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#pragma once
#ifdef __GNUC__
#pragma GCC diagnostic push
#pragma GCC diagnostic ignored "-Wunused-parameter"
#endif
//===--- Attr.h - Classes for representing attributes ----------*- 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 the Attr interface and subclasses.
//
//===----------------------------------------------------------------------===//
#ifndef LLVM_CLANG_AST_ATTR_H
#define LLVM_CLANG_AST_ATTR_H
#include "clang/AST/ASTFwd.h"
#include "clang/AST/AttrIterator.h"
#include "clang/AST/Decl.h"
#include "clang/AST/Type.h"
#include "clang/Basic/AttrKinds.h"
#include "clang/Basic/AttributeCommonInfo.h"
#include "clang/Basic/LangOptions.h"
#include "clang/Basic/LLVM.h"
#include "clang/Basic/OpenMPKinds.h"
#include "clang/Basic/Sanitizers.h"
#include "clang/Basic/SourceLocation.h"
#include "llvm/ADT/StringSwitch.h"
#include "llvm/Support/ErrorHandling.h"
#include "llvm/Support/VersionTuple.h"
#include "llvm/Support/raw_ostream.h"
#include <algorithm>
#include <cassert>
namespace clang {
class ASTContext;
class AttributeCommonInfo;
class FunctionDecl;
class OMPTraitInfo;
/// Attr - This represents one attribute.
class Attr : public AttributeCommonInfo {
private:
unsigned AttrKind : 16;
protected:
/// An index into the spelling list of an
/// attribute defined in Attr.td file.
unsigned Inherited : 1;
unsigned IsPackExpansion : 1;
unsigned Implicit : 1;
// FIXME: These are properties of the attribute kind, not state for this
// instance of the attribute.
unsigned IsLateParsed : 1;
unsigned InheritEvenIfAlreadyPresent : 1;
void *operator new(size_t bytes) noexcept {
llvm_unreachable("Attrs cannot be allocated with regular 'new'.");
}
void operator delete(void *data) noexcept {
llvm_unreachable("Attrs cannot be released with regular 'delete'.");
}
public:
// Forward so that the regular new and delete do not hide global ones.
void *operator new(size_t Bytes, ASTContext &C,
size_t Alignment = 8) noexcept {
return ::operator new(Bytes, C, Alignment);
}
void operator delete(void *Ptr, ASTContext &C, size_t Alignment) noexcept {
return ::operator delete(Ptr, C, Alignment);
}
protected:
Attr(ASTContext &Context, const AttributeCommonInfo &CommonInfo,
attr::Kind AK, bool IsLateParsed)
: AttributeCommonInfo(CommonInfo), AttrKind(AK), Inherited(false),
IsPackExpansion(false), Implicit(false), IsLateParsed(IsLateParsed),
InheritEvenIfAlreadyPresent(false) {}
public:
attr::Kind getKind() const { return static_cast<attr::Kind>(AttrKind); }
unsigned getSpellingListIndex() const {
return getAttributeSpellingListIndex();
}
const char *getSpelling() const;
SourceLocation getLocation() const { return getRange().getBegin(); }
bool isInherited() const { return Inherited; }
/// Returns true if the attribute has been implicitly created instead
/// of explicitly written by the user.
bool isImplicit() const { return Implicit; }
void setImplicit(bool I) { Implicit = I; }
void setPackExpansion(bool PE) { IsPackExpansion = PE; }
bool isPackExpansion() const { return IsPackExpansion; }
// Clone this attribute.
Attr *clone(ASTContext &C) const;
bool isLateParsed() const { return IsLateParsed; }
// Pretty print this attribute.
void printPretty(raw_ostream &OS, const PrintingPolicy &Policy) const;
static StringRef getDocumentation(attr::Kind);
};
class TypeAttr : public Attr {
protected:
TypeAttr(ASTContext &Context, const AttributeCommonInfo &CommonInfo,
attr::Kind AK, bool IsLateParsed)
: Attr(Context, CommonInfo, AK, IsLateParsed) {}
public:
static bool classof(const Attr *A) {
return A->getKind() >= attr::FirstTypeAttr &&
A->getKind() <= attr::LastTypeAttr;
}
};
class StmtAttr : public Attr {
protected:
StmtAttr(ASTContext &Context, const AttributeCommonInfo &CommonInfo,
attr::Kind AK, bool IsLateParsed)
: Attr(Context, CommonInfo, AK, IsLateParsed) {}
public:
static bool classof(const Attr *A) {
return A->getKind() >= attr::FirstStmtAttr &&
A->getKind() <= attr::LastStmtAttr;
}
};
class InheritableAttr : public Attr {
protected:
InheritableAttr(ASTContext &Context, const AttributeCommonInfo &CommonInfo,
attr::Kind AK, bool IsLateParsed,
bool InheritEvenIfAlreadyPresent)
: Attr(Context, CommonInfo, AK, IsLateParsed) {
this->InheritEvenIfAlreadyPresent = InheritEvenIfAlreadyPresent;
}
public:
void setInherited(bool I) { Inherited = I; }
/// Should this attribute be inherited from a prior declaration even if it's
/// explicitly provided in the current declaration?
bool shouldInheritEvenIfAlreadyPresent() const {
return InheritEvenIfAlreadyPresent;
}
// Implement isa/cast/dyncast/etc.
static bool classof(const Attr *A) {
return A->getKind() >= attr::FirstInheritableAttr &&
A->getKind() <= attr::LastInheritableAttr;
}
};
class DeclOrStmtAttr : public InheritableAttr {
protected:
DeclOrStmtAttr(ASTContext &Context, const AttributeCommonInfo &CommonInfo,
attr::Kind AK, bool IsLateParsed,
bool InheritEvenIfAlreadyPresent)
: InheritableAttr(Context, CommonInfo, AK, IsLateParsed,
InheritEvenIfAlreadyPresent) {}
public:
static bool classof(const Attr *A) {
return A->getKind() >= attr::FirstDeclOrStmtAttr &&
A->getKind() <= attr::LastDeclOrStmtAttr;
}
};
class InheritableParamAttr : public InheritableAttr {
protected:
InheritableParamAttr(ASTContext &Context,
const AttributeCommonInfo &CommonInfo, attr::Kind AK,
bool IsLateParsed, bool InheritEvenIfAlreadyPresent)
: InheritableAttr(Context, CommonInfo, AK, IsLateParsed,
InheritEvenIfAlreadyPresent) {}
public:
// Implement isa/cast/dyncast/etc.
static bool classof(const Attr *A) {
return A->getKind() >= attr::FirstInheritableParamAttr &&
A->getKind() <= attr::LastInheritableParamAttr;
}
};
/// A parameter attribute which changes the argument-passing ABI rule
/// for the parameter.
class ParameterABIAttr : public InheritableParamAttr {
protected:
ParameterABIAttr(ASTContext &Context, const AttributeCommonInfo &CommonInfo,
attr::Kind AK, bool IsLateParsed,
bool InheritEvenIfAlreadyPresent)
: InheritableParamAttr(Context, CommonInfo, AK, IsLateParsed,
InheritEvenIfAlreadyPresent) {}
public:
ParameterABI getABI() const {
switch (getKind()) {
case attr::SwiftContext:
return ParameterABI::SwiftContext;
case attr::SwiftAsyncContext:
return ParameterABI::SwiftAsyncContext;
case attr::SwiftErrorResult:
return ParameterABI::SwiftErrorResult;
case attr::SwiftIndirectResult:
return ParameterABI::SwiftIndirectResult;
default:
llvm_unreachable("bad parameter ABI attribute kind");
}
}
static bool classof(const Attr *A) {
return A->getKind() >= attr::FirstParameterABIAttr &&
A->getKind() <= attr::LastParameterABIAttr;
}
};
/// A single parameter index whose accessors require each use to make explicit
/// the parameter index encoding needed.
class ParamIdx {
// Idx is exposed only via accessors that specify specific encodings.
unsigned Idx : 30;
unsigned HasThis : 1;
unsigned IsValid : 1;
void assertComparable(const ParamIdx &I) const {
assert(isValid() && I.isValid() &&
"ParamIdx must be valid to be compared");
// It's possible to compare indices from separate functions, but so far
// it's not proven useful. Moreover, it might be confusing because a
// comparison on the results of getASTIndex might be inconsistent with a
// comparison on the ParamIdx objects themselves.
assert(HasThis == I.HasThis &&
"ParamIdx must be for the same function to be compared");
}
public:
/// Construct an invalid parameter index (\c isValid returns false and
/// accessors fail an assert).
ParamIdx() : Idx(0), HasThis(false), IsValid(false) {}
/// \param Idx is the parameter index as it is normally specified in
/// attributes in the source: one-origin including any C++ implicit this
/// parameter.
///
/// \param D is the declaration containing the parameters. It is used to
/// determine if there is a C++ implicit this parameter.
ParamIdx(unsigned Idx, const Decl *D)
: Idx(Idx), HasThis(false), IsValid(true) {
assert(Idx >= 1 && "Idx must be one-origin");
if (const auto *FD = dyn_cast<FunctionDecl>(D))
HasThis = FD->isCXXInstanceMember();
}
/// A type into which \c ParamIdx can be serialized.
///
/// A static assertion that it's of the correct size follows the \c ParamIdx
/// class definition.
typedef uint32_t SerialType;
/// Produce a representation that can later be passed to \c deserialize to
/// construct an equivalent \c ParamIdx.
SerialType serialize() const {
return *reinterpret_cast<const SerialType *>(this);
}
/// Construct from a result from \c serialize.
static ParamIdx deserialize(SerialType S) {
// Using this two-step static_cast via void * instead of reinterpret_cast
// silences a -Wstrict-aliasing false positive from GCC7 and earlier.
void *ParamIdxPtr = static_cast<void *>(&S);
ParamIdx P(*static_cast<ParamIdx *>(ParamIdxPtr));
assert((!P.IsValid || P.Idx >= 1) && "valid Idx must be one-origin");
return P;
}
/// Is this parameter index valid?
bool isValid() const { return IsValid; }
/// Get the parameter index as it would normally be encoded for attributes at
/// the source level of representation: one-origin including any C++ implicit
/// this parameter.
///
/// This encoding thus makes sense for diagnostics, pretty printing, and
/// constructing new attributes from a source-like specification.
unsigned getSourceIndex() const {
assert(isValid() && "ParamIdx must be valid");
return Idx;
}
/// Get the parameter index as it would normally be encoded at the AST level
/// of representation: zero-origin not including any C++ implicit this
/// parameter.
///
/// This is the encoding primarily used in Sema. However, in diagnostics,
/// Sema uses \c getSourceIndex instead.
unsigned getASTIndex() const {
assert(isValid() && "ParamIdx must be valid");
assert(Idx >= 1 + HasThis &&
"stored index must be base-1 and not specify C++ implicit this");
return Idx - 1 - HasThis;
}
/// Get the parameter index as it would normally be encoded at the LLVM level
/// of representation: zero-origin including any C++ implicit this parameter.
///
/// This is the encoding primarily used in CodeGen.
unsigned getLLVMIndex() const {
assert(isValid() && "ParamIdx must be valid");
assert(Idx >= 1 && "stored index must be base-1");
return Idx - 1;
}
bool operator==(const ParamIdx &I) const {
assertComparable(I);
return Idx == I.Idx;
}
bool operator!=(const ParamIdx &I) const {
assertComparable(I);
return Idx != I.Idx;
}
bool operator<(const ParamIdx &I) const {
assertComparable(I);
return Idx < I.Idx;
}
bool operator>(const ParamIdx &I) const {
assertComparable(I);
return Idx > I.Idx;
}
bool operator<=(const ParamIdx &I) const {
assertComparable(I);
return Idx <= I.Idx;
}
bool operator>=(const ParamIdx &I) const {
assertComparable(I);
return Idx >= I.Idx;
}
};
static_assert(sizeof(ParamIdx) == sizeof(ParamIdx::SerialType),
"ParamIdx does not fit its serialization type");
/// Contains information gathered from parsing the contents of TargetAttr.
struct ParsedTargetAttr {
std::vector<std::string> Features;
StringRef Architecture;
StringRef Tune;
StringRef BranchProtection;
bool DuplicateArchitecture = false;
bool DuplicateTune = false;
bool operator ==(const ParsedTargetAttr &Other) const {
return DuplicateArchitecture == Other.DuplicateArchitecture &&
DuplicateTune == Other.DuplicateTune &&
Architecture == Other.Architecture &&
Tune == Other.Tune &&
BranchProtection == Other.BranchProtection &&
Features == Other.Features;
}
};
#include "clang/AST/Attrs.inc"
inline const StreamingDiagnostic &operator<<(const StreamingDiagnostic &DB,
const Attr *At) {
DB.AddTaggedVal(reinterpret_cast<uint64_t>(At), DiagnosticsEngine::ak_attr);
return DB;
}
} // end namespace clang
#endif
#ifdef __GNUC__
#pragma GCC diagnostic pop
#endif
|