akhuang updated this revision to Diff 544101.
akhuang added a comment.
add TODO
Repository:
rG LLVM Github Monorepo
CHANGES SINCE LAST ACTION
https://reviews.llvm.org/D154007/new/
https://reviews.llvm.org/D154007
Files:
clang/include/clang/CodeGen/CGFunctionInfo.h
clang/lib/CodeGen/CGCall.cpp
clang/lib/CodeGen/CGCall.h
clang/lib/CodeGen/CGClass.cpp
clang/lib/CodeGen/CGDeclCXX.cpp
clang/lib/CodeGen/CodeGenABITypes.cpp
clang/lib/CodeGen/CodeGenFunction.cpp
clang/lib/CodeGen/CodeGenFunction.h
clang/lib/CodeGen/CodeGenTypes.h
clang/lib/CodeGen/Targets/X86.cpp
clang/test/CodeGenCXX/inalloca-lambda.cpp
Index: clang/test/CodeGenCXX/inalloca-lambda.cpp
===================================================================
--- clang/test/CodeGenCXX/inalloca-lambda.cpp
+++ clang/test/CodeGenCXX/inalloca-lambda.cpp
@@ -1,11 +1,63 @@
-// RUN: not %clang_cc1 -triple i686-windows-msvc -emit-llvm -o /dev/null %s 2>&1 | FileCheck %s
+// RUN: %clang_cc1 -triple i686-windows-msvc -emit-llvm -o - %s 2>&1 | FileCheck %s
-// PR28299
-// CHECK: error: cannot compile this forwarded non-trivially copyable parameter yet
-
-class A {
+struct A {
+ A();
A(const A &);
+ int x;
};
-typedef void (*fptr_t)(A);
-fptr_t fn1() { return [](A) {}; }
+void decayToFp(int (*f)(A));
+void test() {
+ auto ld = [](A a) {
+ static int calls = 0;
+ ++calls;
+ return a.x + calls;
+ };
+ decayToFp(ld);
+ ld(A{});
+}
+
+// CHECK: define internal x86_thiscallcc noundef i32
+// CHECK-SAME: @"??R<lambda_0>@?0??test@@YAXXZ@QBE?A?<auto>@@UA@@@Z"
+// CHECK-SAME: (ptr noundef %this, ptr inalloca(<{ %struct.A }>) %[[ARG:.*]])
+// CHECK: %[[V:.*]] = getelementptr inbounds <{ %struct.A }>, ptr %[[ARG]], i32 0, i32 0
+// CHECK: %call = call x86_thiscallcc noundef i32
+// CHECK-SAME: @"?__impl@<lambda_0>@?0??test@@YAXXZ@QBE?A?<auto>@@UA@@@Z"
+// CHECK-SAME: (ptr noundef %this, ptr noundef %[[V]])
+
+// CHECK: define internal noundef i32
+// CHECK-SAME: @"?__invoke@<lambda_0>@?0??test@@YAXXZ@CA?A?<auto>@@UA@@@Z"
+// CHECK-SAME: (ptr inalloca(<{ %struct.A }>) %[[ARG:.*]])
+// CHECK: %unused.capture = alloca %class.anon, align 1
+// CHECK: %[[VAR:.*]] = getelementptr inbounds <{ %struct.A }>, ptr %[[ARG]], i32 0, i32 0
+// CHECK: %call = call x86_thiscallcc noundef i32
+// CHECK-SAME: @"?__impl@<lambda_0>@?0??test@@YAXXZ@QBE?A?<auto>@@UA@@@Z"
+// CHECK-SAME: (ptr noundef %unused.capture, ptr noundef %[[VAR]])
+// CHECK: ret i32 %call
+
+// CHECK: define internal x86_thiscallcc noundef i32
+// CHECK-SAME: @"?__impl@<lambda_0>@?0??test@@YAXXZ@QBE?A?<auto>@@UA@@@Z"
+// CHECK-SAME: (ptr noundef %this, ptr noundef %[[ARG:.*]])
+// CHECK: %this.addr = alloca ptr, align 4
+// CHECK: store ptr %this, ptr %this.addr, align 4
+// CHECK: %this1 = load ptr, ptr %this.addr, align 4
+// CHECK: %{{.*}} = load i32, ptr @"?calls@?1???R<lambda_0>
+// CHECK: %inc = add nsw i32 %{{.*}}, 1
+// CHECK: store i32 %inc, ptr @"?calls@?1???R<lambda_0>
+// CHECK: %{{.*}} = getelementptr inbounds %struct.A, ptr %{{.*}}, i32 0, i32 0
+// CHECK: %{{.*}} = load i32, ptr %{{.*}}, align 4
+// CHECK: %{{.*}} = load i32, ptr @"?calls@?1???R<lambda_0>
+// CHECK: %add = add nsw i32 %{{.*}}, %{{.*}}
+// CHECK: ret i32 %add
+
+// Make sure we don't try to copy an uncopyable type.
+struct B {
+ B();
+ B(B &);
+ void operator=(B);
+ long long x;
+} b;
+
+void f() {
+ [](B) {}(b);
+}
Index: clang/lib/CodeGen/Targets/X86.cpp
===================================================================
--- clang/lib/CodeGen/Targets/X86.cpp
+++ clang/lib/CodeGen/Targets/X86.cpp
@@ -140,7 +140,8 @@
Class classify(QualType Ty) const;
ABIArgInfo classifyReturnType(QualType RetTy, CCState &State) const;
- ABIArgInfo classifyArgumentType(QualType RetTy, CCState &State) const;
+ ABIArgInfo classifyArgumentType(QualType RetTy, CCState &State,
+ bool isDelegateCall) const;
/// Updates the number of available free registers, returns
/// true if any registers were allocated.
@@ -737,8 +738,8 @@
}
}
-ABIArgInfo X86_32ABIInfo::classifyArgumentType(QualType Ty,
- CCState &State) const {
+ABIArgInfo X86_32ABIInfo::classifyArgumentType(QualType Ty, CCState &State,
+ bool isDelegateCall) const {
// FIXME: Set alignment on indirect arguments.
bool IsFastCall = State.CC == llvm::CallingConv::X86_FastCall;
bool IsRegCall = State.CC == llvm::CallingConv::X86_RegCall;
@@ -753,6 +754,12 @@
CGCXXABI::RecordArgABI RAA = getRecordArgABI(RT, getCXXABI());
if (RAA == CGCXXABI::RAA_Indirect) {
return getIndirectResult(Ty, false, State);
+ } else if (isDelegateCall) {
+ // Avoid having different alignments on delegate call args by always
+ // setting the alignment to 4, which is what we do for inallocas.
+ ABIArgInfo Res = getIndirectResult(Ty, false, State);
+ Res.setIndirectAlign(CharUnits::fromQuantity(4));
+ return Res;
} else if (RAA == CGCXXABI::RAA_DirectInMemory) {
// The field index doesn't matter, we'll fix it up later.
return ABIArgInfo::getInAlloca(/*FieldIndex=*/0);
@@ -940,7 +947,8 @@
if (State.IsPreassigned.test(I))
continue;
- Args[I].info = classifyArgumentType(Args[I].type, State);
+ Args[I].info =
+ classifyArgumentType(Args[I].type, State, FI.isDelegateCall());
UsedInAlloca |= (Args[I].info.getKind() == ABIArgInfo::InAlloca);
}
Index: clang/lib/CodeGen/CodeGenTypes.h
===================================================================
--- clang/lib/CodeGen/CodeGenTypes.h
+++ clang/lib/CodeGen/CodeGenTypes.h
@@ -252,13 +252,11 @@
/// this.
///
/// \param argTypes - must all actually be canonical as params
- const CGFunctionInfo &arrangeLLVMFunctionInfo(CanQualType returnType,
- bool instanceMethod,
- bool chainCall,
- ArrayRef<CanQualType> argTypes,
- FunctionType::ExtInfo info,
- ArrayRef<FunctionProtoType::ExtParameterInfo> paramInfos,
- RequiredArgs args);
+ const CGFunctionInfo &arrangeLLVMFunctionInfo(
+ CanQualType returnType, FnInfoOpts opts, ArrayRef<CanQualType> argTypes,
+ FunctionType::ExtInfo info,
+ ArrayRef<FunctionProtoType::ExtParameterInfo> paramInfos,
+ RequiredArgs args);
/// Compute a new LLVM record layout object for the given record.
std::unique_ptr<CGRecordLayout> ComputeRecordLayout(const RecordDecl *D,
Index: clang/lib/CodeGen/CodeGenFunction.h
===================================================================
--- clang/lib/CodeGen/CodeGenFunction.h
+++ clang/lib/CodeGen/CodeGenFunction.h
@@ -1963,6 +1963,9 @@
/// Check if the return value of this function requires sanitization.
bool requiresReturnValueCheck() const;
+ bool isInAllocaArgument(CGCXXABI &ABI, QualType Ty);
+ bool hasInAllocaArg(const CXXMethodDecl *MD);
+
llvm::BasicBlock *TerminateLandingPad = nullptr;
llvm::BasicBlock *TerminateHandler = nullptr;
llvm::SmallVector<llvm::BasicBlock *, 2> TrapBBs;
@@ -2227,10 +2230,17 @@
void EmitBlockWithFallThrough(llvm::BasicBlock *BB, const Stmt *S);
void EmitForwardingCallToLambda(const CXXMethodDecl *LambdaCallOperator,
- CallArgList &CallArgs);
+ CallArgList &CallArgs,
+ const CGFunctionInfo *CallOpFnInfo = nullptr,
+ llvm::Constant *CallOpFn = nullptr);
void EmitLambdaBlockInvokeBody();
- void EmitLambdaDelegatingInvokeBody(const CXXMethodDecl *MD);
void EmitLambdaStaticInvokeBody(const CXXMethodDecl *MD);
+ void EmitLambdaDelegatingInvokeBody(const CXXMethodDecl *MD,
+ CallArgList &CallArgs);
+ void EmitLambdaInAllocaImplFn(const CXXMethodDecl *CallOp,
+ const CGFunctionInfo **ImplFnInfo,
+ llvm::Function **ImplFn);
+ void EmitLambdaInAllocaCallOpBody(const CXXMethodDecl *MD);
void EmitLambdaVLACapture(const VariableArrayType *VAT, LValue LV) {
EmitStoreThroughLValue(RValue::get(VLASizeMap[VAT->getSizeExpr()]), LV);
}
Index: clang/lib/CodeGen/CodeGenFunction.cpp
===================================================================
--- clang/lib/CodeGen/CodeGenFunction.cpp
+++ clang/lib/CodeGen/CodeGenFunction.cpp
@@ -683,6 +683,19 @@
return true;
}
+bool CodeGenFunction::isInAllocaArgument(CGCXXABI &ABI, QualType Ty) {
+ const CXXRecordDecl *RD = Ty->getAsCXXRecordDecl();
+ return RD && ABI.getRecordArgABI(RD) == CGCXXABI::RAA_DirectInMemory;
+}
+
+bool CodeGenFunction::hasInAllocaArg(const CXXMethodDecl *MD) {
+ return getTarget().getTriple().getArch() == llvm::Triple::x86 &&
+ getTarget().getCXXABI().isMicrosoft() &&
+ llvm::any_of(MD->parameters(), [&](ParmVarDecl *P) {
+ return isInAllocaArgument(CGM.getCXXABI(), P->getType());
+ });
+}
+
/// Return the UBSan prologue signature for \p FD if one is available.
static llvm::Constant *getPrologueSignature(CodeGenModule &CGM,
const FunctionDecl *FD) {
@@ -1447,6 +1460,17 @@
// The lambda static invoker function is special, because it forwards or
// clones the body of the function call operator (but is actually static).
EmitLambdaStaticInvokeBody(cast<CXXMethodDecl>(FD));
+ } else if (isa<CXXMethodDecl>(FD) &&
+ isLambdaCallOperator(cast<CXXMethodDecl>(FD)) &&
+ !FnInfo.isDelegateCall() &&
+ cast<CXXMethodDecl>(FD)->getParent()->getLambdaStaticInvoker() &&
+ hasInAllocaArg(cast<CXXMethodDecl>(FD))) {
+ // If emitting a lambda with static invoker on X86 Windows, change
+ // the call operator body.
+ // Make sure that this is a call operator with an inalloca arg and check
+ // for delegate call to make sure this is the original call op and not the
+ // new forwarding function for the static invoker.
+ EmitLambdaInAllocaCallOpBody(cast<CXXMethodDecl>(FD));
} else if (FD->isDefaulted() && isa<CXXMethodDecl>(FD) &&
(cast<CXXMethodDecl>(FD)->isCopyAssignmentOperator() ||
cast<CXXMethodDecl>(FD)->isMoveAssignmentOperator())) {
Index: clang/lib/CodeGen/CodeGenABITypes.cpp
===================================================================
--- clang/lib/CodeGen/CodeGenABITypes.cpp
+++ clang/lib/CodeGen/CodeGenABITypes.cpp
@@ -65,9 +65,8 @@
ArrayRef<CanQualType> argTypes,
FunctionType::ExtInfo info,
RequiredArgs args) {
- return CGM.getTypes().arrangeLLVMFunctionInfo(
- returnType, /*instanceMethod=*/false, /*chainCall=*/false, argTypes,
- info, {}, args);
+ return CGM.getTypes().arrangeLLVMFunctionInfo(returnType, FnInfoOpts::None,
+ argTypes, info, {}, args);
}
ImplicitCXXConstructorArgs
Index: clang/lib/CodeGen/CGDeclCXX.cpp
===================================================================
--- clang/lib/CodeGen/CGDeclCXX.cpp
+++ clang/lib/CodeGen/CGDeclCXX.cpp
@@ -279,8 +279,8 @@
}
const CGFunctionInfo &FI = CGM.getTypes().arrangeLLVMFunctionInfo(
- getContext().IntTy, /*instanceMethod=*/false, /*chainCall=*/false,
- {getContext().IntTy}, FunctionType::ExtInfo(), {}, RequiredArgs::All);
+ getContext().IntTy, FnInfoOpts::None, {getContext().IntTy},
+ FunctionType::ExtInfo(), {}, RequiredArgs::All);
// Get the stub function type, int(*)(int,...).
llvm::FunctionType *StubTy =
Index: clang/lib/CodeGen/CGClass.cpp
===================================================================
--- clang/lib/CodeGen/CGClass.cpp
+++ clang/lib/CodeGen/CGClass.cpp
@@ -2927,14 +2927,16 @@
}
void CodeGenFunction::EmitForwardingCallToLambda(
- const CXXMethodDecl *callOperator,
- CallArgList &callArgs) {
+ const CXXMethodDecl *callOperator, CallArgList &callArgs,
+ const CGFunctionInfo *calleeFnInfo, llvm::Constant *calleePtr) {
// Get the address of the call operator.
- const CGFunctionInfo &calleeFnInfo =
- CGM.getTypes().arrangeCXXMethodDeclaration(callOperator);
- llvm::Constant *calleePtr =
- CGM.GetAddrOfFunction(GlobalDecl(callOperator),
- CGM.getTypes().GetFunctionType(calleeFnInfo));
+ if (!calleeFnInfo)
+ calleeFnInfo = &CGM.getTypes().arrangeCXXMethodDeclaration(callOperator);
+
+ if (!calleePtr)
+ calleePtr =
+ CGM.GetAddrOfFunction(GlobalDecl(callOperator),
+ CGM.getTypes().GetFunctionType(*calleeFnInfo));
// Prepare the return slot.
const FunctionProtoType *FPT =
@@ -2942,8 +2944,8 @@
QualType resultType = FPT->getReturnType();
ReturnValueSlot returnSlot;
if (!resultType->isVoidType() &&
- calleeFnInfo.getReturnInfo().getKind() == ABIArgInfo::Indirect &&
- !hasScalarEvaluationKind(calleeFnInfo.getReturnType()))
+ calleeFnInfo->getReturnInfo().getKind() == ABIArgInfo::Indirect &&
+ !hasScalarEvaluationKind(calleeFnInfo->getReturnType()))
returnSlot =
ReturnValueSlot(ReturnValue, resultType.isVolatileQualified(),
/*IsUnused=*/false, /*IsExternallyDestructed=*/true);
@@ -2954,7 +2956,7 @@
// Now emit our call.
auto callee = CGCallee::forDirect(calleePtr, GlobalDecl(callOperator));
- RValue RV = EmitCall(calleeFnInfo, callee, returnSlot, callArgs);
+ RValue RV = EmitCall(*calleeFnInfo, callee, returnSlot, callArgs);
// If necessary, copy the returned value into the slot.
if (!resultType->isVoidType() && returnSlot.isNull()) {
@@ -2996,7 +2998,15 @@
EmitForwardingCallToLambda(CallOp, CallArgs);
}
-void CodeGenFunction::EmitLambdaDelegatingInvokeBody(const CXXMethodDecl *MD) {
+void CodeGenFunction::EmitLambdaStaticInvokeBody(const CXXMethodDecl *MD) {
+ if (MD->isVariadic()) {
+ // FIXME: Making this work correctly is nasty because it requires either
+ // cloning the body of the call operator or making the call operator
+ // forward.
+ CGM.ErrorUnsupported(MD, "lambda conversion to variadic function");
+ return;
+ }
+
const CXXRecordDecl *Lambda = MD->getParent();
// Start building arguments for forwarding call
@@ -3007,10 +3017,16 @@
Address ThisPtr = CreateMemTemp(LambdaType, "unused.capture");
CallArgs.add(RValue::get(ThisPtr.getPointer()), ThisType);
- // Add the rest of the parameters.
+ EmitLambdaDelegatingInvokeBody(MD, CallArgs);
+}
+
+void CodeGenFunction::EmitLambdaDelegatingInvokeBody(const CXXMethodDecl *MD,
+ CallArgList &CallArgs) {
+ // Add the rest of the forwarded parameters.
for (auto *Param : MD->parameters())
EmitDelegateCallArg(CallArgs, Param, Param->getBeginLoc());
+ const CXXRecordDecl *Lambda = MD->getParent();
const CXXMethodDecl *CallOp = Lambda->getLambdaCallOperator();
// For a generic lambda, find the corresponding call operator specialization
// to which the call to the static-invoker shall be forwarded.
@@ -3024,10 +3040,21 @@
assert(CorrespondingCallOpSpecialization);
CallOp = cast<CXXMethodDecl>(CorrespondingCallOpSpecialization);
}
+
+ // Special lambda forwarding when there are inalloca parameters.
+ if (hasInAllocaArg(MD)) {
+ const CGFunctionInfo *ImplFnInfo = nullptr;
+ llvm::Function *ImplFn = nullptr;
+ EmitLambdaInAllocaImplFn(CallOp, &ImplFnInfo, &ImplFn);
+
+ EmitForwardingCallToLambda(CallOp, CallArgs, ImplFnInfo, ImplFn);
+ return;
+ }
+
EmitForwardingCallToLambda(CallOp, CallArgs);
}
-void CodeGenFunction::EmitLambdaStaticInvokeBody(const CXXMethodDecl *MD) {
+void CodeGenFunction::EmitLambdaInAllocaCallOpBody(const CXXMethodDecl *MD) {
if (MD->isVariadic()) {
// FIXME: Making this work correctly is nasty because it requires either
// cloning the body of the call operator or making the call operator forward.
@@ -3035,5 +3062,56 @@
return;
}
- EmitLambdaDelegatingInvokeBody(MD);
+ // Forward %this argument.
+ CallArgList CallArgs;
+ QualType LambdaType = getContext().getRecordType(MD->getParent());
+ QualType ThisType = getContext().getPointerType(LambdaType);
+ llvm::Value *ThisArg = CurFn->getArg(0);
+ CallArgs.add(RValue::get(ThisArg), ThisType);
+
+ EmitLambdaDelegatingInvokeBody(MD, CallArgs);
+}
+
+void CodeGenFunction::EmitLambdaInAllocaImplFn(
+ const CXXMethodDecl *CallOp, const CGFunctionInfo **ImplFnInfo,
+ llvm::Function **ImplFn) {
+ const CGFunctionInfo &FnInfo =
+ CGM.getTypes().arrangeCXXMethodDeclaration(CallOp);
+ llvm::Function *CallOpFn =
+ cast<llvm::Function>(CGM.GetAddrOfFunction(GlobalDecl(CallOp)));
+
+ // Emit function containing the original call op body. __invoke will delegate
+ // to this function.
+ SmallVector<CanQualType, 4> ArgTypes;
+ for (auto I = FnInfo.arg_begin(); I != FnInfo.arg_end(); ++I)
+ ArgTypes.push_back(I->type);
+ *ImplFnInfo = &CGM.getTypes().arrangeLLVMFunctionInfo(
+ FnInfo.getReturnType(), FnInfoOpts::IsDelegateCall, ArgTypes,
+ FnInfo.getExtInfo(), {}, FnInfo.getRequiredArgs());
+
+ // Create mangled name as if this was a method named __impl. If for some
+ // reason the name doesn't look as expected then just tack __impl to the
+ // front.
+ // TODO: Use the name mangler to produce the right name instead of using
+ // string replacement.
+ StringRef CallOpName = CallOpFn->getName();
+ std::string ImplName;
+ if (size_t Pos = CallOpName.find_first_of("<lambda"))
+ ImplName = ("?__impl@" + CallOpName.drop_front(Pos)).str();
+ else
+ ImplName = ("__impl" + CallOpName).str();
+
+ llvm::Function *Fn = CallOpFn->getParent()->getFunction(ImplName);
+ if (!Fn) {
+ Fn = llvm::Function::Create(CGM.getTypes().GetFunctionType(**ImplFnInfo),
+ llvm::GlobalValue::InternalLinkage, ImplName,
+ CGM.getModule());
+ CGM.SetInternalFunctionAttributes(CallOp, Fn, **ImplFnInfo);
+
+ const GlobalDecl &GD = GlobalDecl(CallOp);
+ const auto *D = cast<FunctionDecl>(GD.getDecl());
+ CodeGenFunction(CGM).GenerateCode(GD, Fn, **ImplFnInfo);
+ CGM.SetLLVMFunctionAttributesForDefinition(D, Fn);
+ }
+ *ImplFn = Fn;
}
Index: clang/lib/CodeGen/CGCall.h
===================================================================
--- clang/lib/CodeGen/CGCall.h
+++ clang/lib/CodeGen/CGCall.h
@@ -383,6 +383,35 @@
const TargetOptions &TargetOpts,
bool WillInternalize);
+enum class FnInfoOpts {
+ None = 0,
+ IsInstanceMethod = 1 << 0,
+ IsChainCall = 1 << 1,
+ IsDelegateCall = 1 << 2,
+};
+
+inline FnInfoOpts operator|(FnInfoOpts A, FnInfoOpts B) {
+ return static_cast<FnInfoOpts>(
+ static_cast<std::underlying_type_t<FnInfoOpts>>(A) |
+ static_cast<std::underlying_type_t<FnInfoOpts>>(B));
+}
+
+inline FnInfoOpts operator&(FnInfoOpts A, FnInfoOpts B) {
+ return static_cast<FnInfoOpts>(
+ static_cast<std::underlying_type_t<FnInfoOpts>>(A) &
+ static_cast<std::underlying_type_t<FnInfoOpts>>(B));
+}
+
+inline FnInfoOpts operator|=(FnInfoOpts A, FnInfoOpts B) {
+ A = A | B;
+ return A;
+}
+
+inline FnInfoOpts operator&=(FnInfoOpts A, FnInfoOpts B) {
+ A = A & B;
+ return A;
+}
+
} // end namespace CodeGen
} // end namespace clang
Index: clang/lib/CodeGen/CGCall.cpp
===================================================================
--- clang/lib/CodeGen/CGCall.cpp
+++ clang/lib/CodeGen/CGCall.cpp
@@ -112,8 +112,7 @@
// When translating an unprototyped function type, always use a
// variadic type.
return arrangeLLVMFunctionInfo(FTNP->getReturnType().getUnqualifiedType(),
- /*instanceMethod=*/false,
- /*chainCall=*/false, std::nullopt,
+ FnInfoOpts::None, std::nullopt,
FTNP->getExtInfo(), {}, RequiredArgs(0));
}
@@ -189,10 +188,10 @@
appendParameterTypes(CGT, prefix, paramInfos, FTP);
CanQualType resultType = FTP->getReturnType().getUnqualifiedType();
- return CGT.arrangeLLVMFunctionInfo(resultType, instanceMethod,
- /*chainCall=*/false, prefix,
- FTP->getExtInfo(), paramInfos,
- Required);
+ FnInfoOpts opts =
+ instanceMethod ? FnInfoOpts::IsInstanceMethod : FnInfoOpts::None;
+ return CGT.arrangeLLVMFunctionInfo(resultType, opts, prefix,
+ FTP->getExtInfo(), paramInfos, Required);
}
/// Arrange the argument and result information for a value of the
@@ -271,7 +270,7 @@
argTypes.push_back(DeriveThisType(RD, MD));
return ::arrangeLLVMFunctionInfo(
- *this, true, argTypes,
+ *this, /*instanceMethod=*/true, argTypes,
FTP->getCanonicalTypeUnqualified().getAs<FunctionProtoType>());
}
@@ -363,9 +362,8 @@
: TheCXXABI.hasMostDerivedReturn(GD)
? CGM.getContext().VoidPtrTy
: Context.VoidTy;
- return arrangeLLVMFunctionInfo(resultType, /*instanceMethod=*/true,
- /*chainCall=*/false, argTypes, extInfo,
- paramInfos, required);
+ return arrangeLLVMFunctionInfo(resultType, FnInfoOpts::IsInstanceMethod,
+ argTypes, extInfo, paramInfos, required);
}
static SmallVector<CanQualType, 16>
@@ -439,9 +437,9 @@
addExtParameterInfosForCall(ParamInfos, FPT.getTypePtr(), TotalPrefixArgs,
ArgTypes.size());
}
- return arrangeLLVMFunctionInfo(ResultType, /*instanceMethod=*/true,
- /*chainCall=*/false, ArgTypes, Info,
- ParamInfos, Required);
+
+ return arrangeLLVMFunctionInfo(ResultType, FnInfoOpts::IsInstanceMethod,
+ ArgTypes, Info, ParamInfos, Required);
}
/// Arrange the argument and result information for the declaration or
@@ -460,10 +458,9 @@
// When declaring a function without a prototype, always use a
// non-variadic type.
if (CanQual<FunctionNoProtoType> noProto = FTy.getAs<FunctionNoProtoType>()) {
- return arrangeLLVMFunctionInfo(
- noProto->getReturnType(), /*instanceMethod=*/false,
- /*chainCall=*/false, std::nullopt, noProto->getExtInfo(), {},
- RequiredArgs::All);
+ return arrangeLLVMFunctionInfo(noProto->getReturnType(), FnInfoOpts::None,
+ std::nullopt, noProto->getExtInfo(), {},
+ RequiredArgs::All);
}
return arrangeFreeFunctionType(FTy.castAs<FunctionProtoType>());
@@ -512,9 +509,9 @@
RequiredArgs required =
(MD->isVariadic() ? RequiredArgs(argTys.size()) : RequiredArgs::All);
- return arrangeLLVMFunctionInfo(
- GetReturnType(MD->getReturnType()), /*instanceMethod=*/false,
- /*chainCall=*/false, argTys, einfo, extParamInfos, required);
+ return arrangeLLVMFunctionInfo(GetReturnType(MD->getReturnType()),
+ FnInfoOpts::None, argTys, einfo, extParamInfos,
+ required);
}
const CGFunctionInfo &
@@ -523,9 +520,8 @@
auto argTypes = getArgTypesForCall(Context, args);
FunctionType::ExtInfo einfo;
- return arrangeLLVMFunctionInfo(
- GetReturnType(returnType), /*instanceMethod=*/false,
- /*chainCall=*/false, argTypes, einfo, {}, RequiredArgs::All);
+ return arrangeLLVMFunctionInfo(GetReturnType(returnType), FnInfoOpts::None,
+ argTypes, einfo, {}, RequiredArgs::All);
}
const CGFunctionInfo &
@@ -550,8 +546,7 @@
assert(MD->isVirtual() && "only methods have thunks");
CanQual<FunctionProtoType> FTP = GetFormalType(MD);
CanQualType ArgTys[] = {DeriveThisType(MD->getParent(), MD)};
- return arrangeLLVMFunctionInfo(Context.VoidTy, /*instanceMethod=*/false,
- /*chainCall=*/false, ArgTys,
+ return arrangeLLVMFunctionInfo(Context.VoidTy, FnInfoOpts::None, ArgTys,
FTP->getExtInfo(), {}, RequiredArgs(1));
}
@@ -570,9 +565,8 @@
ArgTys.push_back(Context.IntTy);
CallingConv CC = Context.getDefaultCallingConvention(
/*IsVariadic=*/false, /*IsCXXMethod=*/true);
- return arrangeLLVMFunctionInfo(Context.VoidTy, /*instanceMethod=*/true,
- /*chainCall=*/false, ArgTys,
- FunctionType::ExtInfo(CC), {},
+ return arrangeLLVMFunctionInfo(Context.VoidTy, FnInfoOpts::IsInstanceMethod,
+ ArgTys, FunctionType::ExtInfo(CC), {},
RequiredArgs::All);
}
@@ -616,10 +610,10 @@
SmallVector<CanQualType, 16> argTypes;
for (const auto &arg : args)
argTypes.push_back(CGT.getContext().getCanonicalParamType(arg.Ty));
+ FnInfoOpts opts = chainCall ? FnInfoOpts::IsChainCall : FnInfoOpts::None;
return CGT.arrangeLLVMFunctionInfo(GetReturnType(fnType->getReturnType()),
- /*instanceMethod=*/false, chainCall,
- argTypes, fnType->getExtInfo(), paramInfos,
- required);
+ opts, argTypes, fnType->getExtInfo(),
+ paramInfos, required);
}
/// Figure out the rules for calling a function with the given formal
@@ -650,8 +644,8 @@
auto argTypes = getArgTypesForDeclaration(Context, params);
return arrangeLLVMFunctionInfo(GetReturnType(proto->getReturnType()),
- /*instanceMethod*/ false, /*chainCall*/ false,
- argTypes, proto->getExtInfo(), paramInfos,
+ FnInfoOpts::None, argTypes,
+ proto->getExtInfo(), paramInfos,
RequiredArgs::forPrototypePlus(proto, 1));
}
@@ -662,10 +656,9 @@
SmallVector<CanQualType, 16> argTypes;
for (const auto &Arg : args)
argTypes.push_back(Context.getCanonicalParamType(Arg.Ty));
- return arrangeLLVMFunctionInfo(
- GetReturnType(resultType), /*instanceMethod=*/false,
- /*chainCall=*/false, argTypes, FunctionType::ExtInfo(),
- /*paramInfos=*/ {}, RequiredArgs::All);
+ return arrangeLLVMFunctionInfo(GetReturnType(resultType), FnInfoOpts::None,
+ argTypes, FunctionType::ExtInfo(),
+ /*paramInfos=*/{}, RequiredArgs::All);
}
const CGFunctionInfo &
@@ -673,17 +666,17 @@
const FunctionArgList &args) {
auto argTypes = getArgTypesForDeclaration(Context, args);
- return arrangeLLVMFunctionInfo(
- GetReturnType(resultType), /*instanceMethod=*/false, /*chainCall=*/false,
- argTypes, FunctionType::ExtInfo(), {}, RequiredArgs::All);
+ return arrangeLLVMFunctionInfo(GetReturnType(resultType), FnInfoOpts::None,
+ argTypes, FunctionType::ExtInfo(), {},
+ RequiredArgs::All);
}
const CGFunctionInfo &
CodeGenTypes::arrangeBuiltinFunctionDeclaration(CanQualType resultType,
ArrayRef<CanQualType> argTypes) {
- return arrangeLLVMFunctionInfo(
- resultType, /*instanceMethod=*/false, /*chainCall=*/false,
- argTypes, FunctionType::ExtInfo(), {}, RequiredArgs::All);
+ return arrangeLLVMFunctionInfo(resultType, FnInfoOpts::None, argTypes,
+ FunctionType::ExtInfo(), {},
+ RequiredArgs::All);
}
/// Arrange a call to a C++ method, passing the given arguments.
@@ -706,15 +699,15 @@
auto argTypes = getArgTypesForCall(Context, args);
FunctionType::ExtInfo info = proto->getExtInfo();
- return arrangeLLVMFunctionInfo(
- GetReturnType(proto->getReturnType()), /*instanceMethod=*/true,
- /*chainCall=*/false, argTypes, info, paramInfos, required);
+ return arrangeLLVMFunctionInfo(GetReturnType(proto->getReturnType()),
+ FnInfoOpts::IsInstanceMethod, argTypes, info,
+ paramInfos, required);
}
const CGFunctionInfo &CodeGenTypes::arrangeNullaryFunction() {
- return arrangeLLVMFunctionInfo(
- getContext().VoidTy, /*instanceMethod=*/false, /*chainCall=*/false,
- std::nullopt, FunctionType::ExtInfo(), {}, RequiredArgs::All);
+ return arrangeLLVMFunctionInfo(getContext().VoidTy, FnInfoOpts::None,
+ std::nullopt, FunctionType::ExtInfo(), {},
+ RequiredArgs::All);
}
const CGFunctionInfo &
@@ -734,12 +727,15 @@
auto argTypes = getArgTypesForCall(Context, args);
assert(signature.getRequiredArgs().allowsOptionalArgs());
- return arrangeLLVMFunctionInfo(signature.getReturnType(),
- signature.isInstanceMethod(),
- signature.isChainCall(),
- argTypes,
- signature.getExtInfo(),
- paramInfos,
+ FnInfoOpts opts = FnInfoOpts::None;
+ if (signature.isInstanceMethod())
+ opts |= FnInfoOpts::IsInstanceMethod;
+ if (signature.isChainCall())
+ opts |= FnInfoOpts::IsChainCall;
+ if (signature.isDelegateCall())
+ opts |= FnInfoOpts::IsDelegateCall;
+ return arrangeLLVMFunctionInfo(signature.getReturnType(), opts, argTypes,
+ signature.getExtInfo(), paramInfos,
signature.getRequiredArgs());
}
@@ -752,21 +748,24 @@
/// Arrange the argument and result information for an abstract value
/// of a given function type. This is the method which all of the
/// above functions ultimately defer to.
-const CGFunctionInfo &
-CodeGenTypes::arrangeLLVMFunctionInfo(CanQualType resultType,
- bool instanceMethod,
- bool chainCall,
- ArrayRef<CanQualType> argTypes,
- FunctionType::ExtInfo info,
- ArrayRef<FunctionProtoType::ExtParameterInfo> paramInfos,
- RequiredArgs required) {
+const CGFunctionInfo &CodeGenTypes::arrangeLLVMFunctionInfo(
+ CanQualType resultType, FnInfoOpts opts, ArrayRef<CanQualType> argTypes,
+ FunctionType::ExtInfo info,
+ ArrayRef<FunctionProtoType::ExtParameterInfo> paramInfos,
+ RequiredArgs required) {
assert(llvm::all_of(argTypes,
[](CanQualType T) { return T.isCanonicalAsParam(); }));
// Lookup or create unique function info.
llvm::FoldingSetNodeID ID;
- CGFunctionInfo::Profile(ID, instanceMethod, chainCall, info, paramInfos,
- required, resultType, argTypes);
+ bool isInstanceMethod =
+ (opts & FnInfoOpts::IsInstanceMethod) == FnInfoOpts::IsInstanceMethod;
+ bool isChainCall =
+ (opts & FnInfoOpts::IsChainCall) == FnInfoOpts::IsChainCall;
+ bool isDelegateCall =
+ (opts & FnInfoOpts::IsDelegateCall) == FnInfoOpts::IsDelegateCall;
+ CGFunctionInfo::Profile(ID, isInstanceMethod, isChainCall, isDelegateCall,
+ info, paramInfos, required, resultType, argTypes);
void *insertPos = nullptr;
CGFunctionInfo *FI = FunctionInfos.FindNodeOrInsertPos(ID, insertPos);
@@ -776,8 +775,8 @@
unsigned CC = ClangCallConvToLLVMCallConv(info.getCC());
// Construct the function info. We co-allocate the ArgInfos.
- FI = CGFunctionInfo::create(CC, instanceMethod, chainCall, info,
- paramInfos, resultType, argTypes, required);
+ FI = CGFunctionInfo::create(CC, isInstanceMethod, isChainCall, isDelegateCall,
+ info, paramInfos, resultType, argTypes, required);
FunctionInfos.InsertNode(FI, insertPos);
bool inserted = FunctionsBeingProcessed.insert(FI).second;
@@ -812,9 +811,8 @@
return *FI;
}
-CGFunctionInfo *CGFunctionInfo::create(unsigned llvmCC,
- bool instanceMethod,
- bool chainCall,
+CGFunctionInfo *CGFunctionInfo::create(unsigned llvmCC, bool instanceMethod,
+ bool chainCall, bool delegateCall,
const FunctionType::ExtInfo &info,
ArrayRef<ExtParameterInfo> paramInfos,
CanQualType resultType,
@@ -834,6 +832,7 @@
FI->ASTCallingConvention = info.getCC();
FI->InstanceMethod = instanceMethod;
FI->ChainCall = chainCall;
+ FI->DelegateCall = delegateCall;
FI->CmseNSCall = info.getCmseNSCall();
FI->NoReturn = info.getNoReturn();
FI->ReturnsRetained = info.getProducesResult();
@@ -3989,10 +3988,6 @@
QualType type = param->getType();
- if (isInAllocaArgument(CGM.getCXXABI(), type)) {
- CGM.ErrorUnsupported(param, "forwarded non-trivially copyable parameter");
- }
-
// GetAddrOfLocalVar returns a pointer-to-pointer for references,
// but the argument needs to be the original pointer.
if (type->isReferenceType()) {
@@ -5105,7 +5100,6 @@
"indirect argument must be in alloca address space");
bool NeedCopy = false;
-
if (Addr.getAlignment() < Align &&
llvm::getOrEnforceKnownAlignment(V, Align.getAsAlign(), *TD) <
Align.getAsAlign()) {
Index: clang/include/clang/CodeGen/CGFunctionInfo.h
===================================================================
--- clang/include/clang/CodeGen/CGFunctionInfo.h
+++ clang/include/clang/CodeGen/CGFunctionInfo.h
@@ -567,6 +567,10 @@
/// Whether this is a chain call.
unsigned ChainCall : 1;
+ /// Whether this function is called by forwarding arguments.
+ /// This doesn't support inalloca or varargs.
+ unsigned DelegateCall : 1;
+
/// Whether this function is a CMSE nonsecure call
unsigned CmseNSCall : 1;
@@ -616,14 +620,11 @@
CGFunctionInfo() : Required(RequiredArgs::All) {}
public:
- static CGFunctionInfo *create(unsigned llvmCC,
- bool instanceMethod,
- bool chainCall,
- const FunctionType::ExtInfo &extInfo,
- ArrayRef<ExtParameterInfo> paramInfos,
- CanQualType resultType,
- ArrayRef<CanQualType> argTypes,
- RequiredArgs required);
+ static CGFunctionInfo *
+ create(unsigned llvmCC, bool instanceMethod, bool chainCall,
+ bool delegateCall, const FunctionType::ExtInfo &extInfo,
+ ArrayRef<ExtParameterInfo> paramInfos, CanQualType resultType,
+ ArrayRef<CanQualType> argTypes, RequiredArgs required);
void operator delete(void *p) { ::operator delete(p); }
// Friending class TrailingObjects is apparently not good enough for MSVC,
@@ -663,6 +664,8 @@
bool isChainCall() const { return ChainCall; }
+ bool isDelegateCall() const { return DelegateCall; }
+
bool isCmseNSCall() const { return CmseNSCall; }
bool isNoReturn() const { return NoReturn; }
@@ -749,6 +752,7 @@
ID.AddInteger(getASTCallingConvention());
ID.AddBoolean(InstanceMethod);
ID.AddBoolean(ChainCall);
+ ID.AddBoolean(DelegateCall);
ID.AddBoolean(NoReturn);
ID.AddBoolean(ReturnsRetained);
ID.AddBoolean(NoCallerSavedRegs);
@@ -766,17 +770,16 @@
for (const auto &I : arguments())
I.type.Profile(ID);
}
- static void Profile(llvm::FoldingSetNodeID &ID,
- bool InstanceMethod,
- bool ChainCall,
+ static void Profile(llvm::FoldingSetNodeID &ID, bool InstanceMethod,
+ bool ChainCall, bool IsDelegateCall,
const FunctionType::ExtInfo &info,
ArrayRef<ExtParameterInfo> paramInfos,
- RequiredArgs required,
- CanQualType resultType,
+ RequiredArgs required, CanQualType resultType,
ArrayRef<CanQualType> argTypes) {
ID.AddInteger(info.getCC());
ID.AddBoolean(InstanceMethod);
ID.AddBoolean(ChainCall);
+ ID.AddBoolean(IsDelegateCall);
ID.AddBoolean(info.getNoReturn());
ID.AddBoolean(info.getProducesResult());
ID.AddBoolean(info.getNoCallerSavedRegs());
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