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Teach scalarrepl to promote unions of vectors and floats, producing

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insert/extractelement operations.  This implements
Transforms/ScalarRepl/vector_promote.ll


git-svn-id: https://llvm.org/svn/llvm-project/llvm/trunk@27710 91177308-0d34-0410-b5e6-96231b3b80d8
This commit is contained in:
Chris Lattner 2006-04-14 21:42:41 +00:00
parent d8f5bd3988
commit de6df88529
1 changed files with 101 additions and 46 deletions
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147
lib/Transforms/Scalar/ScalarReplAggregates.cpp
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@ -415,16 +415,30 @@ void SROA::CanonicalizeAllocaUsers(AllocationInst *AI) {
/// MergeInType - Add the 'In' type to the accumulated type so far. If the
/// types are incompatible, return true, otherwise update Accum and return
/// false.
///
/// There are two cases we handle here:
/// 1) An effectively integer union, where the pieces are stored into as
/// smaller integers (common with byte swap and other idioms).
/// 2) A union of a vector and its elements. Here we turn element accesses
/// into insert/extract element operations.
static bool MergeInType(const Type *In, const Type *&Accum) {
if (!In->isIntegral()) return true;
// If this is our first type, just use it.
if (Accum == Type::VoidTy) {
const PackedType *PTy;
if (Accum == Type::VoidTy || In == Accum) {
Accum = In;
} else {
} else if (In->isIntegral() && Accum->isIntegral()) { // integer union.
// Otherwise pick whichever type is larger.
if (In->getTypeID() > Accum->getTypeID())
Accum = In;
} else if ((PTy = dyn_cast<PackedType>(Accum)) &&
PTy->getElementType() == In) {
// Accum is a vector, and we are accessing an element: ok.
} else if ((PTy = dyn_cast<PackedType>(In)) &&
PTy->getElementType() == Accum) {
// In is a vector, and accum is an element: ok, remember In.
Accum = In;
} else {
return true;
}
return false;
}
@ -462,7 +476,7 @@ const Type *SROA::CanConvertToScalar(Value *V, bool &IsNotTrivial) {
// Storing the pointer, not the into the value?
if (SI->getOperand(0) == V) return 0;
// NOTE: We could handle storing of FP imms here!
// NOTE: We could handle storing of FP imms into integers here!
if (MergeInType(SI->getOperand(0)->getType(), UsedType))
return 0;
@ -482,7 +496,7 @@ const Type *SROA::CanConvertToScalar(Value *V, bool &IsNotTrivial) {
IsNotTrivial = true;
const Type *SubElt = CanConvertToScalar(GEP, IsNotTrivial);
if (SubElt == 0) return 0;
if (SubElt != Type::VoidTy) {
if (SubElt != Type::VoidTy && SubElt->isInteger()) {
const Type *NewTy =
getUIntAtLeastAsBitAs(SubElt->getPrimitiveSizeInBits()+BitOffset);
if (NewTy == 0 || MergeInType(NewTy, UsedType)) return 0;
@ -499,8 +513,23 @@ const Type *SROA::CanConvertToScalar(Value *V, bool &IsNotTrivial) {
if (const ArrayType *ATy = dyn_cast<ArrayType>(AggTy)) {
if (Idx >= ATy->getNumElements()) return 0; // Out of range.
} else if (const PackedType *PTy = dyn_cast<PackedType>(AggTy)) {
if (Idx >= PTy->getNumElements()) return 0; // Out of range.
} else if (const PackedType *PackedTy = dyn_cast<PackedType>(AggTy)) {
// Getting an element of the packed vector.
if (Idx >= PackedTy->getNumElements()) return 0; // Out of range.
// Merge in the packed type.
if (MergeInType(PackedTy, UsedType)) return 0;
const Type *SubTy = CanConvertToScalar(GEP, IsNotTrivial);
if (SubTy == 0) return 0;
if (SubTy != Type::VoidTy && MergeInType(SubTy, UsedType))
return 0;
// We'll need to change this to an insert/extract element operation.
IsNotTrivial = true;
continue; // Everything looks ok
} else if (isa<StructType>(AggTy)) {
// Structs are always ok.
} else {
@ -537,31 +566,47 @@ void SROA::ConvertToScalar(AllocationInst *AI, const Type *ActualTy) {
"Not in the entry block!");
EntryBlock->getInstList().remove(AI); // Take the alloca out of the program.
if (ActualTy->isInteger())
ActualTy = ActualTy->getUnsignedVersion();
// Create and insert the alloca.
AllocaInst *NewAI = new AllocaInst(ActualTy->getUnsignedVersion(), 0,
AI->getName(), EntryBlock->begin());
AllocaInst *NewAI = new AllocaInst(ActualTy, 0, AI->getName(),
EntryBlock->begin());
ConvertUsesToScalar(AI, NewAI, 0);
delete AI;
}
/// ConvertUsesToScalar - Convert all of the users of Ptr to use the new alloca
/// directly. Offset is an offset from the original alloca, in bits that need
/// to be shifted to the right. By the end of this, there should be no uses of
/// Ptr.
/// directly. This happens when we are converting an "integer union" to a
/// single integer scalar, or when we are converting a "vector union" to a
/// vector with insert/extractelement instructions.
///
/// Offset is an offset from the original alloca, in bits that need to be
/// shifted to the right. By the end of this, there should be no uses of Ptr.
void SROA::ConvertUsesToScalar(Value *Ptr, AllocaInst *NewAI, unsigned Offset) {
bool isVectorInsert = isa<PackedType>(NewAI->getType()->getElementType());
while (!Ptr->use_empty()) {
Instruction *User = cast<Instruction>(Ptr->use_back());
if (LoadInst *LI = dyn_cast<LoadInst>(User)) {
// The load is a bit extract from NewAI shifted right by Offset bits.
Value *NV = new LoadInst(NewAI, LI->getName(), LI);
if (Offset && Offset < NV->getType()->getPrimitiveSizeInBits())
NV = new ShiftInst(Instruction::Shr, NV,
ConstantUInt::get(Type::UByteTy, Offset),
LI->getName(), LI);
if (NV->getType() != LI->getType())
NV = new CastInst(NV, LI->getType(), LI->getName(), LI);
if (NV->getType() != LI->getType()) {
if (const PackedType *PTy = dyn_cast<PackedType>(NV->getType())) {
// Must be an element access.
unsigned Elt = Offset/PTy->getElementType()->getPrimitiveSizeInBits();
NV = new ExtractElementInst(NV, ConstantUInt::get(Type::UIntTy, Elt),
"tmp", LI);
} else {
assert(NV->getType()->isInteger() && "Unknown promotion!");
if (Offset && Offset < NV->getType()->getPrimitiveSizeInBits())
NV = new ShiftInst(Instruction::Shr, NV,
ConstantUInt::get(Type::UByteTy, Offset),
LI->getName(), LI);
NV = new CastInst(NV, LI->getType(), LI->getName(), LI);
}
}
LI->replaceAllUsesWith(NV);
LI->eraseFromParent();
} else if (StoreInst *SI = dyn_cast<StoreInst>(User)) {
@ -570,31 +615,41 @@ void SROA::ConvertUsesToScalar(Value *Ptr, AllocaInst *NewAI, unsigned Offset) {
// Convert the stored type to the actual type, shift it left to insert
// then 'or' into place.
Value *SV = SI->getOperand(0);
if (SV->getType() != NewAI->getType()->getElementType() || Offset != 0) {
const Type *AllocaType = NewAI->getType()->getElementType();
if (SV->getType() != AllocaType) {
Value *Old = new LoadInst(NewAI, NewAI->getName()+".in", SI);
// If SV is signed, convert it to unsigned, so that the next cast zero
// extends the value.
if (SV->getType()->isSigned())
SV = new CastInst(SV, SV->getType()->getUnsignedVersion(),
SV->getName(), SI);
SV = new CastInst(SV, Old->getType(), SV->getName(), SI);
if (Offset && Offset < SV->getType()->getPrimitiveSizeInBits())
SV = new ShiftInst(Instruction::Shl, SV,
ConstantUInt::get(Type::UByteTy, Offset),
SV->getName()+".adj", SI);
// Mask out the bits we are about to insert from the old value.
unsigned TotalBits = SV->getType()->getPrimitiveSizeInBits();
unsigned InsertBits =
SI->getOperand(0)->getType()->getPrimitiveSizeInBits();
if (TotalBits != InsertBits) {
assert(TotalBits > InsertBits);
uint64_t Mask = ~(((1ULL << InsertBits)-1) << Offset);
if (TotalBits != 64)
Mask = Mask & ((1ULL << TotalBits)-1);
Old = BinaryOperator::createAnd(Old,
if (const PackedType *PTy = dyn_cast<PackedType>(AllocaType)) {
// Must be an element insertion.
unsigned Elt = Offset/PTy->getElementType()->getPrimitiveSizeInBits();
SV = new InsertElementInst(Old, SV,
ConstantUInt::get(Type::UIntTy, Elt),
"tmp", SI);
} else {
// If SV is signed, convert it to unsigned, so that the next cast zero
// extends the value.
if (SV->getType()->isSigned())
SV = new CastInst(SV, SV->getType()->getUnsignedVersion(),
SV->getName(), SI);
SV = new CastInst(SV, Old->getType(), SV->getName(), SI);
if (Offset && Offset < SV->getType()->getPrimitiveSizeInBits())
SV = new ShiftInst(Instruction::Shl, SV,
ConstantUInt::get(Type::UByteTy, Offset),
SV->getName()+".adj", SI);
// Mask out the bits we are about to insert from the old value.
unsigned TotalBits = SV->getType()->getPrimitiveSizeInBits();
unsigned InsertBits =
SI->getOperand(0)->getType()->getPrimitiveSizeInBits();
if (TotalBits != InsertBits) {
assert(TotalBits > InsertBits);
uint64_t Mask = ~(((1ULL << InsertBits)-1) << Offset);
if (TotalBits != 64)
Mask = Mask & ((1ULL << TotalBits)-1);
Old = BinaryOperator::createAnd(Old,
ConstantUInt::get(Old->getType(), Mask),
Old->getName()+".mask", SI);
SV = BinaryOperator::createOr(Old, SV, SV->getName()+".ins", SI);
Old->getName()+".mask", SI);
SV = BinaryOperator::createOr(Old, SV, SV->getName()+".ins", SI);
}
}
}
new StoreInst(SV, NewAI, SI);
@ -603,7 +658,7 @@ void SROA::ConvertUsesToScalar(Value *Ptr, AllocaInst *NewAI, unsigned Offset) {
} else if (CastInst *CI = dyn_cast<CastInst>(User)) {
unsigned NewOff = Offset;
const TargetData &TD = getAnalysis<TargetData>();
if (TD.isBigEndian()) {
if (TD.isBigEndian() && !isVectorInsert) {
// Adjust the pointer. For example, storing 16-bits into a 32-bit
// alloca with just a cast makes it modify the top 16-bits.
const Type *SrcTy = cast<PointerType>(Ptr->getType())->getElementType();
@ -625,7 +680,7 @@ void SROA::ConvertUsesToScalar(Value *Ptr, AllocaInst *NewAI, unsigned Offset) {
unsigned Idx = cast<ConstantInt>(GEP->getOperand(1))->getRawValue();
unsigned BitOffset = Idx*AggSizeInBits;
if (TD.isLittleEndian())
if (TD.isLittleEndian() || isVectorInsert)
NewOffset += BitOffset;
else
NewOffset -= BitOffset;
@ -637,14 +692,14 @@ void SROA::ConvertUsesToScalar(Value *Ptr, AllocaInst *NewAI, unsigned Offset) {
if (const SequentialType *SeqTy = dyn_cast<SequentialType>(AggTy)) {
unsigned ElSizeBits = TD.getTypeSize(SeqTy->getElementType())*8;
if (TD.isLittleEndian())
if (TD.isLittleEndian() || isVectorInsert)
NewOffset += ElSizeBits*Idx;
else
NewOffset += AggSizeInBits-ElSizeBits*(Idx+1);
} else if (const StructType *STy = dyn_cast<StructType>(AggTy)) {
unsigned EltBitOffset = TD.getStructLayout(STy)->MemberOffsets[Idx]*8;
if (TD.isLittleEndian())
if (TD.isLittleEndian() || isVectorInsert)
NewOffset += EltBitOffset;
else {
const PointerType *ElPtrTy = cast<PointerType>(GEP->getType());