000470 return Base;
471
Ted Kremeneka7ac9442009-01-22 20:27:48 +0000472 // Only handle integer offsets... for now.
473 if (!isa<nonloc::ConcreteInt>(Offset))
Zhongxing Xue4d13932008-11-13 09:48:44 +0000474 return UnknownVal();
Ted Kremeneka7ac9442009-01-22 20:27:48 +0000475
Zhongxing Xuce760782009-05-09 13:20:07 +0000476 const MemRegion* BaseRegion = cast<loc::MemRegionVal>(Base).getRegion();
Ted Kremeneka7ac9442009-01-22 20:27:48 +0000477
478 // Pointer of any type can be cast and used as array base.
479 const ElementRegion *ElemR = dyn_cast<ElementRegion>(BaseRegion);
480
481 if (!ElemR) {
482 //
483 // If the base region is not an ElementRegion, create one.
484 // This can happen in the following example:
485 //
486 // char *p = __builtin_alloc(10);
487 // p[1] = 8;
488 //
Zhongxing Xuce760782009-05-09 13:20:07 +0000489 // Observe that 'p' binds to an AllocaRegion.
Ted Kremeneka7ac9442009-01-22 20:27:48 +0000490 //
Zhongxing Xu5ea2ffc2009-02-19 08:37:16 +0000491
492 // Offset might be unsigned. We have to convert it to signed ConcreteInt.
493 if (nonloc::ConcreteInt* CI = dyn_cast<nonloc::ConcreteInt>(&Offset)) {
494 const llvm::APSInt& OffI = CI->getValue();
495 if (OffI.isUnsigned()) {
496 llvm::APSInt Tmp = OffI;
497 Tmp.setIsSigned(true);
Zhongxing Xud91ee272009-06-23 09:02:15 +0000498 Offset = ValMgr.makeIntVal(Tmp);
Zhongxing Xu5ea2ffc2009-02-19 08:37:16 +0000499 }
500 }
Ted Kremenekf936f452009-05-04 06:18:28 +0000501 return loc::MemRegionVal(MRMgr.getElementRegion(elementType, Offset,
Zhongxing Xu143b2fc2009-06-16 09:55:50 +0000502 BaseRegion, getContext()));
Zhongxing Xue4d13932008-11-13 09:48:44 +0000503 }
Ted Kremeneka7ac9442009-01-22 20:27:48 +0000504
505 SVal BaseIdx = ElemR->getIndex();
506
507 if (!isa<nonloc::ConcreteInt>(BaseIdx))
508 return UnknownVal();
509
510 const llvm::APSInt& BaseIdxI = cast<nonloc::ConcreteInt>(BaseIdx).getValue();
511 const llvm::APSInt& OffI = cast<nonloc::ConcreteInt>(Offset).getValue();
512 assert(BaseIdxI.isSigned());
513
514 // FIXME: This appears to be the assumption of this code. We should review
515 // whether or not BaseIdxI.getBitWidth() < OffI.getBitWidth(). If it
516 // can't we need to put a comment here. If it can, we should handle it.
517 assert(BaseIdxI.getBitWidth() >= OffI.getBitWidth());
Zhongxing Xue4d13932008-11-13 09:48:44 +0000518
Zhongxing Xuce760782009-05-09 13:20:07 +0000519 const MemRegion *ArrayR = ElemR->getSuperRegion();
Ted Kremeneka7ac9442009-01-22 20:27:48 +0000520 SVal NewIdx;
521
522 if (OffI.isUnsigned() || OffI.getBitWidth() < BaseIdxI.getBitWidth()) {
523 // 'Offset' might be unsigned. We have to convert it to signed and
524 // possibly extend it.
525 llvm::APSInt Tmp = OffI;
526
527 if (OffI.getBitWidth() < BaseIdxI.getBitWidth())
528 Tmp.extend(BaseIdxI.getBitWidth());
529
530 Tmp.setIsSigned(true);
531 Tmp += BaseIdxI; // Compute the new offset.
Zhongxing Xud91ee272009-06-23 09:02:15 +0000532 NewIdx = ValMgr.makeIntVal(Tmp);
Zhongxing Xub1d542a2008-10-24 01:09:32 +0000533 }
Ted Kremeneka7ac9442009-01-22 20:27:48 +0000534 else
535 NewIdx = nonloc::ConcreteInt(getBasicVals().getValue(BaseIdxI + OffI));
Zhongxing Xub1d542a2008-10-24 01:09:32 +0000536
Zhongxing Xu143b2fc2009-06-16 09:55:50 +0000537 return loc::MemRegionVal(MRMgr.getElementRegion(elementType, NewIdx, ArrayR,
538 getContext()));
Zhongxing Xub1d542a2008-10-24 01:09:32 +0000539}
540
Ted Kremenek9af46f52009-06-16 22:36:44 +0000541//===----------------------------------------------------------------------===//
542// Extents for regions.
543//===----------------------------------------------------------------------===//
544
Ted Kremenek67f28532009-06-17 22:02:04 +0000545SVal RegionStoreManager::getSizeInElements(const GRState *state,
Zhongxing Xue8a964b2008-11-22 13:21:46 +0000546 const MemRegion* R) {
547 if (const VarRegion* VR = dyn_cast<VarRegion>(R)) {
548 // Get the type of the variable.
Zhongxing Xua82d8aa2009-05-09 03:57:34 +0000549 QualType T = VR->getDesugaredValueType(getContext());
Zhongxing Xue8a964b2008-11-22 13:21:46 +0000550
Ted Kremenek14553ab2009-01-30 00:08:43 +0000551 // FIXME: Handle variable-length arrays.
552 if (isa<VariableArrayType>(T))
553 return UnknownVal();
554
555 if (const ConstantArrayType* CAT = dyn_cast<ConstantArrayType>(T)) {
556 // return the size as signed integer.
Zhongxing Xud91ee272009-06-23 09:02:15 +0000557 return ValMgr.makeIntVal(CAT->getSize(), false);
Ted Kremenek14553ab2009-01-30 00:08:43 +0000558 }
Zhongxing Xu20794942009-05-06 08:33:50 +0000559
Ted Kremenek67f28532009-06-17 22:02:04 +0000560 const QualType* CastTy = state->get<RegionCasts>(VR);
Zhongxing Xu41fd0182009-05-06 11:51:48 +0000561
Zhongxing Xue6536af2009-05-08 02:00:55 +0000562 // If the VarRegion is cast to other type, compute the size with respect to
563 // that type.
Zhongxing Xu41fd0182009-05-06 11:51:48 +0000564 if (CastTy) {
565 QualType EleTy =cast<PointerType>(CastTy->getTypePtr())->getPointeeType();
Zhongxing Xua82d8aa2009-05-09 03:57:34 +0000566 QualType VarTy = VR->getValueType(getContext());
Zhongxing Xue6536af2009-05-08 02:00:55 +0000567 uint64_t EleSize = getContext().getTypeSize(EleTy);
568 uint64_t VarSize = getContext().getTypeSize(VarTy);
Zhongxing Xu88c675f2009-06-18 06:29:10 +0000569 assert(VarSize != 0);
Zhongxing Xud91ee272009-06-23 09:02:15 +0000570 return ValMgr.makeIntVal(VarSize/EleSize, false);
Zhongxing Xu41fd0182009-05-06 11:51:48 +0000571 }
572
Ted Kremenek14553ab2009-01-30 00:08:43 +0000573 // Clients can use ordinary variables as if they were arrays. These
574 // essentially are arrays of size 1.
Zhongxing Xud91ee272009-06-23 09:02:15 +0000575 return ValMgr.makeIntVal(1, false);
Zhongxing Xue8a964b2008-11-22 13:21:46 +0000576 }
577
578 if (const StringRegion* SR = dyn_cast<StringRegion>(R)) {
Zhongxing Xu6613d082008-11-24 02:18:56 +0000579 const StringLiteral* Str = SR->getStringLiteral();
Zhongxing Xud0fd3b72008-11-24 02:30:48 +0000580 // We intentionally made the size value signed because it participates in
581 // operations with signed indices.
Zhongxing Xud91ee272009-06-23 09:02:15 +0000582 return ValMgr.makeIntVal(Str->getByteLength()+1, false);
Zhongxing Xue8a964b2008-11-22 13:21:46 +0000583 }
584
Zhongxing Xue8a964b2008-11-22 13:21:46 +0000585 if (const FieldRegion* FR = dyn_cast<FieldRegion>(R)) {
586 // FIXME: Unsupported yet.
587 FR = 0;
588 return UnknownVal();
589 }
Zhongxing Xu369f4292008-11-22 13:23:00 +0000590
Zhongxing Xu02ebefb2009-02-06 08:51:30 +0000591 if (isa<SymbolicRegion>(R)) {
Zhongxing Xua48f7372009-02-06 08:44:27 +0000592 return UnknownVal();
593 }
594
Zhongxing Xuce760782009-05-09 13:20:07 +0000595 if (isa<AllocaRegion>(R)) {
596 return UnknownVal();
597 }
598
Zhongxing Xuccb16162009-05-06 08:08:27 +0000599 if (isa<ElementRegion>(R)) {
600 return UnknownVal();
601 }
602
Zhongxing Xue8a964b2008-11-22 13:21:46 +0000603 assert(0 && "Other regions are not supported yet.");
Ted Kremeneka21362d2009-01-06 19:12:06 +0000604 return UnknownVal();
Zhongxing Xue8a964b2008-11-22 13:21:46 +0000605}
606
Ted Kremenek67f28532009-06-17 22:02:04 +0000607const GRState *RegionStoreManager::setExtent(const GRState *state,
608 const MemRegion *region,
609 SVal extent) {
610 return state->set<RegionExtents>(region, extent);
Ted Kremenek9af46f52009-06-16 22:36:44 +0000611}
612
613//===----------------------------------------------------------------------===//
614// Location and region casting.
615//===----------------------------------------------------------------------===//
616
Ted Kremenek869fb4a2008-12-24 07:46:32 +0000617/// ArrayToPointer - Emulates the "decay" of an array to a pointer
618/// type. 'Array' represents the lvalue of the array being decayed
619/// to a pointer, and the returned SVal represents the decayed
620/// version of that lvalue (i.e., a pointer to the first element of
621/// the array). This is called by GRExprEngine when evaluating casts
622/// from arrays to pointers.
Zhongxing Xuf1d537f2009-03-30 05:55:46 +0000623SVal RegionStoreManager::ArrayToPointer(Loc Array) {
Ted Kremenekabb042f2008-12-13 19:24:37 +0000624 if (!isa<loc::MemRegionVal>(Array))
625 return UnknownVal();
626
627 const MemRegion* R = cast<loc::MemRegionVal>(&Array)->getRegion();
628 const TypedRegion* ArrayR = dyn_cast<TypedRegion>(R);
629
Ted Kremenekbbee1a72009-01-13 01:03:27 +0000630 if (!ArrayR)
Ted Kremenekabb042f2008-12-13 19:24:37 +0000631 return UnknownVal();
632
Zhongxing Xua82d8aa2009-05-09 03:57:34 +0000633 // Strip off typedefs from the ArrayRegion's ValueType.
634 QualType T = ArrayR->getValueType(getContext())->getDesugaredType();
Ted Kremenekf936f452009-05-04 06:18:28 +0000635 ArrayType *AT = cast<ArrayType>(T);
636 T = AT->getElementType();
637
Zhongxing Xu63123d82008-11-23 04:30:35 +0000638 nonloc::ConcreteInt Idx(getBasicVals().getZeroWithPtrWidth(false));
Zhongxing Xu143b2fc2009-06-16 09:55:50 +0000639 ElementRegion* ER = MRMgr.getElementRegion(T, Idx, ArrayR, getContext());
Zhongxing Xu0b7e6422008-10-26 02:23:57 +0000640
641 return loc::MemRegionVal(ER);
Zhongxing Xub1d542a2008-10-24 01:09:32 +0000642}
643
Zhongxing Xu88980592009-05-06 02:42:32 +0000644RegionStoreManager::CastResult
Ted Kremenek67f28532009-06-17 22:02:04 +0000645RegionStoreManager::CastRegion(const GRState *state, const MemRegion* R,
Zhongxing Xu41fd0182009-05-06 11:51:48 +0000646 QualType CastToTy) {
Zhongxing Xu88980592009-05-06 02:42:32 +0000647
648 ASTContext& Ctx = StateMgr.getContext();
649
650 // We need to know the real type of CastToTy.
651 QualType ToTy = Ctx.getCanonicalType(CastToTy);
652
653 // Check cast to ObjCQualifiedID type.
Steve Naroffd1b3c2d2009-06-17 22:40:22 +0000654 if (ToTy->isObjCQualifiedIdType()) {
Zhongxing Xu88980592009-05-06 02:42:32 +0000655 // FIXME: Record the type information aside.
656 return CastResult(state, R);
657 }
658
659 // CodeTextRegion should be cast to only function pointer type.
660 if (isa<CodeTextRegion>(R)) {
Zhongxing Xu99823a72009-06-22 08:36:10 +0000661 assert(CastToTy->isFunctionPointerType() || CastToTy->isBlockPointerType()
662 || (CastToTy->isPointerType()
663 && CastToTy->getAsPointerType()->getPointeeType()->isVoidType()));
Zhongxing Xu88980592009-05-06 02:42:32 +0000664 return CastResult(state, R);
665 }
666
Zhongxing Xudb3a0982009-05-09 10:03:08 +0000667 // Now assume we are casting from pointer to pointer. Other cases should
668 // already be handled.
Zhongxing Xu88980592009-05-06 02:42:32 +0000669 QualType PointeeTy = cast<PointerType>(ToTy.getTypePtr())->getPointeeType();
670
Zhongxing Xu88980592009-05-06 02:42:32 +0000671 // Process region cast according to the kind of the region being cast.
672
Zhongxing Xu88980592009-05-06 02:42:32 +0000673 // FIXME: Need to handle arbitrary downcasts.
Zhongxing Xu88980592009-05-06 02:42:32 +0000674 if (isa<SymbolicRegion>(R) || isa<AllocaRegion>(R)) {
Zhongxing Xuce760782009-05-09 13:20:07 +0000675 state = setCastType(state, R, ToTy);
676 return CastResult(state, R);
Zhongxing Xu88980592009-05-06 02:42:32 +0000677 }
678
679 // VarRegion, ElementRegion, and FieldRegion has an inherent type. Normally
680 // they should not be cast. We only layer an ElementRegion when the cast-to
681 // pointee type is of smaller size. In other cases, we return the original
682 // VarRegion.
683 if (isa<VarRegion>(R) || isa<ElementRegion>(R) || isa<FieldRegion>(R)
684 || isa<ObjCIvarRegion>(R) || isa<CompoundLiteralRegion>(R)) {
Zhongxing Xu2572eda2009-05-08 07:28:25 +0000685 // If the pointee type is incomplete, do not compute its size, and return
686 // the original region.
687 if (const RecordType *RT = dyn_cast<RecordType>(PointeeTy.getTypePtr())) {
688 const RecordDecl *D = RT->getDecl();
689 if (!D->getDefinition(getContext()))
690 return CastResult(state, R);
691 }
692
Zhongxing Xua82d8aa2009-05-09 03:57:34 +0000693 QualType ObjTy = cast<TypedRegion>(R)->getValueType(getContext());
Zhongxing Xufb1e3312009-05-08 02:12:59 +0000694 uint64_t PointeeTySize = getContext().getTypeSize(PointeeTy);
695 uint64_t ObjTySize = getContext().getTypeSize(ObjTy);
696
Zhongxing Xu5bf32872009-05-09 15:34:29 +0000697 if ((PointeeTySize > 0 && PointeeTySize < ObjTySize) ||
Zhongxing Xu88c675f2009-06-18 06:29:10 +0000698 (ObjTy->isAggregateType() && PointeeTy->isScalarType()) ||
699 ObjTySize == 0 /* R has 'void*' type. */) {
Zhongxing Xu20794942009-05-06 08:33:50 +0000700 // Record the cast type of the region.
701 state = setCastType(state, R, ToTy);
702
Zhongxing Xuccb16162009-05-06 08:08:27 +0000703 SVal Idx = ValMgr.makeZeroArrayIndex();
Zhongxing Xu143b2fc2009-06-16 09:55:50 +0000704 ElementRegion* ER = MRMgr.getElementRegion(PointeeTy, Idx,R,getContext());
Zhongxing Xuccb16162009-05-06 08:08:27 +0000705 return CastResult(state, ER);
Zhongxing Xu88c675f2009-06-18 06:29:10 +0000706 } else {
707 state = setCastType(state, R, ToTy);
Zhongxing Xuccb16162009-05-06 08:08:27 +0000708 return CastResult(state, R);
Zhongxing Xu88c675f2009-06-18 06:29:10 +0000709 }
Zhongxing Xu88980592009-05-06 02:42:32 +0000710 }
711
Zhongxing Xu88980592009-05-06 02:42:32 +0000712 if (isa<ObjCObjectRegion>(R)) {
713 return CastResult(state, R);
714 }
715
716 assert(0 && "Unprocessed region.");
Daniel Dunbar4e609002009-05-18 16:48:48 +0000717 return 0;
Zhongxing Xu88980592009-05-06 02:42:32 +0000718}
719
Ted Kremenek9af46f52009-06-16 22:36:44 +0000720//===----------------------------------------------------------------------===//
721// Pointer arithmetic.
722//===----------------------------------------------------------------------===//
723
Zhongxing Xu262fd032009-05-20 09:00:16 +0000724SVal RegionStoreManager::EvalBinOp(const GRState *state,
Ted Kremenek5c734622009-06-26 00:41:43 +0000725 BinaryOperator::Opcode Op, Loc L, NonLoc R,
726 QualType resultTy) {
Zhongxing Xuc4761f52009-05-09 15:18:12 +0000727 // Assume the base location is MemRegionVal.
Ted Kremenek5dc27462009-03-03 02:51:43 +0000728 if (!isa<loc::MemRegionVal>(L))
Zhongxing Xu94aa6c12009-03-02 07:52:23 +0000729 return UnknownVal();
Zhongxing Xu94aa6c12009-03-02 07:52:23 +0000730
Zhongxing Xua1718c72009-04-03 07:33:13 +0000731 const MemRegion* MR = cast<loc::MemRegionVal>(L).getRegion();
Zhongxing Xuc4761f52009-05-09 15:18:12 +0000732 const ElementRegion *ER = 0;
Zhongxing Xu262fd032009-05-20 09:00:16 +0000733
734 // If the operand is a symbolic or alloca region, create the first element
735 // region on it.
Zhongxing Xuc4761f52009-05-09 15:18:12 +0000736 if (const SymbolicRegion *SR = dyn_cast<SymbolicRegion>(MR)) {
Zhongxing Xu005f07b2009-06-19 04:51:14 +0000737 QualType T;
738 // If the SymbolicRegion was cast to another type, use that type.
739 if (const QualType *t = state->get<RegionCasts>(SR)) {
740 T = *t;
741 } else {
742 // Otherwise use the symbol's type.
743 SymbolRef Sym = SR->getSymbol();
744 T = Sym->getType(getContext());
745 }
Zhongxing Xu53454dc2009-06-12 03:59:12 +0000746 QualType EleTy = T->getAsPointerType()->getPointeeType();
Zhongxing Xua1718c72009-04-03 07:33:13 +0000747
Zhongxing Xuc4761f52009-05-09 15:18:12 +0000748 SVal ZeroIdx = ValMgr.makeZeroArrayIndex();
Zhongxing Xu143b2fc2009-06-16 09:55:50 +0000749 ER = MRMgr.getElementRegion(EleTy, ZeroIdx, SR, getContext());
Zhongxing Xu262fd032009-05-20 09:00:16 +0000750 }
751 else if (const AllocaRegion *AR = dyn_cast<AllocaRegion>(MR)) {
752 // Get the alloca region's current cast type.
Zhongxing Xu262fd032009-05-20 09:00:16 +0000753
Ted Kremenek67f28532009-06-17 22:02:04 +0000754
755 GRStateTrait<RegionCasts>::lookup_type T = state->get<RegionCasts>(AR);
Zhongxing Xu262fd032009-05-20 09:00:16 +0000756 assert(T && "alloca region has no type.");
757 QualType EleTy = cast<PointerType>(T->getTypePtr())->getPointeeType();
758 SVal ZeroIdx = ValMgr.makeZeroArrayIndex();
Zhongxing Xu143b2fc2009-06-16 09:55:50 +0000759 ER = MRMgr.getElementRegion(EleTy, ZeroIdx, AR, getContext());
Zhongxing Xu262fd032009-05-20 09:00:16 +0000760 }
Zhongxing Xu5414a5c2009-06-21 13:24:24 +0000761 else if (isa<FieldRegion>(MR)) {
762 // Not track pointer arithmetic on struct fields.
763 return UnknownVal();
764 }
765 else {
Zhongxing Xuc4761f52009-05-09 15:18:12 +0000766 ER = cast<ElementRegion>(MR);
Zhongxing Xu5414a5c2009-06-21 13:24:24 +0000767 }
Zhongxing Xu2b1dc172009-03-11 07:43:49 +0000768
Zhongxing Xu94aa6c12009-03-02 07:52:23 +0000769 SVal Idx = ER->getIndex();
770
771 nonloc::ConcreteInt* Base = dyn_cast<nonloc::ConcreteInt>(&Idx);
772 nonloc::ConcreteInt* Offset = dyn_cast<nonloc::ConcreteInt>(&R);
773
774 // Only support concrete integer indexes for now.
775 if (Base && Offset) {
Ted Kremenek610e81d2009-03-13 15:35:24 +0000776 // FIXME: For now, convert the signedness and bitwidth of offset in case
777 // they don't match. This can result from pointer arithmetic. In reality,
778 // we should figure out what are the proper semantics and implement them.
779 //
Ted Kremenek1060a3c2009-03-13 15:39:16 +0000780 // This addresses the test case test/Analysis/ptr-arith.c
781 //
Ted Kremenek610e81d2009-03-13 15:35:24 +0000782 nonloc::ConcreteInt OffConverted(getBasicVals().Convert(Base->getValue(),
783 Offset->getValue()));
Ted Kremenek6c07bdb2009-06-26 00:05:51 +0000784 SVal NewIdx = Base->evalBinOp(ValMgr, Op, OffConverted);
Ted Kremenekf936f452009-05-04 06:18:28 +0000785 const MemRegion* NewER =
Zhongxing Xu143b2fc2009-06-16 09:55:50 +0000786 MRMgr.getElementRegion(ER->getElementType(), NewIdx,ER->getSuperRegion(),
787 getContext());
Zhongxing Xud91ee272009-06-23 09:02:15 +0000788 return ValMgr.makeLoc(NewER);
Zhongxing Xu94aa6c12009-03-02 07:52:23 +0000789
Ted Kremenek5dc27462009-03-03 02:51:43 +0000790 }
791
792 return UnknownVal();
Zhongxing Xu94aa6c12009-03-02 07:52:23 +0000793}
794
Ted Kremenek9af46f52009-06-16 22:36:44 +0000795//===----------------------------------------------------------------------===//
796// Loading values from regions.
797//===----------------------------------------------------------------------===//
798
Ted Kremenek67f28532009-06-17 22:02:04 +0000799SVal RegionStoreManager::Retrieve(const GRState *state, Loc L, QualType T) {
800
Zhongxing Xu53bcdd42008-10-21 05:29:26 +0000801 assert(!isa<UnknownVal>(L) && "location unknown");
802 assert(!isa<UndefinedVal>(L) && "location undefined");
803
Ted Kremenek869fb4a2008-12-24 07:46:32 +0000804 // FIXME: Is this even possible? Shouldn't this be treated as a null
805 // dereference at a higher level?
Zhongxing Xu4193eca2008-12-20 06:32:12 +0000806 if (isa<loc::ConcreteInt>(L))
807 return UndefinedVal();
Zhongxing Xu53bcdd42008-10-21 05:29:26 +0000808
Ted Kremenek67f28532009-06-17 22:02:04 +0000809 const MemRegion *MR = cast<loc::MemRegionVal>(L).getRegion();
Zhongxing Xua1718c72009-04-03 07:33:13 +0000810
Zhongxing Xu91844122009-05-20 09:18:48 +0000811 // FIXME: return symbolic value for these cases.
Zhongxing Xua1718c72009-04-03 07:33:13 +0000812 // Example:
813 // void f(int* p) { int x = *p; }
Zhongxing Xu91844122009-05-20 09:18:48 +0000814 // char* p = alloca();
815 // read(p);
816 // c = *p;
817 if (isa<SymbolicRegion>(MR) || isa<AllocaRegion>(MR))
Zhongxing Xua1718c72009-04-03 07:33:13 +0000818 return UnknownVal();
819
Ted Kremenek869fb4a2008-12-24 07:46:32 +0000820 // FIXME: Perhaps this method should just take a 'const MemRegion*' argument
821 // instead of 'Loc', and have the other Loc cases handled at a higher level.
Ted Kremenek67f28532009-06-17 22:02:04 +0000822 const TypedRegion *R = cast<TypedRegion>(MR);
Zhongxing Xu4193eca2008-12-20 06:32:12 +0000823 assert(R && "bad region");
824
Ted Kremenek869fb4a2008-12-24 07:46:32 +0000825 // FIXME: We should eventually handle funny addressing. e.g.:
826 //
827 // int x = ...;
828 // int *p = &x;
829 // char *q = (char*) p;
830 // char c = *q; // returns the first byte of 'x'.
831 //
832 // Such funny addressing will occur due to layering of regions.
833
Zhongxing Xua82d8aa2009-05-09 03:57:34 +0000834 QualType RTy = R->getValueType(getContext());
Zhongxing Xu3e001f32009-05-03 00:27:40 +0000835
Zhongxing Xu1038f9f2009-03-09 09:15:51 +0000836 if (RTy->isStructureType())
Ted Kremenek67f28532009-06-17 22:02:04 +0000837 return RetrieveStruct(state, R);
Zhongxing Xu3e001f32009-05-03 00:27:40 +0000838
839 if (RTy->isArrayType())
Ted Kremenek67f28532009-06-17 22:02:04 +0000840 return RetrieveArray(state, R);
Zhongxing Xu3e001f32009-05-03 00:27:40 +0000841
Zhongxing Xu1038f9f2009-03-09 09:15:51 +0000842 // FIXME: handle Vector types.
843 if (RTy->isVectorType())
Ted Kremenek265a3052009-02-24 02:23:11 +0000844 return UnknownVal();
Zhongxing Xu99c20302009-06-28 14:16:39 +0000845
846 if (const FieldRegion* FR = dyn_cast<FieldRegion>(R))
847 return RetrieveField(state, FR);
848
849 if (const ElementRegion* ER = dyn_cast<ElementRegion>(R))
850 return RetrieveElement(state, ER);
Zhongxing Xu4193eca2008-12-20 06:32:12 +0000851
Ted Kremenek67f28532009-06-17 22:02:04 +0000852 RegionBindingsTy B = GetRegionBindings(state->getStore());
Zhongxing Xu4193eca2008-12-20 06:32:12 +0000853 RegionBindingsTy::data_type* V = B.lookup(R);
854
855 // Check if the region has a binding.
856 if (V)
857 return *V;
Ted Kremenek869fb4a2008-12-24 07:46:32 +0000858
Ted Kremenek3de2d3c2009-03-05 04:50:08 +0000859 if (const ObjCIvarRegion *IVR = dyn_cast<ObjCIvarRegion>(R)) {
860 const MemRegion *SR = IVR->getSuperRegion();
861
862 // If the super region is 'self' then return the symbol representing
863 // the value of the ivar upon entry to the method.
864 if (SR == SelfRegion) {
865 // FIXME: Do we need to handle the case where the super region
866 // has a view? We want to canonicalize the bindings.
Zhongxing Xud9b6ad62009-05-09 04:08:27 +0000867 return ValMgr.getRegionValueSymbolVal(R);
Ted Kremenek3de2d3c2009-03-05 04:50:08 +0000868 }
869
870 // Otherwise, we need a new symbol. For now return Unknown.
871 return UnknownVal();
872 }
Zhongxing Xu562c4d92009-01-23 11:22:12 +0000873
Ted Kremenek869fb4a2008-12-24 07:46:32 +0000874 // The location does not have a bound value. This means that it has
875 // the value it had upon its creation and/or entry to the analyzed
876 // function/method. These are either symbolic values or 'undefined'.
877
878 // We treat function parameters as symbolic values.
Ted Kremenek6fd8f912009-01-22 23:43:57 +0000879 if (const VarRegion* VR = dyn_cast<VarRegion>(R)) {
880 const VarDecl *VD = VR->getDecl();
881
Ted Kremenekcec35252009-03-04 00:23:05 +0000882 if (VD == SelfDecl)
883 return loc::MemRegionVal(getSelfRegion(0));
884
885 if (isa<ParmVarDecl>(VD) || isa<ImplicitParamDecl>(VD) ||
886 VD->hasGlobalStorage()) {
Zhongxing Xud8895f62009-02-19 09:56:08 +0000887 QualType VTy = VD->getType();
888 if (Loc::IsLocType(VTy) || VTy->isIntegerType())
Zhongxing Xud9b6ad62009-05-09 04:08:27 +0000889 return ValMgr.getRegionValueSymbolVal(VR);
Zhongxing Xud8895f62009-02-19 09:56:08 +0000890 else
891 return UnknownVal();
892 }
Ted Kremenek3de2d3c2009-03-05 04:50:08 +0000893 }
Ted Kremenek265a3052009-02-24 02:23:11 +0000894
Ted Kremenekbb7c96f2009-06-23 18:17:08 +0000895 if (R->hasHeapOrStackStorage()) {
Ted Kremenek869fb4a2008-12-24 07:46:32 +0000896 // All stack variables are considered to have undefined values
897 // upon creation. All heap allocated blocks are considered to
898 // have undefined values as well unless they are explicitly bound
899 // to specific values.
Zhongxing Xu4193eca2008-12-20 06:32:12 +0000900 return UndefinedVal();
Ted Kremenek869fb4a2008-12-24 07:46:32 +0000901 }
902
Zhongxing Xu88c675f2009-06-18 06:29:10 +0000903 // If the region is already cast to another type, use that type to create the
904 // symbol value.
905 if (const QualType *p = state->get<RegionCasts>(R)) {
906 QualType T = *p;
907 RTy = T->getAsPointerType()->getPointeeType();
908 }
909
Zhongxing Xuff8d2042009-03-09 09:31:22 +0000910 // All other integer values are symbolic.
911 if (Loc::IsLocType(RTy) || RTy->isIntegerType())
Zhongxing Xu88c675f2009-06-18 06:29:10 +0000912 return ValMgr.getRegionValueSymbolVal(R, RTy);
Zhongxing Xuff8d2042009-03-09 09:31:22 +0000913 else
914 return UnknownVal();
Zhongxing Xu53bcdd42008-10-21 05:29:26 +0000915}
916
Zhongxing Xuc00346f2009-06-25 05:29:39 +0000917SVal RegionStoreManager::RetrieveElement(const GRState* state,
918 const ElementRegion* R) {
919 // Check if the region has a binding.
920 RegionBindingsTy B = GetRegionBindings(state->getStore());
921 const SVal* V = B.lookup(R);
922 if (V)
923 return *V;
924
Zhongxing Xuc00346f2009-06-25 05:29:39 +0000925 // Check if the region is an element region of a string literal.
926 if (const StringRegion *StrR=dyn_cast<StringRegion>(R->getSuperRegion())) {
927 const StringLiteral *Str = StrR->getStringLiteral();
928 SVal Idx = R->getIndex();
929 if (nonloc::ConcreteInt *CI = dyn_cast<nonloc::ConcreteInt>(&Idx)) {
930 int64_t i = CI->getValue().getSExtValue();
931 char c;
932 if (i == Str->getByteLength())
933 c = '\0';
934 else
935 c = Str->getStrData()[i];
936 return ValMgr.makeIntVal(c, getContext().CharTy);
937 }
938 }
939
940 const MemRegion* SuperR = R->getSuperRegion();
941 const SVal* D = state->get<RegionDefaultValue>(SuperR);
942
943 if (D) {
944 if (D->hasConjuredSymbol())
945 return ValMgr.getRegionValueSymbolVal(R);
946 else
947 return *D;
948 }
949
950 if (R->hasHeapOrStackStorage())
951 return UndefinedVal();
952
953 QualType Ty = R->getValueType(getContext());
954
955 // If the region is already cast to another type, use that type to create the
956 // symbol value.
957 if (const QualType *p = state->get<RegionCasts>(R))
958 Ty = (*p)->getAsPointerType()->getPointeeType();
959
960 if (Loc::IsLocType(Ty) || Ty->isIntegerType())
961 return ValMgr.getRegionValueSymbolVal(R, Ty);
962 else
963 return UnknownVal();
964}
965
Zhongxing Xu490b0f02009-06-25 04:50:44 +0000966SVal RegionStoreManager::RetrieveField(const GRState* state,
967 const FieldRegion* R) {
968 QualType Ty = R->getValueType(getContext());
969
970 // Check if the region has a binding.
971 RegionBindingsTy B = GetRegionBindings(state->getStore());
972 const SVal* V = B.lookup(R);
973 if (V)
974 return *V;
975
Zhongxing Xu490b0f02009-06-25 04:50:44 +0000976 const MemRegion* SuperR = R->getSuperRegion();
977 const SVal* D = state->get<RegionDefaultValue>(SuperR);
978 if (D) {
979 if (D->hasConjuredSymbol())
980 return ValMgr.getRegionValueSymbolVal(R);
981
982 if (D->isZeroConstant())
983 return ValMgr.makeZeroVal(Ty);
984
985 if (D->isUnknown())
986 return *D;
987
988 assert(0 && "Unknown default value");
989 }
990
991 if (R->hasHeapOrStackStorage())
992 return UndefinedVal();
993
994 // If the region is already cast to another type, use that type to create the
995 // symbol value.
996 if (const QualType *p = state->get<RegionCasts>(R)) {
997 QualType tmp = *p;
998 Ty = tmp->getAsPointerType()->getPointeeType();
999 }
1000
1001 // All other integer values are symbolic.
1002 if (Loc::IsLocType(Ty) || Ty->isIntegerType())
1003 return ValMgr.getRegionValueSymbolVal(R, Ty);
1004 else
1005 return UnknownVal();
1006}
1007
Zhongxing Xu88c675f2009-06-18 06:29:10 +00001008SVal RegionStoreManager::RetrieveStruct(const GRState *state,
1009 const TypedRegion* R){
Zhongxing Xua82d8aa2009-05-09 03:57:34 +00001010 QualType T = R->getValueType(getContext());
Zhongxing Xu6e3f01c2008-10-31 07:16:08 +00001011 assert(T->isStructureType());
1012
Zhongxing Xub7507d12009-06-11 07:27:30 +00001013 const RecordType* RT = T->getAsStructureType();
Zhongxing Xu6e3f01c2008-10-31 07:16:08 +00001014 RecordDecl* RD = RT->getDecl();
1015 assert(RD->isDefinition());
1016
1017 llvm::ImmutableList<SVal> StructVal = getBasicVals().getEmptySValList();
1018
Ted Kremenek67f28532009-06-17 22:02:04 +00001019 // FIXME: We shouldn't use a std::vector. If RecordDecl doesn't have a
1020 // reverse iterator, we should implement one.
Douglas Gregor6ab35242009-04-09 21:40:53 +00001021 std::vector<FieldDecl *> Fields(RD->field_begin(getContext()),
1022 RD->field_end(getContext()));
Douglas Gregor44b43212008-12-11 16:49:14 +00001023
Douglas Gregore267ff32008-12-11 20:41:00 +00001024 for (std::vector<FieldDecl *>::reverse_iterator Field = Fields.rbegin(),
1025 FieldEnd = Fields.rend();
1026 Field != FieldEnd; ++Field) {
1027 FieldRegion* FR = MRMgr.getFieldRegion(*Field, R);
Zhongxing Xu3e001f32009-05-03 00:27:40 +00001028 QualType FTy = (*Field)->getType();
Ted Kremenek67f28532009-06-17 22:02:04 +00001029 SVal FieldValue = Retrieve(state, loc::MemRegionVal(FR), FTy);
Zhongxing Xu6e3f01c2008-10-31 07:16:08 +00001030 StructVal = getBasicVals().consVals(FieldValue, StructVal);
1031 }
1032
Zhongxing Xud91ee272009-06-23 09:02:15 +00001033 return ValMgr.makeCompoundVal(T, StructVal);
Zhongxing Xu6e3f01c2008-10-31 07:16:08 +00001034}
1035
Ted Kremenek67f28532009-06-17 22:02:04 +00001036SVal RegionStoreManager::RetrieveArray(const GRState *state,
1037 const TypedRegion * R) {
1038
Zhongxing Xua82d8aa2009-05-09 03:57:34 +00001039 QualType T = R->getValueType(getContext());
Zhongxing Xu3e001f32009-05-03 00:27:40 +00001040 ConstantArrayType* CAT = cast<ConstantArrayType>(T.getTypePtr());
1041
1042 llvm::ImmutableList<SVal> ArrayVal = getBasicVals().getEmptySValList();
Zhongxing Xu3e001f32009-05-03 00:27:40 +00001043 llvm::APSInt Size(CAT->getSize(), false);
Zhongxing Xu2ee52142009-05-11 12:48:56 +00001044 llvm::APSInt i = getBasicVals().getZeroWithPtrWidth(false);
Zhongxing Xu3e001f32009-05-03 00:27:40 +00001045
1046 for (; i < Size; ++i) {
Zhongxing Xud91ee272009-06-23 09:02:15 +00001047 SVal Idx = ValMgr.makeIntVal(i);
Zhongxing Xu143b2fc2009-06-16 09:55:50 +00001048 ElementRegion* ER = MRMgr.getElementRegion(CAT->getElementType(), Idx, R,
1049 getContext());
Ted Kremenekf936f452009-05-04 06:18:28 +00001050 QualType ETy = ER->getElementType();
Ted Kremenek67f28532009-06-17 22:02:04 +00001051 SVal ElementVal = Retrieve(state, loc::MemRegionVal(ER), ETy);
Zhongxing Xu3e001f32009-05-03 00:27:40 +00001052 ArrayVal = getBasicVals().consVals(ElementVal, ArrayVal);
1053 }
1054
Zhongxing Xud91ee272009-06-23 09:02:15 +00001055 return ValMgr.makeCompoundVal(T, ArrayVal);
Zhongxing Xu3e001f32009-05-03 00:27:40 +00001056}
1057
Ted Kremenek9af46f52009-06-16 22:36:44 +00001058//===----------------------------------------------------------------------===//
1059// Binding values to regions.
1060//===----------------------------------------------------------------------===//
Zhongxing Xu17892752008-10-08 02:50:44 +00001061
Zhongxing Xu9c9ca082008-12-16 02:36:30 +00001062Store RegionStoreManager::Remove(Store store, Loc L) {
Ted Kremenek0964a062009-01-21 06:57:53 +00001063 const MemRegion* R = 0;
1064
1065 if (isa<loc::MemRegionVal>(L))
1066 R = cast<loc::MemRegionVal>(L).getRegion();
Ted Kremenek0964a062009-01-21 06:57:53 +00001067
1068 if (R) {
1069 RegionBindingsTy B = GetRegionBindings(store);
1070 return RBFactory.Remove(B, R).getRoot();
1071 }
1072
1073 return store;
Zhongxing Xu9c9ca082008-12-16 02:36:30 +00001074}
1075
Ted Kremenek67f28532009-06-17 22:02:04 +00001076const GRState *RegionStoreManager::Bind(const GRState *state, Loc L, SVal V) {
Zhongxing Xu87453d12009-06-28 10:16:11 +00001077 if (isa<loc::ConcreteInt>(L))
1078 return state;
1079
Ted Kremenek9af46f52009-06-16 22:36:44 +00001080 // If we get here, the location should be a region.
1081 const MemRegion* R = cast<loc::MemRegionVal>(L).getRegion();
Ted Kremenek9af46f52009-06-16 22:36:44 +00001082
1083 // Check if the region is a struct region.
1084 if (const TypedRegion* TR = dyn_cast<TypedRegion>(R))
1085 if (TR->getValueType(getContext())->isStructureType())
Ted Kremenek67f28532009-06-17 22:02:04 +00001086 return BindStruct(state, TR, V);
Ted Kremenek9af46f52009-06-16 22:36:44 +00001087
Ted Kremenek67f28532009-06-17 22:02:04 +00001088 RegionBindingsTy B = GetRegionBindings(state->getStore());
Ted Kremenek9af46f52009-06-16 22:36:44 +00001089
Zhongxing Xue4df9c42009-06-25 05:52:16 +00001090 B = RBFactory.Add(B, R, V);
Ted Kremenek9af46f52009-06-16 22:36:44 +00001091
Ted Kremenek67f28532009-06-17 22:02:04 +00001092 return state->makeWithStore(B.getRoot());
Ted Kremenek9af46f52009-06-16 22:36:44 +00001093}
1094
Ted Kremenek67f28532009-06-17 22:02:04 +00001095const GRState *RegionStoreManager::BindDecl(const GRState *state,
Zhongxing Xu4193eca2008-12-20 06:32:12 +00001096 const VarDecl* VD, SVal InitVal) {
Zhongxing Xua4f28ff2008-11-13 08:41:36 +00001097
Zhongxing Xu4193eca2008-12-20 06:32:12 +00001098 QualType T = VD->getType();
Zhongxing Xu4193eca2008-12-20 06:32:12 +00001099 VarRegion* VR = MRMgr.getVarRegion(VD);
Zhongxing Xuf0dfa8d2008-10-31 08:10:01 +00001100
Ted Kremenek0964a062009-01-21 06:57:53 +00001101 if (T->isArrayType())
Ted Kremenek67f28532009-06-17 22:02:04 +00001102 return BindArray(state, VR, InitVal);
Ted Kremenek0964a062009-01-21 06:57:53 +00001103 if (T->isStructureType())
Ted Kremenek67f28532009-06-17 22:02:04 +00001104 return BindStruct(state, VR, InitVal);
Zhongxing Xud463d442008-11-02 12:13:30 +00001105
Zhongxing Xud91ee272009-06-23 09:02:15 +00001106 return Bind(state, ValMgr.makeLoc(VR), InitVal);
Zhongxing Xu17892752008-10-08 02:50:44 +00001107}
Zhongxing Xu53bcdd42008-10-21 05:29:26 +00001108
Zhongxing Xu4193eca2008-12-20 06:32:12 +00001109// FIXME: this method should be merged into Bind().
Ted Kremenek67f28532009-06-17 22:02:04 +00001110const GRState *
1111RegionStoreManager::BindCompoundLiteral(const GRState *state,
1112 const CompoundLiteralExpr* CL,
1113 SVal V) {
1114
Zhongxing Xuf22679e2008-11-07 10:38:33 +00001115 CompoundLiteralRegion* R = MRMgr.getCompoundLiteralRegion(CL);
Ted Kremenek67f28532009-06-17 22:02:04 +00001116 return Bind(state, loc::MemRegionVal(R), V);
Zhongxing Xuf22679e2008-11-07 10:38:33 +00001117}
1118
Ted Kremenek67f28532009-06-17 22:02:04 +00001119const GRState *RegionStoreManager::BindArray(const GRState *state,
1120 const TypedRegion* R,
1121 SVal Init) {
1122
Zhongxing Xua82d8aa2009-05-09 03:57:34 +00001123 QualType T = R->getValueType(getContext());
Zhongxing Xu1a12a0e2008-10-31 10:24:47 +00001124 ConstantArrayType* CAT = cast<ConstantArrayType>(T.getTypePtr());
Zhongxing Xu087d6c22009-06-23 05:23:38 +00001125 QualType ElementTy = CAT->getElementType();
Zhongxing Xu1a12a0e2008-10-31 10:24:47 +00001126
Zhongxing Xu6987c7b2008-11-30 05:49:49 +00001127 llvm::APSInt Size(CAT->getSize(), false);
Zhongxing Xu087d6c22009-06-23 05:23:38 +00001128 llvm::APSInt i(llvm::APInt::getNullValue(Size.getBitWidth()), false);
Zhongxing Xu6987c7b2008-11-30 05:49:49 +00001129
1130 // Check if the init expr is a StringLiteral.
1131 if (isa<loc::MemRegionVal>(Init)) {
1132 const MemRegion* InitR = cast<loc::MemRegionVal>(Init).getRegion();
1133 const StringLiteral* S = cast<StringRegion>(InitR)->getStringLiteral();
1134 const char* str = S->getStrData();
1135 unsigned len = S->getByteLength();
1136 unsigned j = 0;
1137
Zhongxing Xu4193eca2008-12-20 06:32:12 +00001138 // Copy bytes from the string literal into the target array. Trailing bytes
1139 // in the array that are not covered by the string literal are initialized
1140 // to zero.
Zhongxing Xu6987c7b2008-11-30 05:49:49 +00001141 for (; i < Size; ++i, ++j) {
Zhongxing Xu4193eca2008-12-20 06:32:12 +00001142 if (j >= len)
1143 break;
1144
Zhongxing Xu3038c5a2009-06-23 06:13:19 +00001145 SVal Idx = ValMgr.makeIntVal(i);
Zhongxing Xu087d6c22009-06-23 05:23:38 +00001146 ElementRegion* ER = MRMgr.getElementRegion(ElementTy, Idx,R,getContext());
Zhongxing Xu6987c7b2008-11-30 05:49:49 +00001147
Zhongxing Xud91ee272009-06-23 09:02:15 +00001148 SVal V = ValMgr.makeIntVal(str[j], sizeof(char)*8, true);
Ted Kremenek67f28532009-06-17 22:02:04 +00001149 state = Bind(state, loc::MemRegionVal(ER), V);
Zhongxing Xu6987c7b2008-11-30 05:49:49 +00001150 }
1151
Ted Kremenek67f28532009-06-17 22:02:04 +00001152 return state;
Zhongxing Xu6987c7b2008-11-30 05:49:49 +00001153 }
1154
Zhongxing Xu1a12a0e2008-10-31 10:24:47 +00001155 nonloc::CompoundVal& CV = cast<nonloc::CompoundVal>(Init);
Zhongxing Xu1a12a0e2008-10-31 10:24:47 +00001156 nonloc::CompoundVal::iterator VI = CV.begin(), VE = CV.end();
1157
Zhongxing Xu4193eca2008-12-20 06:32:12 +00001158 for (; i < Size; ++i, ++VI) {
Zhongxing Xu087d6c22009-06-23 05:23:38 +00001159 // The init list might be shorter than the array length.
Zhongxing Xu4193eca2008-12-20 06:32:12 +00001160 if (VI == VE)
1161 break;
1162
Zhongxing Xu3038c5a2009-06-23 06:13:19 +00001163 SVal Idx = ValMgr.makeIntVal(i);
Zhongxing Xu087d6c22009-06-23 05:23:38 +00001164 ElementRegion* ER = MRMgr.getElementRegion(ElementTy, Idx, R, getContext());
Zhongxing Xu4193eca2008-12-20 06:32:12 +00001165
1166 if (CAT->getElementType()->isStructureType())
Ted Kremenek67f28532009-06-17 22:02:04 +00001167 state = BindStruct(state, ER, *VI);
Zhongxing Xu4193eca2008-12-20 06:32:12 +00001168 else
Zhongxing Xud91ee272009-06-23 09:02:15 +00001169 state = Bind(state, ValMgr.makeLoc(ER), *VI);
Zhongxing Xu1a12a0e2008-10-31 10:24:47 +00001170 }
1171
Zhongxing Xue3a765f2009-06-24 00:56:31 +00001172 // If the init list is shorter than the array length, set the array default
1173 // value.
1174 if (i < Size) {
1175 if (ElementTy->isIntegerType()) {
Zhongxing Xu087d6c22009-06-23 05:23:38 +00001176 SVal V = ValMgr.makeZeroVal(ElementTy);
Zhongxing Xue3a765f2009-06-24 00:56:31 +00001177 state = setDefaultValue(state, R, V);
Zhongxing Xu087d6c22009-06-23 05:23:38 +00001178 }
1179 }
1180
Ted Kremenek67f28532009-06-17 22:02:04 +00001181 return state;
Zhongxing Xu1a12a0e2008-10-31 10:24:47 +00001182}
1183
Ted Kremenek67f28532009-06-17 22:02:04 +00001184const GRState *
1185RegionStoreManager::BindStruct(const GRState *state, const TypedRegion* R,
1186 SVal V) {
1187
1188 if (!Features.supportsFields())
1189 return state;
1190
Zhongxing Xua82d8aa2009-05-09 03:57:34 +00001191 QualType T = R->getValueType(getContext());
Zhongxing Xuaf0a8442008-10-31 10:53:01 +00001192 assert(T->isStructureType());
1193
Zhongxing Xub13ecdb2009-03-12 03:45:35 +00001194 const RecordType* RT = T->getAsRecordType();
Zhongxing Xuaf0a8442008-10-31 10:53:01 +00001195 RecordDecl* RD = RT->getDecl();
Zhongxing Xuc45a8252009-03-11 09:07:35 +00001196
1197 if (!RD->isDefinition())
Ted Kremenek67f28532009-06-17 22:02:04 +00001198 return state;
Zhongxing Xuaf0a8442008-10-31 10:53:01 +00001199
Ted Kremenek67f28532009-06-17 22:02:04 +00001200 // We may get non-CompoundVal accidentally due to imprecise cast logic.
1201 // Ignore them and kill the field values.
1202 if (V.isUnknown() || !isa<nonloc::CompoundVal>(V))
1203 return KillStruct(state, R);
Zhongxing Xu3f6978a2009-06-11 09:11:27 +00001204
Zhongxing Xu4193eca2008-12-20 06:32:12 +00001205 nonloc::CompoundVal& CV = cast<nonloc::CompoundVal>(V);
Zhongxing Xuaf0a8442008-10-31 10:53:01 +00001206 nonloc::CompoundVal::iterator VI = CV.begin(), VE = CV.end();
Zhongxing Xudbdf2192009-06-23 05:43:16 +00001207
1208 RecordDecl::field_iterator FI, FE;
1209
1210 for (FI = RD->field_begin(getContext()), FE = RD->field_end(getContext());
Ted Kremenek67f28532009-06-17 22:02:04 +00001211 FI != FE; ++FI, ++VI) {
Zhongxing Xu4193eca2008-12-20 06:32:12 +00001212
Zhongxing Xudbdf2192009-06-23 05:43:16 +00001213 if (VI == VE)
Zhongxing Xu4193eca2008-12-20 06:32:12 +00001214 break;
Zhongxing Xu4193eca2008-12-20 06:32:12 +00001215
Zhongxing Xuaf0a8442008-10-31 10:53:01 +00001216 QualType FTy = (*FI)->getType();
1217 FieldRegion* FR = MRMgr.getFieldRegion(*FI, R);
1218
Zhongxing Xu4193eca2008-12-20 06:32:12 +00001219 if (Loc::IsLocType(FTy) || FTy->isIntegerType())
Zhongxing Xud91ee272009-06-23 09:02:15 +00001220 state = Bind(state, ValMgr.makeLoc(FR), *VI);
Zhongxing Xu4193eca2008-12-20 06:32:12 +00001221 else if (FTy->isArrayType())
Ted Kremenek67f28532009-06-17 22:02:04 +00001222 state = BindArray(state, FR, *VI);
Zhongxing Xu4193eca2008-12-20 06:32:12 +00001223 else if (FTy->isStructureType())
Ted Kremenek67f28532009-06-17 22:02:04 +00001224 state = BindStruct(state, FR, *VI);
Zhongxing Xua82512a2008-10-24 08:42:28 +00001225 }
1226
Zhongxing Xudbdf2192009-06-23 05:43:16 +00001227 // There may be fewer values in the initialize list than the fields of struct.
Zhongxing Xu490b0f02009-06-25 04:50:44 +00001228 if (FI != FE)
1229 state = setDefaultValue(state, R, ValMgr.makeIntVal(0, false));
Zhongxing Xudbdf2192009-06-23 05:43:16 +00001230
Ted Kremenek67f28532009-06-17 22:02:04 +00001231 return state;
Zhongxing Xuc3a05992008-11-19 11:06:24 +00001232}
1233
Ted Kremenek67f28532009-06-17 22:02:04 +00001234const GRState *RegionStoreManager::KillStruct(const GRState *state,
Zhongxing Xu5834ed62009-01-13 01:49:57 +00001235 const TypedRegion* R){
Zhongxing Xu5834ed62009-01-13 01:49:57 +00001236
Zhongxing Xue4df9c42009-06-25 05:52:16 +00001237 // Set the default value of the struct region to "unknown".
1238 state = state->set<RegionDefaultValue>(R, UnknownVal());
Zhongxing Xu5834ed62009-01-13 01:49:57 +00001239
1240 // Remove all bindings for the subregions of the struct.
Zhongxing Xue4df9c42009-06-25 05:52:16 +00001241 Store store = state->getStore();
1242 RegionBindingsTy B = GetRegionBindings(store);
Zhongxing Xu5834ed62009-01-13 01:49:57 +00001243 for (RegionBindingsTy::iterator I = B.begin(), E = B.end(); I != E; ++I) {
Ted Kremenek67f28532009-06-17 22:02:04 +00001244 const MemRegion* R = I.getKey();
1245 if (const SubRegion* subRegion = dyn_cast<SubRegion>(R))
1246 if (subRegion->isSubRegionOf(R))
Zhongxing Xud91ee272009-06-23 09:02:15 +00001247 store = Remove(store, ValMgr.makeLoc(subRegion));
Zhongxing Xu5834ed62009-01-13 01:49:57 +00001248 }
1249
Ted Kremenek67f28532009-06-17 22:02:04 +00001250 return state->makeWithStore(store);
Zhongxing Xu5834ed62009-01-13 01:49:57 +00001251}
1252
Ted Kremenek9af46f52009-06-16 22:36:44 +00001253//===----------------------------------------------------------------------===//
1254// Region views.
1255//===----------------------------------------------------------------------===//
1256
Ted Kremenek67f28532009-06-17 22:02:04 +00001257const GRState *RegionStoreManager::AddRegionView(const GRState *state,
1258 const MemRegion* View,
1259 const MemRegion* Base) {
Zhongxing Xudc0a25d2008-11-16 04:07:26 +00001260
1261 // First, retrieve the region view of the base region.
Ted Kremenek67f28532009-06-17 22:02:04 +00001262 const RegionViews* d = state->get<RegionViewMap>(Base);
Zhongxing Xu5834ed62009-01-13 01:49:57 +00001263 RegionViews L = d ? *d : RVFactory.GetEmptySet();
Zhongxing Xudc0a25d2008-11-16 04:07:26 +00001264
1265 // Now add View to the region view.
Zhongxing Xu5834ed62009-01-13 01:49:57 +00001266 L = RVFactory.Add(L, View);
Zhongxing Xudc0a25d2008-11-16 04:07:26 +00001267
1268 // Create a new state with the new region view.
Ted Kremenek67f28532009-06-17 22:02:04 +00001269 return state->set<RegionViewMap>(Base, L);
Zhongxing Xudc0a25d2008-11-16 04:07:26 +00001270}
Zhongxing Xu5834ed62009-01-13 01:49:57 +00001271
Ted Kremenek67f28532009-06-17 22:02:04 +00001272const GRState *RegionStoreManager::RemoveRegionView(const GRState *state,
1273 const MemRegion* View,
1274 const MemRegion* Base) {
Zhongxing Xu5834ed62009-01-13 01:49:57 +00001275 // Retrieve the region view of the base region.
Ted Kremenek67f28532009-06-17 22:02:04 +00001276 const RegionViews* d = state->get<RegionViewMap>(Base);
Zhongxing Xu5834ed62009-01-13 01:49:57 +00001277
1278 // If the base region has no view, return.
1279 if (!d)
Ted Kremenek67f28532009-06-17 22:02:04 +00001280 return state;
Zhongxing Xu5834ed62009-01-13 01:49:57 +00001281
1282 // Remove the view.
Ted Kremenek67f28532009-06-17 22:02:04 +00001283 return state->set<RegionViewMap>(Base, RVFactory.Remove(*d, View));
Zhongxing Xu5834ed62009-01-13 01:49:57 +00001284}
Zhongxing Xu20794942009-05-06 08:33:50 +00001285
Zhongxing Xu88c675f2009-06-18 06:29:10 +00001286const GRState *RegionStoreManager::setCastType(const GRState *state,
1287 const MemRegion* R, QualType T) {
Ted Kremenek67f28532009-06-17 22:02:04 +00001288 return state->set<RegionCasts>(R, T);
Zhongxing Xu20794942009-05-06 08:33:50 +00001289}
Zhongxing Xu264e9372009-05-12 10:10:00 +00001290
Ted Kremenek67f28532009-06-17 22:02:04 +00001291const GRState *RegionStoreManager::setDefaultValue(const GRState *state,
1292 const MemRegion* R, SVal V) {
1293 return state->set<RegionDefaultValue>(R, V);
Zhongxing Xu264e9372009-05-12 10:10:00 +00001294}
Ted Kremenek9af46f52009-06-16 22:36:44 +00001295
1296//===----------------------------------------------------------------------===//
1297// State pruning.
1298//===----------------------------------------------------------------------===//
1299
1300static void UpdateLiveSymbols(SVal X, SymbolReaper& SymReaper) {
1301 if (loc::MemRegionVal *XR = dyn_cast<loc::MemRegionVal>(&X)) {
1302 const MemRegion *R = XR->getRegion();
1303
1304 while (R) {
1305 if (const SymbolicRegion *SR = dyn_cast<SymbolicRegion>(R)) {
1306 SymReaper.markLive(SR->getSymbol());
1307 return;
1308 }
1309
1310 if (const SubRegion *SR = dyn_cast<SubRegion>(R)) {
1311 R = SR->getSuperRegion();
1312 continue;
1313 }
1314
1315 break;
1316 }
1317
1318 return;
1319 }
1320
1321 for (SVal::symbol_iterator SI=X.symbol_begin(), SE=X.symbol_end();SI!=SE;++SI)
1322 SymReaper.markLive(*SI);
1323}
1324
Ted Kremenek67f28532009-06-17 22:02:04 +00001325Store RegionStoreManager::RemoveDeadBindings(const GRState *state, Stmt* Loc,
Ted Kremenek9af46f52009-06-16 22:36:44 +00001326 SymbolReaper& SymReaper,
1327 llvm::SmallVectorImpl<const MemRegion*>& RegionRoots)
Ted Kremenek67f28532009-06-17 22:02:04 +00001328{
Ted Kremenek9af46f52009-06-16 22:36:44 +00001329 Store store = state->getStore();
1330 RegionBindingsTy B = GetRegionBindings(store);
1331
1332 // Lazily constructed backmap from MemRegions to SubRegions.
1333 typedef llvm::ImmutableSet<const MemRegion*> SubRegionsTy;
1334 typedef llvm::ImmutableMap<const MemRegion*, SubRegionsTy> SubRegionsMapTy;
1335
1336 // FIXME: As a future optimization we can modifiy BumpPtrAllocator to have
1337 // the ability to reuse memory. This way we can keep TmpAlloc around as
1338 // an instance variable of RegionStoreManager (avoiding repeated malloc
1339 // overhead).
1340 llvm::BumpPtrAllocator TmpAlloc;
1341
1342 // Factory objects.
1343 SubRegionsMapTy::Factory SubRegMapF(TmpAlloc);
1344 SubRegionsTy::Factory SubRegF(TmpAlloc);
1345
1346 // The backmap from regions to subregions.
1347 SubRegionsMapTy SubRegMap = SubRegMapF.GetEmptyMap();
1348
1349 // Do a pass over the regions in the store. For VarRegions we check if
1350 // the variable is still live and if so add it to the list of live roots.
Ted Kremenek67f28532009-06-17 22:02:04 +00001351 // For other regions we populate our region backmap.
Ted Kremenek9af46f52009-06-16 22:36:44 +00001352 llvm::SmallVector<const MemRegion*, 10> IntermediateRoots;
1353
1354 for (RegionBindingsTy::iterator I = B.begin(), E = B.end(); I != E; ++I) {
1355 IntermediateRoots.push_back(I.getKey());
1356 }
1357
1358 while (!IntermediateRoots.empty()) {
1359 const MemRegion* R = IntermediateRoots.back();
1360 IntermediateRoots.pop_back();
1361
1362 if (const VarRegion* VR = dyn_cast<VarRegion>(R)) {
1363 if (SymReaper.isLive(Loc, VR->getDecl()))
1364 RegionRoots.push_back(VR); // This is a live "root".
1365 }
1366 else if (const SymbolicRegion* SR = dyn_cast<SymbolicRegion>(R)) {
1367 if (SymReaper.isLive(SR->getSymbol()))
1368 RegionRoots.push_back(SR);
1369 }
1370 else {
1371 // Get the super region for R.
1372 const MemRegion* SuperR = cast<SubRegion>(R)->getSuperRegion();
1373
1374 // Get the current set of subregions for SuperR.
1375 const SubRegionsTy* SRptr = SubRegMap.lookup(SuperR);
1376 SubRegionsTy SRs = SRptr ? *SRptr : SubRegF.GetEmptySet();
1377
1378 // Add R to the subregions of SuperR.
1379 SubRegMap = SubRegMapF.Add(SubRegMap, SuperR, SubRegF.Add(SRs, R));
1380
1381 // Super region may be VarRegion or subregion of another VarRegion. Add it
1382 // to the work list.
1383 if (isa<SubRegion>(SuperR))
1384 IntermediateRoots.push_back(SuperR);
1385 }
1386 }
1387
1388 // Process the worklist of RegionRoots. This performs a "mark-and-sweep"
1389 // of the store. We want to find all live symbols and dead regions.
1390 llvm::SmallPtrSet<const MemRegion*, 10> Marked;
1391
1392 while (!RegionRoots.empty()) {
1393 // Dequeue the next region on the worklist.
1394 const MemRegion* R = RegionRoots.back();
1395 RegionRoots.pop_back();
1396
1397 // Check if we have already processed this region.
1398 if (Marked.count(R)) continue;
1399
1400 // Mark this region as processed. This is needed for termination in case
1401 // a region is referenced more than once.
1402 Marked.insert(R);
1403
1404 // Mark the symbol for any live SymbolicRegion as "live". This means we
1405 // should continue to track that symbol.
1406 if (const SymbolicRegion* SymR = dyn_cast<SymbolicRegion>(R))
1407 SymReaper.markLive(SymR->getSymbol());
1408
1409 // Get the data binding for R (if any).
1410 RegionBindingsTy::data_type* Xptr = B.lookup(R);
1411 if (Xptr) {
1412 SVal X = *Xptr;
1413 UpdateLiveSymbols(X, SymReaper); // Update the set of live symbols.
1414
1415 // If X is a region, then add it the RegionRoots.
1416 if (loc::MemRegionVal* RegionX = dyn_cast<loc::MemRegionVal>(&X))
1417 RegionRoots.push_back(RegionX->getRegion());
1418 }
1419
1420 // Get the subregions of R. These are RegionRoots as well since they
1421 // represent values that are also bound to R.
1422 const SubRegionsTy* SRptr = SubRegMap.lookup(R);
1423 if (!SRptr) continue;
1424 SubRegionsTy SR = *SRptr;
1425
1426 for (SubRegionsTy::iterator I=SR.begin(), E=SR.end(); I!=E; ++I)
1427 RegionRoots.push_back(*I);
1428 }
1429
1430 // We have now scanned the store, marking reachable regions and symbols
1431 // as live. We now remove all the regions that are dead from the store
1432 // as well as update DSymbols with the set symbols that are now dead.
1433 for (RegionBindingsTy::iterator I = B.begin(), E = B.end(); I != E; ++I) {
1434 const MemRegion* R = I.getKey();
1435
1436 // If this region live? Is so, none of its symbols are dead.
1437 if (Marked.count(R))
1438 continue;
1439
1440 // Remove this dead region from the store.
Zhongxing Xud91ee272009-06-23 09:02:15 +00001441 store = Remove(store, ValMgr.makeLoc(R));
Ted Kremenek9af46f52009-06-16 22:36:44 +00001442
1443 // Mark all non-live symbols that this region references as dead.
1444 if (const SymbolicRegion* SymR = dyn_cast<SymbolicRegion>(R))
1445 SymReaper.maybeDead(SymR->getSymbol());
1446
1447 SVal X = I.getData();
1448 SVal::symbol_iterator SI = X.symbol_begin(), SE = X.symbol_end();
1449 for (; SI != SE; ++SI) SymReaper.maybeDead(*SI);
1450 }
1451
1452 return store;
1453}
1454
1455//===----------------------------------------------------------------------===//
1456// Utility methods.
1457//===----------------------------------------------------------------------===//
1458
Ted Kremenek53ba0b62009-06-24 23:06:47 +00001459void RegionStoreManager::print(Store store, llvm::raw_ostream& OS,
Ted Kremenek9af46f52009-06-16 22:36:44 +00001460 const char* nl, const char *sep) {
Ted Kremenek9af46f52009-06-16 22:36:44 +00001461 RegionBindingsTy B = GetRegionBindings(store);
1462 OS << "Store:" << nl;
1463
1464 for (RegionBindingsTy::iterator I = B.begin(), E = B.end(); I != E; ++I) {
1465 OS << ' '; I.getKey()->print(OS); OS << " : ";
1466 I.getData().print(OS); OS << nl;
1467 }
1468}