llvm-project/clang/lib/Sema/SemaInherit.h

235 lines
8.5 KiB
C++

//===------ SemaInherit.h - C++ Inheritance ---------------------*- C++ -*-===//
//
// The LLVM Compiler Infrastructure
//
// This file is distributed under the University of Illinois Open Source
// License. See LICENSE.TXT for details.
//
//===----------------------------------------------------------------------===//
//
// This file provides Sema data structures that help analyse C++
// inheritance semantics, including searching the inheritance
// hierarchy.
//
//===----------------------------------------------------------------------===//
#ifndef LLVM_CLANG_SEMA_INHERIT_H
#define LLVM_CLANG_SEMA_INHERIT_H
#include "Sema.h"
#include "clang/AST/DeclarationName.h"
#include "clang/AST/DeclBase.h"
#include "clang/AST/Type.h"
#include "clang/AST/TypeOrdering.h"
#include "llvm/ADT/SmallVector.h"
#include <list>
#include <map>
namespace clang {
class CXXBaseSpecifier;
/// BasePathElement - An element in a path from a derived class to a
/// base class. Each step in the path references the link from a
/// derived class to one of its direct base classes, along with a
/// base "number" that identifies which base subobject of the
/// original derived class we are referencing.
struct BasePathElement {
/// Base - The base specifier that states the link from a derived
/// class to a base class, which will be followed by this base
/// path element.
const CXXBaseSpecifier *Base;
/// Class - The record decl of the class that the base is a base of.
const CXXRecordDecl *Class;
/// SubobjectNumber - Identifies which base class subobject (of type
/// @c Base->getType()) this base path element refers to. This
/// value is only valid if @c !Base->isVirtual(), because there
/// is no base numbering for the zero or one virtual bases of a
/// given type.
int SubobjectNumber;
};
/// BasePath - Represents a path from a specific derived class
/// (which is not represented as part of the path) to a particular
/// (direct or indirect) base class subobject that contains some
/// number of declarations with the same name. Individual elements
/// in the path are described by the BasePathElement structure,
/// which captures both the link from a derived class to one of its
/// direct bases and identification describing which base class
/// subobject is being used.
struct BasePath : public llvm::SmallVector<BasePathElement, 4> {
/// Decls - The set of declarations found inside this base class
/// subobject.
DeclContext::lookup_result Decls;
};
/// BasePaths - Represents the set of paths from a derived class to
/// one of its (direct or indirect) bases. For example, given the
/// following class hierachy:
///
/// @code
/// class A { };
/// class B : public A { };
/// class C : public A { };
/// class D : public B, public C{ };
/// @endcode
///
/// There are two potential BasePaths to represent paths from D to a
/// base subobject of type A. One path is (D,0) -> (B,0) -> (A,0)
/// and another is (D,0)->(C,0)->(A,1). These two paths actually
/// refer to two different base class subobjects of the same type,
/// so the BasePaths object refers to an ambiguous path. On the
/// other hand, consider the following class hierarchy:
///
/// @code
/// class A { };
/// class B : public virtual A { };
/// class C : public virtual A { };
/// class D : public B, public C{ };
/// @endcode
///
/// Here, there are two potential BasePaths again, (D, 0) -> (B, 0)
/// -> (A,v) and (D, 0) -> (C, 0) -> (A, v), but since both of them
/// refer to the same base class subobject of type A (the virtual
/// one), there is no ambiguity.
class BasePaths {
/// Origin - The type from which this search originated.
QualType Origin;
/// Paths - The actual set of paths that can be taken from the
/// derived class to the same base class.
std::list<BasePath> Paths;
/// ClassSubobjects - Records the class subobjects for each class
/// type that we've seen. The first element in the pair says
/// whether we found a path to a virtual base for that class type,
/// while the element contains the number of non-virtual base
/// class subobjects for that class type. The key of the map is
/// the cv-unqualified canonical type of the base class subobject.
std::map<QualType, std::pair<bool, unsigned>, QualTypeOrdering>
ClassSubobjects;
/// FindAmbiguities - Whether Sema::IsDerivedFrom should try find
/// ambiguous paths while it is looking for a path from a derived
/// type to a base type.
bool FindAmbiguities;
/// RecordPaths - Whether Sema::IsDerivedFrom should record paths
/// while it is determining whether there are paths from a derived
/// type to a base type.
bool RecordPaths;
/// DetectVirtual - Whether Sema::IsDerivedFrom should abort the search
/// if it finds a path that goes across a virtual base. The virtual class
/// is also recorded.
bool DetectVirtual;
/// ScratchPath - A BasePath that is used by Sema::IsDerivedFrom
/// to help build the set of paths.
BasePath ScratchPath;
/// DetectedVirtual - The base class that is virtual.
const RecordType *DetectedVirtual;
/// \brief Array of the declarations that have been found. This
/// array is constructed only if needed, e.g., to iterate over the
/// results within LookupResult.
NamedDecl **DeclsFound;
unsigned NumDeclsFound;
friend class Sema;
void ComputeDeclsFound();
public:
typedef std::list<BasePath>::const_iterator paths_iterator;
/// BasePaths - Construct a new BasePaths structure to record the
/// paths for a derived-to-base search.
explicit BasePaths(bool FindAmbiguities = true,
bool RecordPaths = true,
bool DetectVirtual = true)
: FindAmbiguities(FindAmbiguities), RecordPaths(RecordPaths),
DetectVirtual(DetectVirtual), DetectedVirtual(0), DeclsFound(0),
NumDeclsFound(0)
{}
~BasePaths() { delete [] DeclsFound; }
paths_iterator begin() const { return Paths.begin(); }
paths_iterator end() const { return Paths.end(); }
BasePath& front() { return Paths.front(); }
const BasePath& front() const { return Paths.front(); }
NamedDecl **found_decls_begin();
NamedDecl **found_decls_end();
bool isAmbiguous(QualType BaseType);
/// isFindingAmbiguities - Whether we are finding multiple paths
/// to detect ambiguities.
bool isFindingAmbiguities() const { return FindAmbiguities; }
/// isRecordingPaths - Whether we are recording paths.
bool isRecordingPaths() const { return RecordPaths; }
/// setRecordingPaths - Specify whether we should be recording
/// paths or not.
void setRecordingPaths(bool RP) { RecordPaths = RP; }
/// isDetectingVirtual - Whether we are detecting virtual bases.
bool isDetectingVirtual() const { return DetectVirtual; }
/// getDetectedVirtual - The virtual base discovered on the path.
const RecordType* getDetectedVirtual() const {
return DetectedVirtual;
}
/// @brief Retrieve the type from which this base-paths search
/// began
QualType getOrigin() const { return Origin; }
void setOrigin(QualType Type) { Origin = Type; }
void clear();
void swap(BasePaths &Other);
};
/// MemberLookupCriteria - Criteria for performing lookup of a
/// member of a C++ class. Objects of this type are used to direct
/// Sema::LookupCXXClassMember.
struct MemberLookupCriteria {
/// MemberLookupCriteria - Constructs member lookup criteria to
/// search for a base class of type Base.
explicit MemberLookupCriteria(QualType Base)
: LookupBase(true), Base(Base) { }
/// MemberLookupCriteria - Constructs member lookup criteria to
/// search for a class member with the given Name.
explicit MemberLookupCriteria(DeclarationName Name,
Sema::LookupNameKind NameKind,
unsigned IDNS)
: LookupBase(false), Name(Name), NameKind(NameKind), IDNS(IDNS) { }
/// LookupBase - True if we are looking for a base class (whose
/// type is Base). If false, we are looking for a named member of
/// the class (with the name Name).
bool LookupBase;
/// Base - The type of the base class we're searching for, if
/// LookupBase is true.
QualType Base;
/// Name - The name of the member we're searching for, if
/// LookupBase is false.
DeclarationName Name;
Sema::LookupNameKind NameKind;
unsigned IDNS;
};
}
#endif