safecode/tools/clang/include/clang/StaticAnalyzer/Core/PathSensitive/ProgramStateTrait.h - llvm-archive - Git at Google

 //ProgramStateTrait.h - Partial implementations of ProgramStateTrait -*- C++ -*-
 //
 //                     The LLVM Compiler Infrastructure
 //
 // This file is distributed under the University of Illinois Open Source
 // License. See LICENSE.TXT for details.
 //
 //===----------------------------------------------------------------------===//
 //
 //  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/Support/Allocator.h"
 #include "llvm/Support/DataTypes.h"

 namespace llvm {
   template <typename K, typename D, typename I> class ImmutableMap;
   template <typename K, typename I> class ImmutableSet;
   template <typename T> class ImmutableList;
   template <typename T> class ImmutableListImpl;
 }

 namespace clang {

 namespace ento {
   template <typename T> struct ProgramStatePartialTrait;

   /// Declares a program state trait for type \p Type called \p Name, and
   /// introduce a typedef named \c NameTy.
   /// The macro should not be used inside namespaces, or for traits that must
   /// be accessible from more than one translation unit.
   #define REGISTER_TRAIT_WITH_PROGRAMSTATE(Name, Type) \
     namespace { \
       class Name {}; \
       typedef Type Name ## Ty; \
     } \
     namespace clang { \
     namespace ento { \
       template <> \
       struct ProgramStateTrait<Name> \
         : public ProgramStatePartialTrait<Name ## Ty> { \
         static void *GDMIndex() { static int Index; return &Index; } \
       }; \
     } \
     }


   // Partial-specialization for ImmutableMap.

   template <typename Key, typename Data, typename Info>
   struct ProgramStatePartialTrait< llvm::ImmutableMap<Key,Data,Info> > {
     typedef llvm::ImmutableMap<Key,Data,Info> data_type;
     typedef typename data_type::Factory&      context_type;
     typedef Key                               key_type;
     typedef Data                              value_type;
     typedef const value_type*                 lookup_type;

     static inline data_type MakeData(void *const* p) {
       return p ? data_type((typename data_type::TreeTy*) *p)
                : data_type(nullptr);
     }
     static inline 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 inline 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;
     }
   };

   /// 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>


   // Partial-specialization for ImmutableSet.

   template <typename Key, typename Info>
   struct ProgramStatePartialTrait< llvm::ImmutableSet<Key,Info> > {
     typedef llvm::ImmutableSet<Key,Info>      data_type;
     typedef typename data_type::Factory&      context_type;
     typedef Key                               key_type;

     static inline data_type MakeData(void *const* p) {
       return p ? data_type((typename data_type::TreeTy*) *p)
                : data_type(nullptr);
     }

     static inline 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 inline 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> > {
     typedef llvm::ImmutableList<T>            data_type;
     typedef T                                 key_type;
     typedef typename data_type::Factory&      context_type;

     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 inline data_type MakeData(void *const* p) {
       return p ? data_type((const llvm::ImmutableListImpl<T>*) *p)
                : data_type(nullptr);
     }

     static inline void *MakeVoidPtr(data_type D) {
       return const_cast<llvm::ImmutableListImpl<T> *>(D.getInternalPointer());
     }

     static inline 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<bool> {
     typedef bool data_type;

     static inline data_type MakeData(void *const* p) {
       return p ? (data_type) (uintptr_t) *p
                : data_type();
     }
     static inline void *MakeVoidPtr(data_type d) {
       return (void*) (uintptr_t) d;
     }
   };

   // Partial specialization for unsigned.
   template <> struct ProgramStatePartialTrait<unsigned> {
     typedef unsigned data_type;

     static inline data_type MakeData(void *const* p) {
       return p ? (data_type) (uintptr_t) *p
                : data_type();
     }
     static inline void *MakeVoidPtr(data_type d) {
       return (void*) (uintptr_t) d;
     }
   };

   // Partial specialization for void*.
   template <> struct ProgramStatePartialTrait<void*> {
     typedef void *data_type;

     static inline data_type MakeData(void *const* p) {
       return p ? *p
                : data_type();
     }
     static inline void *MakeVoidPtr(data_type d) {
       return d;
     }
   };

   // Partial specialization for const void *.
   template <> struct ProgramStatePartialTrait<const void *> {
     typedef const void *data_type;

     static inline data_type MakeData(void * const *p) {
       return p ? *p : data_type();
     }

     static inline void *MakeVoidPtr(data_type d) {
       return const_cast<void *>(d);
     }
   };

 } // end ento namespace

 } // end clang namespace

 #endif
	//ProgramStateTrait.h - Partial implementations of ProgramStateTrait -- C++ --
	//
	// The LLVM Compiler Infrastructure
	//
	// This file is distributed under the University of Illinois Open Source
	// License. See LICENSE.TXT for details.
	//
	//===----------------------------------------------------------------------===//
	//
	// 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/Support/Allocator.h"
	#include "llvm/Support/DataTypes.h"

	namespace llvm {
	template <typename K, typename D, typename I> class ImmutableMap;
	template <typename K, typename I> class ImmutableSet;
	template <typename T> class ImmutableList;
	template <typename T> class ImmutableListImpl;
	}

	namespace clang {

	namespace ento {
	template <typename T> struct ProgramStatePartialTrait;

	/// Declares a program state trait for type \p Type called \p Name, and
	/// introduce a typedef named \c NameTy.
	/// The macro should not be used inside namespaces, or for traits that must
	/// be accessible from more than one translation unit.
	#define REGISTER_TRAIT_WITH_PROGRAMSTATE(Name, Type) \
	namespace { \
	class Name {}; \
	typedef Type Name ## Ty; \
	} \
	namespace clang { \
	namespace ento { \
	template <> \
	struct ProgramStateTrait<Name> \
	: public ProgramStatePartialTrait<Name ## Ty> { \
	static void *GDMIndex() { static int Index; return &Index; } \
	}; \
	} \
	}


	// Partial-specialization for ImmutableMap.

	template <typename Key, typename Data, typename Info>
	struct ProgramStatePartialTrait< llvm::ImmutableMap<Key,Data,Info> > {
	typedef llvm::ImmutableMap<Key,Data,Info> data_type;
	typedef typename data_type::Factory& context_type;
	typedef Key key_type;
	typedef Data value_type;
	typedef const value_type* lookup_type;

	static inline data_type MakeData(void const p) {
	return p ? data_type((typename data_type::TreeTy) p)
	: data_type(nullptr);
	}
	static inline 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 inline 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;
	}
	};

	/// 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>


	// Partial-specialization for ImmutableSet.

	template <typename Key, typename Info>
	struct ProgramStatePartialTrait< llvm::ImmutableSet<Key,Info> > {
	typedef llvm::ImmutableSet<Key,Info> data_type;
	typedef typename data_type::Factory& context_type;
	typedef Key key_type;

	static inline data_type MakeData(void const p) {
	return p ? data_type((typename data_type::TreeTy) p)
	: data_type(nullptr);
	}

	static inline 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 inline 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> > {
	typedef llvm::ImmutableList<T> data_type;
	typedef T key_type;
	typedef typename data_type::Factory& context_type;

	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 inline data_type MakeData(void const p) {
	return p ? data_type((const llvm::ImmutableListImpl<T>) p)
	: data_type(nullptr);
	}

	static inline void *MakeVoidPtr(data_type D) {
	return const_cast<llvm::ImmutableListImpl<T> *>(D.getInternalPointer());
	}

	static inline 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<bool> {
	typedef bool data_type;

	static inline data_type MakeData(void const p) {
	return p ? (data_type) (uintptr_t) *p
	: data_type();
	}
	static inline void *MakeVoidPtr(data_type d) {
	return (void*) (uintptr_t) d;
	}
	};

	// Partial specialization for unsigned.
	template <> struct ProgramStatePartialTrait<unsigned> {
	typedef unsigned data_type;

	static inline data_type MakeData(void const p) {
	return p ? (data_type) (uintptr_t) *p
	: data_type();
	}
	static inline void *MakeVoidPtr(data_type d) {
	return (void*) (uintptr_t) d;
	}
	};

	// Partial specialization for void*.
	template <> struct ProgramStatePartialTrait<void*> {
	typedef void *data_type;

	static inline data_type MakeData(void const p) {
	return p ? *p
	: data_type();
	}
	static inline void *MakeVoidPtr(data_type d) {
	return d;
	}
	};

	// Partial specialization for const void *.
	template <> struct ProgramStatePartialTrait<const void *> {
	typedef const void *data_type;

	static inline data_type MakeData(void * const *p) {
	return p ? *p : data_type();
	}

	static inline void *MakeVoidPtr(data_type d) {
	return const_cast<void *>(d);
	}
	};

	} // end ento namespace

	} // end clang namespace

	#endif