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[NFC] Add new setDebugLocFromInst that uses the class Builder by default 

In lots of places we were calling setDebugLocFromInst and passing
in the same Builder member variable found in InnerLoopVectorizer.
I personally found this confusing so I've changed the interface
to take an Optional<IRBuilder<> *> and we can now pass in None
when we want to use the class member variable.

Differential Revision: https://reviews.llvm.org/D105100
This commit is contained in:
David Sherwood 2021-06-18 13:20:10 +01:00
parent 67643f46ee
commit 51b4ab26ca
1 changed files with 28 additions and 25 deletions
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53
llvm/lib/Transforms/Vectorize/LoopVectorize.cpp
View File

@ -547,9 +547,10 @@ public:
VPValue *Def, VPValue *Addr,
VPValue *StoredValue, VPValue *BlockInMask);
/// Set the debug location in the builder using the debug location in
/// the instruction.
void setDebugLocFromInst(IRBuilder<> &B, const Value *Ptr);
/// Set the debug location in the builder \p Ptr using the debug location in
/// \p V. If \p Ptr is None then it uses the class member's Builder.
void setDebugLocFromInst(const Value *V,
Optional<IRBuilder<> *> CustomBuilder = None);
/// Fix the non-induction PHIs in the OrigPHIsToFix vector.
void fixNonInductionPHIs(VPTransformState &State);
@ -1040,8 +1041,10 @@ static Instruction *getDebugLocFromInstOrOperands(Instruction *I) {
return I;
}
void InnerLoopVectorizer::setDebugLocFromInst(IRBuilder<> &B, const Value *Ptr) {
if (const Instruction *Inst = dyn_cast_or_null<Instruction>(Ptr)) {
void InnerLoopVectorizer::setDebugLocFromInst(
const Value *V, Optional<IRBuilder<> *> CustomBuilder) {
IRBuilder<> *B = (CustomBuilder == None) ? &Builder : *CustomBuilder;
if (const Instruction *Inst = dyn_cast_or_null<Instruction>(V)) {
const DILocation *DIL = Inst->getDebugLoc();
// When a FSDiscriminator is enabled, we don't need to add the multiply
@ -1052,15 +1055,15 @@ void InnerLoopVectorizer::setDebugLocFromInst(IRBuilder<> &B, const Value *Ptr)
auto NewDIL =
DIL->cloneByMultiplyingDuplicationFactor(UF * VF.getKnownMinValue());
if (NewDIL)
B.SetCurrentDebugLocation(NewDIL.getValue());
B->SetCurrentDebugLocation(NewDIL.getValue());
else
LLVM_DEBUG(dbgs()
<< "Failed to create new discriminator: "
<< DIL->getFilename() << " Line: " << DIL->getLine());
} else
B.SetCurrentDebugLocation(DIL);
B->SetCurrentDebugLocation(DIL);
} else
B.SetCurrentDebugLocation(DebugLoc());
B->SetCurrentDebugLocation(DebugLoc());
}
/// Write a \p DebugMsg about vectorization to the debug output stream. If \p I
@ -2718,7 +2721,7 @@ void InnerLoopVectorizer::vectorizeInterleaveGroup(
for (unsigned Part = 0; Part < UF; Part++) {
Value *AddrPart = State.get(Addr, VPIteration(Part, 0));
setDebugLocFromInst(Builder, AddrPart);
setDebugLocFromInst(AddrPart);
// Notice current instruction could be any index. Need to adjust the address
// to the member of index 0.
@ -2744,7 +2747,7 @@ void InnerLoopVectorizer::vectorizeInterleaveGroup(
AddrParts.push_back(Builder.CreateBitCast(AddrPart, PtrTy));
}
setDebugLocFromInst(Builder, Instr);
setDebugLocFromInst(Instr);
Value *PoisonVec = PoisonValue::get(VecTy);
Value *MaskForGaps = nullptr;
@ -2949,7 +2952,7 @@ void InnerLoopVectorizer::vectorizeMemoryInstruction(
// Handle Stores:
if (SI) {
setDebugLocFromInst(Builder, SI);
setDebugLocFromInst(SI);
for (unsigned Part = 0; Part < UF; ++Part) {
Instruction *NewSI = nullptr;
@ -2981,7 +2984,7 @@ void InnerLoopVectorizer::vectorizeMemoryInstruction(
// Handle loads.
assert(LI && "Must have a load instruction");
setDebugLocFromInst(Builder, LI);
setDebugLocFromInst(LI);
for (unsigned Part = 0; Part < UF; ++Part) {
Value *NewLI;
if (CreateGatherScatter) {
@ -3023,7 +3026,7 @@ void InnerLoopVectorizer::scalarizeInstruction(Instruction *Instr, VPValue *Def,
if (!Instance.isFirstIteration())
return;
setDebugLocFromInst(Builder, Instr);
setDebugLocFromInst(Instr);
// Does this instruction return a value ?
bool IsVoidRetTy = Instr->getType()->isVoidTy();
@ -3073,11 +3076,11 @@ PHINode *InnerLoopVectorizer::createInductionVariable(Loop *L, Value *Start,
IRBuilder<> B(&*Header->getFirstInsertionPt());
Instruction *OldInst = getDebugLocFromInstOrOperands(OldInduction);
setDebugLocFromInst(B, OldInst);
setDebugLocFromInst(OldInst, &B);
auto *Induction = B.CreatePHI(Start->getType(), 2, "index");
B.SetInsertPoint(Latch->getTerminator());
setDebugLocFromInst(B, OldInst);
setDebugLocFromInst(OldInst, &B);
// Create i+1 and fill the PHINode.
//
@ -4322,7 +4325,7 @@ void InnerLoopVectorizer::fixReduction(VPWidenPHIRecipe *PhiR,
RecurKind RK = RdxDesc.getRecurrenceKind();
TrackingVH<Value> ReductionStartValue = RdxDesc.getRecurrenceStartValue();
Instruction *LoopExitInst = RdxDesc.getLoopExitInstr();
setDebugLocFromInst(Builder, ReductionStartValue);
setDebugLocFromInst(ReductionStartValue);
bool IsInLoopReductionPhi = Cost->isInLoopReduction(OrigPhi);
VPValue *LoopExitInstDef = State.Plan->getVPValue(LoopExitInst);
@ -4357,7 +4360,7 @@ void InnerLoopVectorizer::fixReduction(VPWidenPHIRecipe *PhiR,
// instructions.
Builder.SetInsertPoint(&*LoopMiddleBlock->getFirstInsertionPt());
setDebugLocFromInst(Builder, LoopExitInst);
setDebugLocFromInst(LoopExitInst);
Type *PhiTy = OrigPhi->getType();
// If tail is folded by masking, the vector value to leave the loop should be
@ -4436,7 +4439,7 @@ void InnerLoopVectorizer::fixReduction(VPWidenPHIRecipe *PhiR,
// conditional branch, and (c) other passes may add new predecessors which
// terminate on this line. This is the easiest way to ensure we don't
// accidentally cause an extra step back into the loop while debugging.
setDebugLocFromInst(Builder, LoopMiddleBlock->getTerminator());
setDebugLocFromInst(LoopMiddleBlock->getTerminator());
if (IsOrdered)
ReducedPartRdx = State.get(LoopExitInstDef, UF - 1);
else {
@ -4809,7 +4812,7 @@ void InnerLoopVectorizer::widenPHIInstruction(Instruction *PN,
assert(!Legal->isReductionVariable(P) &&
"reductions should be handled above");
setDebugLocFromInst(Builder, P);
setDebugLocFromInst(P);
// This PHINode must be an induction variable.
// Make sure that we know about it.
@ -4976,7 +4979,7 @@ void InnerLoopVectorizer::widenInstruction(Instruction &I, VPValue *Def,
case Instruction::Or:
case Instruction::Xor: {
// Just widen unops and binops.
setDebugLocFromInst(Builder, &I);
setDebugLocFromInst(&I);
for (unsigned Part = 0; Part < UF; ++Part) {
SmallVector<Value *, 2> Ops;
@ -5000,7 +5003,7 @@ void InnerLoopVectorizer::widenInstruction(Instruction &I, VPValue *Def,
// Widen compares. Generate vector compares.
bool FCmp = (I.getOpcode() == Instruction::FCmp);
auto *Cmp = cast<CmpInst>(&I);
setDebugLocFromInst(Builder, Cmp);
setDebugLocFromInst(Cmp);
for (unsigned Part = 0; Part < UF; ++Part) {
Value *A = State.get(User.getOperand(0), Part);
Value *B = State.get(User.getOperand(1), Part);
@ -5033,7 +5036,7 @@ void InnerLoopVectorizer::widenInstruction(Instruction &I, VPValue *Def,
case Instruction::FPTrunc:
case Instruction::BitCast: {
auto *CI = cast<CastInst>(&I);
setDebugLocFromInst(Builder, CI);
setDebugLocFromInst(CI);
/// Vectorize casts.
Type *DestTy =
@ -5059,7 +5062,7 @@ void InnerLoopVectorizer::widenCallInstruction(CallInst &I, VPValue *Def,
VPTransformState &State) {
assert(!isa<DbgInfoIntrinsic>(I) &&
"DbgInfoIntrinsic should have been dropped during VPlan construction");
setDebugLocFromInst(Builder, &I);
setDebugLocFromInst(&I);
Module *M = I.getParent()->getParent()->getParent();
auto *CI = cast<CallInst>(&I);
@ -5131,7 +5134,7 @@ void InnerLoopVectorizer::widenSelectInstruction(SelectInst &I, VPValue *VPDef,
VPUser &Operands,
bool InvariantCond,
VPTransformState &State) {
setDebugLocFromInst(Builder, &I);
setDebugLocFromInst(&I);
// The condition can be loop invariant but still defined inside the
// loop. This means that we can't just use the original 'cond' value.
@ -9484,7 +9487,7 @@ void VPWidenPHIRecipe::execute(VPTransformState &State) {
}
void VPBlendRecipe::execute(VPTransformState &State) {
State.ILV->setDebugLocFromInst(State.Builder, Phi);
State.ILV->setDebugLocFromInst(Phi, &State.Builder);
// We know that all PHIs in non-header blocks are converted into
// selects, so we don't have to worry about the insertion order and we
// can just use the builder.