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clang-p2996/clang/lib/Sema/ParsedAttr.cpp
Steffen Larsen ead1690d31 Allow parameter pack expansions and initializer lists in annotate attribute 
These changes make the Clang parser recognize expression parameter pack
expansion and initializer lists in attribute arguments. Because
expression parameter pack expansion requires additional handling while
creating and instantiating templates, the support for them must be
explicitly supported through the AcceptsExprPack flag.

Handling expression pack expansions may require a delay to when the
arguments of an attribute are correctly populated. To this end,
attributes that are set to accept these - through setting the
AcceptsExprPack flag - will automatically have an additional variadic
expression argument member named DelayedArgs. This member is not
exposed the same way other arguments are but is set through the new
CreateWithDelayedArgs creator function generated for applicable
attributes.

To illustrate how to implement support for expression pack expansion
support, clang::annotate is made to support pack expansions. This is
done by making handleAnnotationAttr delay setting the actual attribute
arguments until after template instantiation if it was unable to
populate the arguments due to dependencies in the parsed expressions.
2022-02-08 13:38:07 -05:00

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//======- ParsedAttr.cpp --------------------------------------------------===//
//
// 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 ParsedAttr class implementation
//
//===----------------------------------------------------------------------===//
#include "clang/Sema/ParsedAttr.h"
#include "clang/AST/ASTContext.h"
#include "clang/Basic/AttrSubjectMatchRules.h"
#include "clang/Basic/IdentifierTable.h"
#include "clang/Basic/TargetInfo.h"
#include "clang/Sema/SemaInternal.h"
#include "llvm/ADT/SmallString.h"
#include "llvm/ADT/SmallVector.h"
#include "llvm/ADT/StringRef.h"
#include "llvm/Support/ManagedStatic.h"
#include <cassert>
#include <cstddef>
#include <utility>
using namespace clang;
LLVM_INSTANTIATE_REGISTRY(ParsedAttrInfoRegistry)
IdentifierLoc *IdentifierLoc::create(ASTContext &Ctx, SourceLocation Loc,
IdentifierInfo *Ident) {
IdentifierLoc *Result = new (Ctx) IdentifierLoc;
Result->Loc = Loc;
Result->Ident = Ident;
return Result;
}
size_t ParsedAttr::allocated_size() const {
if (IsAvailability) return AttributeFactory::AvailabilityAllocSize;
else if (IsTypeTagForDatatype)
return AttributeFactory::TypeTagForDatatypeAllocSize;
else if (IsProperty)
return AttributeFactory::PropertyAllocSize;
else if (HasParsedType)
return totalSizeToAlloc<ArgsUnion, detail::AvailabilityData,
detail::TypeTagForDatatypeData, ParsedType,
detail::PropertyData>(0, 0, 0, 1, 0);
return totalSizeToAlloc<ArgsUnion, detail::AvailabilityData,
detail::TypeTagForDatatypeData, ParsedType,
detail::PropertyData>(NumArgs, 0, 0, 0, 0);
}
AttributeFactory::AttributeFactory() {
// Go ahead and configure all the inline capacity. This is just a memset.
FreeLists.resize(InlineFreeListsCapacity);
}
AttributeFactory::~AttributeFactory() = default;
static size_t getFreeListIndexForSize(size_t size) {
assert(size >= sizeof(ParsedAttr));
assert((size % sizeof(void*)) == 0);
return ((size - sizeof(ParsedAttr)) / sizeof(void *));
}
void *AttributeFactory::allocate(size_t size) {
// Check for a previously reclaimed attribute.
size_t index = getFreeListIndexForSize(size);
if (index < FreeLists.size() && !FreeLists[index].empty()) {
ParsedAttr *attr = FreeLists[index].back();
FreeLists[index].pop_back();
return attr;
}
// Otherwise, allocate something new.
return Alloc.Allocate(size, alignof(AttributeFactory));
}
void AttributeFactory::deallocate(ParsedAttr *Attr) {
size_t size = Attr->allocated_size();
size_t freeListIndex = getFreeListIndexForSize(size);
// Expand FreeLists to the appropriate size, if required.
if (freeListIndex >= FreeLists.size())
FreeLists.resize(freeListIndex + 1);
#ifndef NDEBUG
// In debug mode, zero out the attribute to help find memory overwriting.
memset(Attr, 0, size);
#endif
// Add 'Attr' to the appropriate free-list.
FreeLists[freeListIndex].push_back(Attr);
}
void AttributeFactory::reclaimPool(AttributePool &cur) {
for (ParsedAttr *AL : cur.Attrs)
deallocate(AL);
}
void AttributePool::takePool(AttributePool &pool) {
Attrs.insert(Attrs.end(), pool.Attrs.begin(), pool.Attrs.end());
pool.Attrs.clear();
}
namespace {
#include "clang/Sema/AttrParsedAttrImpl.inc"
} // namespace
const ParsedAttrInfo &ParsedAttrInfo::get(const AttributeCommonInfo &A) {
// If we have a ParsedAttrInfo for this ParsedAttr then return that.
if ((size_t)A.getParsedKind() < llvm::array_lengthof(AttrInfoMap))
return *AttrInfoMap[A.getParsedKind()];
// If this is an ignored attribute then return an appropriate ParsedAttrInfo.
static const ParsedAttrInfo IgnoredParsedAttrInfo(
AttributeCommonInfo::IgnoredAttribute);
if (A.getParsedKind() == AttributeCommonInfo::IgnoredAttribute)
return IgnoredParsedAttrInfo;
// Otherwise this may be an attribute defined by a plugin. First instantiate
// all plugin attributes if we haven't already done so.
static llvm::ManagedStatic<std::list<std::unique_ptr<ParsedAttrInfo>>>
PluginAttrInstances;
if (PluginAttrInstances->empty())
for (auto It : ParsedAttrInfoRegistry::entries())
PluginAttrInstances->emplace_back(It.instantiate());
// Search for a ParsedAttrInfo whose name and syntax match.
std::string FullName = A.getNormalizedFullName();
AttributeCommonInfo::Syntax SyntaxUsed = A.getSyntax();
if (SyntaxUsed == AttributeCommonInfo::AS_ContextSensitiveKeyword)
SyntaxUsed = AttributeCommonInfo::AS_Keyword;
for (auto &Ptr : *PluginAttrInstances)
for (auto &S : Ptr->Spellings)
if (S.Syntax == SyntaxUsed && S.NormalizedFullName == FullName)
return *Ptr;
// If we failed to find a match then return a default ParsedAttrInfo.
static const ParsedAttrInfo DefaultParsedAttrInfo(
AttributeCommonInfo::UnknownAttribute);
return DefaultParsedAttrInfo;
}
ArrayRef<const ParsedAttrInfo *> ParsedAttrInfo::getAllBuiltin() {
return llvm::makeArrayRef(AttrInfoMap);
}
unsigned ParsedAttr::getMinArgs() const { return getInfo().NumArgs; }
unsigned ParsedAttr::getMaxArgs() const {
return getMinArgs() + getInfo().OptArgs;
}
unsigned ParsedAttr::getNumArgMembers() const {
return getInfo().NumArgMembers;
}
bool ParsedAttr::hasCustomParsing() const {
return getInfo().HasCustomParsing;
}
bool ParsedAttr::diagnoseAppertainsTo(Sema &S, const Decl *D) const {
return getInfo().diagAppertainsToDecl(S, *this, D);
}
bool ParsedAttr::diagnoseAppertainsTo(Sema &S, const Stmt *St) const {
return getInfo().diagAppertainsToStmt(S, *this, St);
}
bool ParsedAttr::diagnoseMutualExclusion(Sema &S, const Decl *D) const {
return getInfo().diagMutualExclusion(S, *this, D);
}
bool ParsedAttr::appliesToDecl(const Decl *D,
attr::SubjectMatchRule MatchRule) const {
return checkAttributeMatchRuleAppliesTo(D, MatchRule);
}
void ParsedAttr::getMatchRules(
const LangOptions &LangOpts,
SmallVectorImpl<std::pair<attr::SubjectMatchRule, bool>> &MatchRules)
const {
return getInfo().getPragmaAttributeMatchRules(MatchRules, LangOpts);
}
bool ParsedAttr::diagnoseLangOpts(Sema &S) const {
if (getInfo().acceptsLangOpts(S.getLangOpts()))
return true;
S.Diag(getLoc(), diag::warn_attribute_ignored) << *this;
return false;
}
bool ParsedAttr::isTargetSpecificAttr() const {
return getInfo().IsTargetSpecific;
}
bool ParsedAttr::isTypeAttr() const { return getInfo().IsType; }
bool ParsedAttr::isStmtAttr() const { return getInfo().IsStmt; }
bool ParsedAttr::existsInTarget(const TargetInfo &Target) const {
return getInfo().existsInTarget(Target);
}
bool ParsedAttr::isKnownToGCC() const { return getInfo().IsKnownToGCC; }
bool ParsedAttr::isSupportedByPragmaAttribute() const {
return getInfo().IsSupportedByPragmaAttribute;
}
bool ParsedAttr::acceptsExprPack() const { return getInfo().AcceptsExprPack; }
unsigned ParsedAttr::getSemanticSpelling() const {
return getInfo().spellingIndexToSemanticSpelling(*this);
}
bool ParsedAttr::hasVariadicArg() const {
// If the attribute has the maximum number of optional arguments, we will
// claim that as being variadic. If we someday get an attribute that
// legitimately bumps up against that maximum, we can use another bit to track
// whether it's truly variadic or not.
return getInfo().OptArgs == 15;
}
bool ParsedAttr::isParamExpr(size_t N) const {
return getInfo().isParamExpr(N);
}
void ParsedAttr::handleAttrWithDelayedArgs(Sema &S, Decl *D) const {
::handleAttrWithDelayedArgs(S, D, *this);
}
static unsigned getNumAttributeArgs(const ParsedAttr &AL) {
// FIXME: Include the type in the argument list.
return AL.getNumArgs() + AL.hasParsedType();
}
template <typename Compare>
static bool checkAttributeNumArgsImpl(Sema &S, const ParsedAttr &AL,
unsigned Num, unsigned Diag,
Compare Comp) {
if (Comp(getNumAttributeArgs(AL), Num)) {
S.Diag(AL.getLoc(), Diag) << AL << Num;
return false;
}
return true;
}
bool ParsedAttr::checkExactlyNumArgs(Sema &S, unsigned Num) const {
return checkAttributeNumArgsImpl(S, *this, Num,
diag::err_attribute_wrong_number_arguments,
std::not_equal_to<unsigned>());
}
bool ParsedAttr::checkAtLeastNumArgs(Sema &S, unsigned Num) const {
return checkAttributeNumArgsImpl(S, *this, Num,
diag::err_attribute_too_few_arguments,
std::less<unsigned>());
}
bool ParsedAttr::checkAtMostNumArgs(Sema &S, unsigned Num) const {
return checkAttributeNumArgsImpl(S, *this, Num,
diag::err_attribute_too_many_arguments,
std::greater<unsigned>());
}
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