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d5f94a6a5928e4a7df137edf974220bb0683ffae
llvm-project/clang/lib/Index/IndexBody.cpp
Martin Bohme d5f94a6a59 Visit lambda capture inits from RecursiveASTVisitor::TraverseLambdaCapture(). 
Summary:
rL277342 made RecursiveASTVisitor visit lambda capture initialization
expressions (these are the Exprs in LambdaExpr::capture_inits()).

jdennett identified two issues with rL277342 (see comments there for details):

- It visits initialization expressions for implicit lambda captures, even if
  shouldVisitImplicitCode() returns false.

- It visits initialization expressions for init captures twice (because these
  were already traveresed in TraverseLambdaCapture() before rL277342)

This patch fixes these issues and moves the code for traversing initialization
expressions into TraverseLambdaCapture().

This patch also makes two changes required for the tests:

- It adds Lang_CXX14 to the Language enum in TestVisitor.

- It adds a parameter to ExpectedLocationVisitor::ExpectMatch() that specifies
  the number of times a match is expected to be seen.

Reviewers: klimek, jdennett, alexfh

Subscribers: cfe-commits

Differential Revision: https://reviews.llvm.org/D23204

llvm-svn: 278933
2016-08-17 14:59:53 +00:00

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//===- IndexBody.cpp - Indexing statements --------------------------------===//
//
// The LLVM Compiler Infrastructure
//
// This file is distributed under the University of Illinois Open Source
// License. See LICENSE.TXT for details.
//
//===----------------------------------------------------------------------===//
#include "IndexingContext.h"
#include "clang/AST/RecursiveASTVisitor.h"
using namespace clang;
using namespace clang::index;
namespace {
class BodyIndexer : public RecursiveASTVisitor<BodyIndexer> {
IndexingContext &IndexCtx;
const NamedDecl *Parent;
const DeclContext *ParentDC;
SmallVector<Stmt*, 16> StmtStack;
typedef RecursiveASTVisitor<BodyIndexer> base;
public:
BodyIndexer(IndexingContext &indexCtx,
const NamedDecl *Parent, const DeclContext *DC)
: IndexCtx(indexCtx), Parent(Parent), ParentDC(DC) { }
bool shouldWalkTypesOfTypeLocs() const { return false; }
bool dataTraverseStmtPre(Stmt *S) {
StmtStack.push_back(S);
return true;
}
bool dataTraverseStmtPost(Stmt *S) {
assert(StmtStack.back() == S);
StmtStack.pop_back();
return true;
}
bool TraverseTypeLoc(TypeLoc TL) {
IndexCtx.indexTypeLoc(TL, Parent, ParentDC);
return true;
}
bool TraverseNestedNameSpecifierLoc(NestedNameSpecifierLoc NNS) {
IndexCtx.indexNestedNameSpecifierLoc(NNS, Parent, ParentDC);
return true;
}
SymbolRoleSet getRolesForRef(const Expr *E,
SmallVectorImpl<SymbolRelation> &Relations) {
SymbolRoleSet Roles{};
assert(!StmtStack.empty() && E == StmtStack.back());
if (StmtStack.size() == 1)
return Roles;
auto It = StmtStack.end()-2;
while (isa<CastExpr>(*It) || isa<ParenExpr>(*It)) {
if (auto ICE = dyn_cast<ImplicitCastExpr>(*It)) {
if (ICE->getCastKind() == CK_LValueToRValue)
Roles |= (unsigned)(unsigned)SymbolRole::Read;
}
if (It == StmtStack.begin())
break;
--It;
}
const Stmt *Parent = *It;
if (auto BO = dyn_cast<BinaryOperator>(Parent)) {
if (BO->getOpcode() == BO_Assign && BO->getLHS()->IgnoreParenCasts() == E)
Roles |= (unsigned)SymbolRole::Write;
} else if (auto UO = dyn_cast<UnaryOperator>(Parent)) {
if (UO->isIncrementDecrementOp()) {
Roles |= (unsigned)SymbolRole::Read;
Roles |= (unsigned)SymbolRole::Write;
} else if (UO->getOpcode() == UO_AddrOf) {
Roles |= (unsigned)SymbolRole::AddressOf;
}
} else if (auto CA = dyn_cast<CompoundAssignOperator>(Parent)) {
if (CA->getLHS()->IgnoreParenCasts() == E) {
Roles |= (unsigned)SymbolRole::Read;
Roles |= (unsigned)SymbolRole::Write;
}
} else if (auto CE = dyn_cast<CallExpr>(Parent)) {
if (CE->getCallee()->IgnoreParenCasts() == E) {
addCallRole(Roles, Relations);
if (auto *ME = dyn_cast<MemberExpr>(E)) {
if (auto *CXXMD = dyn_cast_or_null<CXXMethodDecl>(ME->getMemberDecl()))
if (CXXMD->isVirtual() && !ME->hasQualifier()) {
Roles |= (unsigned)SymbolRole::Dynamic;
auto BaseTy = ME->getBase()->IgnoreImpCasts()->getType();
if (!BaseTy.isNull())
if (auto *CXXRD = BaseTy->getPointeeCXXRecordDecl())
Relations.emplace_back((unsigned)SymbolRole::RelationReceivedBy,
CXXRD);
}
}
} else if (auto CXXOp = dyn_cast<CXXOperatorCallExpr>(CE)) {
if (CXXOp->getNumArgs() > 0 && CXXOp->getArg(0)->IgnoreParenCasts() == E) {
OverloadedOperatorKind Op = CXXOp->getOperator();
if (Op == OO_Equal) {
Roles |= (unsigned)SymbolRole::Write;
} else if ((Op >= OO_PlusEqual && Op <= OO_PipeEqual) ||
Op == OO_LessLessEqual || Op == OO_GreaterGreaterEqual ||
Op == OO_PlusPlus || Op == OO_MinusMinus) {
Roles |= (unsigned)SymbolRole::Read;
Roles |= (unsigned)SymbolRole::Write;
} else if (Op == OO_Amp) {
Roles |= (unsigned)SymbolRole::AddressOf;
}
}
}
}
return Roles;
}
void addCallRole(SymbolRoleSet &Roles,
SmallVectorImpl<SymbolRelation> &Relations) {
Roles |= (unsigned)SymbolRole::Call;
if (auto *FD = dyn_cast<FunctionDecl>(ParentDC))
Relations.emplace_back((unsigned)SymbolRole::RelationCalledBy, FD);
else if (auto *MD = dyn_cast<ObjCMethodDecl>(ParentDC))
Relations.emplace_back((unsigned)SymbolRole::RelationCalledBy, MD);
}
bool VisitDeclRefExpr(DeclRefExpr *E) {
SmallVector<SymbolRelation, 4> Relations;
SymbolRoleSet Roles = getRolesForRef(E, Relations);
return IndexCtx.handleReference(E->getDecl(), E->getLocation(),
Parent, ParentDC, Roles, Relations, E);
}
bool VisitMemberExpr(MemberExpr *E) {
SourceLocation Loc = E->getMemberLoc();
if (Loc.isInvalid())
Loc = E->getLocStart();
SmallVector<SymbolRelation, 4> Relations;
SymbolRoleSet Roles = getRolesForRef(E, Relations);
return IndexCtx.handleReference(E->getMemberDecl(), Loc,
Parent, ParentDC, Roles, Relations, E);
}
bool VisitDesignatedInitExpr(DesignatedInitExpr *E) {
for (DesignatedInitExpr::Designator &D : llvm::reverse(E->designators())) {
if (D.isFieldDesignator() && D.getField())
return IndexCtx.handleReference(D.getField(), D.getFieldLoc(), Parent,
ParentDC, SymbolRoleSet(), {}, E);
}
return true;
}
bool VisitObjCIvarRefExpr(ObjCIvarRefExpr *E) {
SmallVector<SymbolRelation, 4> Relations;
SymbolRoleSet Roles = getRolesForRef(E, Relations);
return IndexCtx.handleReference(E->getDecl(), E->getLocation(),
Parent, ParentDC, Roles, Relations, E);
}
bool VisitObjCMessageExpr(ObjCMessageExpr *E) {
auto isDynamic = [](const ObjCMessageExpr *MsgE)->bool {
if (MsgE->getReceiverKind() != ObjCMessageExpr::Instance)
return false;
if (auto *RecE = dyn_cast<ObjCMessageExpr>(
MsgE->getInstanceReceiver()->IgnoreParenCasts())) {
if (RecE->getMethodFamily() == OMF_alloc)
return false;
}
return true;
};
if (ObjCMethodDecl *MD = E->getMethodDecl()) {
SymbolRoleSet Roles{};
SmallVector<SymbolRelation, 2> Relations;
addCallRole(Roles, Relations);
if (E->isImplicit())
Roles |= (unsigned)SymbolRole::Implicit;
if (isDynamic(E)) {
Roles |= (unsigned)SymbolRole::Dynamic;
if (auto *RecD = E->getReceiverInterface())
Relations.emplace_back((unsigned)SymbolRole::RelationReceivedBy, RecD);
}
return IndexCtx.handleReference(MD, E->getSelectorStartLoc(),
Parent, ParentDC, Roles, Relations, E);
}
return true;
}
bool VisitObjCPropertyRefExpr(ObjCPropertyRefExpr *E) {
if (E->isExplicitProperty())
return IndexCtx.handleReference(E->getExplicitProperty(), E->getLocation(),
Parent, ParentDC, SymbolRoleSet(), {}, E);
// No need to do a handleReference for the objc method, because there will
// be a message expr as part of PseudoObjectExpr.
return true;
}
bool VisitMSPropertyRefExpr(MSPropertyRefExpr *E) {
return IndexCtx.handleReference(E->getPropertyDecl(), E->getMemberLoc(),
Parent, ParentDC, SymbolRoleSet(), {}, E);
}
bool VisitObjCProtocolExpr(ObjCProtocolExpr *E) {
return IndexCtx.handleReference(E->getProtocol(), E->getProtocolIdLoc(),
Parent, ParentDC, SymbolRoleSet(), {}, E);
}
bool passObjCLiteralMethodCall(const ObjCMethodDecl *MD, const Expr *E) {
SymbolRoleSet Roles{};
SmallVector<SymbolRelation, 2> Relations;
addCallRole(Roles, Relations);
Roles |= (unsigned)SymbolRole::Implicit;
return IndexCtx.handleReference(MD, E->getLocStart(),
Parent, ParentDC, Roles, Relations, E);
}
bool VisitObjCBoxedExpr(ObjCBoxedExpr *E) {
if (ObjCMethodDecl *MD = E->getBoxingMethod()) {
return passObjCLiteralMethodCall(MD, E);
}
return true;
}
bool VisitObjCDictionaryLiteral(ObjCDictionaryLiteral *E) {
if (ObjCMethodDecl *MD = E->getDictWithObjectsMethod()) {
return passObjCLiteralMethodCall(MD, E);
}
return true;
}
bool VisitObjCArrayLiteral(ObjCArrayLiteral *E) {
if (ObjCMethodDecl *MD = E->getArrayWithObjectsMethod()) {
return passObjCLiteralMethodCall(MD, E);
}
return true;
}
bool VisitCXXConstructExpr(CXXConstructExpr *E) {
SymbolRoleSet Roles{};
SmallVector<SymbolRelation, 2> Relations;
addCallRole(Roles, Relations);
return IndexCtx.handleReference(E->getConstructor(), E->getLocation(),
Parent, ParentDC, Roles, Relations, E);
}
bool TraverseCXXOperatorCallExpr(CXXOperatorCallExpr *E,
DataRecursionQueue *Q = nullptr) {
if (E->getOperatorLoc().isInvalid())
return true; // implicit.
return base::TraverseCXXOperatorCallExpr(E, Q);
}
bool VisitDeclStmt(DeclStmt *S) {
if (IndexCtx.shouldIndexFunctionLocalSymbols()) {
IndexCtx.indexDeclGroupRef(S->getDeclGroup());
return true;
}
DeclGroupRef DG = S->getDeclGroup();
for (DeclGroupRef::iterator I = DG.begin(), E = DG.end(); I != E; ++I) {
const Decl *D = *I;
if (!D)
continue;
if (!IndexCtx.isFunctionLocalDecl(D))
IndexCtx.indexTopLevelDecl(D);
}
return true;
}
bool TraverseLambdaCapture(LambdaExpr *LE, const LambdaCapture *C,
Expr *Init) {
if (C->capturesThis() || C->capturesVLAType())
return true;
if (C->capturesVariable() && IndexCtx.shouldIndexFunctionLocalSymbols())
return IndexCtx.handleReference(C->getCapturedVar(), C->getLocation(),
Parent, ParentDC, SymbolRoleSet());
// FIXME: Lambda init-captures.
return true;
}
// RecursiveASTVisitor visits both syntactic and semantic forms, duplicating
// the things that we visit. Make sure to only visit the semantic form.
// Also visit things that are in the syntactic form but not the semantic one,
// for example the indices in DesignatedInitExprs.
bool TraverseInitListExpr(InitListExpr *S, DataRecursionQueue *Q = nullptr) {
class SyntacticFormIndexer :
public RecursiveASTVisitor<SyntacticFormIndexer> {
IndexingContext &IndexCtx;
const NamedDecl *Parent;
const DeclContext *ParentDC;
public:
SyntacticFormIndexer(IndexingContext &indexCtx,
const NamedDecl *Parent, const DeclContext *DC)
: IndexCtx(indexCtx), Parent(Parent), ParentDC(DC) { }
bool shouldWalkTypesOfTypeLocs() const { return false; }
bool VisitDesignatedInitExpr(DesignatedInitExpr *E) {
for (DesignatedInitExpr::Designator &D : llvm::reverse(E->designators())) {
if (D.isFieldDesignator())
return IndexCtx.handleReference(D.getField(), D.getFieldLoc(),
Parent, ParentDC, SymbolRoleSet(),
{}, E);
}
return true;
}
};
auto visitForm = [&](InitListExpr *Form) {
for (Stmt *SubStmt : Form->children()) {
if (!TraverseStmt(SubStmt, Q))
return false;
}
return true;
};
InitListExpr *SemaForm = S->isSemanticForm() ? S : S->getSemanticForm();
InitListExpr *SyntaxForm = S->isSemanticForm() ? S->getSyntacticForm() : S;
if (SemaForm) {
// Visit things present in syntactic form but not the semantic form.
if (SyntaxForm) {
SyntacticFormIndexer(IndexCtx, Parent, ParentDC).TraverseStmt(SyntaxForm);
}
return visitForm(SemaForm);
}
// No semantic, try the syntactic.
if (SyntaxForm) {
return visitForm(SyntaxForm);
}
return true;
}
};
} // anonymous namespace
void IndexingContext::indexBody(const Stmt *S, const NamedDecl *Parent,
const DeclContext *DC) {
if (!S)
return;
if (!DC)
DC = Parent->getLexicalDeclContext();
BodyIndexer(*this, Parent, DC).TraverseStmt(const_cast<Stmt*>(S));
}
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