lib/AST/Interp/Pointer.h - clang - Git at Google

 //===--- Pointer.h - Types for the constexpr VM -----------------*- 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
 //
 //===----------------------------------------------------------------------===//
 //
 // Defines the classes responsible for pointer tracking.
 //
 //===----------------------------------------------------------------------===//

 #ifndef LLVM_CLANG_AST_INTERP_POINTER_H
 #define LLVM_CLANG_AST_INTERP_POINTER_H

 #include "Block.h"
 #include "Descriptor.h"
 #include "clang/AST/Decl.h"
 #include "clang/AST/DeclCXX.h"
 #include "clang/AST/Expr.h"
 #include "clang/AST/ComparisonCategories.h"
 #include "llvm/ADT/PointerUnion.h"
 #include "llvm/Support/raw_ostream.h"

 namespace clang {
 namespace interp {
 class Block;
 class DeadBlock;
 class Context;
 class InterpState;
 class Pointer;
 class Function;
 enum PrimType : unsigned;

 /// A pointer to a memory block, live or dead.
 ///
 /// This object can be allocated into interpreter stack frames. If pointing to
 /// a live block, it is a link in the chain of pointers pointing to the block.
 class Pointer {
 private:
   static constexpr unsigned PastEndMark = (unsigned)-1;
   static constexpr unsigned RootPtrMark = (unsigned)-1;

 public:
   Pointer() {}
   Pointer(Block *B);
   Pointer(const Pointer &P);
   Pointer(Pointer &&P);
   ~Pointer();

   void operator=(const Pointer &P);
   void operator=(Pointer &&P);

   /// Converts the pointer to an APValue.
   APValue toAPValue() const;

   /// Offsets a pointer inside an array.
   Pointer atIndex(unsigned Idx) const {
     if (Base == RootPtrMark)
       return Pointer(Pointee, RootPtrMark, getDeclDesc()->getSize());
     unsigned Off = Idx * elemSize();
     if (getFieldDesc()->ElemDesc)
       Off += sizeof(InlineDescriptor);
     else
       Off += sizeof(InitMap *);
     return Pointer(Pointee, Base, Base + Off);
   }

   /// Creates a pointer to a field.
   Pointer atField(unsigned Off) const {
     unsigned Field = Offset + Off;
     return Pointer(Pointee, Field, Field);
   }

   /// Restricts the scope of an array element pointer.
   Pointer narrow() const {
     // Null pointers cannot be narrowed.
     if (isZero() || isUnknownSizeArray())
       return *this;

     // Pointer to an array of base types - enter block.
     if (Base == RootPtrMark)
       return Pointer(Pointee, 0, Offset == 0 ? Offset : PastEndMark);

     // Pointer is one past end - magic offset marks that.
     if (isOnePastEnd())
       return Pointer(Pointee, Base, PastEndMark);

     // Primitive arrays are a bit special since they do not have inline
     // descriptors. If Offset != Base, then the pointer already points to
     // an element and there is nothing to do. Otherwise, the pointer is
     // adjusted to the first element of the array.
     if (inPrimitiveArray()) {
       if (Offset != Base)
         return *this;
       return Pointer(Pointee, Base, Offset + sizeof(InitMap *));
     }

     // Pointer is to a field or array element - enter it.
     if (Offset != Base)
       return Pointer(Pointee, Offset, Offset);

     // Enter the first element of an array.
     if (!getFieldDesc()->isArray())
       return *this;

     const unsigned NewBase = Base + sizeof(InlineDescriptor);
     return Pointer(Pointee, NewBase, NewBase);
   }

   /// Expands a pointer to the containing array, undoing narrowing.
   Pointer expand() const {
     if (isElementPastEnd()) {
       // Revert to an outer one-past-end pointer.
       unsigned Adjust;
       if (inPrimitiveArray())
         Adjust = sizeof(InitMap *);
       else
         Adjust = sizeof(InlineDescriptor);
       return Pointer(Pointee, Base, Base + getSize() + Adjust);
     }

     // Do not step out of array elements.
     if (Base != Offset)
       return *this;

     // If at base, point to an array of base types.
     if (Base == 0)
       return Pointer(Pointee, RootPtrMark, 0);

     // Step into the containing array, if inside one.
     unsigned Next = Base - getInlineDesc()->Offset;
     Descriptor *Desc = Next == 0 ? getDeclDesc() : getDescriptor(Next)->Desc;
     if (!Desc->IsArray)
       return *this;
     return Pointer(Pointee, Next, Offset);
   }

   /// Checks if the pointer is null.
   bool isZero() const { return Pointee == nullptr; }
   /// Checks if the pointer is live.
   bool isLive() const { return Pointee && !Pointee->IsDead; }
   /// Checks if the item is a field in an object.
   bool isField() const { return Base != 0 && Base != RootPtrMark; }

   /// Accessor for information about the declaration site.
   Descriptor *getDeclDesc() const { return Pointee->Desc; }
   SourceLocation getDeclLoc() const { return getDeclDesc()->getLocation(); }

   /// Returns a pointer to the object of which this pointer is a field.
   Pointer getBase() const {
     if (Base == RootPtrMark) {
       assert(Offset == PastEndMark && "cannot get base of a block");
       return Pointer(Pointee, Base, 0);
     }
     assert(Offset == Base && "not an inner field");
     unsigned NewBase = Base - getInlineDesc()->Offset;
     return Pointer(Pointee, NewBase, NewBase);
   }
   /// Returns the parent array.
   Pointer getArray() const {
     if (Base == RootPtrMark) {
       assert(Offset != 0 && Offset != PastEndMark && "not an array element");
       return Pointer(Pointee, Base, 0);
     }
     assert(Offset != Base && "not an array element");
     return Pointer(Pointee, Base, Base);
   }

   /// Accessors for information about the innermost field.
   Descriptor *getFieldDesc() const {
     if (Base == 0 || Base == RootPtrMark)
       return getDeclDesc();
     return getInlineDesc()->Desc;
   }

   /// Returns the type of the innermost field.
   QualType getType() const { return getFieldDesc()->getType(); }

   /// Returns the element size of the innermost field.
   size_t elemSize() const {
     if (Base == RootPtrMark)
       return getDeclDesc()->getSize();
     return getFieldDesc()->getElemSize();
   }
   /// Returns the total size of the innermost field.
   size_t getSize() const { return getFieldDesc()->getSize(); }

   /// Returns the offset into an array.
   unsigned getOffset() const {
     assert(Offset != PastEndMark && "invalid offset");
     if (Base == RootPtrMark)
       return Offset;

     unsigned Adjust = 0;
     if (Offset != Base) {
       if (getFieldDesc()->ElemDesc)
         Adjust = sizeof(InlineDescriptor);
       else
         Adjust = sizeof(InitMap *);
     }
     return Offset - Base - Adjust;
   }

   /// Checks if the innermost field is an array.
   bool inArray() const { return getFieldDesc()->IsArray; }
   /// Checks if the structure is a primitive array.
   bool inPrimitiveArray() const { return getFieldDesc()->isPrimitiveArray(); }
   /// Checks if the structure is an array of unknown size.
   bool isUnknownSizeArray() const {
     return getFieldDesc()->isUnknownSizeArray();
   }
   /// Checks if the pointer points to an array.
   bool isArrayElement() const { return Base != Offset; }
   /// Pointer points directly to a block.
   bool isRoot() const {
     return (Base == 0 || Base == RootPtrMark) && Offset == 0;
   }

   /// Returns the record descriptor of a class.
   Record *getRecord() const { return getFieldDesc()->ElemRecord; }
   /// Returns the field information.
   const FieldDecl *getField() const { return getFieldDesc()->asFieldDecl(); }

   /// Checks if the object is a union.
   bool isUnion() const;

   /// Checks if the storage is extern.
   bool isExtern() const { return Pointee->isExtern(); }
   /// Checks if the storage is static.
   bool isStatic() const { return Pointee->isStatic(); }
   /// Checks if the storage is temporary.
   bool isTemporary() const { return Pointee->isTemporary(); }
   /// Checks if the storage is a static temporary.
   bool isStaticTemporary() const { return isStatic() && isTemporary(); }

   /// Checks if the field is mutable.
   bool isMutable() const { return Base != 0 && getInlineDesc()->IsMutable; }
   /// Checks if an object was initialized.
   bool isInitialized() const;
   /// Checks if the object is active.
   bool isActive() const { return Base == 0 || getInlineDesc()->IsActive; }
   /// Checks if a structure is a base class.
   bool isBaseClass() const { return isField() && getInlineDesc()->IsBase; }

   /// Checks if an object or a subfield is mutable.
   bool isConst() const {
     return Base == 0 ? getDeclDesc()->IsConst : getInlineDesc()->IsConst;
   }

   /// Returns the declaration ID.
   llvm::Optional<unsigned> getDeclID() const { return Pointee->getDeclID(); }

   /// Returns the byte offset from the start.
   unsigned getByteOffset() const {
     return Offset;
   }

   /// Returns the number of elements.
   unsigned getNumElems() const { return getSize() / elemSize(); }

   /// Returns the index into an array.
   int64_t getIndex() const {
     if (isElementPastEnd())
       return 1;
     if (auto ElemSize = elemSize())
       return getOffset() / ElemSize;
     return 0;
   }

   /// Checks if the index is one past end.
   bool isOnePastEnd() const {
     return isElementPastEnd() || getSize() == getOffset();
   }

   /// Checks if the pointer is an out-of-bounds element pointer.
   bool isElementPastEnd() const { return Offset == PastEndMark; }

   /// Dereferences the pointer, if it's live.
   template <typename T> T &deref() const {
     assert(isLive() && "Invalid pointer");
     return *reinterpret_cast<T *>(Pointee->data() + Offset);
   }

   /// Dereferences a primitive element.
   template <typename T> T &elem(unsigned I) const {
     return reinterpret_cast<T *>(Pointee->data())[I];
   }

   /// Initializes a field.
   void initialize() const;
   /// Activats a field.
   void activate() const;
   /// Deactivates an entire strurcutre.
   void deactivate() const;

   /// Checks if two pointers are comparable.
   static bool hasSameBase(const Pointer &A, const Pointer &B);
   /// Checks if two pointers can be subtracted.
   static bool hasSameArray(const Pointer &A, const Pointer &B);

   /// Prints the pointer.
   void print(llvm::raw_ostream &OS) const {
     OS << "{" << Base << ", " << Offset << ", ";
     if (Pointee)
       OS << Pointee->getSize();
     else
       OS << "nullptr";
     OS << "}";
   }

 private:
   friend class Block;
   friend class DeadBlock;

   Pointer(Block *Pointee, unsigned Base, unsigned Offset);

   /// Returns the embedded descriptor preceding a field.
   InlineDescriptor *getInlineDesc() const { return getDescriptor(Base); }

   /// Returns a descriptor at a given offset.
   InlineDescriptor *getDescriptor(unsigned Offset) const {
     assert(Offset != 0 && "Not a nested pointer");
     return reinterpret_cast<InlineDescriptor *>(Pointee->data() + Offset) - 1;
   }

   /// Returns a reference to the pointer which stores the initialization map.
   InitMap *&getInitMap() const {
     return *reinterpret_cast<InitMap **>(Pointee->data() + Base);
   }

   /// The block the pointer is pointing to.
   Block *Pointee = nullptr;
   /// Start of the current subfield.
   unsigned Base = 0;
   /// Offset into the block.
   unsigned Offset = 0;

   /// Previous link in the pointer chain.
   Pointer *Prev = nullptr;
   /// Next link in the pointer chain.
   Pointer *Next = nullptr;
 };

 inline llvm::raw_ostream &operator<<(llvm::raw_ostream &OS, const Pointer &P) {
   P.print(OS);
   return OS;
 }

 } // namespace interp
 } // namespace clang

 #endif
	//===--- Pointer.h - Types for the constexpr VM ------------------ 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
	//
	//===----------------------------------------------------------------------===//
	//
	// Defines the classes responsible for pointer tracking.
	//
	//===----------------------------------------------------------------------===//

	#ifndef LLVM_CLANG_AST_INTERP_POINTER_H
	#define LLVM_CLANG_AST_INTERP_POINTER_H

	#include "Block.h"
	#include "Descriptor.h"
	#include "clang/AST/Decl.h"
	#include "clang/AST/DeclCXX.h"
	#include "clang/AST/Expr.h"
	#include "clang/AST/ComparisonCategories.h"
	#include "llvm/ADT/PointerUnion.h"
	#include "llvm/Support/raw_ostream.h"

	namespace clang {
	namespace interp {
	class Block;
	class DeadBlock;
	class Context;
	class InterpState;
	class Pointer;
	class Function;
	enum PrimType : unsigned;

	/// A pointer to a memory block, live or dead.
	///
	/// This object can be allocated into interpreter stack frames. If pointing to
	/// a live block, it is a link in the chain of pointers pointing to the block.
	class Pointer {
	private:
	static constexpr unsigned PastEndMark = (unsigned)-1;
	static constexpr unsigned RootPtrMark = (unsigned)-1;

	public:
	Pointer() {}
	Pointer(Block *B);
	Pointer(const Pointer &P);
	Pointer(Pointer &&P);
	~Pointer();

	void operator=(const Pointer &P);
	void operator=(Pointer &&P);

	/// Converts the pointer to an APValue.
	APValue toAPValue() const;

	/// Offsets a pointer inside an array.
	Pointer atIndex(unsigned Idx) const {
	if (Base == RootPtrMark)
	return Pointer(Pointee, RootPtrMark, getDeclDesc()->getSize());
	unsigned Off = Idx * elemSize();
	if (getFieldDesc()->ElemDesc)
	Off += sizeof(InlineDescriptor);
	else
	Off += sizeof(InitMap *);
	return Pointer(Pointee, Base, Base + Off);
	}

	/// Creates a pointer to a field.
	Pointer atField(unsigned Off) const {
	unsigned Field = Offset + Off;
	return Pointer(Pointee, Field, Field);
	}

	/// Restricts the scope of an array element pointer.
	Pointer narrow() const {
	// Null pointers cannot be narrowed.
	if (isZero() \|\| isUnknownSizeArray())
	return *this;

	// Pointer to an array of base types - enter block.
	if (Base == RootPtrMark)
	return Pointer(Pointee, 0, Offset == 0 ? Offset : PastEndMark);

	// Pointer is one past end - magic offset marks that.
	if (isOnePastEnd())
	return Pointer(Pointee, Base, PastEndMark);

	// Primitive arrays are a bit special since they do not have inline
	// descriptors. If Offset != Base, then the pointer already points to
	// an element and there is nothing to do. Otherwise, the pointer is
	// adjusted to the first element of the array.
	if (inPrimitiveArray()) {
	if (Offset != Base)
	return *this;
	return Pointer(Pointee, Base, Offset + sizeof(InitMap *));
	}

	// Pointer is to a field or array element - enter it.
	if (Offset != Base)
	return Pointer(Pointee, Offset, Offset);

	// Enter the first element of an array.
	if (!getFieldDesc()->isArray())
	return *this;

	const unsigned NewBase = Base + sizeof(InlineDescriptor);
	return Pointer(Pointee, NewBase, NewBase);
	}

	/// Expands a pointer to the containing array, undoing narrowing.
	Pointer expand() const {
	if (isElementPastEnd()) {
	// Revert to an outer one-past-end pointer.
	unsigned Adjust;
	if (inPrimitiveArray())
	Adjust = sizeof(InitMap *);
	else
	Adjust = sizeof(InlineDescriptor);
	return Pointer(Pointee, Base, Base + getSize() + Adjust);
	}

	// Do not step out of array elements.
	if (Base != Offset)
	return *this;

	// If at base, point to an array of base types.
	if (Base == 0)
	return Pointer(Pointee, RootPtrMark, 0);

	// Step into the containing array, if inside one.
	unsigned Next = Base - getInlineDesc()->Offset;
	Descriptor *Desc = Next == 0 ? getDeclDesc() : getDescriptor(Next)->Desc;
	if (!Desc->IsArray)
	return *this;
	return Pointer(Pointee, Next, Offset);
	}

	/// Checks if the pointer is null.
	bool isZero() const { return Pointee == nullptr; }
	/// Checks if the pointer is live.
	bool isLive() const { return Pointee && !Pointee->IsDead; }
	/// Checks if the item is a field in an object.
	bool isField() const { return Base != 0 && Base != RootPtrMark; }

	/// Accessor for information about the declaration site.
	Descriptor *getDeclDesc() const { return Pointee->Desc; }
	SourceLocation getDeclLoc() const { return getDeclDesc()->getLocation(); }

	/// Returns a pointer to the object of which this pointer is a field.
	Pointer getBase() const {
	if (Base == RootPtrMark) {
	assert(Offset == PastEndMark && "cannot get base of a block");
	return Pointer(Pointee, Base, 0);
	}
	assert(Offset == Base && "not an inner field");
	unsigned NewBase = Base - getInlineDesc()->Offset;
	return Pointer(Pointee, NewBase, NewBase);
	}
	/// Returns the parent array.
	Pointer getArray() const {
	if (Base == RootPtrMark) {
	assert(Offset != 0 && Offset != PastEndMark && "not an array element");
	return Pointer(Pointee, Base, 0);
	}
	assert(Offset != Base && "not an array element");
	return Pointer(Pointee, Base, Base);
	}

	/// Accessors for information about the innermost field.
	Descriptor *getFieldDesc() const {
	if (Base == 0 \|\| Base == RootPtrMark)
	return getDeclDesc();
	return getInlineDesc()->Desc;
	}

	/// Returns the type of the innermost field.
	QualType getType() const { return getFieldDesc()->getType(); }

	/// Returns the element size of the innermost field.
	size_t elemSize() const {
	if (Base == RootPtrMark)
	return getDeclDesc()->getSize();
	return getFieldDesc()->getElemSize();
	}
	/// Returns the total size of the innermost field.
	size_t getSize() const { return getFieldDesc()->getSize(); }

	/// Returns the offset into an array.
	unsigned getOffset() const {
	assert(Offset != PastEndMark && "invalid offset");
	if (Base == RootPtrMark)
	return Offset;

	unsigned Adjust = 0;
	if (Offset != Base) {
	if (getFieldDesc()->ElemDesc)
	Adjust = sizeof(InlineDescriptor);
	else
	Adjust = sizeof(InitMap *);
	}
	return Offset - Base - Adjust;
	}

	/// Checks if the innermost field is an array.
	bool inArray() const { return getFieldDesc()->IsArray; }
	/// Checks if the structure is a primitive array.
	bool inPrimitiveArray() const { return getFieldDesc()->isPrimitiveArray(); }
	/// Checks if the structure is an array of unknown size.
	bool isUnknownSizeArray() const {
	return getFieldDesc()->isUnknownSizeArray();
	}
	/// Checks if the pointer points to an array.
	bool isArrayElement() const { return Base != Offset; }
	/// Pointer points directly to a block.
	bool isRoot() const {
	return (Base == 0 \|\| Base == RootPtrMark) && Offset == 0;
	}

	/// Returns the record descriptor of a class.
	Record *getRecord() const { return getFieldDesc()->ElemRecord; }
	/// Returns the field information.
	const FieldDecl *getField() const { return getFieldDesc()->asFieldDecl(); }

	/// Checks if the object is a union.
	bool isUnion() const;

	/// Checks if the storage is extern.
	bool isExtern() const { return Pointee->isExtern(); }
	/// Checks if the storage is static.
	bool isStatic() const { return Pointee->isStatic(); }
	/// Checks if the storage is temporary.
	bool isTemporary() const { return Pointee->isTemporary(); }
	/// Checks if the storage is a static temporary.
	bool isStaticTemporary() const { return isStatic() && isTemporary(); }

	/// Checks if the field is mutable.
	bool isMutable() const { return Base != 0 && getInlineDesc()->IsMutable; }
	/// Checks if an object was initialized.
	bool isInitialized() const;
	/// Checks if the object is active.
	bool isActive() const { return Base == 0 \|\| getInlineDesc()->IsActive; }
	/// Checks if a structure is a base class.
	bool isBaseClass() const { return isField() && getInlineDesc()->IsBase; }

	/// Checks if an object or a subfield is mutable.
	bool isConst() const {
	return Base == 0 ? getDeclDesc()->IsConst : getInlineDesc()->IsConst;
	}

	/// Returns the declaration ID.
	llvm::Optional<unsigned> getDeclID() const { return Pointee->getDeclID(); }

	/// Returns the byte offset from the start.
	unsigned getByteOffset() const {
	return Offset;
	}

	/// Returns the number of elements.
	unsigned getNumElems() const { return getSize() / elemSize(); }

	/// Returns the index into an array.
	int64_t getIndex() const {
	if (isElementPastEnd())
	return 1;
	if (auto ElemSize = elemSize())
	return getOffset() / ElemSize;
	return 0;
	}

	/// Checks if the index is one past end.
	bool isOnePastEnd() const {
	return isElementPastEnd() \|\| getSize() == getOffset();
	}

	/// Checks if the pointer is an out-of-bounds element pointer.
	bool isElementPastEnd() const { return Offset == PastEndMark; }

	/// Dereferences the pointer, if it's live.
	template <typename T> T &deref() const {
	assert(isLive() && "Invalid pointer");
	return reinterpret_cast<T >(Pointee->data() + Offset);
	}

	/// Dereferences a primitive element.
	template <typename T> T &elem(unsigned I) const {
	return reinterpret_cast<T *>(Pointee->data())[I];
	}

	/// Initializes a field.
	void initialize() const;
	/// Activats a field.
	void activate() const;
	/// Deactivates an entire strurcutre.
	void deactivate() const;

	/// Checks if two pointers are comparable.
	static bool hasSameBase(const Pointer &A, const Pointer &B);
	/// Checks if two pointers can be subtracted.
	static bool hasSameArray(const Pointer &A, const Pointer &B);

	/// Prints the pointer.
	void print(llvm::raw_ostream &OS) const {
	OS << "{" << Base << ", " << Offset << ", ";
	if (Pointee)
	OS << Pointee->getSize();
	else
	OS << "nullptr";
	OS << "}";
	}

	private:
	friend class Block;
	friend class DeadBlock;

	Pointer(Block *Pointee, unsigned Base, unsigned Offset);

	/// Returns the embedded descriptor preceding a field.
	InlineDescriptor *getInlineDesc() const { return getDescriptor(Base); }

	/// Returns a descriptor at a given offset.
	InlineDescriptor *getDescriptor(unsigned Offset) const {
	assert(Offset != 0 && "Not a nested pointer");
	return reinterpret_cast<InlineDescriptor *>(Pointee->data() + Offset) - 1;
	}

	/// Returns a reference to the pointer which stores the initialization map.
	InitMap *&getInitMap() const {
	return reinterpret_cast<InitMap *>(Pointee->data() + Base);
	}

	/// The block the pointer is pointing to.
	Block *Pointee = nullptr;
	/// Start of the current subfield.
	unsigned Base = 0;
	/// Offset into the block.
	unsigned Offset = 0;

	/// Previous link in the pointer chain.
	Pointer *Prev = nullptr;
	/// Next link in the pointer chain.
	Pointer *Next = nullptr;
	};

	inline llvm::raw_ostream &operator<<(llvm::raw_ostream &OS, const Pointer &P) {
	P.print(OS);
	return OS;
	}

	} // namespace interp
	} // namespace clang

	#endif