/// without changing its value.
static bool isAddRecSExtable(const SCEVAddRecExpr *AR, ScalarEvolution &SE) {
const Type *WideTy =
- IntegerType::get(SE.getContext(),
- SE.getTypeSizeInBits(AR->getType()) + 1);
+ IntegerType::get(SE.getContext(), SE.getTypeSizeInBits(AR->getType()) + 1);
return isa<SCEVAddRecExpr>(SE.getSignExtendExpr(AR, WideTy));
}
/// without changing its value.
static bool isAddSExtable(const SCEVAddExpr *A, ScalarEvolution &SE) {
const Type *WideTy =
- IntegerType::get(SE.getContext(),
- SE.getTypeSizeInBits(A->getType()) + 1);
+ IntegerType::get(SE.getContext(), SE.getTypeSizeInBits(A->getType()) + 1);
return isa<SCEVAddExpr>(SE.getSignExtendExpr(A, WideTy));
}
/// without changing its value.
static bool isMulSExtable(const SCEVMulExpr *A, ScalarEvolution &SE) {
const Type *WideTy =
- IntegerType::get(SE.getContext(),
- SE.getTypeSizeInBits(A->getType()) + 1);
+ IntegerType::get(SE.getContext(), SE.getTypeSizeInBits(A->getType()) + 1);
return isa<SCEVMulExpr>(SE.getSignExtendExpr(A, WideTy));
}
}
LSRFixup::LSRFixup()
- : UserInst(0), OperandValToReplace(0),
- LUIdx(~size_t(0)), Offset(0) {}
+ : UserInst(0), OperandValToReplace(0), LUIdx(~size_t(0)), Offset(0) {}
/// isUseFullyOutsideLoop - Test whether this fixup always uses its
/// value outside of the given loop.
typedef DenseMap<const SCEV *, size_t> UseMapTy;
UseMapTy UseMap;
- bool reconcileNewOffset(LSRUse &LU, int64_t NewOffset,
- bool HasBaseReg,
+ bool reconcileNewOffset(LSRUse &LU, int64_t NewOffset, bool HasBaseReg,
LSRUse::KindType Kind, const Type *AccessTy);
std::pair<size_t, int64_t> getUse(const SCEV *&Expr,
/// FindIVUserForCond - If Cond has an operand that is an expression of an IV,
/// set the IV user and stride information and return true, otherwise return
/// false.
-bool LSRInstance::FindIVUserForCond(ICmpInst *Cond,
- IVStrideUse *&CondUse) {
+bool LSRInstance::FindIVUserForCond(ICmpInst *Cond, IVStrideUse *&CondUse) {
for (IVUsers::iterator UI = IU.begin(), E = IU.end(); UI != E; ++UI)
if (UI->getUser() == Cond) {
// NOTE: we could handle setcc instructions with multiple uses here, but
}
bool
-LSRInstance::reconcileNewOffset(LSRUse &LU, int64_t NewOffset,
- bool HasBaseReg,
+LSRInstance::reconcileNewOffset(LSRUse &LU, int64_t NewOffset, bool HasBaseReg,
LSRUse::KindType Kind, const Type *AccessTy) {
int64_t NewMinOffset = LU.MinOffset;
int64_t NewMaxOffset = LU.MaxOffset;
/// GenerateScales - Generate stride factor reuse formulae by making use of
/// scaled-offset address modes, for example.
-void LSRInstance::GenerateScales(LSRUse &LU, unsigned LUIdx,
- Formula Base) {
+void LSRInstance::GenerateScales(LSRUse &LU, unsigned LUIdx, Formula Base) {
// Determine the integer type for the base formula.
const Type *IntTy = Base.getType();
if (!IntTy) return;
}
/// GenerateTruncates - Generate reuse formulae from different IV types.
-void LSRInstance::GenerateTruncates(LSRUse &LU, unsigned LUIdx,
- Formula Base) {
+void LSRInstance::GenerateTruncates(LSRUse &LU, unsigned LUIdx, Formula Base) {
// This requires TargetLowering to tell us which truncates are free.
if (!TLI) return;
for (size_t LUIdx = 0, NumUses = Uses.size(); LUIdx != NumUses; ++LUIdx) {
LSRUse &LU = Uses[LUIdx];
FormulaSorter Sorter(L, LU, SE, DT);
- DEBUG(dbgs() << "Filtering for use "; LU.print(dbgs()); dbgs() << "\n");
+ DEBUG(dbgs() << "Filtering for use "; LU.print(dbgs()); dbgs() << '\n');
bool Any = false;
for (size_t FIdx = 0, NumForms = LU.Formulae.size();
Fixups[i].LUIdx = LUThatHas - &Uses.front();
Fixups[i].Offset += F.AM.BaseOffs;
DEBUG(errs() << "New fixup has offset "
- << Fixups[i].Offset << "\n");
+ << Fixups[i].Offset << '\n');
}
if (Fixups[i].LUIdx == NumUses-1)
Fixups[i].LUIdx = LUIdx;
projects / oota-llvm.git / commitdiff