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Vectors with different number of elements of the same element type can have
the same allocation size but different primitive sizes(e.g., <3xi32> and <4xi32>). When ScalarRepl promotes them, it can't use a bit cast but should use a shuffle vector instead. git-svn-id: https://llvm.org/svn/llvm-project/llvm/trunk@129472 91177308-0d34-0410-b5e6-96231b3b80d8
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@ -690,15 +690,45 @@ Value *ConvertToScalarInfo::
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ConvertScalar_ExtractValue(Value *FromVal, const Type *ToType,
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uint64_t Offset, IRBuilder<> &Builder) {
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// If the load is of the whole new alloca, no conversion is needed.
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if (FromVal->getType() == ToType && Offset == 0)
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const Type *FromType = FromVal->getType();
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if (FromType == ToType && Offset == 0)
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return FromVal;
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// If the result alloca is a vector type, this is either an element
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// access or a bitcast to another vector type of the same size.
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if (const VectorType *VTy = dyn_cast<VectorType>(FromVal->getType())) {
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if (const VectorType *VTy = dyn_cast<VectorType>(FromType)) {
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unsigned ToTypeSize = TD.getTypeAllocSize(ToType);
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if (ToTypeSize == AllocaSize)
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return Builder.CreateBitCast(FromVal, ToType, "tmp");
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if (ToTypeSize == AllocaSize) {
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if (FromType->getPrimitiveSizeInBits() ==
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ToType->getPrimitiveSizeInBits())
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return Builder.CreateBitCast(FromVal, ToType, "tmp");
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else {
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// Vectors with the same element type can have the same allocation
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// size but different primitive sizes (e.g., <3 x i32> and <4 x i32>)
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// In this case, use a shuffle vector instead of a bit cast.
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const VectorType *ToVTy = dyn_cast<VectorType>(ToType);
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assert(ToVTy && (ToVTy->getElementType() == VTy->getElementType()) &&
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"Vectors must have the same element type");
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LLVMContext &Context = FromVal->getContext();
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Value *UnV = UndefValue::get(FromType);
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unsigned numEltsFrom = VTy->getNumElements();
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unsigned numEltsTo = ToVTy->getNumElements();
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SmallVector<Constant*, 3> Args;
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unsigned minNumElts = std::min(numEltsFrom, numEltsTo);
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unsigned i;
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for (i=0; i != minNumElts; ++i)
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Args.push_back(ConstantInt::get(Type::getInt32Ty(Context), i));
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if (i < numEltsTo) {
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Constant* UnC = UndefValue::get(Type::getInt32Ty(Context));
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for (; i != numEltsTo; ++i)
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Args.push_back(UnC);
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}
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Constant *Mask = ConstantVector::get(Args);
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return Builder.CreateShuffleVector(FromVal, UnV, Mask, "tmpV");
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}
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}
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if (ToType->isVectorTy()) {
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assert(isPowerOf2_64(AllocaSize / ToTypeSize) &&
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@ -837,8 +867,36 @@ ConvertScalar_InsertValue(Value *SV, Value *Old,
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// Changing the whole vector with memset or with an access of a different
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// vector type?
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if (ValSize == VecSize)
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return Builder.CreateBitCast(SV, AllocaType, "tmp");
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if (ValSize == VecSize) {
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if (VTy->getPrimitiveSizeInBits() ==
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SV->getType()->getPrimitiveSizeInBits())
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return Builder.CreateBitCast(SV, AllocaType, "tmp");
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else {
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// Vectors with the same element type can have the same allocation
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// size but different primitive sizes (e.g., <3 x i32> and <4 x i32>)
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// In this case, use a shuffle vector instead of a bit cast.
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const VectorType *SVVTy = dyn_cast<VectorType>(SV->getType());
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assert(SVVTy && (SVVTy->getElementType() == VTy->getElementType()) &&
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"Vectors must have the same element type");
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Value *UnV = UndefValue::get(SVVTy);
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unsigned numEltsFrom = SVVTy->getNumElements();
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unsigned numEltsTo = VTy->getNumElements();
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SmallVector<Constant*, 3> Args;
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unsigned minNumElts = std::min(numEltsFrom, numEltsTo);
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unsigned i;
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for (i=0; i != minNumElts; ++i)
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Args.push_back(ConstantInt::get(Type::getInt32Ty(Context), i));
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if (i < numEltsTo) {
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Constant* UnC = UndefValue::get(Type::getInt32Ty(Context));
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for (; i != numEltsTo; ++i)
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Args.push_back(UnC);
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}
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Constant *Mask = ConstantVector::get(Args);
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return Builder.CreateShuffleVector(SV, UnV, Mask, "tmpV");
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}
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}
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if (SV->getType()->isVectorTy() && isPowerOf2_64(VecSize / ValSize)) {
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assert(Offset == 0 && "Can't insert a value of a smaller vector type at "
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@ -202,3 +202,49 @@ define float @test13(<4 x float> %x, <2 x i32> %y) {
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; CHECK-NOT: alloca
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; CHECK: bitcast <4 x float> %x to i128
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}
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define <3 x float> @test14(<3 x float> %x) {
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entry:
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%x.addr = alloca <3 x float>, align 16
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%r = alloca <3 x i32>, align 16
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%extractVec = shufflevector <3 x float> %x, <3 x float> undef, <4 x i32> <i32 0, i32 1, i32 2, i32 undef>
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%storetmp = bitcast <3 x float>* %x.addr to <4 x float>*
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store <4 x float> %extractVec, <4 x float>* %storetmp, align 16
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%tmp = load <3 x float>* %x.addr, align 16
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%cmp = fcmp une <3 x float> %tmp, zeroinitializer
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%sext = sext <3 x i1> %cmp to <3 x i32>
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%and = and <3 x i32> <i32 1065353216, i32 1065353216, i32 1065353216>, %sext
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%extractVec1 = shufflevector <3 x i32> %and, <3 x i32> undef, <4 x i32> <i32 0, i32 1, i32 2, i32 undef>
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%storetmp2 = bitcast <3 x i32>* %r to <4 x i32>*
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store <4 x i32> %extractVec1, <4 x i32>* %storetmp2, align 16
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%tmp3 = load <3 x i32>* %r, align 16
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%0 = bitcast <3 x i32> %tmp3 to <3 x float>
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%tmp4 = load <3 x float>* %x.addr, align 16
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ret <3 x float> %tmp4
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; CHECK: @test14
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; CHECK-NOT: alloca
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; CHECK: shufflevector <4 x i32> %extractVec1, <4 x i32> undef, <3 x i32> <i32 0, i32 1, i32 2>
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}
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define void @test15(<3 x i64>* sret %agg.result, <3 x i64> %x, <3 x i64> %min) {
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entry:
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%x.addr = alloca <3 x i64>, align 32
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%min.addr = alloca <3 x i64>, align 32
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%extractVec = shufflevector <3 x i64> %x, <3 x i64> undef, <4 x i32> <i32 0, i32 1, i32 2, i32 undef>
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%storetmp = bitcast <3 x i64>* %x.addr to <4 x i64>*
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store <4 x i64> %extractVec, <4 x i64>* %storetmp, align 32
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%extractVec1 = shufflevector <3 x i64> %min, <3 x i64> undef, <4 x i32> <i32 0, i32 1, i32 2, i32 undef>
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%storetmp2 = bitcast <3 x i64>* %min.addr to <4 x i64>*
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store <4 x i64> %extractVec1, <4 x i64>* %storetmp2, align 32
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%tmp = load <3 x i64>* %x.addr
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%tmp5 = extractelement <3 x i64> %tmp, i32 0
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%tmp11 = insertelement <3 x i64> %tmp, i64 %tmp5, i32 0
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store <3 x i64> %tmp11, <3 x i64>* %x.addr
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%tmp30 = load <3 x i64>* %x.addr, align 32
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store <3 x i64> %tmp30, <3 x i64>* %agg.result
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ret void
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; CHECK: @test15
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; CHECK-NOT: alloca
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; CHECK: shufflevector <4 x i64> %tmpV2, <4 x i64> undef, <3 x i32> <i32 0, i32 1, i32 2>
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}
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