From: Andrea Di Biagio Date: Tue, 2 Jun 2015 19:34:40 +0000 (+0000) Subject: [x86-64 ABI] Fix for PR23082: an assertion failure when passing/returning a wrapper... X-Git-Url: https://granicus.if.org/sourcecode?a=commitdiff_plain;h=e03b8fa4c8e7b3928205b48999ce33f4e6bab502;p=clang [x86-64 ABI] Fix for PR23082: an assertion failure when passing/returning a wrapper union in a full YMM register. This patch fixes an assertion failure in method 'X86_64ABIInfo::GetByteVectorType'. Method 'GetByteVectorType' (in TargetInfo.cpp) is responsible for mapping a QualType 'Ty' (for an argument or return value) to an LLVM IR type that, according to the ABI, must be passed in a XMM/YMM vector register. When selecting the IR vector type, method 'GetByteVectorType' always tries to choose the "best" IR vector type for the 'Ty' in input. In particular, if Ty is a wrapper structure, it keeps unwrapping it until it finds a vector type VTy. That VTy is the "preferred IR type". However, function 'isSingleElementStructure' (used to unwrap structures) does not know how to look through union types. So, before this patch, if Ty was in a nest of wrapper structures with at least two union types, we would have triggered an assertion failure (added at revision 230971). With this patch, if method 'GetByteVectorType' fails to find the preferred vector type, we just return a valid (although potentially 'less friendly') vector type based on the type size. So, rather than asserting on an 'unexpected' 'Ty' in input, we conservatively return vector type <2 x double> if Ty is 16 bytes, or <4 x double> if Ty is 32 bytes. Differential Revision: http://reviews.llvm.org/D10190 git-svn-id: https://llvm.org/svn/llvm-project/cfe/trunk@238861 91177308-0d34-0410-b5e6-96231b3b80d8 --- diff --git a/lib/CodeGen/TargetInfo.cpp b/lib/CodeGen/TargetInfo.cpp index 7f2df88608..de3558bc50 100644 --- a/lib/CodeGen/TargetInfo.cpp +++ b/lib/CodeGen/TargetInfo.cpp @@ -2227,9 +2227,16 @@ llvm::Type *X86_64ABIInfo::GetByteVectorType(QualType Ty) const { Ty = QualType(InnerTy, 0); llvm::Type *IRType = CGT.ConvertType(Ty); - assert(isa(IRType) && - "Trying to return a non-vector type in a vector register!"); - return IRType; + if(isa(IRType)) + return IRType; + + // We couldn't find the preferred IR vector type for 'Ty'. + uint64_t Size = getContext().getTypeSize(Ty); + assert((Size == 128 || Size == 256) && "Invalid type found!"); + + // Return a LLVM IR vector type based on the size of 'Ty'. + return llvm::VectorType::get(llvm::Type::getDoubleTy(getVMContext()), + Size / 64); } /// BitsContainNoUserData - Return true if the specified [start,end) bit range diff --git a/test/CodeGenCXX/x86_64-arguments-avx.cpp b/test/CodeGenCXX/x86_64-arguments-avx.cpp index 1b1c642063..29e693451d 100644 --- a/test/CodeGenCXX/x86_64-arguments-avx.cpp +++ b/test/CodeGenCXX/x86_64-arguments-avx.cpp @@ -13,3 +13,40 @@ PR22753 test(PR22753 x) { return x; } } + +namespace test2 { +typedef double __m128d __attribute__((__vector_size__(16))); +typedef float __m128 __attribute__((__vector_size__(16))); +typedef double __m256d __attribute__((__vector_size__(32))); +typedef float __m256 __attribute__((__vector_size__(32))); + +union U1 { + __m128 v1; + __m128d v2; +}; + +union UU1 { + union U1; + __m128d v3; +}; + +// CHECK: define <2 x double> @_ZN5test27PR23082ENS_3UU1E(<2 x double> +UU1 PR23082(UU1 x) { + return x; +} + +union U2 { + __m256 v1; + __m256d v2; +}; + +union UU2 { + union U2; + __m256d v3; +}; + +// CHECK: define <4 x double> @_ZN5test27PR23082ENS_3UU2E(<4 x double> +UU2 PR23082(UU2 x) { + return x; +} +}