[PM]: LoopAccessInfo simple refactoring

To make definition of mov ctors easier.
Differential Revision: http://reviews.llvm.org/D21563

llvm-svn: 273506
This commit is contained in:
Xinliang David Li 2016-06-22 23:20:59 +00:00
parent 38adadfe2a
commit ce030acb4e
2 changed files with 31 additions and 29 deletions

View File

@ -520,13 +520,13 @@ public:
bool canVectorizeMemory() const { return CanVecMem; }
const RuntimePointerChecking *getRuntimePointerChecking() const {
return &PtrRtChecking;
return PtrRtChecking.get();
}
/// \brief Number of memchecks required to prove independence of otherwise
/// may-alias pointers.
unsigned getNumRuntimePointerChecks() const {
return PtrRtChecking.getNumberOfChecks();
return PtrRtChecking->getNumberOfChecks();
}
/// Return true if the block BB needs to be predicated in order for the loop
@ -565,13 +565,13 @@ public:
/// \brief the Memory Dependence Checker which can determine the
/// loop-independent and loop-carried dependences between memory accesses.
const MemoryDepChecker &getDepChecker() const { return DepChecker; }
const MemoryDepChecker &getDepChecker() const { return *DepChecker; }
/// \brief Return the list of instructions that use \p Ptr to read or write
/// memory.
SmallVector<Instruction *, 4> getInstructionsForAccess(Value *Ptr,
bool isWrite) const {
return DepChecker.getInstructionsForAccess(Ptr, isWrite);
return DepChecker->getInstructionsForAccess(Ptr, isWrite);
}
/// \brief If an access has a symbolic strides, this maps the pointer value to
@ -615,12 +615,12 @@ private:
void collectStridedAccess(Value *LoadOrStoreInst);
/// We need to check that all of the pointers in this list are disjoint
/// at runtime.
RuntimePointerChecking PtrRtChecking;
/// at runtime. Using std::unique_ptr to make using move ctor simpler.
std::unique_ptr<RuntimePointerChecking> PtrRtChecking;
/// \brief the Memory Dependence Checker which can determine the
/// loop-independent and loop-carried dependences between memory accesses.
MemoryDepChecker DepChecker;
std::unique_ptr<MemoryDepChecker> DepChecker;
Loop *TheLoop;
const DataLayout &DL;

View File

@ -1514,8 +1514,8 @@ void LoopAccessInfo::analyzeLoop() {
unsigned NumReads = 0;
unsigned NumReadWrites = 0;
PtrRtChecking.Pointers.clear();
PtrRtChecking.Need = false;
PtrRtChecking->Pointers.clear();
PtrRtChecking->Need = false;
const bool IsAnnotatedParallel = TheLoop->isAnnotatedParallel();
@ -1554,7 +1554,7 @@ void LoopAccessInfo::analyzeLoop() {
}
NumLoads++;
Loads.push_back(Ld);
DepChecker.addAccess(Ld);
DepChecker->addAccess(Ld);
if (EnableMemAccessVersioning)
collectStridedAccess(Ld);
continue;
@ -1578,7 +1578,7 @@ void LoopAccessInfo::analyzeLoop() {
}
NumStores++;
Stores.push_back(St);
DepChecker.addAccess(St);
DepChecker->addAccess(St);
if (EnableMemAccessVersioning)
collectStridedAccess(St);
}
@ -1676,7 +1676,7 @@ void LoopAccessInfo::analyzeLoop() {
// Find pointers with computable bounds. We are going to use this information
// to place a runtime bound check.
bool CanDoRTIfNeeded = Accesses.canCheckPtrAtRT(PtrRtChecking, PSE.getSE(),
bool CanDoRTIfNeeded = Accesses.canCheckPtrAtRT(*PtrRtChecking, PSE.getSE(),
TheLoop, SymbolicStrides);
if (!CanDoRTIfNeeded) {
emitAnalysis(LoopAccessReport() << "cannot identify array bounds");
@ -1691,21 +1691,21 @@ void LoopAccessInfo::analyzeLoop() {
CanVecMem = true;
if (Accesses.isDependencyCheckNeeded()) {
DEBUG(dbgs() << "LAA: Checking memory dependencies\n");
CanVecMem = DepChecker.areDepsSafe(
CanVecMem = DepChecker->areDepsSafe(
DependentAccesses, Accesses.getDependenciesToCheck(), SymbolicStrides);
MaxSafeDepDistBytes = DepChecker.getMaxSafeDepDistBytes();
MaxSafeDepDistBytes = DepChecker->getMaxSafeDepDistBytes();
if (!CanVecMem && DepChecker.shouldRetryWithRuntimeCheck()) {
if (!CanVecMem && DepChecker->shouldRetryWithRuntimeCheck()) {
DEBUG(dbgs() << "LAA: Retrying with memory checks\n");
// Clear the dependency checks. We assume they are not needed.
Accesses.resetDepChecks(DepChecker);
Accesses.resetDepChecks(*DepChecker);
PtrRtChecking.reset();
PtrRtChecking.Need = true;
PtrRtChecking->reset();
PtrRtChecking->Need = true;
auto *SE = PSE.getSE();
CanDoRTIfNeeded = Accesses.canCheckPtrAtRT(PtrRtChecking, SE, TheLoop,
CanDoRTIfNeeded = Accesses.canCheckPtrAtRT(*PtrRtChecking, SE, TheLoop,
SymbolicStrides, true);
// Check that we found the bounds for the pointer.
@ -1723,7 +1723,7 @@ void LoopAccessInfo::analyzeLoop() {
if (CanVecMem)
DEBUG(dbgs() << "LAA: No unsafe dependent memory operations in loop. We"
<< (PtrRtChecking.Need ? "" : " don't")
<< (PtrRtChecking->Need ? "" : " don't")
<< " need runtime memory checks.\n");
else {
emitAnalysis(
@ -1835,7 +1835,7 @@ std::pair<Instruction *, Instruction *> LoopAccessInfo::addRuntimeChecks(
auto *SE = PSE.getSE();
SCEVExpander Exp(*SE, DL, "induction");
auto ExpandedChecks =
expandBounds(PointerChecks, TheLoop, Loc, SE, Exp, PtrRtChecking);
expandBounds(PointerChecks, TheLoop, Loc, SE, Exp, *PtrRtChecking);
LLVMContext &Ctx = Loc->getContext();
Instruction *FirstInst = nullptr;
@ -1891,10 +1891,10 @@ std::pair<Instruction *, Instruction *> LoopAccessInfo::addRuntimeChecks(
std::pair<Instruction *, Instruction *>
LoopAccessInfo::addRuntimeChecks(Instruction *Loc) const {
if (!PtrRtChecking.Need)
if (!PtrRtChecking->Need)
return std::make_pair(nullptr, nullptr);
return addRuntimeChecks(Loc, PtrRtChecking.getChecks());
return addRuntimeChecks(Loc, PtrRtChecking->getChecks());
}
void LoopAccessInfo::collectStridedAccess(Value *MemAccess) {
@ -1920,8 +1920,10 @@ LoopAccessInfo::LoopAccessInfo(Loop *L, ScalarEvolution *SE,
const DataLayout &DL,
const TargetLibraryInfo *TLI, AliasAnalysis *AA,
DominatorTree *DT, LoopInfo *LI)
: PSE(*SE, *L), PtrRtChecking(SE), DepChecker(PSE, L), TheLoop(L), DL(DL),
TLI(TLI), AA(AA), DT(DT), LI(LI), NumLoads(0), NumStores(0),
: PSE(*SE, *L),
PtrRtChecking(llvm::make_unique<RuntimePointerChecking>(SE)),
DepChecker(llvm::make_unique<MemoryDepChecker>(PSE, L)), TheLoop(L),
DL(DL), TLI(TLI), AA(AA), DT(DT), LI(LI), NumLoads(0), NumStores(0),
MaxSafeDepDistBytes(-1U), CanVecMem(false),
StoreToLoopInvariantAddress(false) {
if (canAnalyzeLoop())
@ -1934,7 +1936,7 @@ void LoopAccessInfo::print(raw_ostream &OS, unsigned Depth) const {
if (MaxSafeDepDistBytes != -1U)
OS << " with a maximum dependence distance of " << MaxSafeDepDistBytes
<< " bytes";
if (PtrRtChecking.Need)
if (PtrRtChecking->Need)
OS << " with run-time checks";
OS << "\n";
}
@ -1942,17 +1944,17 @@ void LoopAccessInfo::print(raw_ostream &OS, unsigned Depth) const {
if (Report)
OS.indent(Depth) << "Report: " << Report->str() << "\n";
if (auto *Dependences = DepChecker.getDependences()) {
if (auto *Dependences = DepChecker->getDependences()) {
OS.indent(Depth) << "Dependences:\n";
for (auto &Dep : *Dependences) {
Dep.print(OS, Depth + 2, DepChecker.getMemoryInstructions());
Dep.print(OS, Depth + 2, DepChecker->getMemoryInstructions());
OS << "\n";
}
} else
OS.indent(Depth) << "Too many dependences, not recorded\n";
// List the pair of accesses need run-time checks to prove independence.
PtrRtChecking.print(OS, Depth);
PtrRtChecking->print(OS, Depth);
OS << "\n";
OS.indent(Depth) << "Store to invariant address was "