llvm-docs/clang_doxygen/ProgramStateTrait_8h_source.html

 //ProgramStateTrait.h - Partial implementations of ProgramStateTrait -*- C++ -*-

 //

 // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.

 // See https://llvm.org/LICENSE.txt for license information.

 // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception

 //

 //===----------------------------------------------------------------------===//

 //

 //  This file defines partial implementations of template specializations of

 //  the class ProgramStateTrait<>.  ProgramStateTrait<> is used by ProgramState

 //  to implement set/get methods for manipulating a ProgramState's

 //  generic data map.

 //

 //===----------------------------------------------------------------------===//


 #ifndef LLVM_CLANG_STATICANALYZER_CORE_PATHSENSITIVE_PROGRAMSTATETRAIT_H

 #define LLVM_CLANG_STATICANALYZER_CORE_PATHSENSITIVE_PROGRAMSTATETRAIT_H


 #include "llvm/ADT/ImmutableList.h"

 #include "llvm/ADT/ImmutableMap.h"

 #include "llvm/ADT/ImmutableSet.h"

 #include "llvm/Support/Allocator.h"

 #include <cstdint>

 #include <type_traits>


 namespace clang {

 namespace ento {


 template <typename T, typename Enable = void> struct ProgramStatePartialTrait;


 /// Declares a program state trait for type \p Type called \p Name, and

 /// introduce a type named \c NameTy.

 /// The macro should not be used inside namespaces.

 #define REGISTER_TRAIT_WITH_PROGRAMSTATE(Name, Type)                           \

   namespace {                                                                  \

   class Name {};                                                               \

   using Name##Ty = Type;                                                       \

   }                                                                            \

   namespace clang {                                                            \

   namespace ento {                                                             \

   template <>                                                                  \

   struct ProgramStateTrait<Name> : public ProgramStatePartialTrait<Name##Ty> { \

     static void *GDMIndex() {                                                  \

       static int Index;                                                        \

       return &Index;                                                           \

     }                                                                          \

   };                                                                           \

   }                                                                            \

   }


   /// Declares a factory for objects of type \p Type in the program state

   /// manager. The type must provide a ::Factory sub-class. Commonly used for

   /// ImmutableMap, ImmutableSet, ImmutableList. The macro should not be used

   /// inside namespaces.

   #define REGISTER_FACTORY_WITH_PROGRAMSTATE(Type) \

     namespace clang { \

     namespace ento { \

       template <> \

       struct ProgramStateTrait<Type> \

         : public ProgramStatePartialTrait<Type> { \

         static void *GDMIndex() { static int Index; return &Index; } \

       }; \

     } \

     }


   /// Helper for registering a map trait.

   ///

   /// If the map type were written directly in the invocation of

   /// REGISTER_TRAIT_WITH_PROGRAMSTATE, the comma in the template arguments

   /// would be treated as a macro argument separator, which is wrong.

   /// This allows the user to specify a map type in a way that the preprocessor

   /// can deal with.

   #define CLANG_ENTO_PROGRAMSTATE_MAP(Key, Value) llvm::ImmutableMap<Key, Value>


   /// Declares an immutable map of type \p NameTy, suitable for placement into

   /// the ProgramState. This is implementing using llvm::ImmutableMap.

   ///

   /// \code

   /// State = State->set<Name>(K, V);

   /// const Value *V = State->get<Name>(K); // Returns NULL if not in the map.

   /// State = State->remove<Name>(K);

   /// NameTy Map = State->get<Name>();

   /// \endcode

   ///

   /// The macro should not be used inside namespaces, or for traits that must

   /// be accessible from more than one translation unit.

   #define REGISTER_MAP_WITH_PROGRAMSTATE(Name, Key, Value) \

     REGISTER_TRAIT_WITH_PROGRAMSTATE(Name, \

                                      CLANG_ENTO_PROGRAMSTATE_MAP(Key, Value))


   /// Declares an immutable map type \p Name and registers the factory

   /// for such maps in the program state, but does not add the map itself

   /// to the program state. Useful for managing lifetime of maps that are used

   /// as elements of other program state data structures.

   #define REGISTER_MAP_FACTORY_WITH_PROGRAMSTATE(Name, Key, Value) \

     using Name = llvm::ImmutableMap<Key, Value>; \

     REGISTER_FACTORY_WITH_PROGRAMSTATE(Name)


   /// Declares an immutable set of type \p NameTy, suitable for placement into

   /// the ProgramState. This is implementing using llvm::ImmutableSet.

   ///

   /// \code

   /// State = State->add<Name>(E);

   /// State = State->remove<Name>(E);

   /// bool Present = State->contains<Name>(E);

   /// NameTy Set = State->get<Name>();

   /// \endcode

   ///

   /// The macro should not be used inside namespaces, or for traits that must

   /// be accessible from more than one translation unit.

   #define REGISTER_SET_WITH_PROGRAMSTATE(Name, Elem) \

     REGISTER_TRAIT_WITH_PROGRAMSTATE(Name, llvm::ImmutableSet<Elem>)


   /// Declares an immutable set type \p Name and registers the factory

   /// for such sets in the program state, but does not add the set itself

   /// to the program state. Useful for managing lifetime of sets that are used

   /// as elements of other program state data structures.

   #define REGISTER_SET_FACTORY_WITH_PROGRAMSTATE(Name, Elem) \

     using Name = llvm::ImmutableSet<Elem>; \

     REGISTER_FACTORY_WITH_PROGRAMSTATE(Name)


   /// Declares an immutable list type \p NameTy, suitable for placement into

   /// the ProgramState. This is implementing using llvm::ImmutableList.

   ///

   /// \code

   /// State = State->add<Name>(E); // Adds to the /end/ of the list.

   /// bool Present = State->contains<Name>(E);

   /// NameTy List = State->get<Name>();

   /// \endcode

   ///

   /// The macro should not be used inside namespaces, or for traits that must

   /// be accessible from more than one translation unit.

   #define REGISTER_LIST_WITH_PROGRAMSTATE(Name, Elem) \

     REGISTER_TRAIT_WITH_PROGRAMSTATE(Name, llvm::ImmutableList<Elem>)


   /// Declares an immutable list of type \p Name and registers the factory

   /// for such lists in the program state, but does not add the list itself

   /// to the program state. Useful for managing lifetime of lists that are used

   /// as elements of other program state data structures.

   #define REGISTER_LIST_FACTORY_WITH_PROGRAMSTATE(Name, Elem) \

     using Name = llvm::ImmutableList<Elem>; \

     REGISTER_FACTORY_WITH_PROGRAMSTATE(Name)


   // Partial-specialization for ImmutableMap.

   template <typename Key, typename Data, typename Info>

   struct ProgramStatePartialTrait<llvm::ImmutableMap<Key, Data, Info>> {

     using data_type = llvm::ImmutableMap<Key, Data, Info>;

     using context_type = typename data_type::Factory &;

     using key_type = Key;

     using value_type = Data;

     using lookup_type = const value_type *;


     static data_type MakeData(void *const *p) {

       return p ? data_type((typename data_type::TreeTy *) *p)

                : data_type(nullptr);

     }


     static void *MakeVoidPtr(data_type B) {

       return B.getRoot();

     }


     static lookup_type Lookup(data_type B, key_type K) {

       return B.lookup(K);

     }


     static data_type Set(data_type B, key_type K, value_type E,

                          context_type F) {

       return F.add(B, K, E);

     }


     static data_type Remove(data_type B, key_type K, context_type F) {

       return F.remove(B, K);

     }


     static bool Contains(data_type B, key_type K) {

       return B.contains(K);

     }


     static context_type MakeContext(void *p) {

       return *((typename data_type::Factory *) p);

     }


     static void *CreateContext(llvm::BumpPtrAllocator& Alloc) {

       return new typename data_type::Factory(Alloc);

     }


     static void DeleteContext(void *Ctx) {

       delete (typename data_type::Factory *) Ctx;

     }

   };


   // Partial-specialization for ImmutableSet.

   template <typename Key, typename Info>

   struct ProgramStatePartialTrait<llvm::ImmutableSet<Key, Info>> {

     using data_type = llvm::ImmutableSet<Key, Info>;

     using context_type = typename data_type::Factory &;

     using key_type = Key;


     static data_type MakeData(void *const *p) {

       return p ? data_type((typename data_type::TreeTy *) *p)

                : data_type(nullptr);

     }


     static void *MakeVoidPtr(data_type B) {

       return B.getRoot();

     }


     static data_type Add(data_type B, key_type K, context_type F) {

       return F.add(B, K);

     }


     static data_type Remove(data_type B, key_type K, context_type F) {

       return F.remove(B, K);

     }


     static bool Contains(data_type B, key_type K) {

       return B.contains(K);

     }


     static context_type MakeContext(void *p) {

       return *((typename data_type::Factory *) p);

     }


     static void *CreateContext(llvm::BumpPtrAllocator &Alloc) {

       return new typename data_type::Factory(Alloc);

     }


     static void DeleteContext(void *Ctx) {

       delete (typename data_type::Factory *) Ctx;

     }

   };


   // Partial-specialization for ImmutableList.

   template <typename T>

   struct ProgramStatePartialTrait<llvm::ImmutableList<T>> {

     using data_type = llvm::ImmutableList<T>;

     using key_type = T;

     using context_type = typename data_type::Factory &;


     static data_type Add(data_type L, key_type K, context_type F) {

       return F.add(K, L);

     }


     static bool Contains(data_type L, key_type K) {

       return L.contains(K);

     }


     static data_type MakeData(void *const *p) {

       return p ? data_type((const llvm::ImmutableListImpl<T> *) *p)

                : data_type(nullptr);

     }


     static void *MakeVoidPtr(data_type D) {

       return const_cast<llvm::ImmutableListImpl<T> *>(D.getInternalPointer());

     }


     static context_type MakeContext(void *p) {

       return *((typename data_type::Factory *) p);

     }


     static void *CreateContext(llvm::BumpPtrAllocator &Alloc) {

       return new typename data_type::Factory(Alloc);

     }


     static void DeleteContext(void *Ctx) {

       delete (typename data_type::Factory *) Ctx;

     }

   };


   template <typename T> struct DefaultProgramStatePartialTraitImpl {

     using data_type = T;

     static T MakeData(void *const *P) { return P ? (T)(uintptr_t)*P : T{}; }

     static void *MakeVoidPtr(T D) { return (void *)(uintptr_t)D; }

   };


   // Partial specialization for integral types.

   template <typename T>

   struct ProgramStatePartialTrait<T,

                                   std::enable_if_t<std::is_integral<T>::value>>

       : DefaultProgramStatePartialTraitImpl<T> {};


   // Partial specialization for enums.

   template <typename T>

   struct ProgramStatePartialTrait<T, std::enable_if_t<std::is_enum<T>::value>>

       : DefaultProgramStatePartialTraitImpl<T> {};


   // Partial specialization for pointers.

   template <typename T>

   struct ProgramStatePartialTrait<T *, void>

       : DefaultProgramStatePartialTraitImpl<T *> {};


 } // namespace ento

 } // namespace clang


 #endif // LLVM_CLANG_STATICANALYZER_CORE_PATHSENSITIVE_PROGRAMSTATETRAIT_H

P
StringRef P
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Data
const char * Data
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clang
The JSON file list parser is used to communicate input to InstallAPI.
Definition: CalledOnceCheck.h:17

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const FunctionProtoType * T
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std
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uintptr_t
__UINTPTR_TYPE__ uintptr_t
An unsigned integer type with the property that any valid pointer to void can be converted to this ty...
Definition: opencl-c-base.h:164

clang::ento::DefaultProgramStatePartialTraitImpl
Definition: ProgramStateTrait.h:273

clang::ento::DefaultProgramStatePartialTraitImpl::MakeVoidPtr
static void * MakeVoidPtr(T D)
Definition: ProgramStateTrait.h:276

clang::ento::DefaultProgramStatePartialTraitImpl::data_type
T data_type
Definition: ProgramStateTrait.h:274

clang::ento::DefaultProgramStatePartialTraitImpl::MakeData
static T MakeData(void *const *P)
Definition: ProgramStateTrait.h:275

clang::ento::ProgramStatePartialTrait< llvm::ImmutableList< T > >::CreateContext
static void * CreateContext(llvm::BumpPtrAllocator &Alloc)
Definition: ProgramStateTrait.h:264

clang::ento::ProgramStatePartialTrait< llvm::ImmutableList< T > >::context_type
typename data_type::Factory & context_type
Definition: ProgramStateTrait.h:241

clang::ento::ProgramStatePartialTrait< llvm::ImmutableList< T > >::Add
static data_type Add(data_type L, key_type K, context_type F)
Definition: ProgramStateTrait.h:243

clang::ento::ProgramStatePartialTrait< llvm::ImmutableList< T > >::MakeVoidPtr
static void * MakeVoidPtr(data_type D)
Definition: ProgramStateTrait.h:256

clang::ento::ProgramStatePartialTrait< llvm::ImmutableList< T > >::MakeContext
static context_type MakeContext(void *p)
Definition: ProgramStateTrait.h:260

clang::ento::ProgramStatePartialTrait< llvm::ImmutableList< T > >::Contains
static bool Contains(data_type L, key_type K)
Definition: ProgramStateTrait.h:247

clang::ento::ProgramStatePartialTrait< llvm::ImmutableList< T > >::data_type
llvm::ImmutableList< T > data_type
Definition: ProgramStateTrait.h:239

clang::ento::ProgramStatePartialTrait< llvm::ImmutableList< T > >::DeleteContext
static void DeleteContext(void *Ctx)
Definition: ProgramStateTrait.h:268

clang::ento::ProgramStatePartialTrait< llvm::ImmutableList< T > >::MakeData
static data_type MakeData(void *const *p)
Definition: ProgramStateTrait.h:251

clang::ento::ProgramStatePartialTrait< llvm::ImmutableList< T > >::key_type
T key_type
Definition: ProgramStateTrait.h:240

clang::ento::ProgramStatePartialTrait< llvm::ImmutableMap< Key, Data, Info > >::lookup_type
const value_type * lookup_type
Definition: ProgramStateTrait.h:154

clang::ento::ProgramStatePartialTrait< llvm::ImmutableMap< Key, Data, Info > >::Set
static data_type Set(data_type B, key_type K, value_type E, context_type F)
Definition: ProgramStateTrait.h:169

clang::ento::ProgramStatePartialTrait< llvm::ImmutableMap< Key, Data, Info > >::MakeData
static data_type MakeData(void *const *p)
Definition: ProgramStateTrait.h:156

clang::ento::ProgramStatePartialTrait< llvm::ImmutableMap< Key, Data, Info > >::MakeContext
static context_type MakeContext(void *p)
Definition: ProgramStateTrait.h:182

clang::ento::ProgramStatePartialTrait< llvm::ImmutableMap< Key, Data, Info > >::context_type
typename data_type::Factory & context_type
Definition: ProgramStateTrait.h:151

clang::ento::ProgramStatePartialTrait< llvm::ImmutableMap< Key, Data, Info > >::value_type
Data value_type
Definition: ProgramStateTrait.h:153

clang::ento::ProgramStatePartialTrait< llvm::ImmutableMap< Key, Data, Info > >::Lookup
static lookup_type Lookup(data_type B, key_type K)
Definition: ProgramStateTrait.h:165

clang::ento::ProgramStatePartialTrait< llvm::ImmutableMap< Key, Data, Info > >::DeleteContext
static void DeleteContext(void *Ctx)
Definition: ProgramStateTrait.h:190

clang::ento::ProgramStatePartialTrait< llvm::ImmutableMap< Key, Data, Info > >::key_type
Key key_type
Definition: ProgramStateTrait.h:152

clang::ento::ProgramStatePartialTrait< llvm::ImmutableMap< Key, Data, Info > >::Remove
static data_type Remove(data_type B, key_type K, context_type F)
Definition: ProgramStateTrait.h:174

clang::ento::ProgramStatePartialTrait< llvm::ImmutableMap< Key, Data, Info > >::CreateContext
static void * CreateContext(llvm::BumpPtrAllocator &Alloc)
Definition: ProgramStateTrait.h:186

clang::ento::ProgramStatePartialTrait< llvm::ImmutableMap< Key, Data, Info > >::MakeVoidPtr
static void * MakeVoidPtr(data_type B)
Definition: ProgramStateTrait.h:161

clang::ento::ProgramStatePartialTrait< llvm::ImmutableMap< Key, Data, Info > >::Contains
static bool Contains(data_type B, key_type K)
Definition: ProgramStateTrait.h:178

clang::ento::ProgramStatePartialTrait< llvm::ImmutableMap< Key, Data, Info > >::data_type
llvm::ImmutableMap< Key, Data, Info > data_type
Definition: ProgramStateTrait.h:150

clang::ento::ProgramStatePartialTrait< llvm::ImmutableSet< Key, Info > >::MakeData
static data_type MakeData(void *const *p)
Definition: ProgramStateTrait.h:202

clang::ento::ProgramStatePartialTrait< llvm::ImmutableSet< Key, Info > >::Remove
static data_type Remove(data_type B, key_type K, context_type F)
Definition: ProgramStateTrait.h:215

clang::ento::ProgramStatePartialTrait< llvm::ImmutableSet< Key, Info > >::MakeVoidPtr
static void * MakeVoidPtr(data_type B)
Definition: ProgramStateTrait.h:207

clang::ento::ProgramStatePartialTrait< llvm::ImmutableSet< Key, Info > >::Add
static data_type Add(data_type B, key_type K, context_type F)
Definition: ProgramStateTrait.h:211

clang::ento::ProgramStatePartialTrait< llvm::ImmutableSet< Key, Info > >::DeleteContext
static void DeleteContext(void *Ctx)
Definition: ProgramStateTrait.h:231

clang::ento::ProgramStatePartialTrait< llvm::ImmutableSet< Key, Info > >::CreateContext
static void * CreateContext(llvm::BumpPtrAllocator &Alloc)
Definition: ProgramStateTrait.h:227

clang::ento::ProgramStatePartialTrait< llvm::ImmutableSet< Key, Info > >::MakeContext
static context_type MakeContext(void *p)
Definition: ProgramStateTrait.h:223

clang::ento::ProgramStatePartialTrait< llvm::ImmutableSet< Key, Info > >::Contains
static bool Contains(data_type B, key_type K)
Definition: ProgramStateTrait.h:219

clang::ento::ProgramStatePartialTrait< llvm::ImmutableSet< Key, Info > >::context_type
typename data_type::Factory & context_type
Definition: ProgramStateTrait.h:199

clang::ento::ProgramStatePartialTrait< llvm::ImmutableSet< Key, Info > >::key_type
Key key_type
Definition: ProgramStateTrait.h:200

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llvm::ImmutableSet< Key, Info > data_type
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Definition: ProgramStateTrait.h:29