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[LoopAccesses] Split out LoopAccessReport from VectorizerReport
The only difference between these two is that VectorizerReport adds a vectorizer-specific prefix to its messages. When LAA is used in the vectorizer context the prefix is added when we promote the LoopAccessReport into a VectorizerReport via one of the constructors. This is part of the patchset that converts LoopAccessAnalysis into an actual analysis pass. git-svn-id: https://llvm.org/svn/llvm-project/llvm/trunk@229897 91177308-0d34-0410-b5e6-96231b3b80d8
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@ -36,15 +36,18 @@ class SCEV;
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/// Optimization analysis message produced during vectorization. Messages inform
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/// the user why vectorization did not occur.
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class VectorizationReport {
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class LoopAccessReport {
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std::string Message;
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const Instruction *Instr;
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public:
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VectorizationReport(const Instruction *I = nullptr)
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: Message("loop not vectorized: "), Instr(I) {}
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protected:
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LoopAccessReport(const Twine &Message, const Instruction *I)
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: Message(Message.str()), Instr(I) {}
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template <typename A> VectorizationReport &operator<<(const A &Value) {
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public:
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LoopAccessReport(const Instruction *I = nullptr) : Instr(I) {}
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template <typename A> LoopAccessReport &operator<<(const A &Value) {
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raw_string_ostream Out(Message);
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Out << Value;
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return *this;
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@ -59,7 +62,7 @@ public:
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/// \brief Emit an analysis note for \p PassName with the debug location from
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/// the instruction in \p Message if available. Otherwise use the location of
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/// \p TheLoop.
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static void emitAnalysis(const VectorizationReport &Message,
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static void emitAnalysis(const LoopAccessReport &Message,
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const Function *TheFunction,
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const Loop *TheLoop,
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const char *PassName);
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@ -171,7 +174,7 @@ public:
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/// \brief The diagnostics report generated for the analysis. E.g. why we
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/// couldn't analyze the loop.
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Optional<VectorizationReport> &getReport() { return Report; }
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Optional<LoopAccessReport> &getReport() { return Report; }
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/// \brief Used to ensure that if the analysis was run with speculating the
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/// value of symbolic strides, the client queries it with the same assumption.
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@ -186,7 +189,7 @@ private:
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/// pass.
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bool canAnalyzeLoop();
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void emitAnalysis(VectorizationReport &Message);
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void emitAnalysis(LoopAccessReport &Message);
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/// We need to check that all of the pointers in this list are disjoint
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/// at runtime.
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@ -208,7 +211,7 @@ private:
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/// \brief The diagnostics report generated for the analysis. E.g. why we
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/// couldn't analyze the loop.
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Optional<VectorizationReport> Report;
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Optional<LoopAccessReport> Report;
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};
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Value *stripIntegerCast(Value *V);
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@ -50,10 +50,10 @@ bool VectorizerParams::isInterleaveForced() {
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return ::VectorizationInterleave.getNumOccurrences() > 0;
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}
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void VectorizationReport::emitAnalysis(const VectorizationReport &Message,
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const Function *TheFunction,
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const Loop *TheLoop,
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const char *PassName) {
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void LoopAccessReport::emitAnalysis(const LoopAccessReport &Message,
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const Function *TheFunction,
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const Loop *TheLoop,
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const char *PassName) {
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DebugLoc DL = TheLoop->getStartLoc();
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if (const Instruction *I = Message.getInstr())
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DL = I->getDebugLoc();
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@ -858,14 +858,14 @@ bool MemoryDepChecker::areDepsSafe(AccessAnalysis::DepCandidates &AccessSets,
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bool LoopAccessInfo::canAnalyzeLoop() {
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// We can only analyze innermost loops.
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if (!TheLoop->empty()) {
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emitAnalysis(VectorizationReport() << "loop is not the innermost loop");
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emitAnalysis(LoopAccessReport() << "loop is not the innermost loop");
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return false;
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}
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// We must have a single backedge.
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if (TheLoop->getNumBackEdges() != 1) {
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emitAnalysis(
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VectorizationReport() <<
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LoopAccessReport() <<
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"loop control flow is not understood by analyzer");
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return false;
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}
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@ -873,7 +873,7 @@ bool LoopAccessInfo::canAnalyzeLoop() {
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// We must have a single exiting block.
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if (!TheLoop->getExitingBlock()) {
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emitAnalysis(
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VectorizationReport() <<
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LoopAccessReport() <<
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"loop control flow is not understood by analyzer");
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return false;
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}
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@ -883,7 +883,7 @@ bool LoopAccessInfo::canAnalyzeLoop() {
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// instructions in the loop are executed the same number of times.
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if (TheLoop->getExitingBlock() != TheLoop->getLoopLatch()) {
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emitAnalysis(
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VectorizationReport() <<
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LoopAccessReport() <<
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"loop control flow is not understood by analyzer");
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return false;
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}
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@ -895,7 +895,7 @@ bool LoopAccessInfo::canAnalyzeLoop() {
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// ScalarEvolution needs to be able to find the exit count.
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const SCEV *ExitCount = SE->getBackedgeTakenCount(TheLoop);
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if (ExitCount == SE->getCouldNotCompute()) {
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emitAnalysis(VectorizationReport() <<
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emitAnalysis(LoopAccessReport() <<
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"could not determine number of loop iterations");
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DEBUG(dbgs() << "LAA: SCEV could not compute the loop exit count.\n");
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return false;
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@ -944,7 +944,7 @@ void LoopAccessInfo::analyzeLoop(ValueToValueMap &Strides) {
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LoadInst *Ld = dyn_cast<LoadInst>(it);
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if (!Ld || (!Ld->isSimple() && !IsAnnotatedParallel)) {
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emitAnalysis(VectorizationReport(Ld)
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emitAnalysis(LoopAccessReport(Ld)
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<< "read with atomic ordering or volatile read");
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DEBUG(dbgs() << "LAA: Found a non-simple load.\n");
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CanVecMem = false;
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@ -960,13 +960,13 @@ void LoopAccessInfo::analyzeLoop(ValueToValueMap &Strides) {
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if (it->mayWriteToMemory()) {
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StoreInst *St = dyn_cast<StoreInst>(it);
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if (!St) {
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emitAnalysis(VectorizationReport(it) <<
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emitAnalysis(LoopAccessReport(it) <<
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"instruction cannot be vectorized");
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CanVecMem = false;
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return;
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}
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if (!St->isSimple() && !IsAnnotatedParallel) {
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emitAnalysis(VectorizationReport(St)
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emitAnalysis(LoopAccessReport(St)
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<< "write with atomic ordering or volatile write");
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DEBUG(dbgs() << "LAA: Found a non-simple store.\n");
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CanVecMem = false;
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@ -1007,7 +1007,7 @@ void LoopAccessInfo::analyzeLoop(ValueToValueMap &Strides) {
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if (isUniform(Ptr)) {
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emitAnalysis(
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VectorizationReport(ST)
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LoopAccessReport(ST)
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<< "write to a loop invariant address could not be vectorized");
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DEBUG(dbgs() << "LAA: We don't allow storing to uniform addresses\n");
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CanVecMem = false;
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@ -1108,7 +1108,7 @@ void LoopAccessInfo::analyzeLoop(ValueToValueMap &Strides) {
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}
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if (NeedRTCheck && !CanDoRT) {
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emitAnalysis(VectorizationReport() << "cannot identify array bounds");
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emitAnalysis(LoopAccessReport() << "cannot identify array bounds");
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DEBUG(dbgs() << "LAA: We can't vectorize because we can't find " <<
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"the array bounds.\n");
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PtrRtCheck.reset();
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@ -1142,10 +1142,10 @@ void LoopAccessInfo::analyzeLoop(ValueToValueMap &Strides) {
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if (!CanDoRT ||
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NumComparisons > VectorizerParams::RuntimeMemoryCheckThreshold) {
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if (!CanDoRT && NumComparisons > 0)
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emitAnalysis(VectorizationReport()
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emitAnalysis(LoopAccessReport()
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<< "cannot check memory dependencies at runtime");
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else
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emitAnalysis(VectorizationReport()
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emitAnalysis(LoopAccessReport()
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<< NumComparisons << " exceeds limit of "
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<< VectorizerParams::RuntimeMemoryCheckThreshold
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<< " dependent memory operations checked at runtime");
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@ -1160,7 +1160,7 @@ void LoopAccessInfo::analyzeLoop(ValueToValueMap &Strides) {
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}
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if (!CanVecMem)
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emitAnalysis(VectorizationReport() <<
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emitAnalysis(LoopAccessReport() <<
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"unsafe dependent memory operations in loop");
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DEBUG(dbgs() << "LAA: We" << (NeedRTCheck ? "" : " don't") <<
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@ -1176,7 +1176,7 @@ bool LoopAccessInfo::blockNeedsPredication(BasicBlock *BB, Loop *TheLoop,
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return !DT->dominates(BB, Latch);
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}
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void LoopAccessInfo::emitAnalysis(VectorizationReport &Message) {
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void LoopAccessInfo::emitAnalysis(LoopAccessReport &Message) {
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assert(!Report && "Multiple reports generated");
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Report = Message;
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}
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@ -203,6 +203,21 @@ class LoopVectorizationLegality;
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class LoopVectorizationCostModel;
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class LoopVectorizeHints;
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/// \brief This modifies LoopAccessReport to initialize message with
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/// loop-vectorizer-specific part.
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class VectorizationReport : public LoopAccessReport {
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public:
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VectorizationReport(Instruction *I = nullptr)
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: LoopAccessReport("loop not vectorized: ", I) {}
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/// \brief This allows promotion of the loop-access analysis report into the
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/// loop-vectorizer report. It modifies the message to add the
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/// loop-vectorizer-specific part of the message.
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explicit VectorizationReport(const LoopAccessReport &R)
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: LoopAccessReport(Twine("loop not vectorized: ") + R.str(),
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R.getInstr()) {}
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};
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/// InnerLoopVectorizer vectorizes loops which contain only one basic
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/// block to a specified vectorization factor (VF).
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/// This class performs the widening of scalars into vectors, or multiple
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@ -814,9 +829,11 @@ private:
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void collectStridedAccess(Value *LoadOrStoreInst);
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/// Report an analysis message to assist the user in diagnosing loops that are
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/// not vectorized.
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void emitAnalysis(const VectorizationReport &Message) {
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VectorizationReport::emitAnalysis(Message, TheFunction, TheLoop, LV_NAME);
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/// not vectorized. These are handled as LoopAccessReport rather than
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/// VectorizationReport because the << operator of VectorizationReport returns
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/// LoopAccessReport.
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void emitAnalysis(const LoopAccessReport &Message) {
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LoopAccessReport::emitAnalysis(Message, TheFunction, TheLoop, LV_NAME);
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}
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unsigned NumPredStores;
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@ -951,9 +968,11 @@ private:
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bool isConsecutiveLoadOrStore(Instruction *I);
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/// Report an analysis message to assist the user in diagnosing loops that are
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/// not vectorized.
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void emitAnalysis(const VectorizationReport &Message) {
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VectorizationReport::emitAnalysis(Message, TheFunction, TheLoop, LV_NAME);
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/// not vectorized. These are handled as LoopAccessReport rather than
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/// VectorizationReport because the << operator of VectorizationReport returns
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/// LoopAccessReport.
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void emitAnalysis(const LoopAccessReport &Message) {
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LoopAccessReport::emitAnalysis(Message, TheFunction, TheLoop, LV_NAME);
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}
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/// Values used only by @llvm.assume calls.
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@ -3817,7 +3836,7 @@ bool LoopVectorizationLegality::canVectorizeMemory() {
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LAI = &LAA->getInfo(TheLoop, Strides);
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auto &OptionalReport = LAI->getReport();
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if (OptionalReport)
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emitAnalysis(*OptionalReport);
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emitAnalysis(VectorizationReport(*OptionalReport));
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return LAI->canVectorizeMemory();
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}
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