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Verifications of dominator tree and loop info are expensive operations so they are disabled by default. They can be enabled by command line options -verify-dom-info and -verify-loop-info. These options however enable checks only in files Dominators.cpp and LoopInfo.cpp. If some transformation changes dominaror tree and/or loop info, it would be convenient to place similar checks to the files implementing the transformation. This change makes corresponding flags global, so they can be used in any file to optionally turn verification on. llvm-svn: 292889 |
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.. | ||
AliasAnalysis.cpp | ||
AliasAnalysisEvaluator.cpp | ||
AliasAnalysisSummary.cpp | ||
AliasAnalysisSummary.h | ||
AliasSetTracker.cpp | ||
Analysis.cpp | ||
AssumptionCache.cpp | ||
BasicAliasAnalysis.cpp | ||
BlockFrequencyInfo.cpp | ||
BlockFrequencyInfoImpl.cpp | ||
BranchProbabilityInfo.cpp | ||
CallGraph.cpp | ||
CallGraphSCCPass.cpp | ||
CallPrinter.cpp | ||
CaptureTracking.cpp | ||
CFG.cpp | ||
CFGPrinter.cpp | ||
CFLAndersAliasAnalysis.cpp | ||
CFLGraph.h | ||
CFLSteensAliasAnalysis.cpp | ||
CGSCCPassManager.cpp | ||
CMakeLists.txt | ||
CodeMetrics.cpp | ||
ConstantFolding.cpp | ||
CostModel.cpp | ||
Delinearization.cpp | ||
DemandedBits.cpp | ||
DependenceAnalysis.cpp | ||
DivergenceAnalysis.cpp | ||
DominanceFrontier.cpp | ||
DomPrinter.cpp | ||
EHPersonalities.cpp | ||
GlobalsModRef.cpp | ||
IndirectCallPromotionAnalysis.cpp | ||
InlineCost.cpp | ||
InstCount.cpp | ||
InstructionSimplify.cpp | ||
Interval.cpp | ||
IntervalPartition.cpp | ||
IteratedDominanceFrontier.cpp | ||
IVUsers.cpp | ||
LazyBlockFrequencyInfo.cpp | ||
LazyBranchProbabilityInfo.cpp | ||
LazyCallGraph.cpp | ||
LazyValueInfo.cpp | ||
Lint.cpp | ||
LLVMBuild.txt | ||
Loads.cpp | ||
LoopAccessAnalysis.cpp | ||
LoopAnalysisManager.cpp | ||
LoopInfo.cpp | ||
LoopPass.cpp | ||
LoopUnrollAnalyzer.cpp | ||
MemDepPrinter.cpp | ||
MemDerefPrinter.cpp | ||
MemoryBuiltins.cpp | ||
MemoryDependenceAnalysis.cpp | ||
MemoryLocation.cpp | ||
ModuleDebugInfoPrinter.cpp | ||
ModuleSummaryAnalysis.cpp | ||
ObjCARCAliasAnalysis.cpp | ||
ObjCARCAnalysisUtils.cpp | ||
ObjCARCInstKind.cpp | ||
OptimizationDiagnosticInfo.cpp | ||
OrderedBasicBlock.cpp | ||
PHITransAddr.cpp | ||
PostDominators.cpp | ||
ProfileSummaryInfo.cpp | ||
PtrUseVisitor.cpp | ||
README.txt | ||
RegionInfo.cpp | ||
RegionPass.cpp | ||
RegionPrinter.cpp | ||
ScalarEvolution.cpp | ||
ScalarEvolutionAliasAnalysis.cpp | ||
ScalarEvolutionExpander.cpp | ||
ScalarEvolutionNormalization.cpp | ||
ScopedNoAliasAA.cpp | ||
SparsePropagation.cpp | ||
StratifiedSets.h | ||
TargetLibraryInfo.cpp | ||
TargetTransformInfo.cpp | ||
Trace.cpp | ||
TypeBasedAliasAnalysis.cpp | ||
TypeMetadataUtils.cpp | ||
ValueTracking.cpp | ||
VectorUtils.cpp |
Analysis Opportunities: //===---------------------------------------------------------------------===// In test/Transforms/LoopStrengthReduce/quadradic-exit-value.ll, the ScalarEvolution expression for %r is this: {1,+,3,+,2}<loop> Outside the loop, this could be evaluated simply as (%n * %n), however ScalarEvolution currently evaluates it as (-2 + (2 * (trunc i65 (((zext i64 (-2 + %n) to i65) * (zext i64 (-1 + %n) to i65)) /u 2) to i64)) + (3 * %n)) In addition to being much more complicated, it involves i65 arithmetic, which is very inefficient when expanded into code. //===---------------------------------------------------------------------===// In formatValue in test/CodeGen/X86/lsr-delayed-fold.ll, ScalarEvolution is forming this expression: ((trunc i64 (-1 * %arg5) to i32) + (trunc i64 %arg5 to i32) + (-1 * (trunc i64 undef to i32))) This could be folded to (-1 * (trunc i64 undef to i32)) //===---------------------------------------------------------------------===//