#include "llvm/ADT/StringSet.h"
#include "llvm/Support/Debug.h"
#include "llvm/Support/raw_ostream.h"
-#include <vector>
using namespace llvm;
/// ContractNodes - Turn multiple matcher node patterns like 'MoveChild+Record'
/// into single compound nodes like RecordChild.
-static void ContractNodes(OwningPtr<Matcher> &MatcherPtr,
+static void ContractNodes(std::unique_ptr<Matcher> &MatcherPtr,
const CodeGenDAGPatterns &CGP) {
// If we reached the end of the chain, we're done.
Matcher *N = MatcherPtr.get();
// If we have a scope node, walk down all of the children.
if (ScopeMatcher *Scope = dyn_cast<ScopeMatcher>(N)) {
for (unsigned i = 0, e = Scope->getNumChildren(); i != e; ++i) {
- OwningPtr<Matcher> Child(Scope->takeChild(i));
+ std::unique_ptr<Matcher> Child(Scope->takeChild(i));
ContractNodes(Child, CGP);
- Scope->resetChild(i, Child.take());
+ Scope->resetChild(i, Child.release());
}
return;
}
if (MC->getChildNo() < 8) // Only have RecordChild0...7
New = new RecordChildMatcher(MC->getChildNo(), RM->getWhatFor(),
RM->getResultNo());
-
- if (CheckTypeMatcher *CT= dyn_cast<CheckTypeMatcher>(MC->getNext()))
- if (MC->getChildNo() < 8) // Only have CheckChildType0...7
+
+ if (CheckTypeMatcher *CT = dyn_cast<CheckTypeMatcher>(MC->getNext()))
+ if (MC->getChildNo() < 8 && // Only have CheckChildType0...7
+ CT->getResNo() == 0) // CheckChildType checks res #0
New = new CheckChildTypeMatcher(MC->getChildNo(), CT->getType());
-
+
+ if (CheckSameMatcher *CS = dyn_cast<CheckSameMatcher>(MC->getNext()))
+ if (MC->getChildNo() < 4) // Only have CheckChildSame0...3
+ New = new CheckChildSameMatcher(MC->getChildNo(), CS->getMatchNumber());
+
+ if (CheckIntegerMatcher *CS = dyn_cast<CheckIntegerMatcher>(MC->getNext()))
+ if (MC->getChildNo() < 5) // Only have CheckChildInteger0...4
+ New = new CheckChildIntegerMatcher(MC->getChildNo(), CS->getValue());
+
if (New) {
// Insert the new node.
- New->setNext(MatcherPtr.take());
+ New->setNext(MatcherPtr.release());
MatcherPtr.reset(New);
// Remove the old one.
MC->setNext(MC->getNext()->takeNext());
// MarkFlagResults->EmitNode->CompleteMatch when we can to encourage
// MorphNodeTo formation. This is safe because MarkFlagResults never refers
// to the root of the pattern.
- if (isa<EmitNodeMatcher>(N) && isa<MarkFlagResultsMatcher>(N->getNext()) &&
+ if (isa<EmitNodeMatcher>(N) && isa<MarkGlueResultsMatcher>(N->getNext()) &&
isa<CompleteMatchMatcher>(N->getNext()->getNext())) {
// Unlink the two nodes from the list.
- Matcher *EmitNode = MatcherPtr.take();
+ Matcher *EmitNode = MatcherPtr.release();
Matcher *MFR = EmitNode->takeNext();
Matcher *Tail = MFR->takeNext();
if (CM->getResult(i) != RootResultFirst+i)
ResultsMatch = false;
- // If the selected node defines a subset of the flag/chain results, we
+ // If the selected node defines a subset of the glue/chain results, we
// can't use MorphNodeTo. For example, we can't use MorphNodeTo if the
// matched pattern has a chain but the root node doesn't.
const PatternToMatch &Pattern = CM->getPattern();
Pattern.getSrcPattern()->NodeHasProperty(SDNPHasChain, CGP))
ResultsMatch = false;
- // If the matched node has a flag and the output root doesn't, we can't
+ // If the matched node has glue and the output root doesn't, we can't
// use MorphNodeTo.
//
- // NOTE: Strictly speaking, we don't have to check for the flag here
+ // NOTE: Strictly speaking, we don't have to check for glue here
// because the code in the pattern generator doesn't handle it right. We
// do it anyway for thoroughness.
if (!EN->hasOutFlag() &&
- Pattern.getSrcPattern()->NodeHasProperty(SDNPOutFlag, CGP))
+ Pattern.getSrcPattern()->NodeHasProperty(SDNPOutGlue, CGP))
ResultsMatch = false;
// If the root result node defines more results than the source root node
- // *and* has a chain or flag input, then we can't match it because it
- // would end up replacing the extra result with the chain/flag.
+ // *and* has a chain or glue input, then we can't match it because it
+ // would end up replacing the extra result with the chain/glue.
#if 0
- if ((EN->hasFlag() || EN->hasChain()) &&
- EN->getNumNonChainFlagVTs() > ... need to get no results reliably ...)
+ if ((EN->hasGlue() || EN->hasChain()) &&
+ EN->getNumNonChainGlueVTs() > ... need to get no results reliably ...)
ResultMatch = false;
#endif
const SmallVectorImpl<MVT::SimpleValueType> &VTs = EN->getVTList();
const SmallVectorImpl<unsigned> &Operands = EN->getOperandList();
MatcherPtr.reset(new MorphNodeToMatcher(EN->getOpcodeName(),
- VTs.data(), VTs.size(),
- Operands.data(),Operands.size(),
+ VTs, Operands,
EN->hasChain(), EN->hasInFlag(),
EN->hasOutFlag(),
EN->hasMemRefs(),
isa<RecordMatcher>(N)) &&
isa<CheckOpcodeMatcher>(N->getNext())) {
// Unlink the two nodes from the list.
- Matcher *CheckType = MatcherPtr.take();
+ Matcher *CheckType = MatcherPtr.release();
Matcher *CheckOpcode = CheckType->takeNext();
Matcher *Tail = CheckOpcode->takeNext();
/// run a the complex pattern if the pattern predicate will fail. For this
/// reason, we refuse to sink the pattern predicate past a ComplexPattern.
///
-static void SinkPatternPredicates(OwningPtr<Matcher> &MatcherPtr) {
+static void SinkPatternPredicates(std::unique_ptr<Matcher> &MatcherPtr) {
// Recursively scan for a PatternPredicate.
// If we reached the end of the chain, we're done.
Matcher *N = MatcherPtr.get();
// Walk down all members of a scope node.
if (ScopeMatcher *Scope = dyn_cast<ScopeMatcher>(N)) {
for (unsigned i = 0, e = Scope->getNumChildren(); i != e; ++i) {
- OwningPtr<Matcher> Child(Scope->takeChild(i));
+ std::unique_ptr<Matcher> Child(Scope->takeChild(i));
SinkPatternPredicates(Child);
- Scope->resetChild(i, Child.take());
+ Scope->resetChild(i, Child.release());
}
return;
}
// Okay, we know we can sink it past at least one node. Unlink it from the
// chain and scan for the new insertion point.
- MatcherPtr.take(); // Don't delete CPPM.
+ MatcherPtr.release(); // Don't delete CPPM.
MatcherPtr.reset(CPPM->takeNext());
N = MatcherPtr.get();
/// ABC
/// XYZ
///
-static void FactorNodes(OwningPtr<Matcher> &MatcherPtr) {
+static void FactorNodes(std::unique_ptr<Matcher> &MatcherPtr) {
// If we reached the end of the chain, we're done.
Matcher *N = MatcherPtr.get();
if (N == 0) return;
for (unsigned i = 0, e = Scope->getNumChildren(); i != e; ++i) {
// Factor the subexpression.
- OwningPtr<Matcher> Child(Scope->takeChild(i));
+ std::unique_ptr<Matcher> Child(Scope->takeChild(i));
FactorNodes(Child);
- if (Matcher *N = Child.take())
+ if (Matcher *N = Child.release())
OptionsToMatch.push_back(N);
}
EqualMatchers[i] = Tmp;
}
- Shared->setNext(new ScopeMatcher(&EqualMatchers[0], EqualMatchers.size()));
+ Shared->setNext(new ScopeMatcher(EqualMatchers));
// Recursively factor the newly created node.
FactorNodes(Shared->getNextPtr());
CheckTypeMatcher *CTM =
cast_or_null<CheckTypeMatcher>(FindNodeWithKind(NewOptionsToMatch[i],
Matcher::CheckType));
- if (CTM == 0 ||
+ if (CTM == 0 ||
// iPTR checks could alias any other case without us knowing, don't
// bother with them.
CTM->getType() == MVT::iPTR ||
+ // SwitchType only works for result #0.
+ CTM->getResNo() != 0 ||
// If the CheckType isn't at the start of the list, see if we can move
// it there.
!CTM->canMoveBefore(NewOptionsToMatch[i])) {
Cases.push_back(std::make_pair(&COM->getOpcode(), COM->getNext()));
}
- MatcherPtr.reset(new SwitchOpcodeMatcher(&Cases[0], Cases.size()));
+ MatcherPtr.reset(new SwitchOpcodeMatcher(Cases));
return;
}
}
Matcher *Entries[2] = { PrevMatcher, MatcherWithoutCTM };
- Cases[Entry-1].second = new ScopeMatcher(Entries, 2);
+ Cases[Entry-1].second = new ScopeMatcher(Entries);
continue;
}
}
if (Cases.size() != 1) {
- MatcherPtr.reset(new SwitchTypeMatcher(&Cases[0], Cases.size()));
+ MatcherPtr.reset(new SwitchTypeMatcher(Cases));
} else {
// If we factored and ended up with one case, create it now.
- MatcherPtr.reset(new CheckTypeMatcher(Cases[0].first));
+ MatcherPtr.reset(new CheckTypeMatcher(Cases[0].first, 0));
MatcherPtr->setNext(Cases[0].second);
}
return;
Matcher *llvm::OptimizeMatcher(Matcher *TheMatcher,
const CodeGenDAGPatterns &CGP) {
- OwningPtr<Matcher> MatcherPtr(TheMatcher);
+ std::unique_ptr<Matcher> MatcherPtr(TheMatcher);
ContractNodes(MatcherPtr, CGP);
SinkPatternPredicates(MatcherPtr);
FactorNodes(MatcherPtr);
- return MatcherPtr.take();
+ return MatcherPtr.release();
}
projects / oota-llvm.git / blobdiff