X-Git-Url: http://plrg.eecs.uci.edu/git/?a=blobdiff_plain;f=lib%2FAnalysis%2FDependenceAnalysis.cpp;h=8e39665f50d0ec5483826d539bc0b728c8237f68;hb=9ba0e1d411584c37b9ba53e58383962566dbe183;hp=a296ce0dbdf785662731699d847f6c040bf32305;hpb=9146833fa313fb0339355f9ca8b63122dd73ba88;p=oota-llvm.git diff --git a/lib/Analysis/DependenceAnalysis.cpp b/lib/Analysis/DependenceAnalysis.cpp index a296ce0dbdf..8e39665f50d 100644 --- a/lib/Analysis/DependenceAnalysis.cpp +++ b/lib/Analysis/DependenceAnalysis.cpp @@ -372,7 +372,7 @@ void DependenceAnalysis::Constraint::setLine(const SCEV *AA, void DependenceAnalysis::Constraint::setDistance(const SCEV *D, const Loop *CurLoop) { Kind = Distance; - A = SE->getConstant(D->getType(), 1); + A = SE->getOne(D->getType()); B = SE->getNegativeSCEV(A); C = SE->getNegativeSCEV(D); AssociatedLoop = CurLoop; @@ -1257,11 +1257,9 @@ bool DependenceAnalysis::weakCrossingSIVtest(const SCEV *Coeff, assert(SE->isKnownPositive(ConstCoeff) && "ConstCoeff should be positive"); // compute SplitIter for use by DependenceAnalysis::getSplitIteration() - SplitIter = - SE->getUDivExpr(SE->getSMaxExpr(SE->getConstant(Delta->getType(), 0), - Delta), - SE->getMulExpr(SE->getConstant(Delta->getType(), 2), - ConstCoeff)); + SplitIter = SE->getUDivExpr( + SE->getSMaxExpr(SE->getZero(Delta->getType()), Delta), + SE->getMulExpr(SE->getConstant(Delta->getType(), 2), ConstCoeff)); DEBUG(dbgs() << "\t Split iter = " << *SplitIter << "\n"); const SCEVConstant *ConstDelta = dyn_cast(Delta); @@ -1303,7 +1301,7 @@ bool DependenceAnalysis::weakCrossingSIVtest(const SCEV *Coeff, return true; } Result.DV[Level].Splitable = false; - Result.DV[Level].Distance = SE->getConstant(Delta->getType(), 0); + Result.DV[Level].Distance = SE->getZero(Delta->getType()); return false; } } @@ -1666,8 +1664,8 @@ bool DependenceAnalysis::weakZeroSrcSIVtest(const SCEV *DstCoeff, Level--; Result.Consistent = false; const SCEV *Delta = SE->getMinusSCEV(SrcConst, DstConst); - NewConstraint.setLine(SE->getConstant(Delta->getType(), 0), - DstCoeff, Delta, CurLoop); + NewConstraint.setLine(SE->getZero(Delta->getType()), DstCoeff, Delta, + CurLoop); DEBUG(dbgs() << "\t Delta = " << *Delta << "\n"); if (isKnownPredicate(CmpInst::ICMP_EQ, SrcConst, DstConst)) { if (Level < CommonLevels) { @@ -1776,8 +1774,8 @@ bool DependenceAnalysis::weakZeroDstSIVtest(const SCEV *SrcCoeff, Level--; Result.Consistent = false; const SCEV *Delta = SE->getMinusSCEV(DstConst, SrcConst); - NewConstraint.setLine(SrcCoeff, SE->getConstant(Delta->getType(), 0), - Delta, CurLoop); + NewConstraint.setLine(SrcCoeff, SE->getZero(Delta->getType()), Delta, + CurLoop); DEBUG(dbgs() << "\t Delta = " << *Delta << "\n"); if (isKnownPredicate(CmpInst::ICMP_EQ, DstConst, SrcConst)) { if (Level < CommonLevels) { @@ -2729,10 +2727,10 @@ void DependenceAnalysis::findBoundsALL(CoefficientInfo *A, // If the difference is 0, we won't need to know the number of iterations. if (isKnownPredicate(CmpInst::ICMP_EQ, A[K].NegPart, B[K].PosPart)) Bound[K].Lower[Dependence::DVEntry::ALL] = - SE->getConstant(A[K].Coeff->getType(), 0); + SE->getZero(A[K].Coeff->getType()); if (isKnownPredicate(CmpInst::ICMP_EQ, A[K].PosPart, B[K].NegPart)) Bound[K].Upper[Dependence::DVEntry::ALL] = - SE->getConstant(A[K].Coeff->getType(), 0); + SE->getZero(A[K].Coeff->getType()); } } @@ -2801,9 +2799,8 @@ void DependenceAnalysis::findBoundsLT(CoefficientInfo *A, Bound[K].Lower[Dependence::DVEntry::LT] = nullptr; // Default value = -infinity. Bound[K].Upper[Dependence::DVEntry::LT] = nullptr; // Default value = +infinity. if (Bound[K].Iterations) { - const SCEV *Iter_1 = - SE->getMinusSCEV(Bound[K].Iterations, - SE->getConstant(Bound[K].Iterations->getType(), 1)); + const SCEV *Iter_1 = SE->getMinusSCEV( + Bound[K].Iterations, SE->getOne(Bound[K].Iterations->getType())); const SCEV *NegPart = getNegativePart(SE->getMinusSCEV(A[K].NegPart, B[K].Coeff)); Bound[K].Lower[Dependence::DVEntry::LT] = @@ -2848,9 +2845,8 @@ void DependenceAnalysis::findBoundsGT(CoefficientInfo *A, Bound[K].Lower[Dependence::DVEntry::GT] = nullptr; // Default value = -infinity. Bound[K].Upper[Dependence::DVEntry::GT] = nullptr; // Default value = +infinity. if (Bound[K].Iterations) { - const SCEV *Iter_1 = - SE->getMinusSCEV(Bound[K].Iterations, - SE->getConstant(Bound[K].Iterations->getType(), 1)); + const SCEV *Iter_1 = SE->getMinusSCEV( + Bound[K].Iterations, SE->getOne(Bound[K].Iterations->getType())); const SCEV *NegPart = getNegativePart(SE->getMinusSCEV(A[K].Coeff, B[K].PosPart)); Bound[K].Lower[Dependence::DVEntry::GT] = @@ -2875,13 +2871,13 @@ void DependenceAnalysis::findBoundsGT(CoefficientInfo *A, // X^+ = max(X, 0) const SCEV *DependenceAnalysis::getPositivePart(const SCEV *X) const { - return SE->getSMaxExpr(X, SE->getConstant(X->getType(), 0)); + return SE->getSMaxExpr(X, SE->getZero(X->getType())); } // X^- = min(X, 0) const SCEV *DependenceAnalysis::getNegativePart(const SCEV *X) const { - return SE->getSMinExpr(X, SE->getConstant(X->getType(), 0)); + return SE->getSMinExpr(X, SE->getZero(X->getType())); } @@ -2892,7 +2888,7 @@ DependenceAnalysis::CoefficientInfo * DependenceAnalysis::collectCoeffInfo(const SCEV *Subscript, bool SrcFlag, const SCEV *&Constant) const { - const SCEV *Zero = SE->getConstant(Subscript->getType(), 0); + const SCEV *Zero = SE->getZero(Subscript->getType()); CoefficientInfo *CI = new CoefficientInfo[MaxLevels + 1]; for (unsigned K = 1; K <= MaxLevels; ++K) { CI[K].Coeff = Zero; @@ -2976,7 +2972,7 @@ const SCEV *DependenceAnalysis::findCoefficient(const SCEV *Expr, const Loop *TargetLoop) const { const SCEVAddRecExpr *AddRec = dyn_cast(Expr); if (!AddRec) - return SE->getConstant(Expr->getType(), 0); + return SE->getZero(Expr->getType()); if (AddRec->getLoop() == TargetLoop) return AddRec->getStepRecurrence(*SE); return findCoefficient(AddRec->getStart(), TargetLoop);