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| //===--- Comment.cpp - Comment AST node implementation --------------------===//
//
// 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
//
//===----------------------------------------------------------------------===//
#include "clang/AST/Comment.h"
#include "clang/AST/ASTContext.h"
#include "clang/AST/Decl.h"
#include "clang/AST/DeclObjC.h"
#include "clang/AST/DeclTemplate.h"
#include "clang/Basic/CharInfo.h"
#include "llvm/Support/ErrorHandling.h"
#include <type_traits>
namespace clang {
namespace comments {
// Check that no comment class has a non-trival destructor. They are allocated
// with a BumpPtrAllocator and therefore their destructor is not executed.
#define ABSTRACT_COMMENT(COMMENT)
#define COMMENT(CLASS, PARENT) \
static_assert(std::is_trivially_destructible<CLASS>::value, \
#CLASS " should be trivially destructible!");
#include "clang/AST/CommentNodes.inc"
#undef COMMENT
#undef ABSTRACT_COMMENT
// DeclInfo is also allocated with a BumpPtrAllocator.
static_assert(std::is_trivially_destructible<DeclInfo>::value,
"DeclInfo should be trivially destructible!");
const char *Comment::getCommentKindName() const {
switch (getCommentKind()) {
case NoCommentKind: return "NoCommentKind";
#define ABSTRACT_COMMENT(COMMENT)
#define COMMENT(CLASS, PARENT) \
case CLASS##Kind: \
return #CLASS;
#include "clang/AST/CommentNodes.inc"
#undef COMMENT
#undef ABSTRACT_COMMENT
}
llvm_unreachable("Unknown comment kind!");
}
namespace {
struct good {};
struct bad {};
template <typename T>
good implements_child_begin_end(Comment::child_iterator (T::*)() const) {
return good();
}
LLVM_ATTRIBUTE_UNUSED
static inline bad implements_child_begin_end(
Comment::child_iterator (Comment::*)() const) {
return bad();
}
#define ASSERT_IMPLEMENTS_child_begin(function) \
(void) good(implements_child_begin_end(function))
LLVM_ATTRIBUTE_UNUSED
static inline void CheckCommentASTNodes() {
#define ABSTRACT_COMMENT(COMMENT)
#define COMMENT(CLASS, PARENT) \
ASSERT_IMPLEMENTS_child_begin(&CLASS::child_begin); \
ASSERT_IMPLEMENTS_child_begin(&CLASS::child_end);
#include "clang/AST/CommentNodes.inc"
#undef COMMENT
#undef ABSTRACT_COMMENT
}
#undef ASSERT_IMPLEMENTS_child_begin
} // end unnamed namespace
Comment::child_iterator Comment::child_begin() const {
switch (getCommentKind()) {
case NoCommentKind: llvm_unreachable("comment without a kind");
#define ABSTRACT_COMMENT(COMMENT)
#define COMMENT(CLASS, PARENT) \
case CLASS##Kind: \
return static_cast<const CLASS *>(this)->child_begin();
#include "clang/AST/CommentNodes.inc"
#undef COMMENT
#undef ABSTRACT_COMMENT
}
llvm_unreachable("Unknown comment kind!");
}
Comment::child_iterator Comment::child_end() const {
switch (getCommentKind()) {
case NoCommentKind: llvm_unreachable("comment without a kind");
#define ABSTRACT_COMMENT(COMMENT)
#define COMMENT(CLASS, PARENT) \
case CLASS##Kind: \
return static_cast<const CLASS *>(this)->child_end();
#include "clang/AST/CommentNodes.inc"
#undef COMMENT
#undef ABSTRACT_COMMENT
}
llvm_unreachable("Unknown comment kind!");
}
bool TextComment::isWhitespaceNoCache() const {
for (StringRef::const_iterator I = Text.begin(), E = Text.end();
I != E; ++I) {
if (!clang::isWhitespace(*I))
return false;
}
return true;
}
bool ParagraphComment::isWhitespaceNoCache() const {
for (child_iterator I = child_begin(), E = child_end(); I != E; ++I) {
if (const TextComment *TC = dyn_cast<TextComment>(*I)) {
if (!TC->isWhitespace())
return false;
} else
return false;
}
return true;
}
static TypeLoc lookThroughTypedefOrTypeAliasLocs(TypeLoc &SrcTL) {
TypeLoc TL = SrcTL.IgnoreParens();
// Look through attribute types.
if (AttributedTypeLoc AttributeTL = TL.getAs<AttributedTypeLoc>())
return AttributeTL.getModifiedLoc();
// Look through qualified types.
if (QualifiedTypeLoc QualifiedTL = TL.getAs<QualifiedTypeLoc>())
return QualifiedTL.getUnqualifiedLoc();
// Look through pointer types.
if (PointerTypeLoc PointerTL = TL.getAs<PointerTypeLoc>())
return PointerTL.getPointeeLoc().getUnqualifiedLoc();
// Look through reference types.
if (ReferenceTypeLoc ReferenceTL = TL.getAs<ReferenceTypeLoc>())
return ReferenceTL.getPointeeLoc().getUnqualifiedLoc();
// Look through adjusted types.
if (AdjustedTypeLoc ATL = TL.getAs<AdjustedTypeLoc>())
return ATL.getOriginalLoc();
if (BlockPointerTypeLoc BlockPointerTL = TL.getAs<BlockPointerTypeLoc>())
return BlockPointerTL.getPointeeLoc().getUnqualifiedLoc();
if (MemberPointerTypeLoc MemberPointerTL = TL.getAs<MemberPointerTypeLoc>())
return MemberPointerTL.getPointeeLoc().getUnqualifiedLoc();
if (ElaboratedTypeLoc ETL = TL.getAs<ElaboratedTypeLoc>())
return ETL.getNamedTypeLoc();
return TL;
}
static bool getFunctionTypeLoc(TypeLoc TL, FunctionTypeLoc &ResFTL) {
TypeLoc PrevTL;
while (PrevTL != TL) {
PrevTL = TL;
TL = lookThroughTypedefOrTypeAliasLocs(TL);
}
if (FunctionTypeLoc FTL = TL.getAs<FunctionTypeLoc>()) {
ResFTL = FTL;
return true;
}
if (TemplateSpecializationTypeLoc STL =
TL.getAs<TemplateSpecializationTypeLoc>()) {
// If we have a typedef to a template specialization with exactly one
// template argument of a function type, this looks like std::function,
// boost::function, or other function wrapper. Treat these typedefs as
// functions.
if (STL.getNumArgs() != 1)
return false;
TemplateArgumentLoc MaybeFunction = STL.getArgLoc(0);
if (MaybeFunction.getArgument().getKind() != TemplateArgument::Type)
return false;
TypeSourceInfo *MaybeFunctionTSI = MaybeFunction.getTypeSourceInfo();
TypeLoc TL = MaybeFunctionTSI->getTypeLoc().getUnqualifiedLoc();
if (FunctionTypeLoc FTL = TL.getAs<FunctionTypeLoc>()) {
ResFTL = FTL;
return true;
}
}
return false;
}
const char *ParamCommandComment::getDirectionAsString(PassDirection D) {
switch (D) {
case ParamCommandComment::In:
return "[in]";
case ParamCommandComment::Out:
return "[out]";
case ParamCommandComment::InOut:
return "[in,out]";
}
llvm_unreachable("unknown PassDirection");
}
void DeclInfo::fill() {
assert(!IsFilled);
// Set defaults.
Kind = OtherKind;
TemplateKind = NotTemplate;
IsObjCMethod = false;
IsInstanceMethod = false;
IsClassMethod = false;
ParamVars = None;
TemplateParameters = nullptr;
if (!CommentDecl) {
// If there is no declaration, the defaults is our only guess.
IsFilled = true;
return;
}
CurrentDecl = CommentDecl;
Decl::Kind K = CommentDecl->getKind();
switch (K) {
default:
// Defaults are should be good for declarations we don't handle explicitly.
break;
case Decl::Function:
case Decl::CXXMethod:
case Decl::CXXConstructor:
case Decl::CXXDestructor:
case Decl::CXXConversion: {
const FunctionDecl *FD = cast<FunctionDecl>(CommentDecl);
Kind = FunctionKind;
ParamVars = FD->parameters();
ReturnType = FD->getReturnType();
unsigned NumLists = FD->getNumTemplateParameterLists();
if (NumLists != 0) {
TemplateKind = TemplateSpecialization;
TemplateParameters =
FD->getTemplateParameterList(NumLists - 1);
}
if (K == Decl::CXXMethod || K == Decl::CXXConstructor ||
K == Decl::CXXDestructor || K == Decl::CXXConversion) {
const CXXMethodDecl *MD = cast<CXXMethodDecl>(CommentDecl);
IsInstanceMethod = MD->isInstance();
IsClassMethod = !IsInstanceMethod;
}
break;
}
case Decl::ObjCMethod: {
const ObjCMethodDecl *MD = cast<ObjCMethodDecl>(CommentDecl);
Kind = FunctionKind;
ParamVars = MD->parameters();
ReturnType = MD->getReturnType();
IsObjCMethod = true;
IsInstanceMethod = MD->isInstanceMethod();
IsClassMethod = !IsInstanceMethod;
break;
}
case Decl::FunctionTemplate: {
const FunctionTemplateDecl *FTD = cast<FunctionTemplateDecl>(CommentDecl);
Kind = FunctionKind;
TemplateKind = Template;
const FunctionDecl *FD = FTD->getTemplatedDecl();
ParamVars = FD->parameters();
ReturnType = FD->getReturnType();
TemplateParameters = FTD->getTemplateParameters();
break;
}
case Decl::ClassTemplate: {
const ClassTemplateDecl *CTD = cast<ClassTemplateDecl>(CommentDecl);
Kind = ClassKind;
TemplateKind = Template;
TemplateParameters = CTD->getTemplateParameters();
break;
}
case Decl::ClassTemplatePartialSpecialization: {
const ClassTemplatePartialSpecializationDecl *CTPSD =
cast<ClassTemplatePartialSpecializationDecl>(CommentDecl);
Kind = ClassKind;
TemplateKind = TemplatePartialSpecialization;
TemplateParameters = CTPSD->getTemplateParameters();
break;
}
case Decl::ClassTemplateSpecialization:
Kind = ClassKind;
TemplateKind = TemplateSpecialization;
break;
case Decl::Record:
case Decl::CXXRecord:
Kind = ClassKind;
break;
case Decl::Var:
case Decl::Field:
case Decl::EnumConstant:
case Decl::ObjCIvar:
case Decl::ObjCAtDefsField:
case Decl::ObjCProperty: {
const TypeSourceInfo *TSI;
if (const auto *VD = dyn_cast<DeclaratorDecl>(CommentDecl))
TSI = VD->getTypeSourceInfo();
else if (const auto *PD = dyn_cast<ObjCPropertyDecl>(CommentDecl))
TSI = PD->getTypeSourceInfo();
else
TSI = nullptr;
if (TSI) {
TypeLoc TL = TSI->getTypeLoc().getUnqualifiedLoc();
FunctionTypeLoc FTL;
if (getFunctionTypeLoc(TL, FTL)) {
ParamVars = FTL.getParams();
ReturnType = FTL.getReturnLoc().getType();
}
}
Kind = VariableKind;
break;
}
case Decl::Namespace:
Kind = NamespaceKind;
break;
case Decl::TypeAlias:
case Decl::Typedef: {
Kind = TypedefKind;
// If this is a typedef / using to something we consider a function, extract
// arguments and return type.
const TypeSourceInfo *TSI =
K == Decl::Typedef
? cast<TypedefDecl>(CommentDecl)->getTypeSourceInfo()
: cast<TypeAliasDecl>(CommentDecl)->getTypeSourceInfo();
if (!TSI)
break;
TypeLoc TL = TSI->getTypeLoc().getUnqualifiedLoc();
FunctionTypeLoc FTL;
if (getFunctionTypeLoc(TL, FTL)) {
Kind = FunctionKind;
ParamVars = FTL.getParams();
ReturnType = FTL.getReturnLoc().getType();
}
break;
}
case Decl::TypeAliasTemplate: {
const TypeAliasTemplateDecl *TAT = cast<TypeAliasTemplateDecl>(CommentDecl);
Kind = TypedefKind;
TemplateKind = Template;
TemplateParameters = TAT->getTemplateParameters();
TypeAliasDecl *TAD = TAT->getTemplatedDecl();
if (!TAD)
break;
const TypeSourceInfo *TSI = TAD->getTypeSourceInfo();
if (!TSI)
break;
TypeLoc TL = TSI->getTypeLoc().getUnqualifiedLoc();
FunctionTypeLoc FTL;
if (getFunctionTypeLoc(TL, FTL)) {
Kind = FunctionKind;
ParamVars = FTL.getParams();
ReturnType = FTL.getReturnLoc().getType();
}
break;
}
case Decl::Enum:
Kind = EnumKind;
break;
}
IsFilled = true;
}
StringRef ParamCommandComment::getParamName(const FullComment *FC) const {
assert(isParamIndexValid());
if (isVarArgParam())
return "...";
return FC->getDeclInfo()->ParamVars[getParamIndex()]->getName();
}
StringRef TParamCommandComment::getParamName(const FullComment *FC) const {
assert(isPositionValid());
const TemplateParameterList *TPL = FC->getDeclInfo()->TemplateParameters;
for (unsigned i = 0, e = getDepth(); i != e; ++i) {
if (i == e-1)
return TPL->getParam(getIndex(i))->getName();
const NamedDecl *Param = TPL->getParam(getIndex(i));
if (const TemplateTemplateParmDecl *TTP =
dyn_cast<TemplateTemplateParmDecl>(Param))
TPL = TTP->getTemplateParameters();
}
return "";
}
} // end namespace comments
} // end namespace clang
|