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1 //=== BasicValueFactory.h - Basic values for Path Sens analysis --*- 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 BasicValueFactory, a class that manages the lifetime
11 //  of APSInt objects and symbolic constraints used by ExprEngine
12 //  and related classes.
13 //
14 //===----------------------------------------------------------------------===//
15 
16 #ifndef LLVM_CLANG_GR_BASICVALUEFACTORY_H
17 #define LLVM_CLANG_GR_BASICVALUEFACTORY_H
18 
19 #include "clang/AST/ASTContext.h"
20 #include "clang/StaticAnalyzer/Core/PathSensitive/APSIntType.h"
21 #include "clang/StaticAnalyzer/Core/PathSensitive/SVals.h"
22 #include "clang/StaticAnalyzer/Core/PathSensitive/StoreRef.h"
23 
24 namespace clang {
25 namespace ento {
26 
27 class CompoundValData : public llvm::FoldingSetNode {
28   QualType T;
29   llvm::ImmutableList<SVal> L;
30 
31 public:
CompoundValData(QualType t,llvm::ImmutableList<SVal> l)32   CompoundValData(QualType t, llvm::ImmutableList<SVal> l)
33     : T(t), L(l) {}
34 
35   typedef llvm::ImmutableList<SVal>::iterator iterator;
begin()36   iterator begin() const { return L.begin(); }
end()37   iterator end() const { return L.end(); }
38 
39   static void Profile(llvm::FoldingSetNodeID& ID, QualType T,
40                       llvm::ImmutableList<SVal> L);
41 
Profile(llvm::FoldingSetNodeID & ID)42   void Profile(llvm::FoldingSetNodeID& ID) { Profile(ID, T, L); }
43 };
44 
45 class LazyCompoundValData : public llvm::FoldingSetNode {
46   StoreRef store;
47   const TypedValueRegion *region;
48 public:
LazyCompoundValData(const StoreRef & st,const TypedValueRegion * r)49   LazyCompoundValData(const StoreRef &st, const TypedValueRegion *r)
50     : store(st), region(r) {}
51 
getStore()52   const void *getStore() const { return store.getStore(); }
getRegion()53   const TypedValueRegion *getRegion() const { return region; }
54 
55   static void Profile(llvm::FoldingSetNodeID& ID,
56                       const StoreRef &store,
57                       const TypedValueRegion *region);
58 
Profile(llvm::FoldingSetNodeID & ID)59   void Profile(llvm::FoldingSetNodeID& ID) { Profile(ID, store, region); }
60 };
61 
62 class BasicValueFactory {
63   typedef llvm::FoldingSet<llvm::FoldingSetNodeWrapper<llvm::APSInt> >
64           APSIntSetTy;
65 
66   ASTContext &Ctx;
67   llvm::BumpPtrAllocator& BPAlloc;
68 
69   APSIntSetTy   APSIntSet;
70   void *        PersistentSVals;
71   void *        PersistentSValPairs;
72 
73   llvm::ImmutableList<SVal>::Factory SValListFactory;
74   llvm::FoldingSet<CompoundValData>  CompoundValDataSet;
75   llvm::FoldingSet<LazyCompoundValData> LazyCompoundValDataSet;
76 
77   // This is private because external clients should use the factory
78   // method that takes a QualType.
79   const llvm::APSInt& getValue(uint64_t X, unsigned BitWidth, bool isUnsigned);
80 
81 public:
BasicValueFactory(ASTContext & ctx,llvm::BumpPtrAllocator & Alloc)82   BasicValueFactory(ASTContext &ctx, llvm::BumpPtrAllocator &Alloc)
83     : Ctx(ctx), BPAlloc(Alloc), PersistentSVals(nullptr),
84       PersistentSValPairs(nullptr), SValListFactory(Alloc) {}
85 
86   ~BasicValueFactory();
87 
getContext()88   ASTContext &getContext() const { return Ctx; }
89 
90   const llvm::APSInt& getValue(const llvm::APSInt& X);
91   const llvm::APSInt& getValue(const llvm::APInt& X, bool isUnsigned);
92   const llvm::APSInt& getValue(uint64_t X, QualType T);
93 
94   /// Returns the type of the APSInt used to store values of the given QualType.
getAPSIntType(QualType T)95   APSIntType getAPSIntType(QualType T) const {
96     assert(T->isIntegralOrEnumerationType() || Loc::isLocType(T));
97     return APSIntType(Ctx.getTypeSize(T),
98                       !T->isSignedIntegerOrEnumerationType());
99   }
100 
101   /// Convert - Create a new persistent APSInt with the same value as 'From'
102   ///  but with the bitwidth and signedness of 'To'.
Convert(const llvm::APSInt & To,const llvm::APSInt & From)103   const llvm::APSInt &Convert(const llvm::APSInt& To,
104                               const llvm::APSInt& From) {
105     APSIntType TargetType(To);
106     if (TargetType == APSIntType(From))
107       return From;
108 
109     return getValue(TargetType.convert(From));
110   }
111 
Convert(QualType T,const llvm::APSInt & From)112   const llvm::APSInt &Convert(QualType T, const llvm::APSInt &From) {
113     APSIntType TargetType = getAPSIntType(T);
114     if (TargetType == APSIntType(From))
115       return From;
116 
117     return getValue(TargetType.convert(From));
118   }
119 
getIntValue(uint64_t X,bool isUnsigned)120   const llvm::APSInt& getIntValue(uint64_t X, bool isUnsigned) {
121     QualType T = isUnsigned ? Ctx.UnsignedIntTy : Ctx.IntTy;
122     return getValue(X, T);
123   }
124 
getMaxValue(const llvm::APSInt & v)125   inline const llvm::APSInt& getMaxValue(const llvm::APSInt &v) {
126     return getValue(APSIntType(v).getMaxValue());
127   }
128 
getMinValue(const llvm::APSInt & v)129   inline const llvm::APSInt& getMinValue(const llvm::APSInt &v) {
130     return getValue(APSIntType(v).getMinValue());
131   }
132 
getMaxValue(QualType T)133   inline const llvm::APSInt& getMaxValue(QualType T) {
134     return getValue(getAPSIntType(T).getMaxValue());
135   }
136 
getMinValue(QualType T)137   inline const llvm::APSInt& getMinValue(QualType T) {
138     return getValue(getAPSIntType(T).getMinValue());
139   }
140 
Add1(const llvm::APSInt & V)141   inline const llvm::APSInt& Add1(const llvm::APSInt& V) {
142     llvm::APSInt X = V;
143     ++X;
144     return getValue(X);
145   }
146 
Sub1(const llvm::APSInt & V)147   inline const llvm::APSInt& Sub1(const llvm::APSInt& V) {
148     llvm::APSInt X = V;
149     --X;
150     return getValue(X);
151   }
152 
153   inline const llvm::APSInt& getZeroWithPtrWidth(bool isUnsigned = true) {
154     return getValue(0, Ctx.getTypeSize(Ctx.VoidPtrTy), isUnsigned);
155   }
156 
getIntWithPtrWidth(uint64_t X,bool isUnsigned)157   inline const llvm::APSInt &getIntWithPtrWidth(uint64_t X, bool isUnsigned) {
158     return getValue(X, Ctx.getTypeSize(Ctx.VoidPtrTy), isUnsigned);
159   }
160 
getTruthValue(bool b,QualType T)161   inline const llvm::APSInt& getTruthValue(bool b, QualType T) {
162     return getValue(b ? 1 : 0, Ctx.getTypeSize(T), false);
163   }
164 
getTruthValue(bool b)165   inline const llvm::APSInt& getTruthValue(bool b) {
166     return getTruthValue(b, Ctx.getLogicalOperationType());
167   }
168 
169   const CompoundValData *getCompoundValData(QualType T,
170                                             llvm::ImmutableList<SVal> Vals);
171 
172   const LazyCompoundValData *getLazyCompoundValData(const StoreRef &store,
173                                             const TypedValueRegion *region);
174 
getEmptySValList()175   llvm::ImmutableList<SVal> getEmptySValList() {
176     return SValListFactory.getEmptyList();
177   }
178 
consVals(SVal X,llvm::ImmutableList<SVal> L)179   llvm::ImmutableList<SVal> consVals(SVal X, llvm::ImmutableList<SVal> L) {
180     return SValListFactory.add(X, L);
181   }
182 
183   const llvm::APSInt* evalAPSInt(BinaryOperator::Opcode Op,
184                                      const llvm::APSInt& V1,
185                                      const llvm::APSInt& V2);
186 
187   const std::pair<SVal, uintptr_t>&
188   getPersistentSValWithData(const SVal& V, uintptr_t Data);
189 
190   const std::pair<SVal, SVal>&
191   getPersistentSValPair(const SVal& V1, const SVal& V2);
192 
193   const SVal* getPersistentSVal(SVal X);
194 };
195 
196 } // end GR namespace
197 
198 } // end clang namespace
199 
200 #endif
201