maxjhandsome
/
llvm-project
forked from OSchip/llvm-project
1
0
Fork 0
Code Issues Pull Requests Packages Releases Wiki Activity

Revert "[clang] NRVO: Improvements and handling of more cases." 

This reverts commit 667fbcdd0b.

Causes crashes on a stage 2 build on Windows.
This commit is contained in:
Arthur Eubanks 2021-06-10 20:33:36 -07:00
parent db26615aa6
commit 85ca7e424f
7 changed files with 198 additions and 230 deletions
Show Stats Download Patch File Download Diff File Expand all files Collapse all files

40
clang/include/clang/Sema/Sema.h
View File

@ -3455,6 +3455,12 @@ public:
bool DiagnoseMultipleUserDefinedConversion(Expr *From, QualType ToType);
bool isSameOrCompatibleFunctionType(CanQualType Param, CanQualType Arg);
ExprResult PerformMoveOrCopyInitialization(const InitializedEntity &Entity,
const VarDecl *NRVOCandidate,
QualType ResultType,
Expr *Value,
bool AllowNRVO = true);
bool CanPerformAggregateInitializationForOverloadResolution(
const InitializedEntity &Entity, InitListExpr *From);
@ -4754,30 +4760,28 @@ public:
SourceLocation Loc,
unsigned NumParams);
struct NamedReturnInfo {
const VarDecl *Candidate;
enum Status : uint8_t { None, MoveEligible, MoveEligibleAndCopyElidable };
Status S;
bool isMoveEligible() const { return S != None; };
bool isCopyElidable() const { return S == MoveEligibleAndCopyElidable; }
enum CopyElisionSemanticsKind {
CES_Strict = 0,
CES_AllowParameters = 1,
CES_AllowDifferentTypes = 2,
CES_AllowExceptionVariables = 4,
CES_AllowRValueReferenceType = 8,
CES_ImplicitlyMovableCXX11CXX14CXX17 =
(CES_AllowParameters | CES_AllowDifferentTypes),
CES_ImplicitlyMovableCXX20 =
(CES_AllowParameters | CES_AllowDifferentTypes |
CES_AllowExceptionVariables | CES_AllowRValueReferenceType),
};
NamedReturnInfo getNamedReturnInfo(const Expr *E, bool ForceCXX20 = false);
NamedReturnInfo getNamedReturnInfo(const VarDecl *VD,
bool ForceCXX20 = false);
const VarDecl *getCopyElisionCandidate(NamedReturnInfo &Info,
QualType ReturnType);
ExprResult PerformMoveOrCopyInitialization(const InitializedEntity &Entity,
const NamedReturnInfo &NRInfo,
Expr *Value);
VarDecl *getCopyElisionCandidate(QualType ReturnType, Expr *E,
CopyElisionSemanticsKind CESK);
bool isCopyElisionCandidate(QualType ReturnType, const VarDecl *VD,
CopyElisionSemanticsKind CESK);
StmtResult ActOnReturnStmt(SourceLocation ReturnLoc, Expr *RetValExp,
Scope *CurScope);
StmtResult BuildReturnStmt(SourceLocation ReturnLoc, Expr *RetValExp);
StmtResult ActOnCapScopeReturnStmt(SourceLocation ReturnLoc, Expr *RetValExp,
NamedReturnInfo &NRInfo);
StmtResult ActOnCapScopeReturnStmt(SourceLocation ReturnLoc, Expr *RetValExp);
StmtResult ActOnGCCAsmStmt(SourceLocation AsmLoc, bool IsSimple,
bool IsVolatile, unsigned NumOutputs,

7
clang/lib/Sema/Sema.cpp
View File

@ -1949,10 +1949,9 @@ static void checkEscapingByref(VarDecl *VD, Sema &S) {
SourceLocation Loc = VD->getLocation();
Expr *VarRef =
new (S.Context) DeclRefExpr(S.Context, VD, false, T, VK_LValue, Loc);
ExprResult Result = S.PerformCopyInitialization(
InitializedEntity::InitializeBlock(Loc, T, false), SourceLocation(),
VarRef);
ExprResult Result = S.PerformMoveOrCopyInitialization(
InitializedEntity::InitializeBlock(Loc, T, false), VD, VD->getType(),
VarRef, /*AllowNRVO=*/true);
if (!Result.isInvalid()) {
Result = S.MaybeCreateExprWithCleanups(Result);
Expr *Init = Result.getAs<Expr>();

20
clang/lib/Sema/SemaCoroutine.cpp
View File

@ -995,14 +995,18 @@ StmtResult Sema::BuildCoreturnStmt(SourceLocation Loc, Expr *E,
}
// Move the return value if we can
NamedReturnInfo NRInfo = getNamedReturnInfo(E, /*ForceCXX20=*/true);
if (NRInfo.isMoveEligible()) {
InitializedEntity Entity = InitializedEntity::InitializeResult(
Loc, E->getType(), NRInfo.Candidate);
ExprResult MoveResult = PerformMoveOrCopyInitialization(Entity, NRInfo, E);
if (E) {
const VarDecl *NRVOCandidate = this->getCopyElisionCandidate(
E->getType(), E, CES_ImplicitlyMovableCXX20);
if (NRVOCandidate) {
InitializedEntity Entity =
InitializedEntity::InitializeResult(Loc, E->getType(), NRVOCandidate);
ExprResult MoveResult = this->PerformMoveOrCopyInitialization(
Entity, NRVOCandidate, E->getType(), E);
if (MoveResult.get())
E = MoveResult.get();
}
}
// FIXME: If the operand is a reference to a variable that's about to go out
// of scope, we should treat the operand as an xvalue for this overload
@ -1566,7 +1570,7 @@ bool CoroutineStmtBuilder::makeGroDeclAndReturnStmt() {
// Trigger a nice error message.
InitializedEntity Entity =
InitializedEntity::InitializeResult(Loc, FnRetType, false);
S.PerformCopyInitialization(Entity, SourceLocation(), ReturnValue);
S.PerformMoveOrCopyInitialization(Entity, nullptr, FnRetType, ReturnValue);
noteMemberDeclaredHere(S, ReturnValue, Fn);
return false;
}
@ -1582,8 +1586,8 @@ bool CoroutineStmtBuilder::makeGroDeclAndReturnStmt() {
return false;
InitializedEntity Entity = InitializedEntity::InitializeVariable(GroDecl);
ExprResult Res =
S.PerformCopyInitialization(Entity, SourceLocation(), ReturnValue);
ExprResult Res = S.PerformMoveOrCopyInitialization(Entity, nullptr, GroType,
this->ReturnValue);
if (Res.isInvalid())
return false;

10
clang/lib/Sema/SemaExprCXX.cpp
View File

@ -873,13 +873,15 @@ ExprResult Sema::BuildCXXThrow(SourceLocation OpLoc, Expr *Ex,
// operation from the operand to the exception object (15.1) can be
// omitted by constructing the automatic object directly into the
// exception object
NamedReturnInfo NRInfo =
IsThrownVarInScope ? getNamedReturnInfo(Ex) : NamedReturnInfo();
const VarDecl *NRVOVariable = nullptr;
if (IsThrownVarInScope)
NRVOVariable = getCopyElisionCandidate(QualType(), Ex, CES_Strict);
InitializedEntity Entity = InitializedEntity::InitializeException(
OpLoc, ExceptionObjectTy,
/*NRVO=*/NRInfo.isCopyElidable());
ExprResult Res = PerformMoveOrCopyInitialization(Entity, NRInfo, Ex);
/*NRVO=*/NRVOVariable != nullptr);
ExprResult Res = PerformMoveOrCopyInitialization(
Entity, NRVOVariable, QualType(), Ex, IsThrownVarInScope);
if (Res.isInvalid())
return ExprError();
Ex = Res.get();

285
clang/lib/Sema/SemaStmt.cpp
View File

@ -3307,153 +3307,99 @@ Sema::ActOnBreakStmt(SourceLocation BreakLoc, Scope *CurScope) {
return new (Context) BreakStmt(BreakLoc);
}
/// Determine whether the given expression might be move-eligible or
/// copy-elidable in either a (co_)return statement or throw expression,
/// without considering function return type, if applicable.
/// Determine whether the given expression is a candidate for
/// copy elision in either a return statement or a throw expression.
///
/// \param E The expression being returned from the function or block,
/// being thrown, or being co_returned from a coroutine.
/// \param ReturnType If we're determining the copy elision candidate for
/// a return statement, this is the return type of the function. If we're
/// determining the copy elision candidate for a throw expression, this will
/// be a NULL type.
///
/// \param ForceCXX20 Overrides detection of current language mode
/// and uses the rules for C++20.
/// \param E The expression being returned from the function or block, or
/// being thrown.
///
/// \returns An aggregate which contains the Candidate and isMoveEligible
/// and isCopyElidable methods. If Candidate is non-null, it means
/// isMoveEligible() would be true under the most permissive language standard.
Sema::NamedReturnInfo Sema::getNamedReturnInfo(const Expr *E, bool ForceCXX20) {
if (!E)
return NamedReturnInfo();
/// \param CESK Whether we allow function parameters or
/// id-expressions that could be moved out of the function to be considered NRVO
/// candidates. C++ prohibits these for NRVO itself, but we re-use this logic to
/// determine whether we should try to move as part of a return or throw (which
/// does allow function parameters).
///
/// \returns The NRVO candidate variable, if the return statement may use the
/// NRVO, or NULL if there is no such candidate.
VarDecl *Sema::getCopyElisionCandidate(QualType ReturnType, Expr *E,
CopyElisionSemanticsKind CESK) {
// - in a return statement in a function [where] ...
// ... the expression is the name of a non-volatile automatic object ...
const auto *DR = dyn_cast<DeclRefExpr>(E->IgnoreParens());
DeclRefExpr *DR = dyn_cast<DeclRefExpr>(E->IgnoreParens());
if (!DR || DR->refersToEnclosingVariableOrCapture())
return NamedReturnInfo();
const auto *VD = dyn_cast<VarDecl>(DR->getDecl());
return nullptr;
VarDecl *VD = dyn_cast<VarDecl>(DR->getDecl());
if (!VD)
return NamedReturnInfo();
return getNamedReturnInfo(VD, ForceCXX20);
return nullptr;
if (isCopyElisionCandidate(ReturnType, VD, CESK))
return VD;
return nullptr;
}
/// Updates the status in the given NamedReturnInfo object to disallow
/// copy elision, and optionally also implicit move.
///
/// \param Info The NamedReturnInfo object to update.
///
/// \param CanMove If true, disallow only copy elision.
/// If false, also disallow implcit move.
static void disallowNRVO(Sema::NamedReturnInfo &Info, bool CanMove) {
Info.S = std::min(Info.S, CanMove ? Sema::NamedReturnInfo::MoveEligible
: Sema::NamedReturnInfo::None);
}
/// Determine whether the given NRVO candidate variable is move-eligible or
/// copy-elidable, without considering function return type.
///
/// \param VD The NRVO candidate variable.
///
/// \param ForceCXX20 Overrides detection of current language mode
/// and uses the rules for C++20.
///
/// \returns An aggregate which contains the Candidate and isMoveEligible
/// and isCopyElidable methods. If Candidate is non-null, it means
/// isMoveEligible() would be true under the most permissive language standard.
Sema::NamedReturnInfo Sema::getNamedReturnInfo(const VarDecl *VD,
bool ForceCXX20) {
bool hasCXX11 = getLangOpts().CPlusPlus11 || ForceCXX20;
bool hasCXX20 = getLangOpts().CPlusPlus20 || ForceCXX20;
NamedReturnInfo Info{VD, NamedReturnInfo::MoveEligibleAndCopyElidable};
// C++20 [class.copy.elision]p3:
bool Sema::isCopyElisionCandidate(QualType ReturnType, const VarDecl *VD,
CopyElisionSemanticsKind CESK) {
QualType VDType = VD->getType();
// - in a return statement in a function with ...
// (other than a function ... parameter)
if (VD->getKind() == Decl::ParmVar)
disallowNRVO(Info, hasCXX11);
else if (VD->getKind() != Decl::Var)
return NamedReturnInfo();
// ... a class return type ...
if (!ReturnType.isNull() && !ReturnType->isDependentType()) {
if (!ReturnType->isRecordType())
return false;
// ... the same cv-unqualified type as the function return type ...
// When considering moving this expression out, allow dissimilar types.
if (!(CESK & CES_AllowDifferentTypes) && !VDType->isDependentType() &&
!Context.hasSameUnqualifiedType(ReturnType, VDType))
return false;
}
// (other than ... a catch-clause parameter)
if (VD->isExceptionVariable())
disallowNRVO(Info, hasCXX20);
// ...object (other than a function or catch-clause parameter)...
if (VD->getKind() != Decl::Var &&
!((CESK & CES_AllowParameters) && VD->getKind() == Decl::ParmVar))
return false;
if (!(CESK & CES_AllowExceptionVariables) && VD->isExceptionVariable())
return false;
// ...automatic...
if (!VD->hasLocalStorage())
return NamedReturnInfo();
if (!VD->hasLocalStorage()) return false;
// We don't want to implicitly move out of a __block variable during a return
// because we cannot assume the variable will no longer be used.
// Return false if VD is a __block variable. We don't want to implicitly move
// out of a __block variable during a return because we cannot assume the
// variable will no longer be used.
if (VD->hasAttr<BlocksAttr>())
return NamedReturnInfo();
return false;
QualType VDType = VD->getType();
if (VDType->isObjectType()) {
// C++17 [class.copy.elision]p3:
// ...non-volatile automatic object...
if (VDType.isVolatileQualified())
return NamedReturnInfo();
return false;
} else if (VDType->isRValueReferenceType()) {
// C++20 [class.copy.elision]p3:
// ...either a non-volatile object or an rvalue reference to a non-volatile
// object type...
// ...either a non-volatile object or an rvalue reference to a non-volatile object type...
if (!(CESK & CES_AllowRValueReferenceType))
return false;
QualType VDReferencedType = VDType.getNonReferenceType();
if (VDReferencedType.isVolatileQualified() ||
!VDReferencedType->isObjectType())
return NamedReturnInfo();
disallowNRVO(Info, hasCXX20);
if (VDReferencedType.isVolatileQualified() || !VDReferencedType->isObjectType())
return false;
} else {
return NamedReturnInfo();
return false;
}
if (CESK & CES_AllowDifferentTypes)
return true;
// Variables with higher required alignment than their type's ABI
// alignment cannot use NRVO.
if (!VDType->isDependentType() && VD->hasAttr<AlignedAttr>() &&
Context.getDeclAlign(VD) > Context.getTypeAlignInChars(VDType))
disallowNRVO(Info, hasCXX11);
return false;
return Info;
}
/// Updates given NamedReturnInfo's move-eligible and
/// copy-elidable statuses, considering the function
/// return type criteria as applicable to return statements.
///
/// \param Info The NamedReturnInfo object to update.
///
/// \param ReturnType This is the return type of the function.
/// \returns The copy elision candidate, in case the initial return expression
/// was copy elidable, or nullptr otherwise.
const VarDecl *Sema::getCopyElisionCandidate(NamedReturnInfo &Info,
QualType ReturnType) {
if (!Info.Candidate)
return nullptr;
auto invalidNRVO = [&] {
Info = NamedReturnInfo();
return nullptr;
};
// If we got a non-deduced auto ReturnType, we are in a dependent context and
// there is no point in allowing copy elision since we won't have it deduced
// by the point the VardDecl is instantiated, which is the last chance we have
// of deciding if the candidate is really copy elidable.
if ((ReturnType->getTypeClass() == Type::TypeClass::Auto &&
ReturnType->isCanonicalUnqualified()) ||
ReturnType->isSpecificBuiltinType(BuiltinType::Dependent))
return invalidNRVO();
if (!ReturnType->isDependentType()) {
// - in a return statement in a function with ...
// ... a class return type ...
if (!ReturnType->isRecordType())
return invalidNRVO();
QualType VDType = Info.Candidate->getType();
// ... the same cv-unqualified type as the function return type ...
// When considering moving this expression out, allow dissimilar types.
if (!VDType->isDependentType() &&
!Context.hasSameUnqualifiedType(ReturnType, VDType))
disallowNRVO(Info, getLangOpts().CPlusPlus11);
}
return Info.isCopyElidable() ? Info.Candidate : nullptr;
return true;
}
/// Try to perform the initialization of a potentially-movable value,
@ -3478,7 +3424,8 @@ const VarDecl *Sema::getCopyElisionCandidate(NamedReturnInfo &Info,
/// the selected constructor/operator doesn't match the additional criteria, we
/// need to do the second overload resolution.
static bool TryMoveInitialization(Sema &S, const InitializedEntity &Entity,
const VarDecl *NRVOCandidate, Expr *&Value,
const VarDecl *NRVOCandidate,
QualType ResultType, Expr *&Value,
bool ConvertingConstructorsOnly,
bool IsDiagnosticsCheck, ExprResult &Res) {
ImplicitCastExpr AsRvalue(ImplicitCastExpr::OnStack, Value->getType(),
@ -3561,50 +3508,75 @@ static bool TryMoveInitialization(Sema &S, const InitializedEntity &Entity,
/// This routine implements C++20 [class.copy.elision]p3, which attempts to
/// treat returned lvalues as rvalues in certain cases (to prefer move
/// construction), then falls back to treating them as lvalues if that failed.
ExprResult
Sema::PerformMoveOrCopyInitialization(const InitializedEntity &Entity,
const NamedReturnInfo &NRInfo,
Expr *Value) {
ExprResult Sema::PerformMoveOrCopyInitialization(
const InitializedEntity &Entity, const VarDecl *NRVOCandidate,
QualType ResultType, Expr *Value, bool AllowNRVO) {
ExprResult Res = ExprError();
bool NeedSecondOverloadResolution = true;
if (NRInfo.Candidate) {
if (NRInfo.isMoveEligible()) {
ExprResult Res;
if (!TryMoveInitialization(*this, Entity, NRInfo.Candidate, Value,
!getLangOpts().CPlusPlus20, false, Res))
return Res;
if (AllowNRVO) {
CopyElisionSemanticsKind CESK = CES_Strict;
if (getLangOpts().CPlusPlus20) {
CESK = CES_ImplicitlyMovableCXX20;
} else if (getLangOpts().CPlusPlus11) {
CESK = CES_ImplicitlyMovableCXX11CXX14CXX17;
}
if (!getDiagnostics().isIgnored(diag::warn_return_std_move,
if (!NRVOCandidate) {
NRVOCandidate = getCopyElisionCandidate(ResultType, Value, CESK);
}
if (NRVOCandidate) {
NeedSecondOverloadResolution =
TryMoveInitialization(*this, Entity, NRVOCandidate, ResultType, Value,
!getLangOpts().CPlusPlus20, false, Res);
}
if (!getLangOpts().CPlusPlus20 && NeedSecondOverloadResolution &&
!getDiagnostics().isIgnored(diag::warn_return_std_move,
Value->getExprLoc())) {
QualType QT = NRInfo.Candidate->getType();
if (QT.getNonReferenceType().getUnqualifiedType().isTriviallyCopyableType(
Context)) {
const VarDecl *FakeNRVOCandidate = getCopyElisionCandidate(
QualType(), Value, CES_ImplicitlyMovableCXX20);
if (FakeNRVOCandidate) {
QualType QT = FakeNRVOCandidate->getType();
if (QT->isLValueReferenceType()) {
// Adding 'std::move' around an lvalue reference variable's name is
// dangerous. Don't suggest it.
} else if (QT.getNonReferenceType()
.getUnqualifiedType()
.isTriviallyCopyableType(Context)) {
// Adding 'std::move' around a trivially copyable variable is probably
// pointless. Don't suggest it.
} else {
ExprResult FakeRes = ExprError();
Expr *FakeValue = Value;
TryMoveInitialization(*this, Entity, NRInfo.Candidate, FakeValue, false,
true, FakeRes);
TryMoveInitialization(*this, Entity, FakeNRVOCandidate, ResultType,
FakeValue, false, true, FakeRes);
if (!FakeRes.isInvalid()) {
bool IsThrow = (Entity.getKind() == InitializedEntity::EK_Exception);
bool IsThrow =
(Entity.getKind() == InitializedEntity::EK_Exception);
SmallString<32> Str;
Str += "std::move(";
Str += NRInfo.Candidate->getDeclName().getAsString();
Str += FakeNRVOCandidate->getDeclName().getAsString();
Str += ")";
Diag(Value->getExprLoc(), diag::warn_return_std_move)
<< Value->getSourceRange() << NRInfo.Candidate->getDeclName()
<< IsThrow;
<< Value->getSourceRange()
<< FakeNRVOCandidate->getDeclName() << IsThrow;
Diag(Value->getExprLoc(), diag::note_add_std_move)
<< FixItHint::CreateReplacement(Value->getSourceRange(), Str);
}
}
}
}
}
// Either we didn't meet the criteria for treating an lvalue as an rvalue,
// above, or overload resolution failed. Either way, we need to try
// (again) now with the return value expression as written.
return PerformCopyInitialization(Entity, SourceLocation(), Value);
if (NeedSecondOverloadResolution)
Res = PerformCopyInitialization(Entity, SourceLocation(), Value);
return Res;
}
/// Determine whether the declared return type of the specified function
@ -3618,9 +3590,8 @@ static bool hasDeducedReturnType(FunctionDecl *FD) {
/// ActOnCapScopeReturnStmt - Utility routine to type-check return statements
/// for capturing scopes.
///
StmtResult Sema::ActOnCapScopeReturnStmt(SourceLocation ReturnLoc,
Expr *RetValExp,
NamedReturnInfo &NRInfo) {
StmtResult
Sema::ActOnCapScopeReturnStmt(SourceLocation ReturnLoc, Expr *RetValExp) {
// If this is the first return we've seen, infer the return type.
// [expr.prim.lambda]p4 in C++11; block literals follow the same rules.
CapturingScopeInfo *CurCap = cast<CapturingScopeInfo>(getCurFunction());
@ -3699,7 +3670,7 @@ StmtResult Sema::ActOnCapScopeReturnStmt(SourceLocation ReturnLoc,
if (CurCap->ReturnType.isNull())
CurCap->ReturnType = FnRetType;
}
const VarDecl *NRVOCandidate = getCopyElisionCandidate(NRInfo, FnRetType);
assert(!FnRetType.isNull());
if (auto *CurBlock = dyn_cast<BlockScopeInfo>(CurCap)) {
if (CurBlock->FunctionType->castAs<FunctionType>()->getNoReturnAttr()) {
@ -3722,6 +3693,7 @@ StmtResult Sema::ActOnCapScopeReturnStmt(SourceLocation ReturnLoc,
// Otherwise, verify that this result type matches the previous one. We are
// pickier with blocks than for normal functions because we don't have GCC
// compatibility to worry about here.
const VarDecl *NRVOCandidate = nullptr;
if (FnRetType->isDependentType()) {
// Delay processing for now. TODO: there are lots of dependent
// types we can conclusively prove aren't void.
@ -3749,15 +3721,20 @@ StmtResult Sema::ActOnCapScopeReturnStmt(SourceLocation ReturnLoc,
// In C++ the return statement is handled via a copy initialization.
// the C version of which boils down to CheckSingleAssignmentConstraints.
InitializedEntity Entity = InitializedEntity::InitializeResult(
ReturnLoc, FnRetType, NRVOCandidate != nullptr);
ExprResult Res = PerformMoveOrCopyInitialization(Entity, NRInfo, RetValExp);
NRVOCandidate = getCopyElisionCandidate(FnRetType, RetValExp, CES_Strict);
InitializedEntity Entity = InitializedEntity::InitializeResult(ReturnLoc,
FnRetType,
NRVOCandidate != nullptr);
ExprResult Res = PerformMoveOrCopyInitialization(Entity, NRVOCandidate,
FnRetType, RetValExp);
if (Res.isInvalid()) {
// FIXME: Cleanup temporaries here, anyway?
return StmtError();
}
RetValExp = Res.get();
CheckReturnValExpr(RetValExp, FnRetType, ReturnLoc);
} else {
NRVOCandidate = getCopyElisionCandidate(FnRetType, RetValExp, CES_Strict);
}
if (RetValExp) {
@ -3966,10 +3943,8 @@ StmtResult Sema::BuildReturnStmt(SourceLocation ReturnLoc, Expr *RetValExp) {
if (RetValExp && DiagnoseUnexpandedParameterPack(RetValExp))
return StmtError();
NamedReturnInfo NRInfo = getNamedReturnInfo(RetValExp);
if (isa<CapturingScopeInfo>(getCurFunction()))
return ActOnCapScopeReturnStmt(ReturnLoc, RetValExp, NRInfo);
return ActOnCapScopeReturnStmt(ReturnLoc, RetValExp);
QualType FnRetType;
QualType RelatedRetType;
@ -4041,7 +4016,6 @@ StmtResult Sema::BuildReturnStmt(SourceLocation ReturnLoc, Expr *RetValExp) {
}
}
}
const VarDecl *NRVOCandidate = getCopyElisionCandidate(NRInfo, FnRetType);
bool HasDependentReturnType = FnRetType->isDependentType();
@ -4148,6 +4122,8 @@ StmtResult Sema::BuildReturnStmt(SourceLocation ReturnLoc, Expr *RetValExp) {
/* NRVOCandidate=*/nullptr);
} else {
assert(RetValExp || HasDependentReturnType);
const VarDecl *NRVOCandidate = nullptr;
QualType RetType = RelatedRetType.isNull() ? FnRetType : RelatedRetType;
// C99 6.8.6.4p3(136): The return statement is not an assignment. The
@ -4156,12 +4132,15 @@ StmtResult Sema::BuildReturnStmt(SourceLocation ReturnLoc, Expr *RetValExp) {
// In C++ the return statement is handled via a copy initialization,
// the C version of which boils down to CheckSingleAssignmentConstraints.
if (RetValExp)
NRVOCandidate = getCopyElisionCandidate(FnRetType, RetValExp, CES_Strict);
if (!HasDependentReturnType && !RetValExp->isTypeDependent()) {
// we have a non-void function with an expression, continue checking
InitializedEntity Entity = InitializedEntity::InitializeResult(
ReturnLoc, RetType, NRVOCandidate != nullptr);
ExprResult Res =
PerformMoveOrCopyInitialization(Entity, NRInfo, RetValExp);
InitializedEntity Entity = InitializedEntity::InitializeResult(ReturnLoc,
RetType,
NRVOCandidate != nullptr);
ExprResult Res = PerformMoveOrCopyInitialization(Entity, NRVOCandidate,
RetType, RetValExp);
if (Res.isInvalid()) {
// FIXME: Clean up temporaries here anyway?
return StmtError();

28
clang/lib/Sema/SemaTemplateInstantiateDecl.cpp
View File

@ -23,7 +23,6 @@
#include "clang/Basic/TargetInfo.h"
#include "clang/Sema/Initialization.h"
#include "clang/Sema/Lookup.h"
#include "clang/Sema/ScopeInfo.h"
#include "clang/Sema/SemaInternal.h"
#include "clang/Sema/Template.h"
#include "clang/Sema/TemplateInstCallback.h"
@ -1086,30 +1085,11 @@ Decl *TemplateDeclInstantiator::VisitVarDecl(VarDecl *D,
SemaRef.BuildVariableInstantiation(Var, D, TemplateArgs, LateAttrs, Owner,
StartingScope, InstantiatingVarTemplate);
if (D->isNRVOVariable()) {
QualType FT;
if (auto *F = dyn_cast<FunctionDecl>(DC))
FT = F->getType();
else if (isa<BlockDecl>(DC))
FT = SemaRef.getCurBlock()->FunctionType;
else
llvm_unreachable("Unknown context type");
// This is the last chance we have of checking copy elision eligibility
// for functions in depdendent contexts. The sema actions for building
// the return statement during template instantiation will have no effect
// regarding copy elision, since NRVO propagation runs on the scope exit
// actions, and these are not run on instantiation.
// This might run through some VarDecls which were returned from non-taken
// 'if constexpr' branches, and these will end up being constructed on the
// return slot even if they will never be returned, as a sort of accidental
// 'optimization'. Notably, functions with 'auto' return types won't have it
// deduced by this point. Coupled with the limitation described
// previously, this makes it very hard to support copy elision for these.
Sema::NamedReturnInfo Info = SemaRef.getNamedReturnInfo(Var);
bool NRVO = SemaRef.getCopyElisionCandidate(
Info, cast<FunctionType>(FT)->getReturnType()) != nullptr;
Var->setNRVOVariable(NRVO);
if (D->isNRVOVariable()) {
QualType ReturnType = cast<FunctionDecl>(DC)->getReturnType();
if (SemaRef.isCopyElisionCandidate(ReturnType, Var, Sema::CES_Strict))
Var->setNRVOVariable(true);
}
Var->setImplicit(D->isImplicit());

10
clang/test/CodeGen/nrvo-tracking.cpp
View File

@ -29,6 +29,8 @@ L(2, t, X&);
// CHECK-LABEL: define{{.*}} void @_Z2l3v
// CHECK: call {{.*}} @_ZN1XC1Ev
// CHECK-NEXT: call {{.*}} @_ZN1XC1EOS_
// CHECK-NEXT: call void @llvm.lifetime.end
// CHECK-NEXT: call void @llvm.lifetime.end
// CHECK-NEXT: ret void
L(3, t, T);
@ -150,11 +152,7 @@ F(8, (t), decltype(auto));
}; }()(); \
}
// CHECK-LABEL: define{{.*}} void @_Z2b1v
// CHECK: call {{.*}} @_ZN1XC1Ev
// CHECK-NEXT: call void @llvm.lifetime.end
// CHECK-NEXT: ret void
B(1, X);
//B(1, X); // Uncomment this line at your own peril ;)
// CHECK-LABEL: define{{.*}} void @_Z2b2v
// CHECK: call {{.*}} @_ZN1XC1Ev
@ -166,6 +164,8 @@ B(2, X&);
// CHECK-LABEL: define{{.*}} void @_Z2b3v
// CHECK: call {{.*}} @_ZN1XC1Ev
// CHECK-NEXT: call {{.*}} @_ZN1XC1EOS_
// CHECK-NEXT: call void @llvm.lifetime.end
// CHECK-NEXT: call void @llvm.lifetime.end
// CHECK-NEXT: ret void
B(3, T);