/// EnforceSmallerThan - 'this' must be a smaller VT than Other. For vectors
-/// this shoud be based on the element type. Update this and other based on
+/// this should be based on the element type. Update this and other based on
/// this information.
bool EEVT::TypeSet::EnforceSmallerThan(EEVT::TypeSet &Other, TreePattern &TP) {
if (TP.hasError())
return MadeChange;
}
-/// EnforceVectorEltTypeIs - 'this' is now constrainted to be a vector type
+/// EnforceVectorEltTypeIs - 'this' is now constrained to be a vector type
/// whose element is specified by VTOperand.
bool EEVT::TypeSet::EnforceVectorEltTypeIs(MVT::SimpleValueType VT,
TreePattern &TP) {
return MadeChange;
}
-/// EnforceVectorEltTypeIs - 'this' is now constrainted to be a vector type
+/// EnforceVectorEltTypeIs - 'this' is now constrained to be a vector type
/// whose element is specified by VTOperand.
bool EEVT::TypeSet::EnforceVectorEltTypeIs(EEVT::TypeSet &VTOperand,
TreePattern &TP) {
return MadeChange;
}
-/// EnforceVectorSubVectorTypeIs - 'this' is now constrainted to be a
+/// EnforceVectorSubVectorTypeIs - 'this' is now constrained to be a
/// vector type specified by VTOperand.
bool EEVT::TypeSet::EnforceVectorSubVectorTypeIs(EEVT::TypeSet &VTOperand,
TreePattern &TP) {
return MadeChange;
}
-/// EnforceVectorSameNumElts - 'this' is now constrainted to
+/// EnforceVectorSameNumElts - 'this' is now constrained to
/// be a vector with same num elements as VTOperand.
bool EEVT::TypeSet::EnforceVectorSameNumElts(EEVT::TypeSet &VTOperand,
TreePattern &TP) {
if (ClassName == "SDNode")
Result = " SDNode *N = Node;\n";
else
- Result = " " + ClassName + "*N = cast<" + ClassName + ">(Node);\n";
+ Result = " auto *N = cast<" + ClassName + ">(Node);\n";
return Result + getPredCode();
}
///
std::string PatternToMatch::getPredicateCheck() const {
std::string PredicateCheck;
- for (unsigned i = 0, e = Predicates->getSize(); i != e; ++i) {
- if (DefInit *Pred = dyn_cast<DefInit>(Predicates->getElement(i))) {
+ for (Init *I : Predicates->getValues()) {
+ if (DefInit *Pred = dyn_cast<DefInit>(I)) {
Record *Def = Pred->getDef();
if (!Def->isSubClassOf("Predicate")) {
#ifndef NDEBUG
TreePattern::TreePattern(Record *TheRec, ListInit *RawPat, bool isInput,
CodeGenDAGPatterns &cdp) : TheRecord(TheRec), CDP(cdp),
isInputPattern(isInput), HasError(false) {
- for (unsigned i = 0, e = RawPat->getSize(); i != e; ++i)
- Trees.push_back(ParseTreePattern(RawPat->getElement(i), ""));
+ for (Init *I : RawPat->getValues())
+ Trees.push_back(ParseTreePattern(I, ""));
}
TreePattern::TreePattern(Record *TheRec, DagInit *Pat, bool isInput,
Operator->getName() != "tblockaddress" &&
Operator->getName() != "tglobaladdr" &&
Operator->getName() != "bb" &&
- Operator->getName() != "vt")
+ Operator->getName() != "vt" &&
+ Operator->getName() != "mcsym")
error("Cannot use '" + Operator->getName() + "' in an output pattern!");
}
if (InstInfo.mayLoad != PatInfo.mayLoad && !InstInfo.mayLoad_Unset) {
// Allow explicitly setting mayLoad = 1, even when the pattern has no loads.
- // Some targets translate imediates to loads.
+ // Some targets translate immediates to loads.
if (!InstInfo.mayLoad) {
Error = true;
PrintError(PatDef->getLoc(), "Pattern doesn't match mayLoad = " +
/// hasNullFragReference - Return true if any DAG in the list references
/// the null_frag operator.
static bool hasNullFragReference(ListInit *LI) {
- for (unsigned i = 0, e = LI->getSize(); i != e; ++i) {
- DagInit *DI = dyn_cast<DagInit>(LI->getElement(i));
+ for (Init *I : LI->getValues()) {
+ DagInit *DI = dyn_cast<DagInit>(I);
assert(DI && "non-dag in an instruction Pattern list?!");
if (hasNullFragReference(DI))
return true;
if (InstInfo.InferredFrom &&
InstInfo.InferredFrom != InstInfo.TheDef &&
InstInfo.InferredFrom != PTM.getSrcRecord())
- PrintError(InstInfo.InferredFrom->getLoc(), "inferred from patttern");
+ PrintError(InstInfo.InferredFrom->getLoc(), "inferred from pattern");
}
}
if (Errors)
}
// Increment indices to the next permutation by incrementing the
- // indicies from last index backward, e.g., generate the sequence
+ // indices from last index backward, e.g., generate the sequence
// [0, 0], [0, 1], [1, 0], [1, 1].
int IdxsIdx;
for (IdxsIdx = Idxs.size() - 1; IdxsIdx >= 0; --IdxsIdx) {
// operands are the commutative operands, and there might be more operands
// after those.
assert(NC >= 3 &&
- "Commutative intrinsic should have at least 3 childrean!");
+ "Commutative intrinsic should have at least 3 children!");
std::vector<std::vector<TreePatternNode*> > Variants;
Variants.push_back(ChildVariants[0]); // Intrinsic id.
Variants.push_back(ChildVariants[2]);
if (AlreadyExists) continue;
// Otherwise, add it to the list of patterns we have.
- PatternsToMatch.
- push_back(PatternToMatch(PatternsToMatch[i].getSrcRecord(),
- PatternsToMatch[i].getPredicates(),
- Variant, PatternsToMatch[i].getDstPattern(),
- PatternsToMatch[i].getDstRegs(),
- PatternsToMatch[i].getAddedComplexity(),
- Record::getNewUID()));
+ PatternsToMatch.emplace_back(
+ PatternsToMatch[i].getSrcRecord(), PatternsToMatch[i].getPredicates(),
+ Variant, PatternsToMatch[i].getDstPattern(),
+ PatternsToMatch[i].getDstRegs(),
+ PatternsToMatch[i].getAddedComplexity(), Record::getNewUID());
}
DEBUG(errs() << "\n");