//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 namespace clang { namespace ento { template 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 \ : public ProgramStatePartialTrait { \ 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 \ : public ProgramStatePartialTrait { \ 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 /// Declares an immutable map of type \p NameTy, suitable for placement into /// the ProgramState. This is implementing using llvm::ImmutableMap. /// /// \code /// State = State->set(K, V); /// const Value *V = State->get(K); // Returns NULL if not in the map. /// State = State->remove(K); /// NameTy Map = State->get(); /// \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; \ 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(E); /// State = State->remove(E); /// bool Present = State->contains(E); /// NameTy Set = State->get(); /// \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) /// 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; \ 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(E); // Adds to the /end/ of the list. /// bool Present = State->contains(E); /// NameTy List = State->get(); /// \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) /// 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; \ REGISTER_FACTORY_WITH_PROGRAMSTATE(Name) // Partial-specialization for ImmutableMap. template struct ProgramStatePartialTrait> { using data_type = llvm::ImmutableMap; 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 struct ProgramStatePartialTrait> { using data_type = llvm::ImmutableSet; 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 struct ProgramStatePartialTrait> { using data_type = llvm::ImmutableList; 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 *) *p) : data_type(nullptr); } static void *MakeVoidPtr(data_type D) { return const_cast *>(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; } }; // Partial specialization for bool. template <> struct ProgramStatePartialTrait { using data_type = bool; static data_type MakeData(void *const *p) { return p ? (data_type) (uintptr_t) *p : data_type(); } static void *MakeVoidPtr(data_type d) { return (void *) (uintptr_t) d; } }; // Partial specialization for unsigned. template <> struct ProgramStatePartialTrait { using data_type = unsigned; static data_type MakeData(void *const *p) { return p ? (data_type) (uintptr_t) *p : data_type(); } static void *MakeVoidPtr(data_type d) { return (void *) (uintptr_t) d; } }; // Partial specialization for void*. template <> struct ProgramStatePartialTrait { using data_type = void *; static data_type MakeData(void *const *p) { return p ? *p : data_type(); } static void *MakeVoidPtr(data_type d) { return d; } }; // Partial specialization for const void *. template <> struct ProgramStatePartialTrait { using data_type = const void *; static data_type MakeData(void *const *p) { return p ? *p : data_type(); } static void *MakeVoidPtr(data_type d) { return const_cast(d); } }; } // namespace ento } // namespace clang #endif // LLVM_CLANG_STATICANALYZER_CORE_PATHSENSITIVE_PROGRAMSTATETRAIT_H