[clang] 31b38d6 - [HLSL] Handle incomplete array types (#133508)
via cfe-commits
cfe-commits at lists.llvm.org
Thu Apr 24 17:22:12 PDT 2025
Author: Chris B
Date: 2025-04-24T19:22:08-05:00
New Revision: 31b38d67f246066cbca9328a5b2dd66a31e71245
URL: https://github.com/llvm/llvm-project/commit/31b38d67f246066cbca9328a5b2dd66a31e71245
DIFF: https://github.com/llvm/llvm-project/commit/31b38d67f246066cbca9328a5b2dd66a31e71245.diff
LOG: [HLSL] Handle incomplete array types (#133508)
This refactors the initialization list transformation code to handle
incomplete array types.
Fixes #132958
Added:
clang/test/SemaHLSL/Language/InitIncompleteArrays.hlsl
Modified:
clang/include/clang/Sema/SemaHLSL.h
clang/lib/Sema/SemaHLSL.cpp
clang/lib/Sema/SemaInit.cpp
clang/test/SemaHLSL/Language/InitListAST.hlsl
Removed:
################################################################################
diff --git a/clang/include/clang/Sema/SemaHLSL.h b/clang/include/clang/Sema/SemaHLSL.h
index 10ffb9629bb0e..e97736b18eee3 100644
--- a/clang/include/clang/Sema/SemaHLSL.h
+++ b/clang/include/clang/Sema/SemaHLSL.h
@@ -151,8 +151,7 @@ class SemaHLSL : public SemaBase {
QualType getInoutParameterType(QualType Ty);
- bool TransformInitList(const InitializedEntity &Entity,
- const InitializationKind &Kind, InitListExpr *Init);
+ bool transformInitList(const InitializedEntity &Entity, InitListExpr *Init);
void deduceAddressSpace(VarDecl *Decl);
diff --git a/clang/lib/Sema/SemaHLSL.cpp b/clang/lib/Sema/SemaHLSL.cpp
index 990f860dc1f7b..38322e6ba063b 100644
--- a/clang/lib/Sema/SemaHLSL.cpp
+++ b/clang/lib/Sema/SemaHLSL.cpp
@@ -3294,164 +3294,210 @@ void SemaHLSL::processExplicitBindingsOnDecl(VarDecl *VD) {
if (!HasBinding && isResourceRecordTypeOrArrayOf(VD))
SemaRef.Diag(VD->getLocation(), diag::warn_hlsl_implicit_binding);
}
-
-static bool CastInitializer(Sema &S, ASTContext &Ctx, Expr *E,
- llvm::SmallVectorImpl<Expr *> &List,
- llvm::SmallVectorImpl<QualType> &DestTypes) {
- if (List.size() >= DestTypes.size()) {
- List.push_back(E);
- // This is odd, but it isn't technically a failure due to conversion, we
- // handle mismatched counts of arguments
diff erently.
+namespace {
+class InitListTransformer {
+ Sema &S;
+ ASTContext &Ctx;
+ QualType InitTy;
+ QualType *DstIt = nullptr;
+ Expr **ArgIt = nullptr;
+ // Is wrapping the destination type iterator required? This is only used for
+ // incomplete array types where we loop over the destination type since we
+ // don't know the full number of elements from the declaration.
+ bool Wrap;
+
+ bool castInitializer(Expr *E) {
+ assert(DstIt && "This should always be something!");
+ if (DstIt == DestTypes.end()) {
+ if (!Wrap) {
+ ArgExprs.push_back(E);
+ // This is odd, but it isn't technically a failure due to conversion, we
+ // handle mismatched counts of arguments
diff erently.
+ return true;
+ }
+ DstIt = DestTypes.begin();
+ }
+ InitializedEntity Entity = InitializedEntity::InitializeParameter(
+ Ctx, *DstIt, /* Consumed (ObjC) */ false);
+ ExprResult Res = S.PerformCopyInitialization(Entity, E->getBeginLoc(), E);
+ if (Res.isInvalid())
+ return false;
+ Expr *Init = Res.get();
+ ArgExprs.push_back(Init);
+ DstIt++;
return true;
}
- InitializedEntity Entity = InitializedEntity::InitializeParameter(
- Ctx, DestTypes[List.size()], false);
- ExprResult Res = S.PerformCopyInitialization(Entity, E->getBeginLoc(), E);
- if (Res.isInvalid())
- return false;
- Expr *Init = Res.get();
- List.push_back(Init);
- return true;
-}
-static bool BuildInitializerList(Sema &S, ASTContext &Ctx, Expr *E,
- llvm::SmallVectorImpl<Expr *> &List,
- llvm::SmallVectorImpl<QualType> &DestTypes) {
- // If this is an initialization list, traverse the sub initializers.
- if (auto *Init = dyn_cast<InitListExpr>(E)) {
- for (auto *SubInit : Init->inits())
- if (!BuildInitializerList(S, Ctx, SubInit, List, DestTypes))
- return false;
- return true;
- }
+ bool buildInitializerListImpl(Expr *E) {
+ // If this is an initialization list, traverse the sub initializers.
+ if (auto *Init = dyn_cast<InitListExpr>(E)) {
+ for (auto *SubInit : Init->inits())
+ if (!buildInitializerListImpl(SubInit))
+ return false;
+ return true;
+ }
- // If this is a scalar type, just enqueue the expression.
- QualType Ty = E->getType();
+ // If this is a scalar type, just enqueue the expression.
+ QualType Ty = E->getType();
- if (Ty->isScalarType() || (Ty->isRecordType() && !Ty->isAggregateType()))
- return CastInitializer(S, Ctx, E, List, DestTypes);
+ if (Ty->isScalarType() || (Ty->isRecordType() && !Ty->isAggregateType()))
+ return castInitializer(E);
- if (auto *VecTy = Ty->getAs<VectorType>()) {
- uint64_t Size = VecTy->getNumElements();
+ if (auto *VecTy = Ty->getAs<VectorType>()) {
+ uint64_t Size = VecTy->getNumElements();
- QualType SizeTy = Ctx.getSizeType();
- uint64_t SizeTySize = Ctx.getTypeSize(SizeTy);
- for (uint64_t I = 0; I < Size; ++I) {
- auto *Idx = IntegerLiteral::Create(Ctx, llvm::APInt(SizeTySize, I),
- SizeTy, SourceLocation());
+ QualType SizeTy = Ctx.getSizeType();
+ uint64_t SizeTySize = Ctx.getTypeSize(SizeTy);
+ for (uint64_t I = 0; I < Size; ++I) {
+ auto *Idx = IntegerLiteral::Create(Ctx, llvm::APInt(SizeTySize, I),
+ SizeTy, SourceLocation());
- ExprResult ElExpr = S.CreateBuiltinArraySubscriptExpr(
- E, E->getBeginLoc(), Idx, E->getEndLoc());
- if (ElExpr.isInvalid())
- return false;
- if (!CastInitializer(S, Ctx, ElExpr.get(), List, DestTypes))
- return false;
+ ExprResult ElExpr = S.CreateBuiltinArraySubscriptExpr(
+ E, E->getBeginLoc(), Idx, E->getEndLoc());
+ if (ElExpr.isInvalid())
+ return false;
+ if (!castInitializer(ElExpr.get()))
+ return false;
+ }
+ return true;
}
- return true;
- }
- if (auto *ArrTy = dyn_cast<ConstantArrayType>(Ty.getTypePtr())) {
- uint64_t Size = ArrTy->getZExtSize();
- QualType SizeTy = Ctx.getSizeType();
- uint64_t SizeTySize = Ctx.getTypeSize(SizeTy);
- for (uint64_t I = 0; I < Size; ++I) {
- auto *Idx = IntegerLiteral::Create(Ctx, llvm::APInt(SizeTySize, I),
- SizeTy, SourceLocation());
- ExprResult ElExpr = S.CreateBuiltinArraySubscriptExpr(
- E, E->getBeginLoc(), Idx, E->getEndLoc());
- if (ElExpr.isInvalid())
- return false;
- if (!BuildInitializerList(S, Ctx, ElExpr.get(), List, DestTypes))
- return false;
- }
- return true;
- }
-
- if (auto *RTy = Ty->getAs<RecordType>()) {
- llvm::SmallVector<const RecordType *> RecordTypes;
- RecordTypes.push_back(RTy);
- while (RecordTypes.back()->getAsCXXRecordDecl()->getNumBases()) {
- CXXRecordDecl *D = RecordTypes.back()->getAsCXXRecordDecl();
- assert(D->getNumBases() == 1 &&
- "HLSL doesn't support multiple inheritance");
- RecordTypes.push_back(D->bases_begin()->getType()->getAs<RecordType>());
- }
- while (!RecordTypes.empty()) {
- const RecordType *RT = RecordTypes.pop_back_val();
- for (auto *FD : RT->getDecl()->fields()) {
- DeclAccessPair Found = DeclAccessPair::make(FD, FD->getAccess());
- DeclarationNameInfo NameInfo(FD->getDeclName(), E->getBeginLoc());
- ExprResult Res = S.BuildFieldReferenceExpr(
- E, false, E->getBeginLoc(), CXXScopeSpec(), FD, Found, NameInfo);
- if (Res.isInvalid())
+ if (auto *ArrTy = dyn_cast<ConstantArrayType>(Ty.getTypePtr())) {
+ uint64_t Size = ArrTy->getZExtSize();
+ QualType SizeTy = Ctx.getSizeType();
+ uint64_t SizeTySize = Ctx.getTypeSize(SizeTy);
+ for (uint64_t I = 0; I < Size; ++I) {
+ auto *Idx = IntegerLiteral::Create(Ctx, llvm::APInt(SizeTySize, I),
+ SizeTy, SourceLocation());
+ ExprResult ElExpr = S.CreateBuiltinArraySubscriptExpr(
+ E, E->getBeginLoc(), Idx, E->getEndLoc());
+ if (ElExpr.isInvalid())
return false;
- if (!BuildInitializerList(S, Ctx, Res.get(), List, DestTypes))
+ if (!buildInitializerListImpl(ElExpr.get()))
return false;
}
+ return true;
+ }
+
+ if (auto *RTy = Ty->getAs<RecordType>()) {
+ llvm::SmallVector<const RecordType *> RecordTypes;
+ RecordTypes.push_back(RTy);
+ while (RecordTypes.back()->getAsCXXRecordDecl()->getNumBases()) {
+ CXXRecordDecl *D = RecordTypes.back()->getAsCXXRecordDecl();
+ assert(D->getNumBases() == 1 &&
+ "HLSL doesn't support multiple inheritance");
+ RecordTypes.push_back(D->bases_begin()->getType()->getAs<RecordType>());
+ }
+ while (!RecordTypes.empty()) {
+ const RecordType *RT = RecordTypes.pop_back_val();
+ for (auto *FD : RT->getDecl()->fields()) {
+ DeclAccessPair Found = DeclAccessPair::make(FD, FD->getAccess());
+ DeclarationNameInfo NameInfo(FD->getDeclName(), E->getBeginLoc());
+ ExprResult Res = S.BuildFieldReferenceExpr(
+ E, false, E->getBeginLoc(), CXXScopeSpec(), FD, Found, NameInfo);
+ if (Res.isInvalid())
+ return false;
+ if (!buildInitializerListImpl(Res.get()))
+ return false;
+ }
+ }
}
+ return true;
}
- return true;
-}
-static Expr *GenerateInitLists(ASTContext &Ctx, QualType Ty,
- llvm::SmallVectorImpl<Expr *>::iterator &It) {
- if (Ty->isScalarType() || (Ty->isRecordType() && !Ty->isAggregateType())) {
- return *(It++);
- }
- llvm::SmallVector<Expr *> Inits;
- assert(!isa<MatrixType>(Ty) && "Matrix types not yet supported in HLSL");
- Ty = Ty.getDesugaredType(Ctx);
- if (Ty->isVectorType() || Ty->isConstantArrayType()) {
- QualType ElTy;
- uint64_t Size = 0;
- if (auto *ATy = Ty->getAs<VectorType>()) {
- ElTy = ATy->getElementType();
- Size = ATy->getNumElements();
- } else {
- auto *VTy = cast<ConstantArrayType>(Ty.getTypePtr());
- ElTy = VTy->getElementType();
- Size = VTy->getZExtSize();
- }
- for (uint64_t I = 0; I < Size; ++I)
- Inits.push_back(GenerateInitLists(Ctx, ElTy, It));
- }
- if (auto *RTy = Ty->getAs<RecordType>()) {
- llvm::SmallVector<const RecordType *> RecordTypes;
- RecordTypes.push_back(RTy);
- while (RecordTypes.back()->getAsCXXRecordDecl()->getNumBases()) {
- CXXRecordDecl *D = RecordTypes.back()->getAsCXXRecordDecl();
- assert(D->getNumBases() == 1 &&
- "HLSL doesn't support multiple inheritance");
- RecordTypes.push_back(D->bases_begin()->getType()->getAs<RecordType>());
- }
- while (!RecordTypes.empty()) {
- const RecordType *RT = RecordTypes.pop_back_val();
- for (auto *FD : RT->getDecl()->fields()) {
- Inits.push_back(GenerateInitLists(Ctx, FD->getType(), It));
+ Expr *generateInitListsImpl(QualType Ty) {
+ assert(ArgIt != ArgExprs.end() && "Something is off in iteration!");
+ if (Ty->isScalarType() || (Ty->isRecordType() && !Ty->isAggregateType()))
+ return *(ArgIt++);
+
+ llvm::SmallVector<Expr *> Inits;
+ assert(!isa<MatrixType>(Ty) && "Matrix types not yet supported in HLSL");
+ Ty = Ty.getDesugaredType(Ctx);
+ if (Ty->isVectorType() || Ty->isConstantArrayType()) {
+ QualType ElTy;
+ uint64_t Size = 0;
+ if (auto *ATy = Ty->getAs<VectorType>()) {
+ ElTy = ATy->getElementType();
+ Size = ATy->getNumElements();
+ } else {
+ auto *VTy = cast<ConstantArrayType>(Ty.getTypePtr());
+ ElTy = VTy->getElementType();
+ Size = VTy->getZExtSize();
+ }
+ for (uint64_t I = 0; I < Size; ++I)
+ Inits.push_back(generateInitListsImpl(ElTy));
+ }
+ if (auto *RTy = Ty->getAs<RecordType>()) {
+ llvm::SmallVector<const RecordType *> RecordTypes;
+ RecordTypes.push_back(RTy);
+ while (RecordTypes.back()->getAsCXXRecordDecl()->getNumBases()) {
+ CXXRecordDecl *D = RecordTypes.back()->getAsCXXRecordDecl();
+ assert(D->getNumBases() == 1 &&
+ "HLSL doesn't support multiple inheritance");
+ RecordTypes.push_back(D->bases_begin()->getType()->getAs<RecordType>());
+ }
+ while (!RecordTypes.empty()) {
+ const RecordType *RT = RecordTypes.pop_back_val();
+ for (auto *FD : RT->getDecl()->fields()) {
+ Inits.push_back(generateInitListsImpl(FD->getType()));
+ }
}
}
+ auto *NewInit = new (Ctx) InitListExpr(Ctx, Inits.front()->getBeginLoc(),
+ Inits, Inits.back()->getEndLoc());
+ NewInit->setType(Ty);
+ return NewInit;
}
- auto *NewInit = new (Ctx) InitListExpr(Ctx, Inits.front()->getBeginLoc(),
- Inits, Inits.back()->getEndLoc());
- NewInit->setType(Ty);
- return NewInit;
-}
-bool SemaHLSL::TransformInitList(const InitializedEntity &Entity,
- const InitializationKind &Kind,
+public:
+ llvm::SmallVector<QualType, 16> DestTypes;
+ llvm::SmallVector<Expr *, 16> ArgExprs;
+ InitListTransformer(Sema &SemaRef, const InitializedEntity &Entity)
+ : S(SemaRef), Ctx(SemaRef.getASTContext()),
+ Wrap(Entity.getType()->isIncompleteArrayType()) {
+ InitTy = Entity.getType().getNonReferenceType();
+ // When we're generating initializer lists for incomplete array types we
+ // need to wrap around both when building the initializers and when
+ // generating the final initializer lists.
+ if (Wrap) {
+ assert(InitTy->isIncompleteArrayType());
+ const IncompleteArrayType *IAT = Ctx.getAsIncompleteArrayType(InitTy);
+ InitTy = IAT->getElementType();
+ }
+ BuildFlattenedTypeList(InitTy, DestTypes);
+ DstIt = DestTypes.begin();
+ }
+
+ bool buildInitializerList(Expr *E) { return buildInitializerListImpl(E); }
+
+ Expr *generateInitLists() {
+ assert(!ArgExprs.empty() &&
+ "Call buildInitializerList to generate argument expressions.");
+ ArgIt = ArgExprs.begin();
+ if (!Wrap)
+ return generateInitListsImpl(InitTy);
+ llvm::SmallVector<Expr *> Inits;
+ while (ArgIt != ArgExprs.end())
+ Inits.push_back(generateInitListsImpl(InitTy));
+
+ auto *NewInit = new (Ctx) InitListExpr(Ctx, Inits.front()->getBeginLoc(),
+ Inits, Inits.back()->getEndLoc());
+ llvm::APInt ArySize(64, Inits.size());
+ NewInit->setType(Ctx.getConstantArrayType(InitTy, ArySize, nullptr,
+ ArraySizeModifier::Normal, 0));
+ return NewInit;
+ }
+};
+} // namespace
+
+bool SemaHLSL::transformInitList(const InitializedEntity &Entity,
InitListExpr *Init) {
// If the initializer is a scalar, just return it.
if (Init->getType()->isScalarType())
return true;
ASTContext &Ctx = SemaRef.getASTContext();
- llvm::SmallVector<QualType, 16> DestTypes;
- // An initializer list might be attempting to initialize a reference or
- // rvalue-reference. When checking the initializer we should look through the
- // reference.
- QualType InitTy = Entity.getType().getNonReferenceType();
- BuildFlattenedTypeList(InitTy, DestTypes);
+ InitListTransformer ILT(SemaRef, Entity);
- llvm::SmallVector<Expr *, 16> ArgExprs;
for (unsigned I = 0; I < Init->getNumInits(); ++I) {
Expr *E = Init->getInit(I);
if (E->HasSideEffects(Ctx)) {
@@ -3462,21 +3508,35 @@ bool SemaHLSL::TransformInitList(const InitializedEntity &Entity,
E->getObjectKind(), E);
Init->setInit(I, E);
}
- if (!BuildInitializerList(SemaRef, Ctx, E, ArgExprs, DestTypes))
+ if (!ILT.buildInitializerList(E))
return false;
}
+ size_t ExpectedSize = ILT.DestTypes.size();
+ size_t ActualSize = ILT.ArgExprs.size();
+ // For incomplete arrays it is completely arbitrary to choose whether we think
+ // the user intended fewer or more elements. This implementation assumes that
+ // the user intended more, and errors that there are too few initializers to
+ // complete the final element.
+ if (Entity.getType()->isIncompleteArrayType())
+ ExpectedSize =
+ ((ActualSize + ExpectedSize - 1) / ExpectedSize) * ExpectedSize;
- if (DestTypes.size() != ArgExprs.size()) {
- int TooManyOrFew = ArgExprs.size() > DestTypes.size() ? 1 : 0;
+ // An initializer list might be attempting to initialize a reference or
+ // rvalue-reference. When checking the initializer we should look through
+ // the reference.
+ QualType InitTy = Entity.getType().getNonReferenceType();
+ if (InitTy.hasAddressSpace())
+ InitTy = SemaRef.getASTContext().removeAddrSpaceQualType(InitTy);
+ if (ExpectedSize != ActualSize) {
+ int TooManyOrFew = ActualSize > ExpectedSize ? 1 : 0;
SemaRef.Diag(Init->getBeginLoc(), diag::err_hlsl_incorrect_num_initializers)
- << TooManyOrFew << InitTy << DestTypes.size() << ArgExprs.size();
+ << TooManyOrFew << InitTy << ExpectedSize << ActualSize;
return false;
}
- auto It = ArgExprs.begin();
- // GenerateInitLists will always return an InitListExpr here, because the
+ // generateInitListsImpl will always return an InitListExpr here, because the
// scalar case is handled above.
- auto *NewInit = cast<InitListExpr>(GenerateInitLists(Ctx, InitTy, It));
+ auto *NewInit = cast<InitListExpr>(ILT.generateInitLists());
Init->resizeInits(Ctx, NewInit->getNumInits());
for (unsigned I = 0; I < NewInit->getNumInits(); ++I)
Init->updateInit(Ctx, I, NewInit->getInit(I));
diff --git a/clang/lib/Sema/SemaInit.cpp b/clang/lib/Sema/SemaInit.cpp
index f04a154bcfd5f..5b8a524566722 100644
--- a/clang/lib/Sema/SemaInit.cpp
+++ b/clang/lib/Sema/SemaInit.cpp
@@ -4844,8 +4844,7 @@ static void TryListInitialization(Sema &S,
bool TreatUnavailableAsInvalid) {
QualType DestType = Entity.getType();
- if (S.getLangOpts().HLSL &&
- !S.HLSL().TransformInitList(Entity, Kind, InitList))
+ if (S.getLangOpts().HLSL && !S.HLSL().transformInitList(Entity, InitList))
return;
// C++ doesn't allow scalar initialization with more than one argument.
diff --git a/clang/test/SemaHLSL/Language/InitIncompleteArrays.hlsl b/clang/test/SemaHLSL/Language/InitIncompleteArrays.hlsl
new file mode 100644
index 0000000000000..169c52b0033ac
--- /dev/null
+++ b/clang/test/SemaHLSL/Language/InitIncompleteArrays.hlsl
@@ -0,0 +1,68 @@
+// RUN: %clang_cc1 -triple dxil-pc-shadermodel6.0-compute -finclude-default-header -verify -Wdouble-promotion -Wconversion %s
+
+// Some helpers!
+template <typename T, typename U>
+struct is_same {
+ static const bool value = false;
+};
+
+template <typename T>
+struct is_same<T, T> {
+ static const bool value = true;
+};
+
+template<typename T>
+struct remove_addrspace {
+ using type = __decltype((T)0);
+};
+
+template <typename T, typename V>
+using is_same_ignore_addrspace = is_same<typename remove_addrspace<T>::type, typename remove_addrspace<V>::type>;
+
+struct SomeVals {
+ int2 X;
+ float2 Y;
+ double2 D;
+};
+
+static SomeVals V = {1,2,3,4,5,6};
+
+static int2 SomeArr[] = {V}; // #SomeArr
+// expected-warning@#SomeArr 2 {{implicit conversion turns floating-point number into integer: 'double' to 'int'}}
+// expected-warning@#SomeArr 2 {{implicit conversion turns floating-point number into integer: 'float' to 'int'}}
+
+_Static_assert(is_same_ignore_addrspace<__decltype(SomeArr), int2[3]>::value, "What is this even?");
+
+static int2 VecArr[] = {
+ int2(0,1),
+ int2(2,3),
+ int4(4,5,6,7),
+ };
+
+_Static_assert(is_same_ignore_addrspace<__decltype(VecArr), int2[4]>::value, "One vec, two vec, three vecs, FOUR!");
+
+static int4 V4Arr[] = {
+ int2(0,1),
+ int2(2,3),
+};
+
+_Static_assert(is_same_ignore_addrspace<__decltype(V4Arr), int4[1]>::value, "One!");
+
+static int ArrOfArr[][4] = { 1, 2, 3, 4, 5, 6, 7, 8 };
+
+_Static_assert(is_same_ignore_addrspace<__decltype(ArrOfArr), int[2][4]>::value, "Two arrays of four!");
+
+// expected-error at +1{{too few initializers in list for type 'int4[]' (aka 'vector<int, 4>[]') (expected 4 but found 2)}}
+static int4 V4ArrTooSmall[] = {
+ int2(0,1),
+};
+
+// expected-error at +1{{too few initializers in list for type 'int4[]' (aka 'vector<int, 4>[]') (expected 8 but found 7)}}
+static int4 V4ArrAlsoTooSmall[] = {
+ int2(0,1),
+ int2(2,3),
+ int3(4,5,6),
+};
+
+// expected-error at +1{{too few initializers in list for type 'int[][2]' (expected 6 but found 5)}}
+static int ArrOfArrTooSmall[][2] = { 1, 2, 3, 4, 5 };
diff --git a/clang/test/SemaHLSL/Language/InitListAST.hlsl b/clang/test/SemaHLSL/Language/InitListAST.hlsl
index d58582f9029fe..78bf269769ae6 100644
--- a/clang/test/SemaHLSL/Language/InitListAST.hlsl
+++ b/clang/test/SemaHLSL/Language/InitListAST.hlsl
@@ -8,6 +8,11 @@ struct TwoInts {
int Z, W;
};
+struct IntAndFloat {
+ int A;
+ float B;
+};
+
struct Doggo {
int4 LegState;
int TailState;
@@ -981,3 +986,76 @@ FourFloats case16() {
FourFloats FF = {0, makeTwo(X), 3};
return FF;
}
+
+// CHECK-LABEL: Dumping case17
+// CHECK: VarDecl {{.*}} col:15 used Structs 'IntAndFloat[2]' cinit
+// CHECK-NEXT: InitListExpr {{.*}} 'IntAndFloat[2]'
+// CHECK-NEXT: InitListExpr {{.*}} 'IntAndFloat'
+// CHECK-NEXT: IntegerLiteral {{.*}} 'int' 1
+// CHECK-NEXT: ImplicitCastExpr {{.*}} 'float' <IntegralToFloating>
+// CHECK-NEXT: IntegerLiteral {{.*}} 'int' 2
+// CHECK-NEXT: InitListExpr {{.*}} 'IntAndFloat'
+// CHECK-NEXT: IntegerLiteral {{.*}} 'int' 3
+// CHECK-NEXT: ImplicitCastExpr {{.*}} 'float' <IntegralToFloating>
+// CHECK-NEXT: IntegerLiteral {{.*}} 'int' 4
+
+
+// CHECK: VarDecl {{.*}} col:9 used Floats 'float[8]' cinit
+// CHECK-NEXT: InitListExpr {{.*}} 'float[8]'
+// CHECK-NEXT: ImplicitCastExpr {{.*}} 'float' <IntegralToFloating>
+// CHECK-NEXT: ImplicitCastExpr {{.*}} 'int' <LValueToRValue>
+// CHECK-NEXT: MemberExpr {{.*}} 'int' lvalue .A {{.*}}
+// CHECK-NEXT: ArraySubscriptExpr {{.*}} 'IntAndFloat' lvalue
+// CHECK-NEXT: ImplicitCastExpr {{.*}} 'IntAndFloat *' <ArrayToPointerDecay>
+// CHECK-NEXT: DeclRefExpr {{.*}} 'IntAndFloat[2]' lvalue Var {{.*}} 'Structs' 'IntAndFloat[2]'
+// CHECK-NEXT: IntegerLiteral {{.*}} 'unsigned long' 0
+// CHECK-NEXT: ImplicitCastExpr {{.*}} 'float' <LValueToRValue>
+// CHECK-NEXT: MemberExpr {{.*}} 'float' lvalue .B {{.*}}
+// CHECK-NEXT: ArraySubscriptExpr {{.*}} 'IntAndFloat' lvalue
+// CHECK-NEXT: ImplicitCastExpr {{.*}} 'IntAndFloat *' <ArrayToPointerDecay>
+// CHECK-NEXT: DeclRefExpr {{.*}} 'IntAndFloat[2]' lvalue Var {{.*}} 'Structs' 'IntAndFloat[2]'
+// CHECK-NEXT: IntegerLiteral {{.*}} 'unsigned long' 0
+// CHECK-NEXT: ImplicitCastExpr {{.*}} 'float' <IntegralToFloating>
+// CHECK-NEXT: ImplicitCastExpr {{.*}} 'int' <LValueToRValue>
+// CHECK-NEXT: MemberExpr {{.*}} 'int' lvalue .A {{.*}}
+// CHECK-NEXT: ArraySubscriptExpr {{.*}} 'IntAndFloat' lvalue
+// CHECK-NEXT: ImplicitCastExpr {{.*}} 'IntAndFloat *' <ArrayToPointerDecay>
+// CHECK-NEXT: DeclRefExpr {{.*}} 'IntAndFloat[2]' lvalue Var {{.*}} 'Structs' 'IntAndFloat[2]'
+// CHECK-NEXT: IntegerLiteral {{.*}} 'unsigned long' 1
+// CHECK-NEXT: ImplicitCastExpr {{.*}} 'float' <LValueToRValue>
+// CHECK-NEXT: MemberExpr {{.*}} 'float' lvalue .B {{.*}}
+// CHECK-NEXT: ArraySubscriptExpr {{.*}} 'IntAndFloat' lvalue
+// CHECK-NEXT: ImplicitCastExpr {{.*}} 'IntAndFloat *' <ArrayToPointerDecay>
+// CHECK-NEXT: DeclRefExpr {{.*}} 'IntAndFloat[2]' lvalue Var {{.*}} 'Structs' 'IntAndFloat[2]'
+// CHECK-NEXT: IntegerLiteral {{.*}} 'unsigned long' 1
+// CHECK-NEXT: ImplicitCastExpr {{.*}} 'float' <IntegralToFloating>
+// CHECK-NEXT: ImplicitCastExpr {{.*}} 'int' <LValueToRValue>
+// CHECK-NEXT: MemberExpr {{.*}} 'int' lvalue .A {{.*}}
+// CHECK-NEXT: ArraySubscriptExpr {{.*}} 'IntAndFloat' lvalue
+// CHECK-NEXT: ImplicitCastExpr {{.*}} 'IntAndFloat *' <ArrayToPointerDecay>
+// CHECK-NEXT: DeclRefExpr {{.*}} 'IntAndFloat[2]' lvalue Var {{.*}} 'Structs' 'IntAndFloat[2]'
+// CHECK-NEXT: IntegerLiteral {{.*}} 'unsigned long' 0
+// CHECK-NEXT: ImplicitCastExpr {{.*}} 'float' <LValueToRValue>
+// CHECK-NEXT: MemberExpr {{.*}} 'float' lvalue .B {{.*}}
+// CHECK-NEXT: ArraySubscriptExpr {{.*}} 'IntAndFloat' lvalue
+// CHECK-NEXT: ImplicitCastExpr {{.*}} 'IntAndFloat *' <ArrayToPointerDecay>
+// CHECK-NEXT: DeclRefExpr {{.*}} 'IntAndFloat[2]' lvalue Var {{.*}} 'Structs' 'IntAndFloat[2]'
+// CHECK-NEXT: IntegerLiteral {{.*}} 'unsigned long' 0
+// CHECK-NEXT: ImplicitCastExpr {{.*}} 'float' <IntegralToFloating>
+// CHECK-NEXT: ImplicitCastExpr {{.*}} 'int' <LValueToRValue>
+// CHECK-NEXT: MemberExpr {{.*}} 'int' lvalue .A {{.*}}
+// CHECK-NEXT: ArraySubscriptExpr {{.*}} 'IntAndFloat' lvalue
+// CHECK-NEXT: ImplicitCastExpr {{.*}} 'IntAndFloat *' <ArrayToPointerDecay>
+// CHECK-NEXT: DeclRefExpr {{.*}} 'IntAndFloat[2]' lvalue Var {{.*}} 'Structs' 'IntAndFloat[2]'
+// CHECK-NEXT: IntegerLiteral {{.*}} 'unsigned long' 1
+// CHECK-NEXT: ImplicitCastExpr {{.*}} 'float' <LValueToRValue>
+// CHECK-NEXT: MemberExpr {{.*}} 'float' lvalue .B {{.*}}
+// CHECK-NEXT: ArraySubscriptExpr {{.*}} 'IntAndFloat' lvalue
+// CHECK-NEXT: ImplicitCastExpr {{.*}} 'IntAndFloat *' <ArrayToPointerDecay>
+// CHECK-NEXT: DeclRefExpr {{.*}} 'IntAndFloat[2]' lvalue Var {{.*}} 'Structs' 'IntAndFloat[2]'
+// CHECK-NEXT: IntegerLiteral {{.*}} 'unsigned long' 1
+float case17() {
+ IntAndFloat Structs[] = {1,2,3,4};
+ float Floats[] = {Structs, Structs};
+ return Floats[7];
+}
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