+
+ // Result order: node results, chain, glue
+
+ // Determine the result types.
+ SmallVector<MVT::SimpleValueType, 4> ResultVTs;
+ for (unsigned i = 0, e = N->getNumTypes(); i != e; ++i)
+ ResultVTs.push_back(N->getType(i));
+
+ // If this is the root instruction of a pattern that has physical registers in
+ // its result pattern, add output VTs for them. For example, X86 has:
+ // (set AL, (mul ...))
+ // This also handles implicit results like:
+ // (implicit EFLAGS)
+ if (isRoot && !Pattern.getDstRegs().empty()) {
+ // If the root came from an implicit def in the instruction handling stuff,
+ // don't re-add it.
+ Record *HandledReg = 0;
+ if (II.HasOneImplicitDefWithKnownVT(CGT) != MVT::Other)
+ HandledReg = II.ImplicitDefs[0];
+
+ for (unsigned i = 0; i != Pattern.getDstRegs().size(); ++i) {
+ Record *Reg = Pattern.getDstRegs()[i];
+ if (!Reg->isSubClassOf("Register") || Reg == HandledReg) continue;
+ ResultVTs.push_back(getRegisterValueType(Reg, CGT));
+ }
+ }
+
+ // If this is the root of the pattern and the pattern we're matching includes
+ // a node that is variadic, mark the generated node as variadic so that it
+ // gets the excess operands from the input DAG.
+ int NumFixedArityOperands = -1;
+ if (isRoot &&
+ (Pattern.getSrcPattern()->NodeHasProperty(SDNPVariadic, CGP)))
+ NumFixedArityOperands = Pattern.getSrcPattern()->getNumChildren();
+
+ // If this is the root node and multiple matched nodes in the input pattern
+ // have MemRefs in them, have the interpreter collect them and plop them onto
+ // this node. If there is just one node with MemRefs, leave them on that node
+ // even if it is not the root.
+ //
+ // FIXME3: This is actively incorrect for result patterns with multiple
+ // memory-referencing instructions.
+ bool PatternHasMemOperands =
+ Pattern.getSrcPattern()->TreeHasProperty(SDNPMemOperand, CGP);
+
+ bool NodeHasMemRefs = false;
+ if (PatternHasMemOperands) {
+ unsigned NumNodesThatLoadOrStore =
+ numNodesThatMayLoadOrStore(Pattern.getDstPattern(), CGP);
+ bool NodeIsUniqueLoadOrStore = mayInstNodeLoadOrStore(N, CGP) &&
+ NumNodesThatLoadOrStore == 1;
+ NodeHasMemRefs =
+ NodeIsUniqueLoadOrStore || (isRoot && (mayInstNodeLoadOrStore(N, CGP) ||
+ NumNodesThatLoadOrStore != 1));
+ }
+
+ assert((!ResultVTs.empty() || TreeHasOutGlue || NodeHasChain) &&
+ "Node has no result");
+
+ AddMatcher(new EmitNodeMatcher(II.Namespace+"::"+II.TheDef->getName(),
+ ResultVTs.data(), ResultVTs.size(),
+ InstOps.data(), InstOps.size(),
+ NodeHasChain, TreeHasInGlue, TreeHasOutGlue,
+ NodeHasMemRefs, NumFixedArityOperands,
+ NextRecordedOperandNo));
+
+ // The non-chain and non-glue results of the newly emitted node get recorded.
+ for (unsigned i = 0, e = ResultVTs.size(); i != e; ++i) {
+ if (ResultVTs[i] == MVT::Other || ResultVTs[i] == MVT::Glue) break;
+ OutputOps.push_back(NextRecordedOperandNo++);
+ }
+}
+
+void MatcherGen::
+EmitResultSDNodeXFormAsOperand(const TreePatternNode *N,
+ SmallVectorImpl<unsigned> &ResultOps) {
+ assert(N->getOperator()->isSubClassOf("SDNodeXForm") && "Not SDNodeXForm?");
+
+ // Emit the operand.
+ SmallVector<unsigned, 8> InputOps;
+
+ // FIXME2: Could easily generalize this to support multiple inputs and outputs
+ // to the SDNodeXForm. For now we just support one input and one output like
+ // the old instruction selector.
+ assert(N->getNumChildren() == 1);
+ EmitResultOperand(N->getChild(0), InputOps);
+
+ // The input currently must have produced exactly one result.
+ assert(InputOps.size() == 1 && "Unexpected input to SDNodeXForm");
+
+ AddMatcher(new EmitNodeXFormMatcher(InputOps[0], N->getOperator()));
+ ResultOps.push_back(NextRecordedOperandNo++);