clang-1/lib/Sema/SemaOverload.h

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C++

//===--- Overload.h - C++ Overloading ---------------------------*- 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 the data structures and types used in C++
// overload resolution.
//
//===----------------------------------------------------------------------===//
#ifndef LLVM_CLANG_SEMA_OVERLOAD_H
#define LLVM_CLANG_SEMA_OVERLOAD_H
#include "llvm/ADT/SmallVector.h"
namespace clang {
class CXXConstructorDecl;
class FunctionDecl;
/// ImplicitConversionKind - The kind of implicit conversion used to
/// convert an argument to a parameter's type. The enumerator values
/// match with Table 9 of (C++ 13.3.3.1.1) and are listed such that
/// better conversion kinds have smaller values.
enum ImplicitConversionKind {
ICK_Identity = 0, ///< Identity conversion (no conversion)
ICK_Lvalue_To_Rvalue, ///< Lvalue-to-rvalue conversion (C++ 4.1)
ICK_Array_To_Pointer, ///< Array-to-pointer conversion (C++ 4.2)
ICK_Function_To_Pointer, ///< Function-to-pointer (C++ 4.3)
ICK_NoReturn_Adjustment, ///< Removal of noreturn from a type (Clang)
ICK_Qualification, ///< Qualification conversions (C++ 4.4)
ICK_Integral_Promotion, ///< Integral promotions (C++ 4.5)
ICK_Floating_Promotion, ///< Floating point promotions (C++ 4.6)
ICK_Complex_Promotion, ///< Complex promotions (Clang extension)
ICK_Integral_Conversion, ///< Integral conversions (C++ 4.7)
ICK_Floating_Conversion, ///< Floating point conversions (C++ 4.8)
ICK_Complex_Conversion, ///< Complex conversions (C99 6.3.1.6)
ICK_Floating_Integral, ///< Floating-integral conversions (C++ 4.9)
ICK_Complex_Real, ///< Complex-real conversions (C99 6.3.1.7)
ICK_Pointer_Conversion, ///< Pointer conversions (C++ 4.10)
ICK_Pointer_Member, ///< Pointer-to-member conversions (C++ 4.11)
ICK_Boolean_Conversion, ///< Boolean conversions (C++ 4.12)
ICK_Compatible_Conversion, ///< Conversions between compatible types in C99
ICK_Derived_To_Base, ///< Derived-to-base (C++ [over.best.ics])
ICK_Num_Conversion_Kinds ///< The number of conversion kinds
};
/// ImplicitConversionCategory - The category of an implicit
/// conversion kind. The enumerator values match with Table 9 of
/// (C++ 13.3.3.1.1) and are listed such that better conversion
/// categories have smaller values.
enum ImplicitConversionCategory {
ICC_Identity = 0, ///< Identity
ICC_Lvalue_Transformation, ///< Lvalue transformation
ICC_Qualification_Adjustment, ///< Qualification adjustment
ICC_Promotion, ///< Promotion
ICC_Conversion ///< Conversion
};
ImplicitConversionCategory
GetConversionCategory(ImplicitConversionKind Kind);
/// ImplicitConversionRank - The rank of an implicit conversion
/// kind. The enumerator values match with Table 9 of (C++
/// 13.3.3.1.1) and are listed such that better conversion ranks
/// have smaller values.
enum ImplicitConversionRank {
ICR_Exact_Match = 0, ///< Exact Match
ICR_Promotion, ///< Promotion
ICR_Conversion ///< Conversion
};
ImplicitConversionRank GetConversionRank(ImplicitConversionKind Kind);
/// StandardConversionSequence - represents a standard conversion
/// sequence (C++ 13.3.3.1.1). A standard conversion sequence
/// contains between zero and three conversions. If a particular
/// conversion is not needed, it will be set to the identity conversion
/// (ICK_Identity). Note that the three conversions are
/// specified as separate members (rather than in an array) so that
/// we can keep the size of a standard conversion sequence to a
/// single word.
struct StandardConversionSequence {
/// First -- The first conversion can be an lvalue-to-rvalue
/// conversion, array-to-pointer conversion, or
/// function-to-pointer conversion.
ImplicitConversionKind First : 8;
/// Second - The second conversion can be an integral promotion,
/// floating point promotion, integral conversion, floating point
/// conversion, floating-integral conversion, pointer conversion,
/// pointer-to-member conversion, or boolean conversion.
ImplicitConversionKind Second : 8;
/// Third - The third conversion can be a qualification conversion.
ImplicitConversionKind Third : 8;
/// Deprecated - Whether this the deprecated conversion of a
/// string literal to a pointer to non-const character data
/// (C++ 4.2p2).
bool Deprecated : 1;
/// IncompatibleObjC - Whether this is an Objective-C conversion
/// that we should warn about (if we actually use it).
bool IncompatibleObjC : 1;
/// ReferenceBinding - True when this is a reference binding
/// (C++ [over.ics.ref]).
bool ReferenceBinding : 1;
/// DirectBinding - True when this is a reference binding that is a
/// direct binding (C++ [dcl.init.ref]).
bool DirectBinding : 1;
/// RRefBinding - True when this is a reference binding of an rvalue
/// reference to an rvalue (C++0x [over.ics.rank]p3b4).
bool RRefBinding : 1;
/// FromType - The type that this conversion is converting
/// from. This is an opaque pointer that can be translated into a
/// QualType.
void *FromTypePtr;
/// ToType - The type that this conversion is converting to. This
/// is an opaque pointer that can be translated into a QualType.
void *ToTypePtr;
/// CopyConstructor - The copy constructor that is used to perform
/// this conversion, when the conversion is actually just the
/// initialization of an object via copy constructor. Such
/// conversions are either identity conversions or derived-to-base
/// conversions.
CXXConstructorDecl *CopyConstructor;
void setAsIdentityConversion();
ImplicitConversionRank getRank() const;
bool isPointerConversionToBool() const;
bool isPointerConversionToVoidPointer(ASTContext& Context) const;
void DebugPrint() const;
};
/// UserDefinedConversionSequence - Represents a user-defined
/// conversion sequence (C++ 13.3.3.1.2).
struct UserDefinedConversionSequence {
/// Before - Represents the standard conversion that occurs before
/// the actual user-defined conversion. (C++ 13.3.3.1.2p1):
///
/// If the user-defined conversion is specified by a constructor
/// (12.3.1), the initial standard conversion sequence converts
/// the source type to the type required by the argument of the
/// constructor. If the user-defined conversion is specified by
/// a conversion function (12.3.2), the initial standard
/// conversion sequence converts the source type to the implicit
/// object parameter of the conversion function.
StandardConversionSequence Before;
/// EllipsisConversion - When this is true, it means user-defined
/// conversion sequence starts with a ... (elipsis) conversion, instead of
/// a standard conversion. In this case, 'Before' field must be ignored.
// FIXME. I much rather put this as the first field. But there seems to be
// a gcc code gen. bug which causes a crash in a test. Putting it here seems
// to work around the crash.
bool EllipsisConversion : 1;
/// After - Represents the standard conversion that occurs after
/// the actual user-defined conversion.
StandardConversionSequence After;
/// ConversionFunction - The function that will perform the
/// user-defined conversion.
FunctionDecl* ConversionFunction;
void DebugPrint() const;
};
/// ImplicitConversionSequence - Represents an implicit conversion
/// sequence, which may be a standard conversion sequence
/// (C++ 13.3.3.1.1), user-defined conversion sequence (C++ 13.3.3.1.2),
/// or an ellipsis conversion sequence (C++ 13.3.3.1.3).
struct ImplicitConversionSequence {
/// Kind - The kind of implicit conversion sequence. BadConversion
/// specifies that there is no conversion from the source type to
/// the target type. The enumerator values are ordered such that
/// better implicit conversions have smaller values.
enum Kind {
StandardConversion = 0,
UserDefinedConversion,
EllipsisConversion,
BadConversion
};
/// ConversionKind - The kind of implicit conversion sequence.
Kind ConversionKind;
union {
/// When ConversionKind == StandardConversion, provides the
/// details of the standard conversion sequence.
StandardConversionSequence Standard;
/// When ConversionKind == UserDefinedConversion, provides the
/// details of the user-defined conversion sequence.
UserDefinedConversionSequence UserDefined;
};
/// When ConversionKind == BadConversion due to multiple conversion
/// functions, this will list those functions.
llvm::SmallVector<FunctionDecl*, 4> ConversionFunctionSet;
// The result of a comparison between implicit conversion
// sequences. Use Sema::CompareImplicitConversionSequences to
// actually perform the comparison.
enum CompareKind {
Better = -1,
Indistinguishable = 0,
Worse = 1
};
void DebugPrint() const;
};
/// OverloadCandidate - A single candidate in an overload set (C++ 13.3).
struct OverloadCandidate {
/// Function - The actual function that this candidate
/// represents. When NULL, this is a built-in candidate
/// (C++ [over.oper]) or a surrogate for a conversion to a
/// function pointer or reference (C++ [over.call.object]).
FunctionDecl *Function;
// BuiltinTypes - Provides the return and parameter types of a
// built-in overload candidate. Only valid when Function is NULL.
struct {
QualType ResultTy;
QualType ParamTypes[3];
} BuiltinTypes;
/// Surrogate - The conversion function for which this candidate
/// is a surrogate, but only if IsSurrogate is true.
CXXConversionDecl *Surrogate;
/// Conversions - The conversion sequences used to convert the
/// function arguments to the function parameters.
llvm::SmallVector<ImplicitConversionSequence, 4> Conversions;
/// Viable - True to indicate that this overload candidate is viable.
bool Viable;
/// IsSurrogate - True to indicate that this candidate is a
/// surrogate for a conversion to a function pointer or reference
/// (C++ [over.call.object]).
bool IsSurrogate;
/// IgnoreObjectArgument - True to indicate that the first
/// argument's conversion, which for this function represents the
/// implicit object argument, should be ignored. This will be true
/// when the candidate is a static member function (where the
/// implicit object argument is just a placeholder) or a
/// non-static member function when the call doesn't have an
/// object argument.
bool IgnoreObjectArgument;
/// FinalConversion - For a conversion function (where Function is
/// a CXXConversionDecl), the standard conversion that occurs
/// after the call to the overload candidate to convert the result
/// of calling the conversion function to the required type.
StandardConversionSequence FinalConversion;
};
/// OverloadCandidateSet - A set of overload candidates, used in C++
/// overload resolution (C++ 13.3).
class OverloadCandidateSet : public llvm::SmallVector<OverloadCandidate, 16> {
llvm::SmallPtrSet<Decl *, 16> Functions;
public:
/// \brief Determine when this overload candidate will be new to the
/// overload set.
bool isNewCandidate(Decl *F) {
return Functions.insert(F->getCanonicalDecl());
}
};
} // end namespace clang
#endif // LLVM_CLANG_SEMA_OVERLOAD_H