Convert several parts of the ScalarEvolution framework to use

SmallVector instead of std::vector.


git-svn-id: https://llvm.org/svn/llvm-project/llvm/trunk@73357 91177308-0d34-0410-b5e6-96231b3b80d8
This commit is contained in:
Dan Gohman 2009-06-14 22:47:23 +00:00
parent ea73f3c2e1
commit a82752c9eb
5 changed files with 80 additions and 74 deletions

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@ -394,24 +394,24 @@ namespace llvm {
SCEVHandle getZeroExtendExpr(const SCEVHandle &Op, const Type *Ty);
SCEVHandle getSignExtendExpr(const SCEVHandle &Op, const Type *Ty);
SCEVHandle getAnyExtendExpr(const SCEVHandle &Op, const Type *Ty);
SCEVHandle getAddExpr(std::vector<SCEVHandle> &Ops);
SCEVHandle getAddExpr(SmallVectorImpl<SCEVHandle> &Ops);
SCEVHandle getAddExpr(const SCEVHandle &LHS, const SCEVHandle &RHS) {
std::vector<SCEVHandle> Ops;
SmallVector<SCEVHandle, 2> Ops;
Ops.push_back(LHS);
Ops.push_back(RHS);
return getAddExpr(Ops);
}
SCEVHandle getAddExpr(const SCEVHandle &Op0, const SCEVHandle &Op1,
const SCEVHandle &Op2) {
std::vector<SCEVHandle> Ops;
SmallVector<SCEVHandle, 3> Ops;
Ops.push_back(Op0);
Ops.push_back(Op1);
Ops.push_back(Op2);
return getAddExpr(Ops);
}
SCEVHandle getMulExpr(std::vector<SCEVHandle> &Ops);
SCEVHandle getMulExpr(SmallVectorImpl<SCEVHandle> &Ops);
SCEVHandle getMulExpr(const SCEVHandle &LHS, const SCEVHandle &RHS) {
std::vector<SCEVHandle> Ops;
SmallVector<SCEVHandle, 2> Ops;
Ops.push_back(LHS);
Ops.push_back(RHS);
return getMulExpr(Ops);
@ -419,17 +419,17 @@ namespace llvm {
SCEVHandle getUDivExpr(const SCEVHandle &LHS, const SCEVHandle &RHS);
SCEVHandle getAddRecExpr(const SCEVHandle &Start, const SCEVHandle &Step,
const Loop *L);
SCEVHandle getAddRecExpr(std::vector<SCEVHandle> &Operands,
SCEVHandle getAddRecExpr(SmallVectorImpl<SCEVHandle> &Operands,
const Loop *L);
SCEVHandle getAddRecExpr(const std::vector<SCEVHandle> &Operands,
SCEVHandle getAddRecExpr(const SmallVectorImpl<SCEVHandle> &Operands,
const Loop *L) {
std::vector<SCEVHandle> NewOp(Operands);
SmallVector<SCEVHandle, 4> NewOp(Operands.begin(), Operands.end());
return getAddRecExpr(NewOp, L);
}
SCEVHandle getSMaxExpr(const SCEVHandle &LHS, const SCEVHandle &RHS);
SCEVHandle getSMaxExpr(std::vector<SCEVHandle> Operands);
SCEVHandle getSMaxExpr(SmallVectorImpl<SCEVHandle> &Operands);
SCEVHandle getUMaxExpr(const SCEVHandle &LHS, const SCEVHandle &RHS);
SCEVHandle getUMaxExpr(std::vector<SCEVHandle> Operands);
SCEVHandle getUMaxExpr(SmallVectorImpl<SCEVHandle> &Operands);
SCEVHandle getUnknown(Value *V);
SCEVHandle getCouldNotCompute();

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@ -199,10 +199,10 @@ namespace llvm {
///
class SCEVNAryExpr : public SCEV {
protected:
std::vector<SCEVHandle> Operands;
SmallVector<SCEVHandle, 8> Operands;
SCEVNAryExpr(enum SCEVTypes T, const std::vector<SCEVHandle> &ops)
: SCEV(T), Operands(ops) {}
SCEVNAryExpr(enum SCEVTypes T, const SmallVectorImpl<SCEVHandle> &ops)
: SCEV(T), Operands(ops.begin(), ops.end()) {}
virtual ~SCEVNAryExpr() {}
public:
@ -212,8 +212,8 @@ namespace llvm {
return Operands[i];
}
const std::vector<SCEVHandle> &getOperands() const { return Operands; }
typedef std::vector<SCEVHandle>::const_iterator op_iterator;
const SmallVectorImpl<SCEVHandle> &getOperands() const { return Operands; }
typedef SmallVectorImpl<SCEVHandle>::const_iterator op_iterator;
op_iterator op_begin() const { return Operands.begin(); }
op_iterator op_end() const { return Operands.end(); }
@ -259,7 +259,7 @@ namespace llvm {
///
class SCEVCommutativeExpr : public SCEVNAryExpr {
protected:
SCEVCommutativeExpr(enum SCEVTypes T, const std::vector<SCEVHandle> &ops)
SCEVCommutativeExpr(enum SCEVTypes T, const SmallVectorImpl<SCEVHandle> &ops)
: SCEVNAryExpr(T, ops) {}
~SCEVCommutativeExpr();
@ -289,7 +289,7 @@ namespace llvm {
class SCEVAddExpr : public SCEVCommutativeExpr {
friend class ScalarEvolution;
explicit SCEVAddExpr(const std::vector<SCEVHandle> &ops)
explicit SCEVAddExpr(const SmallVectorImpl<SCEVHandle> &ops)
: SCEVCommutativeExpr(scAddExpr, ops) {
}
@ -309,7 +309,7 @@ namespace llvm {
class SCEVMulExpr : public SCEVCommutativeExpr {
friend class ScalarEvolution;
explicit SCEVMulExpr(const std::vector<SCEVHandle> &ops)
explicit SCEVMulExpr(const SmallVectorImpl<SCEVHandle> &ops)
: SCEVCommutativeExpr(scMulExpr, ops) {
}
@ -387,7 +387,7 @@ namespace llvm {
const Loop *L;
SCEVAddRecExpr(const std::vector<SCEVHandle> &ops, const Loop *l)
SCEVAddRecExpr(const SmallVectorImpl<SCEVHandle> &ops, const Loop *l)
: SCEVNAryExpr(scAddRecExpr, ops), L(l) {
for (size_t i = 0, e = Operands.size(); i != e; ++i)
assert(Operands[i]->isLoopInvariant(l) &&
@ -404,7 +404,7 @@ namespace llvm {
/// of degree N, it returns a chrec of degree N-1.
SCEVHandle getStepRecurrence(ScalarEvolution &SE) const {
if (isAffine()) return getOperand(1);
return SE.getAddRecExpr(std::vector<SCEVHandle>(op_begin()+1,op_end()),
return SE.getAddRecExpr(SmallVector<SCEVHandle, 3>(op_begin()+1,op_end()),
getLoop());
}
@ -463,7 +463,7 @@ namespace llvm {
class SCEVSMaxExpr : public SCEVCommutativeExpr {
friend class ScalarEvolution;
explicit SCEVSMaxExpr(const std::vector<SCEVHandle> &ops)
explicit SCEVSMaxExpr(const SmallVectorImpl<SCEVHandle> &ops)
: SCEVCommutativeExpr(scSMaxExpr, ops) {
}
@ -484,7 +484,7 @@ namespace llvm {
class SCEVUMaxExpr : public SCEVCommutativeExpr {
friend class ScalarEvolution;
explicit SCEVUMaxExpr(const std::vector<SCEVHandle> &ops)
explicit SCEVUMaxExpr(const SmallVectorImpl<SCEVHandle> &ops)
: SCEVCommutativeExpr(scUMaxExpr, ops) {
}

View File

@ -293,7 +293,7 @@ replaceSymbolicValuesWithConcrete(const SCEVHandle &Sym,
SCEVHandle H =
getOperand(i)->replaceSymbolicValuesWithConcrete(Sym, Conc, SE);
if (H != getOperand(i)) {
std::vector<SCEVHandle> NewOps;
SmallVector<SCEVHandle, 8> NewOps;
NewOps.reserve(getNumOperands());
for (unsigned j = 0; j != i; ++j)
NewOps.push_back(getOperand(j));
@ -373,7 +373,7 @@ replaceSymbolicValuesWithConcrete(const SCEVHandle &Sym,
SCEVHandle H =
getOperand(i)->replaceSymbolicValuesWithConcrete(Sym, Conc, SE);
if (H != getOperand(i)) {
std::vector<SCEVHandle> NewOps;
SmallVector<SCEVHandle, 8> NewOps;
NewOps.reserve(getNumOperands());
for (unsigned j = 0; j != i; ++j)
NewOps.push_back(getOperand(j));
@ -558,7 +558,7 @@ namespace {
/// this to depend on where the addresses of various SCEV objects happened to
/// land in memory.
///
static void GroupByComplexity(std::vector<SCEVHandle> &Ops,
static void GroupByComplexity(SmallVectorImpl<SCEVHandle> &Ops,
LoopInfo *LI) {
if (Ops.size() < 2) return; // Noop
if (Ops.size() == 2) {
@ -766,7 +766,7 @@ SCEVHandle ScalarEvolution::getTruncateExpr(const SCEVHandle &Op,
// If the input value is a chrec scev made out of constants, truncate
// all of the constants.
if (const SCEVAddRecExpr *AddRec = dyn_cast<SCEVAddRecExpr>(Op)) {
std::vector<SCEVHandle> Operands;
SmallVector<SCEVHandle, 4> Operands;
for (unsigned i = 0, e = AddRec->getNumOperands(); i != e; ++i)
Operands.push_back(getTruncateExpr(AddRec->getOperand(i), Ty));
return getAddRecExpr(Operands, AddRec->getLoop());
@ -981,7 +981,7 @@ SCEVHandle ScalarEvolution::getAnyExtendExpr(const SCEVHandle &Op,
/// getAddExpr - Get a canonical add expression, or something simpler if
/// possible.
SCEVHandle ScalarEvolution::getAddExpr(std::vector<SCEVHandle> &Ops) {
SCEVHandle ScalarEvolution::getAddExpr(SmallVectorImpl<SCEVHandle> &Ops) {
assert(!Ops.empty() && "Cannot get empty add!");
if (Ops.size() == 1) return Ops[0];
#ifndef NDEBUG
@ -1001,9 +1001,8 @@ SCEVHandle ScalarEvolution::getAddExpr(std::vector<SCEVHandle> &Ops) {
assert(Idx < Ops.size());
while (const SCEVConstant *RHSC = dyn_cast<SCEVConstant>(Ops[Idx])) {
// We found two constants, fold them together!
ConstantInt *Fold = ConstantInt::get(LHSC->getValue()->getValue() +
RHSC->getValue()->getValue());
Ops[0] = getConstant(Fold);
Ops[0] = getConstant(LHSC->getValue()->getValue() +
RHSC->getValue()->getValue());
Ops.erase(Ops.begin()+1); // Erase the folded element
if (Ops.size() == 1) return Ops[0];
LHSC = cast<SCEVConstant>(Ops[0]);
@ -1043,7 +1042,7 @@ SCEVHandle ScalarEvolution::getAddExpr(std::vector<SCEVHandle> &Ops) {
const SCEVTruncateExpr *Trunc = cast<SCEVTruncateExpr>(Ops[Idx]);
const Type *DstType = Trunc->getType();
const Type *SrcType = Trunc->getOperand()->getType();
std::vector<SCEVHandle> LargeOps;
SmallVector<SCEVHandle, 8> LargeOps;
bool Ok = true;
// Check all the operands to see if they can be represented in the
// source type of the truncate.
@ -1059,7 +1058,7 @@ SCEVHandle ScalarEvolution::getAddExpr(std::vector<SCEVHandle> &Ops) {
// is much more likely to be foldable here.
LargeOps.push_back(getSignExtendExpr(C, SrcType));
} else if (const SCEVMulExpr *M = dyn_cast<SCEVMulExpr>(Ops[i])) {
std::vector<SCEVHandle> LargeMulOps;
SmallVector<SCEVHandle, 8> LargeMulOps;
for (unsigned j = 0, f = M->getNumOperands(); j != f && Ok; ++j) {
if (const SCEVTruncateExpr *T =
dyn_cast<SCEVTruncateExpr>(M->getOperand(j))) {
@ -1128,13 +1127,13 @@ SCEVHandle ScalarEvolution::getAddExpr(std::vector<SCEVHandle> &Ops) {
for (unsigned MulOp = 0, e = Mul->getNumOperands(); MulOp != e; ++MulOp) {
const SCEV *MulOpSCEV = Mul->getOperand(MulOp);
for (unsigned AddOp = 0, e = Ops.size(); AddOp != e; ++AddOp)
if (MulOpSCEV == Ops[AddOp] && !isa<SCEVConstant>(MulOpSCEV)) {
if (MulOpSCEV == Ops[AddOp] && !isa<SCEVConstant>(Ops[AddOp])) {
// Fold W + X + (X * Y * Z) --> W + (X * ((Y*Z)+1))
SCEVHandle InnerMul = Mul->getOperand(MulOp == 0);
if (Mul->getNumOperands() != 2) {
// If the multiply has more than two operands, we must get the
// Y*Z term.
std::vector<SCEVHandle> MulOps(Mul->op_begin(), Mul->op_end());
SmallVector<SCEVHandle, 4> MulOps(Mul->op_begin(), Mul->op_end());
MulOps.erase(MulOps.begin()+MulOp);
InnerMul = getMulExpr(MulOps);
}
@ -1166,13 +1165,13 @@ SCEVHandle ScalarEvolution::getAddExpr(std::vector<SCEVHandle> &Ops) {
// Fold X + (A*B*C) + (A*D*E) --> X + (A*(B*C+D*E))
SCEVHandle InnerMul1 = Mul->getOperand(MulOp == 0);
if (Mul->getNumOperands() != 2) {
std::vector<SCEVHandle> MulOps(Mul->op_begin(), Mul->op_end());
SmallVector<SCEVHandle, 4> MulOps(Mul->op_begin(), Mul->op_end());
MulOps.erase(MulOps.begin()+MulOp);
InnerMul1 = getMulExpr(MulOps);
}
SCEVHandle InnerMul2 = OtherMul->getOperand(OMulOp == 0);
if (OtherMul->getNumOperands() != 2) {
std::vector<SCEVHandle> MulOps(OtherMul->op_begin(),
SmallVector<SCEVHandle, 4> MulOps(OtherMul->op_begin(),
OtherMul->op_end());
MulOps.erase(MulOps.begin()+OMulOp);
InnerMul2 = getMulExpr(MulOps);
@ -1199,7 +1198,7 @@ SCEVHandle ScalarEvolution::getAddExpr(std::vector<SCEVHandle> &Ops) {
for (; Idx < Ops.size() && isa<SCEVAddRecExpr>(Ops[Idx]); ++Idx) {
// Scan all of the other operands to this add and add them to the vector if
// they are loop invariant w.r.t. the recurrence.
std::vector<SCEVHandle> LIOps;
SmallVector<SCEVHandle, 8> LIOps;
const SCEVAddRecExpr *AddRec = cast<SCEVAddRecExpr>(Ops[Idx]);
for (unsigned i = 0, e = Ops.size(); i != e; ++i)
if (Ops[i]->isLoopInvariant(AddRec->getLoop())) {
@ -1213,7 +1212,8 @@ SCEVHandle ScalarEvolution::getAddExpr(std::vector<SCEVHandle> &Ops) {
// NLI + LI + {Start,+,Step} --> NLI + {LI+Start,+,Step}
LIOps.push_back(AddRec->getStart());
std::vector<SCEVHandle> AddRecOps(AddRec->op_begin(), AddRec->op_end());
SmallVector<SCEVHandle, 4> AddRecOps(AddRec->op_begin(),
AddRec->op_end());
AddRecOps[0] = getAddExpr(LIOps);
SCEVHandle NewRec = getAddRecExpr(AddRecOps, AddRec->getLoop());
@ -1238,7 +1238,7 @@ SCEVHandle ScalarEvolution::getAddExpr(std::vector<SCEVHandle> &Ops) {
const SCEVAddRecExpr *OtherAddRec = cast<SCEVAddRecExpr>(Ops[OtherIdx]);
if (AddRec->getLoop() == OtherAddRec->getLoop()) {
// Other + {A,+,B} + {C,+,D} --> Other + {A+C,+,B+D}
std::vector<SCEVHandle> NewOps(AddRec->op_begin(), AddRec->op_end());
SmallVector<SCEVHandle, 4> NewOps(AddRec->op_begin(), AddRec->op_end());
for (unsigned i = 0, e = OtherAddRec->getNumOperands(); i != e; ++i) {
if (i >= NewOps.size()) {
NewOps.insert(NewOps.end(), OtherAddRec->op_begin()+i,
@ -1274,7 +1274,7 @@ SCEVHandle ScalarEvolution::getAddExpr(std::vector<SCEVHandle> &Ops) {
/// getMulExpr - Get a canonical multiply expression, or something simpler if
/// possible.
SCEVHandle ScalarEvolution::getMulExpr(std::vector<SCEVHandle> &Ops) {
SCEVHandle ScalarEvolution::getMulExpr(SmallVectorImpl<SCEVHandle> &Ops) {
assert(!Ops.empty() && "Cannot get empty mul!");
#ifndef NDEBUG
for (unsigned i = 1, e = Ops.size(); i != e; ++i)
@ -1355,7 +1355,7 @@ SCEVHandle ScalarEvolution::getMulExpr(std::vector<SCEVHandle> &Ops) {
for (; Idx < Ops.size() && isa<SCEVAddRecExpr>(Ops[Idx]); ++Idx) {
// Scan all of the other operands to this mul and add them to the vector if
// they are loop invariant w.r.t. the recurrence.
std::vector<SCEVHandle> LIOps;
SmallVector<SCEVHandle, 8> LIOps;
const SCEVAddRecExpr *AddRec = cast<SCEVAddRecExpr>(Ops[Idx]);
for (unsigned i = 0, e = Ops.size(); i != e; ++i)
if (Ops[i]->isLoopInvariant(AddRec->getLoop())) {
@ -1367,7 +1367,7 @@ SCEVHandle ScalarEvolution::getMulExpr(std::vector<SCEVHandle> &Ops) {
// If we found some loop invariants, fold them into the recurrence.
if (!LIOps.empty()) {
// NLI * LI * {Start,+,Step} --> NLI * {LI*Start,+,LI*Step}
std::vector<SCEVHandle> NewOps;
SmallVector<SCEVHandle, 4> NewOps;
NewOps.reserve(AddRec->getNumOperands());
if (LIOps.size() == 1) {
const SCEV *Scale = LIOps[0];
@ -1375,7 +1375,7 @@ SCEVHandle ScalarEvolution::getMulExpr(std::vector<SCEVHandle> &Ops) {
NewOps.push_back(getMulExpr(Scale, AddRec->getOperand(i)));
} else {
for (unsigned i = 0, e = AddRec->getNumOperands(); i != e; ++i) {
std::vector<SCEVHandle> MulOps(LIOps);
SmallVector<SCEVHandle, 4> MulOps(LIOps.begin(), LIOps.end());
MulOps.push_back(AddRec->getOperand(i));
NewOps.push_back(getMulExpr(MulOps));
}
@ -1473,14 +1473,14 @@ SCEVHandle ScalarEvolution::getUDivExpr(const SCEVHandle &LHS,
getAddRecExpr(getZeroExtendExpr(AR->getStart(), ExtTy),
getZeroExtendExpr(Step, ExtTy),
AR->getLoop())) {
std::vector<SCEVHandle> Operands;
SmallVector<SCEVHandle, 4> Operands;
for (unsigned i = 0, e = AR->getNumOperands(); i != e; ++i)
Operands.push_back(getUDivExpr(AR->getOperand(i), RHS));
return getAddRecExpr(Operands, AR->getLoop());
}
// (A*B)/C --> A*(B/C) if safe and B/C can be folded.
if (const SCEVMulExpr *M = dyn_cast<SCEVMulExpr>(LHS)) {
std::vector<SCEVHandle> Operands;
SmallVector<SCEVHandle, 4> Operands;
for (unsigned i = 0, e = M->getNumOperands(); i != e; ++i)
Operands.push_back(getZeroExtendExpr(M->getOperand(i), ExtTy));
if (getZeroExtendExpr(M, ExtTy) == getMulExpr(Operands))
@ -1489,7 +1489,9 @@ SCEVHandle ScalarEvolution::getUDivExpr(const SCEVHandle &LHS,
SCEVHandle Op = M->getOperand(i);
SCEVHandle Div = getUDivExpr(Op, RHSC);
if (!isa<SCEVUDivExpr>(Div) && getMulExpr(Div, RHSC) == Op) {
Operands = M->getOperands();
const SmallVectorImpl<SCEVHandle> &MOperands = M->getOperands();
Operands = SmallVector<SCEVHandle, 4>(MOperands.begin(),
MOperands.end());
Operands[i] = Div;
return getMulExpr(Operands);
}
@ -1497,7 +1499,7 @@ SCEVHandle ScalarEvolution::getUDivExpr(const SCEVHandle &LHS,
}
// (A+B)/C --> (A/C + B/C) if safe and A/C and B/C can be folded.
if (const SCEVAddRecExpr *A = dyn_cast<SCEVAddRecExpr>(LHS)) {
std::vector<SCEVHandle> Operands;
SmallVector<SCEVHandle, 4> Operands;
for (unsigned i = 0, e = A->getNumOperands(); i != e; ++i)
Operands.push_back(getZeroExtendExpr(A->getOperand(i), ExtTy));
if (getZeroExtendExpr(A, ExtTy) == getAddExpr(Operands)) {
@ -1531,7 +1533,7 @@ SCEVHandle ScalarEvolution::getUDivExpr(const SCEVHandle &LHS,
/// Simplify the expression as much as possible.
SCEVHandle ScalarEvolution::getAddRecExpr(const SCEVHandle &Start,
const SCEVHandle &Step, const Loop *L) {
std::vector<SCEVHandle> Operands;
SmallVector<SCEVHandle, 4> Operands;
Operands.push_back(Start);
if (const SCEVAddRecExpr *StepChrec = dyn_cast<SCEVAddRecExpr>(Step))
if (StepChrec->getLoop() == L) {
@ -1546,7 +1548,7 @@ SCEVHandle ScalarEvolution::getAddRecExpr(const SCEVHandle &Start,
/// getAddRecExpr - Get an add recurrence expression for the specified loop.
/// Simplify the expression as much as possible.
SCEVHandle ScalarEvolution::getAddRecExpr(std::vector<SCEVHandle> &Operands,
SCEVHandle ScalarEvolution::getAddRecExpr(SmallVectorImpl<SCEVHandle> &Operands,
const Loop *L) {
if (Operands.size() == 1) return Operands[0];
#ifndef NDEBUG
@ -1565,8 +1567,8 @@ SCEVHandle ScalarEvolution::getAddRecExpr(std::vector<SCEVHandle> &Operands,
if (const SCEVAddRecExpr *NestedAR = dyn_cast<SCEVAddRecExpr>(Operands[0])) {
const Loop* NestedLoop = NestedAR->getLoop();
if (L->getLoopDepth() < NestedLoop->getLoopDepth()) {
std::vector<SCEVHandle> NestedOperands(NestedAR->op_begin(),
NestedAR->op_end());
SmallVector<SCEVHandle, 4> NestedOperands(NestedAR->op_begin(),
NestedAR->op_end());
SCEVHandle NestedARHandle(NestedAR);
Operands[0] = NestedAR->getStart();
NestedOperands[0] = getAddRecExpr(Operands, L);
@ -1582,13 +1584,14 @@ SCEVHandle ScalarEvolution::getAddRecExpr(std::vector<SCEVHandle> &Operands,
SCEVHandle ScalarEvolution::getSMaxExpr(const SCEVHandle &LHS,
const SCEVHandle &RHS) {
std::vector<SCEVHandle> Ops;
SmallVector<SCEVHandle, 2> Ops;
Ops.push_back(LHS);
Ops.push_back(RHS);
return getSMaxExpr(Ops);
}
SCEVHandle ScalarEvolution::getSMaxExpr(std::vector<SCEVHandle> Ops) {
SCEVHandle
ScalarEvolution::getSMaxExpr(SmallVectorImpl<SCEVHandle> &Ops) {
assert(!Ops.empty() && "Cannot get empty smax!");
if (Ops.size() == 1) return Ops[0];
#ifndef NDEBUG
@ -1668,13 +1671,14 @@ SCEVHandle ScalarEvolution::getSMaxExpr(std::vector<SCEVHandle> Ops) {
SCEVHandle ScalarEvolution::getUMaxExpr(const SCEVHandle &LHS,
const SCEVHandle &RHS) {
std::vector<SCEVHandle> Ops;
SmallVector<SCEVHandle, 2> Ops;
Ops.push_back(LHS);
Ops.push_back(RHS);
return getUMaxExpr(Ops);
}
SCEVHandle ScalarEvolution::getUMaxExpr(std::vector<SCEVHandle> Ops) {
SCEVHandle
ScalarEvolution::getUMaxExpr(SmallVectorImpl<SCEVHandle> &Ops) {
assert(!Ops.empty() && "Cannot get empty umax!");
if (Ops.size() == 1) return Ops[0];
#ifndef NDEBUG
@ -2040,7 +2044,7 @@ SCEVHandle ScalarEvolution::createNodeForPHI(PHINode *PN) {
if (FoundIndex != Add->getNumOperands()) {
// Create an add with everything but the specified operand.
std::vector<SCEVHandle> Ops;
SmallVector<SCEVHandle, 8> Ops;
for (unsigned i = 0, e = Add->getNumOperands(); i != e; ++i)
if (i != FoundIndex)
Ops.push_back(Add->getOperand(i));
@ -3074,7 +3078,7 @@ SCEVHandle ScalarEvolution::getSCEVAtScope(const SCEV *V, const Loop *L) {
if (OpAtScope != Comm->getOperand(i)) {
// Okay, at least one of these operands is loop variant but might be
// foldable. Build a new instance of the folded commutative expression.
std::vector<SCEVHandle> NewOps(Comm->op_begin(), Comm->op_begin()+i);
SmallVector<SCEVHandle, 8> NewOps(Comm->op_begin(), Comm->op_begin()+i);
NewOps.push_back(OpAtScope);
for (++i; i != e; ++i) {
@ -3611,7 +3615,7 @@ SCEVHandle SCEVAddRecExpr::getNumIterationsInRange(ConstantRange Range,
// If the start is a non-zero constant, shift the range to simplify things.
if (const SCEVConstant *SC = dyn_cast<SCEVConstant>(getStart()))
if (!SC->getValue()->isZero()) {
std::vector<SCEVHandle> Operands(op_begin(), op_end());
SmallVector<SCEVHandle, 4> Operands(op_begin(), op_end());
Operands[0] = SE.getIntegerSCEV(0, SC->getType());
SCEVHandle Shifted = SE.getAddRecExpr(Operands, getLoop());
if (const SCEVAddRecExpr *ShiftedAddRec =
@ -3672,7 +3676,7 @@ SCEVHandle SCEVAddRecExpr::getNumIterationsInRange(ConstantRange Range,
// quadratic equation to solve it. To do this, we must frame our problem in
// terms of figuring out when zero is crossed, instead of when
// Range.getUpper() is crossed.
std::vector<SCEVHandle> NewOps(op_begin(), op_end());
SmallVector<SCEVHandle, 4> NewOps(op_begin(), op_end());
NewOps[0] = SE.getNegativeSCEV(SE.getConstant(Range.getUpper()));
SCEVHandle NewAddRec = SE.getAddRecExpr(NewOps, getLoop());

View File

@ -182,7 +182,8 @@ static bool FactorOutConstant(SCEVHandle &S,
if (const SCEVMulExpr *M = dyn_cast<SCEVMulExpr>(S))
if (const SCEVConstant *C = dyn_cast<SCEVConstant>(M->getOperand(0)))
if (!C->getValue()->getValue().srem(Factor)) {
std::vector<SCEVHandle> NewMulOps(M->getOperands());
const SmallVectorImpl<SCEVHandle> &MOperands = M->getOperands();
SmallVector<SCEVHandle, 4> NewMulOps(MOperands.begin(), MOperands.end());
NewMulOps[0] =
SE.getConstant(C->getValue()->getValue().sdiv(Factor));
S = SE.getMulExpr(NewMulOps);
@ -239,7 +240,7 @@ Value *SCEVExpander::expandAddToGEP(const SCEVHandle *op_begin,
Value *V) {
const Type *ElTy = PTy->getElementType();
SmallVector<Value *, 4> GepIndices;
std::vector<SCEVHandle> Ops(op_begin, op_end);
SmallVector<SCEVHandle, 8> Ops(op_begin, op_end);
bool AnyNonZeroIndices = false;
// Decend down the pointer's type and attempt to convert the other
@ -250,8 +251,8 @@ Value *SCEVExpander::expandAddToGEP(const SCEVHandle *op_begin,
for (;;) {
APInt ElSize = APInt(SE.getTypeSizeInBits(Ty),
ElTy->isSized() ? SE.TD->getTypeAllocSize(ElTy) : 0);
std::vector<SCEVHandle> NewOps;
std::vector<SCEVHandle> ScaledOps;
SmallVector<SCEVHandle, 8> NewOps;
SmallVector<SCEVHandle, 8> ScaledOps;
for (unsigned i = 0, e = Ops.size(); i != e; ++i) {
// Split AddRecs up into parts as either of the parts may be usable
// without the other.
@ -365,7 +366,7 @@ Value *SCEVExpander::visitAddExpr(const SCEVAddExpr *S) {
// comments on expandAddToGEP for details.
if (SE.TD)
if (const PointerType *PTy = dyn_cast<PointerType>(V->getType())) {
const std::vector<SCEVHandle> &Ops = S->getOperands();
const SmallVectorImpl<SCEVHandle> &Ops = S->getOperands();
return expandAddToGEP(&Ops[0], &Ops[Ops.size() - 1],
PTy, Ty, V);
}
@ -432,7 +433,7 @@ static void ExposePointerBase(SCEVHandle &Base, SCEVHandle &Rest,
}
if (const SCEVAddExpr *A = dyn_cast<SCEVAddExpr>(Base)) {
Base = A->getOperand(A->getNumOperands()-1);
std::vector<SCEVHandle> NewAddOps(A->op_begin(), A->op_end());
SmallVector<SCEVHandle, 8> NewAddOps(A->op_begin(), A->op_end());
NewAddOps.back() = Rest;
Rest = SE.getAddExpr(NewAddOps);
ExposePointerBase(Base, Rest, SE);
@ -473,7 +474,8 @@ Value *SCEVExpander::visitAddRecExpr(const SCEVAddRecExpr *S) {
// {X,+,F} --> X + {0,+,F}
if (!S->getStart()->isZero()) {
std::vector<SCEVHandle> NewOps(S->getOperands());
const SmallVectorImpl<SCEVHandle> &SOperands = S->getOperands();
SmallVector<SCEVHandle, 4> NewOps(SOperands.begin(), SOperands.end());
NewOps[0] = SE.getIntegerSCEV(0, Ty);
SCEVHandle Rest = SE.getAddRecExpr(NewOps, L);

View File

@ -592,7 +592,7 @@ static void MoveLoopVariantsToImmediateField(SCEVHandle &Val, SCEVHandle &Imm,
if (Val->isLoopInvariant(L)) return; // Nothing to do.
if (const SCEVAddExpr *SAE = dyn_cast<SCEVAddExpr>(Val)) {
std::vector<SCEVHandle> NewOps;
SmallVector<SCEVHandle, 4> NewOps;
NewOps.reserve(SAE->getNumOperands());
for (unsigned i = 0; i != SAE->getNumOperands(); ++i)
@ -613,7 +613,7 @@ static void MoveLoopVariantsToImmediateField(SCEVHandle &Val, SCEVHandle &Imm,
SCEVHandle Start = SARE->getStart();
MoveLoopVariantsToImmediateField(Start, Imm, L, SE);
std::vector<SCEVHandle> Ops(SARE->op_begin(), SARE->op_end());
SmallVector<SCEVHandle, 4> Ops(SARE->op_begin(), SARE->op_end());
Ops[0] = Start;
Val = SE->getAddRecExpr(Ops, SARE->getLoop());
} else {
@ -633,7 +633,7 @@ static void MoveImmediateValues(const TargetLowering *TLI,
bool isAddress, Loop *L,
ScalarEvolution *SE) {
if (const SCEVAddExpr *SAE = dyn_cast<SCEVAddExpr>(Val)) {
std::vector<SCEVHandle> NewOps;
SmallVector<SCEVHandle, 4> NewOps;
NewOps.reserve(SAE->getNumOperands());
for (unsigned i = 0; i != SAE->getNumOperands(); ++i) {
@ -660,7 +660,7 @@ static void MoveImmediateValues(const TargetLowering *TLI,
MoveImmediateValues(TLI, AccessTy, Start, Imm, isAddress, L, SE);
if (Start != SARE->getStart()) {
std::vector<SCEVHandle> Ops(SARE->op_begin(), SARE->op_end());
SmallVector<SCEVHandle, 4> Ops(SARE->op_begin(), SARE->op_end());
Ops[0] = Start;
Val = SE->getAddRecExpr(Ops, SARE->getLoop());
}
@ -717,7 +717,7 @@ static void MoveImmediateValues(const TargetLowering *TLI,
/// SeparateSubExprs - Decompose Expr into all of the subexpressions that are
/// added together. This is used to reassociate common addition subexprs
/// together for maximal sharing when rewriting bases.
static void SeparateSubExprs(std::vector<SCEVHandle> &SubExprs,
static void SeparateSubExprs(SmallVector<SCEVHandle, 16> &SubExprs,
SCEVHandle Expr,
ScalarEvolution *SE) {
if (const SCEVAddExpr *AE = dyn_cast<SCEVAddExpr>(Expr)) {
@ -729,7 +729,7 @@ static void SeparateSubExprs(std::vector<SCEVHandle> &SubExprs,
SubExprs.push_back(Expr);
} else {
// Compute the addrec with zero as its base.
std::vector<SCEVHandle> Ops(SARE->op_begin(), SARE->op_end());
SmallVector<SCEVHandle, 4> Ops(SARE->op_begin(), SARE->op_end());
Ops[0] = Zero; // Start with zero base.
SubExprs.push_back(SE->getAddRecExpr(Ops, SARE->getLoop()));
@ -783,9 +783,9 @@ RemoveCommonExpressionsFromUseBases(std::vector<BasedUser> &Uses,
// UniqueSubExprs - Keep track of all of the subexpressions we see in the
// order we see them.
std::vector<SCEVHandle> UniqueSubExprs;
SmallVector<SCEVHandle, 16> UniqueSubExprs;
std::vector<SCEVHandle> SubExprs;
SmallVector<SCEVHandle, 16> SubExprs;
unsigned NumUsesInsideLoop = 0;
for (unsigned i = 0; i != NumUses; ++i) {
// If the user is outside the loop, just ignore it for base computation.