/// expansion, we just know that (at least) one result needs promotion.
void DAGTypeLegalizer::PromoteIntegerResult(SDNode *N, unsigned ResNo) {
DEBUG(cerr << "Promote integer result: "; N->dump(&DAG); cerr << "\n");
- SDOperand Result = SDOperand();
+ SDValue Result = SDValue();
// See if the target wants to custom expand this node.
if (TLI.getOperationAction(N->getOpcode(), N->getValueType(ResNo)) ==
case ISD::XOR:
case ISD::ADD:
case ISD::SUB:
- case ISD::MUL: Result = PromoteIntRes_SimpleIntBinOp(N); break;
+ case ISD::MUL: Result = PromoteIntRes_SimpleIntBinOp(N); break;
case ISD::SDIV:
- case ISD::SREM: Result = PromoteIntRes_SDIV(N); break;
+ case ISD::SREM: Result = PromoteIntRes_SDIV(N); break;
case ISD::UDIV:
- case ISD::UREM: Result = PromoteIntRes_UDIV(N); break;
+ case ISD::UREM: Result = PromoteIntRes_UDIV(N); break;
+
+ case ISD::ATOMIC_LOAD_ADD_8:
+ case ISD::ATOMIC_LOAD_SUB_8:
+ case ISD::ATOMIC_LOAD_AND_8:
+ case ISD::ATOMIC_LOAD_OR_8:
+ case ISD::ATOMIC_LOAD_XOR_8:
+ case ISD::ATOMIC_LOAD_NAND_8:
+ case ISD::ATOMIC_LOAD_MIN_8:
+ case ISD::ATOMIC_LOAD_MAX_8:
+ case ISD::ATOMIC_LOAD_UMIN_8:
+ case ISD::ATOMIC_LOAD_UMAX_8:
+ case ISD::ATOMIC_SWAP_8:
+ case ISD::ATOMIC_LOAD_ADD_16:
+ case ISD::ATOMIC_LOAD_SUB_16:
+ case ISD::ATOMIC_LOAD_AND_16:
+ case ISD::ATOMIC_LOAD_OR_16:
+ case ISD::ATOMIC_LOAD_XOR_16:
+ case ISD::ATOMIC_LOAD_NAND_16:
+ case ISD::ATOMIC_LOAD_MIN_16:
+ case ISD::ATOMIC_LOAD_MAX_16:
+ case ISD::ATOMIC_LOAD_UMIN_16:
+ case ISD::ATOMIC_LOAD_UMAX_16:
+ case ISD::ATOMIC_SWAP_16:
+ case ISD::ATOMIC_LOAD_ADD_32:
+ case ISD::ATOMIC_LOAD_SUB_32:
+ case ISD::ATOMIC_LOAD_AND_32:
+ case ISD::ATOMIC_LOAD_OR_32:
+ case ISD::ATOMIC_LOAD_XOR_32:
+ case ISD::ATOMIC_LOAD_NAND_32:
+ case ISD::ATOMIC_LOAD_MIN_32:
+ case ISD::ATOMIC_LOAD_MAX_32:
+ case ISD::ATOMIC_LOAD_UMIN_32:
+ case ISD::ATOMIC_LOAD_UMAX_32:
+ case ISD::ATOMIC_SWAP_32:
+ case ISD::ATOMIC_LOAD_ADD_64:
+ case ISD::ATOMIC_LOAD_SUB_64:
+ case ISD::ATOMIC_LOAD_AND_64:
+ case ISD::ATOMIC_LOAD_OR_64:
+ case ISD::ATOMIC_LOAD_XOR_64:
+ case ISD::ATOMIC_LOAD_NAND_64:
+ case ISD::ATOMIC_LOAD_MIN_64:
+ case ISD::ATOMIC_LOAD_MAX_64:
+ case ISD::ATOMIC_LOAD_UMIN_64:
+ case ISD::ATOMIC_LOAD_UMAX_64:
+ case ISD::ATOMIC_SWAP_64:
+ Result = PromoteIntRes_Atomic1(cast<AtomicSDNode>(N)); break;
+
+ case ISD::ATOMIC_CMP_SWAP_8:
+ case ISD::ATOMIC_CMP_SWAP_16:
+ case ISD::ATOMIC_CMP_SWAP_32:
+ case ISD::ATOMIC_CMP_SWAP_64:
+ Result = PromoteIntRes_Atomic2(cast<AtomicSDNode>(N)); break;
}
// If Result is null, the sub-method took care of registering the result.
- if (Result.Val)
- SetPromotedInteger(SDOperand(N, ResNo), Result);
+ if (Result.getNode())
+ SetPromotedInteger(SDValue(N, ResNo), Result);
}
-SDOperand DAGTypeLegalizer::PromoteIntRes_AssertSext(SDNode *N) {
+SDValue DAGTypeLegalizer::PromoteIntRes_AssertSext(SDNode *N) {
// Sign-extend the new bits, and continue the assertion.
MVT OldVT = N->getValueType(0);
- SDOperand Op = GetPromotedInteger(N->getOperand(0));
+ SDValue Op = GetPromotedInteger(N->getOperand(0));
return DAG.getNode(ISD::AssertSext, Op.getValueType(),
DAG.getNode(ISD::SIGN_EXTEND_INREG, Op.getValueType(), Op,
DAG.getValueType(OldVT)), N->getOperand(1));
}
-SDOperand DAGTypeLegalizer::PromoteIntRes_AssertZext(SDNode *N) {
+SDValue DAGTypeLegalizer::PromoteIntRes_AssertZext(SDNode *N) {
// Zero the new bits, and continue the assertion.
MVT OldVT = N->getValueType(0);
- SDOperand Op = GetPromotedInteger(N->getOperand(0));
+ SDValue Op = GetPromotedInteger(N->getOperand(0));
return DAG.getNode(ISD::AssertZext, Op.getValueType(),
DAG.getZeroExtendInReg(Op, OldVT), N->getOperand(1));
}
-SDOperand DAGTypeLegalizer::PromoteIntRes_BIT_CONVERT(SDNode *N) {
- SDOperand InOp = N->getOperand(0);
+SDValue DAGTypeLegalizer::PromoteIntRes_Atomic1(AtomicSDNode *N) {
+ SDValue Op2 = GetPromotedInteger(N->getOperand(2));
+ SDValue Res = DAG.getAtomic(N->getOpcode(), N->getChain(), N->getBasePtr(),
+ Op2, N->getSrcValue(), N->getAlignment());
+ // Legalized the chain result - switch anything that used the old chain to
+ // use the new one.
+ ReplaceValueWith(SDValue(N, 1), Res.getValue(1));
+ return Res;
+}
+
+SDValue DAGTypeLegalizer::PromoteIntRes_Atomic2(AtomicSDNode *N) {
+ SDValue Op2 = GetPromotedInteger(N->getOperand(2));
+ SDValue Op3 = GetPromotedInteger(N->getOperand(3));
+ SDValue Res = DAG.getAtomic(N->getOpcode(), N->getChain(), N->getBasePtr(),
+ Op2, Op3, N->getSrcValue(), N->getAlignment());
+ // Legalized the chain result - switch anything that used the old chain to
+ // use the new one.
+ ReplaceValueWith(SDValue(N, 1), Res.getValue(1));
+ return Res;
+}
+
+SDValue DAGTypeLegalizer::PromoteIntRes_BIT_CONVERT(SDNode *N) {
+ SDValue InOp = N->getOperand(0);
MVT InVT = InOp.getValueType();
MVT NInVT = TLI.getTypeToTransformTo(InVT);
MVT OutVT = TLI.getTypeToTransformTo(N->getValueType(0));
case SplitVector:
// For example, i32 = BIT_CONVERT v2i16 on alpha. Convert the split
// pieces of the input into integers and reassemble in the final type.
- SDOperand Lo, Hi;
+ SDValue Lo, Hi;
GetSplitVector(N->getOperand(0), Lo, Hi);
Lo = BitConvertToInteger(Lo);
Hi = BitConvertToInteger(Hi);
// Otherwise, lower the bit-convert to a store/load from the stack, then
// promote the load.
- SDOperand Op = CreateStackStoreLoad(InOp, N->getValueType(0));
- return PromoteIntRes_LOAD(cast<LoadSDNode>(Op.Val));
+ SDValue Op = CreateStackStoreLoad(InOp, N->getValueType(0));
+ return PromoteIntRes_LOAD(cast<LoadSDNode>(Op.getNode()));
}
-SDOperand DAGTypeLegalizer::PromoteIntRes_BSWAP(SDNode *N) {
- SDOperand Op = GetPromotedInteger(N->getOperand(0));
+SDValue DAGTypeLegalizer::PromoteIntRes_BSWAP(SDNode *N) {
+ SDValue Op = GetPromotedInteger(N->getOperand(0));
MVT OVT = N->getValueType(0);
MVT NVT = Op.getValueType();
DAG.getConstant(DiffBits, TLI.getShiftAmountTy()));
}
-SDOperand DAGTypeLegalizer::PromoteIntRes_BUILD_PAIR(SDNode *N) {
+SDValue DAGTypeLegalizer::PromoteIntRes_BUILD_PAIR(SDNode *N) {
// The pair element type may be legal, or may not promote to the same type as
// the result, for example i14 = BUILD_PAIR (i7, i7). Handle all cases.
return DAG.getNode(ISD::ANY_EXTEND,
JoinIntegers(N->getOperand(0), N->getOperand(1)));
}
-SDOperand DAGTypeLegalizer::PromoteIntRes_Constant(SDNode *N) {
+SDValue DAGTypeLegalizer::PromoteIntRes_Constant(SDNode *N) {
MVT VT = N->getValueType(0);
// Zero extend things like i1, sign extend everything else. It shouldn't
// matter in theory which one we pick, but this tends to give better code?
unsigned Opc = VT.isByteSized() ? ISD::SIGN_EXTEND : ISD::ZERO_EXTEND;
- SDOperand Result = DAG.getNode(Opc, TLI.getTypeToTransformTo(VT),
- SDOperand(N, 0));
+ SDValue Result = DAG.getNode(Opc, TLI.getTypeToTransformTo(VT),
+ SDValue(N, 0));
assert(isa<ConstantSDNode>(Result) && "Didn't constant fold ext?");
return Result;
}
-SDOperand DAGTypeLegalizer::PromoteIntRes_CTLZ(SDNode *N) {
- SDOperand Op = GetPromotedInteger(N->getOperand(0));
+SDValue DAGTypeLegalizer::PromoteIntRes_CTLZ(SDNode *N) {
+ SDValue Op = GetPromotedInteger(N->getOperand(0));
MVT OVT = N->getValueType(0);
MVT NVT = Op.getValueType();
// Zero extend to the promoted type and do the count there.
OVT.getSizeInBits(), NVT));
}
-SDOperand DAGTypeLegalizer::PromoteIntRes_CTPOP(SDNode *N) {
- SDOperand Op = GetPromotedInteger(N->getOperand(0));
+SDValue DAGTypeLegalizer::PromoteIntRes_CTPOP(SDNode *N) {
+ SDValue Op = GetPromotedInteger(N->getOperand(0));
MVT OVT = N->getValueType(0);
MVT NVT = Op.getValueType();
// Zero extend to the promoted type and do the count there.
return DAG.getNode(ISD::CTPOP, NVT, DAG.getZeroExtendInReg(Op, OVT));
}
-SDOperand DAGTypeLegalizer::PromoteIntRes_CTTZ(SDNode *N) {
- SDOperand Op = GetPromotedInteger(N->getOperand(0));
+SDValue DAGTypeLegalizer::PromoteIntRes_CTTZ(SDNode *N) {
+ SDValue Op = GetPromotedInteger(N->getOperand(0));
MVT OVT = N->getValueType(0);
MVT NVT = Op.getValueType();
// The count is the same in the promoted type except if the original
return DAG.getNode(ISD::CTTZ, NVT, Op);
}
-SDOperand DAGTypeLegalizer::PromoteIntRes_EXTRACT_VECTOR_ELT(SDNode *N) {
+SDValue DAGTypeLegalizer::PromoteIntRes_EXTRACT_VECTOR_ELT(SDNode *N) {
MVT OldVT = N->getValueType(0);
- SDOperand OldVec = N->getOperand(0);
+ SDValue OldVec = N->getOperand(0);
unsigned OldElts = OldVec.getValueType().getVectorNumElements();
if (OldElts == 1) {
MVT NewVT = MVT::getIntegerVT(2 * OldVT.getSizeInBits());
assert(OldVT.isSimple() && NewVT.isSimple());
- SDOperand NewVec = DAG.getNode(ISD::BIT_CONVERT,
+ SDValue NewVec = DAG.getNode(ISD::BIT_CONVERT,
MVT::getVectorVT(NewVT, OldElts / 2),
OldVec);
// Extract the element at OldIdx / 2 from the new vector.
- SDOperand OldIdx = N->getOperand(1);
- SDOperand NewIdx = DAG.getNode(ISD::SRL, OldIdx.getValueType(), OldIdx,
+ SDValue OldIdx = N->getOperand(1);
+ SDValue NewIdx = DAG.getNode(ISD::SRL, OldIdx.getValueType(), OldIdx,
DAG.getConstant(1, TLI.getShiftAmountTy()));
- SDOperand Elt = DAG.getNode(ISD::EXTRACT_VECTOR_ELT, NewVT, NewVec, NewIdx);
+ SDValue Elt = DAG.getNode(ISD::EXTRACT_VECTOR_ELT, NewVT, NewVec, NewIdx);
// Select the appropriate half of the element: Lo if OldIdx was even,
// Hi if it was odd.
- SDOperand Lo = Elt;
- SDOperand Hi = DAG.getNode(ISD::SRL, NewVT, Elt,
+ SDValue Lo = Elt;
+ SDValue Hi = DAG.getNode(ISD::SRL, NewVT, Elt,
DAG.getConstant(OldVT.getSizeInBits(),
TLI.getShiftAmountTy()));
if (TLI.isBigEndian())
std::swap(Lo, Hi);
- SDOperand Odd = DAG.getNode(ISD::AND, OldIdx.getValueType(), OldIdx,
- DAG.getConstant(1, TLI.getShiftAmountTy()));
+ SDValue Odd = DAG.getNode(ISD::TRUNCATE, MVT::i1, OldIdx);
return DAG.getNode(ISD::SELECT, NewVT, Odd, Hi, Lo);
}
-SDOperand DAGTypeLegalizer::PromoteIntRes_FP_TO_XINT(SDNode *N) {
- unsigned NewOpc = N->getOpcode();
+SDValue DAGTypeLegalizer::PromoteIntRes_FP_TO_XINT(SDNode *N) {
MVT NVT = TLI.getTypeToTransformTo(N->getValueType(0));
+ unsigned NewOpc = N->getOpcode();
// If we're promoting a UINT to a larger size, check to see if the new node
// will be legal. If it isn't, check to see if FP_TO_SINT is legal, since
// we can use that instead. This allows us to generate better code for
// FP_TO_UINT for small destination sizes on targets where FP_TO_UINT is not
// legal, such as PowerPC.
- if (N->getOpcode() == ISD::FP_TO_UINT) {
- if (!TLI.isOperationLegal(ISD::FP_TO_UINT, NVT) &&
- (TLI.isOperationLegal(ISD::FP_TO_SINT, NVT) ||
- TLI.getOperationAction(ISD::FP_TO_SINT, NVT)==TargetLowering::Custom))
- NewOpc = ISD::FP_TO_SINT;
- }
+ if (N->getOpcode() == ISD::FP_TO_UINT &&
+ !TLI.isOperationLegal(ISD::FP_TO_UINT, NVT) &&
+ TLI.isOperationLegal(ISD::FP_TO_SINT, NVT))
+ NewOpc = ISD::FP_TO_SINT;
- return DAG.getNode(NewOpc, NVT, N->getOperand(0));
+ SDValue Res = DAG.getNode(NewOpc, NVT, N->getOperand(0));
+
+ // Assert that the converted value fits in the original type. If it doesn't
+ // (eg: because the value being converted is too big), then the result of the
+ // original operation was undefined anyway, so the assert is still correct.
+ return DAG.getNode(N->getOpcode() == ISD::FP_TO_UINT ?
+ ISD::AssertZext : ISD::AssertSext,
+ NVT, Res, DAG.getValueType(N->getValueType(0)));
}
-SDOperand DAGTypeLegalizer::PromoteIntRes_INT_EXTEND(SDNode *N) {
+SDValue DAGTypeLegalizer::PromoteIntRes_INT_EXTEND(SDNode *N) {
MVT NVT = TLI.getTypeToTransformTo(N->getValueType(0));
if (getTypeAction(N->getOperand(0).getValueType()) == PromoteInteger) {
- SDOperand Res = GetPromotedInteger(N->getOperand(0));
+ SDValue Res = GetPromotedInteger(N->getOperand(0));
assert(Res.getValueType().getSizeInBits() <= NVT.getSizeInBits() &&
"Extension doesn't make sense!");
return DAG.getNode(N->getOpcode(), NVT, N->getOperand(0));
}
-SDOperand DAGTypeLegalizer::PromoteIntRes_LOAD(LoadSDNode *N) {
+SDValue DAGTypeLegalizer::PromoteIntRes_LOAD(LoadSDNode *N) {
assert(ISD::isUNINDEXEDLoad(N) && "Indexed load during type legalization!");
MVT NVT = TLI.getTypeToTransformTo(N->getValueType(0));
ISD::LoadExtType ExtType =
ISD::isNON_EXTLoad(N) ? ISD::EXTLOAD : N->getExtensionType();
- SDOperand Res = DAG.getExtLoad(ExtType, NVT, N->getChain(), N->getBasePtr(),
+ SDValue Res = DAG.getExtLoad(ExtType, NVT, N->getChain(), N->getBasePtr(),
N->getSrcValue(), N->getSrcValueOffset(),
N->getMemoryVT(), N->isVolatile(),
N->getAlignment());
// Legalized the chain result - switch anything that used the old chain to
// use the new one.
- ReplaceValueWith(SDOperand(N, 1), Res.getValue(1));
+ ReplaceValueWith(SDValue(N, 1), Res.getValue(1));
return Res;
}
-SDOperand DAGTypeLegalizer::PromoteIntRes_SDIV(SDNode *N) {
+SDValue DAGTypeLegalizer::PromoteIntRes_SDIV(SDNode *N) {
// Sign extend the input.
- SDOperand LHS = GetPromotedInteger(N->getOperand(0));
- SDOperand RHS = GetPromotedInteger(N->getOperand(1));
+ SDValue LHS = GetPromotedInteger(N->getOperand(0));
+ SDValue RHS = GetPromotedInteger(N->getOperand(1));
MVT VT = N->getValueType(0);
LHS = DAG.getNode(ISD::SIGN_EXTEND_INREG, LHS.getValueType(), LHS,
DAG.getValueType(VT));
return DAG.getNode(N->getOpcode(), LHS.getValueType(), LHS, RHS);
}
-SDOperand DAGTypeLegalizer::PromoteIntRes_SELECT(SDNode *N) {
- SDOperand LHS = GetPromotedInteger(N->getOperand(1));
- SDOperand RHS = GetPromotedInteger(N->getOperand(2));
+SDValue DAGTypeLegalizer::PromoteIntRes_SELECT(SDNode *N) {
+ SDValue LHS = GetPromotedInteger(N->getOperand(1));
+ SDValue RHS = GetPromotedInteger(N->getOperand(2));
return DAG.getNode(ISD::SELECT, LHS.getValueType(), N->getOperand(0),LHS,RHS);
}
-SDOperand DAGTypeLegalizer::PromoteIntRes_SELECT_CC(SDNode *N) {
- SDOperand LHS = GetPromotedInteger(N->getOperand(2));
- SDOperand RHS = GetPromotedInteger(N->getOperand(3));
+SDValue DAGTypeLegalizer::PromoteIntRes_SELECT_CC(SDNode *N) {
+ SDValue LHS = GetPromotedInteger(N->getOperand(2));
+ SDValue RHS = GetPromotedInteger(N->getOperand(3));
return DAG.getNode(ISD::SELECT_CC, LHS.getValueType(), N->getOperand(0),
N->getOperand(1), LHS, RHS, N->getOperand(4));
}
-SDOperand DAGTypeLegalizer::PromoteIntRes_SETCC(SDNode *N) {
- assert(isTypeLegal(TLI.getSetCCResultType(N->getOperand(0)))
- && "SetCC type is not legal??");
- return DAG.getNode(ISD::SETCC, TLI.getSetCCResultType(N->getOperand(0)),
- N->getOperand(0), N->getOperand(1), N->getOperand(2));
+SDValue DAGTypeLegalizer::PromoteIntRes_SETCC(SDNode *N) {
+ MVT SVT = TLI.getSetCCResultType(N->getOperand(0));
+ assert(isTypeLegal(SVT) && "Illegal SetCC type!");
+
+ // Get the SETCC result using the canonical SETCC type.
+ SDValue SetCC = DAG.getNode(ISD::SETCC, SVT, N->getOperand(0),
+ N->getOperand(1), N->getOperand(2));
+
+ // Convert to the expected type.
+ MVT NVT = TLI.getTypeToTransformTo(N->getValueType(0));
+ assert(NVT.getSizeInBits() <= SVT.getSizeInBits() &&
+ "Integer type overpromoted?");
+ return DAG.getNode(ISD::TRUNCATE, NVT, SetCC);
}
-SDOperand DAGTypeLegalizer::PromoteIntRes_SHL(SDNode *N) {
+SDValue DAGTypeLegalizer::PromoteIntRes_SHL(SDNode *N) {
return DAG.getNode(ISD::SHL, TLI.getTypeToTransformTo(N->getValueType(0)),
GetPromotedInteger(N->getOperand(0)), N->getOperand(1));
}
-SDOperand DAGTypeLegalizer::PromoteIntRes_SIGN_EXTEND_INREG(SDNode *N) {
- SDOperand Op = GetPromotedInteger(N->getOperand(0));
+SDValue DAGTypeLegalizer::PromoteIntRes_SIGN_EXTEND_INREG(SDNode *N) {
+ SDValue Op = GetPromotedInteger(N->getOperand(0));
return DAG.getNode(ISD::SIGN_EXTEND_INREG, Op.getValueType(), Op,
N->getOperand(1));
}
-SDOperand DAGTypeLegalizer::PromoteIntRes_SimpleIntBinOp(SDNode *N) {
+SDValue DAGTypeLegalizer::PromoteIntRes_SimpleIntBinOp(SDNode *N) {
// The input may have strange things in the top bits of the registers, but
// these operations don't care. They may have weird bits going out, but
// that too is okay if they are integer operations.
- SDOperand LHS = GetPromotedInteger(N->getOperand(0));
- SDOperand RHS = GetPromotedInteger(N->getOperand(1));
+ SDValue LHS = GetPromotedInteger(N->getOperand(0));
+ SDValue RHS = GetPromotedInteger(N->getOperand(1));
return DAG.getNode(N->getOpcode(), LHS.getValueType(), LHS, RHS);
}
-SDOperand DAGTypeLegalizer::PromoteIntRes_SRA(SDNode *N) {
+SDValue DAGTypeLegalizer::PromoteIntRes_SRA(SDNode *N) {
// The input value must be properly sign extended.
MVT VT = N->getValueType(0);
MVT NVT = TLI.getTypeToTransformTo(VT);
- SDOperand Res = GetPromotedInteger(N->getOperand(0));
+ SDValue Res = GetPromotedInteger(N->getOperand(0));
Res = DAG.getNode(ISD::SIGN_EXTEND_INREG, NVT, Res, DAG.getValueType(VT));
return DAG.getNode(ISD::SRA, NVT, Res, N->getOperand(1));
}
-SDOperand DAGTypeLegalizer::PromoteIntRes_SRL(SDNode *N) {
+SDValue DAGTypeLegalizer::PromoteIntRes_SRL(SDNode *N) {
// The input value must be properly zero extended.
MVT VT = N->getValueType(0);
MVT NVT = TLI.getTypeToTransformTo(VT);
- SDOperand Res = ZExtPromotedInteger(N->getOperand(0));
+ SDValue Res = ZExtPromotedInteger(N->getOperand(0));
return DAG.getNode(ISD::SRL, NVT, Res, N->getOperand(1));
}
-SDOperand DAGTypeLegalizer::PromoteIntRes_TRUNCATE(SDNode *N) {
- SDOperand Res;
+SDValue DAGTypeLegalizer::PromoteIntRes_TRUNCATE(SDNode *N) {
+ SDValue Res;
switch (getTypeAction(N->getOperand(0).getValueType())) {
default: assert(0 && "Unknown type action!");
return DAG.getNode(ISD::TRUNCATE, NVT, Res);
}
-SDOperand DAGTypeLegalizer::PromoteIntRes_UDIV(SDNode *N) {
+SDValue DAGTypeLegalizer::PromoteIntRes_UDIV(SDNode *N) {
// Zero extend the input.
- SDOperand LHS = GetPromotedInteger(N->getOperand(0));
- SDOperand RHS = GetPromotedInteger(N->getOperand(1));
+ SDValue LHS = GetPromotedInteger(N->getOperand(0));
+ SDValue RHS = GetPromotedInteger(N->getOperand(1));
MVT VT = N->getValueType(0);
LHS = DAG.getZeroExtendInReg(LHS, VT);
RHS = DAG.getZeroExtendInReg(RHS, VT);
return DAG.getNode(N->getOpcode(), LHS.getValueType(), LHS, RHS);
}
-SDOperand DAGTypeLegalizer::PromoteIntRes_UNDEF(SDNode *N) {
+SDValue DAGTypeLegalizer::PromoteIntRes_UNDEF(SDNode *N) {
return DAG.getNode(ISD::UNDEF, TLI.getTypeToTransformTo(N->getValueType(0)));
}
-SDOperand DAGTypeLegalizer::PromoteIntRes_VAARG(SDNode *N) {
- SDOperand Chain = N->getOperand(0); // Get the chain.
- SDOperand Ptr = N->getOperand(1); // Get the pointer.
+SDValue DAGTypeLegalizer::PromoteIntRes_VAARG(SDNode *N) {
+ SDValue Chain = N->getOperand(0); // Get the chain.
+ SDValue Ptr = N->getOperand(1); // Get the pointer.
MVT VT = N->getValueType(0);
- const Value *V = cast<SrcValueSDNode>(N->getOperand(2))->getValue();
- SDOperand VAList = DAG.getLoad(TLI.getPointerTy(), Chain, Ptr, V, 0);
+ MVT RegVT = TLI.getRegisterType(VT);
+ unsigned NumRegs = TLI.getNumRegisters(VT);
+ // The argument is passed as NumRegs registers of type RegVT.
- // Increment the arg pointer, VAList, to the next vaarg
- // FIXME: should the ABI size be used for the increment? Think of
- // x86 long double (10 bytes long, but aligned on 4 or 8 bytes) or
- // integers of unusual size (such MVT::i1, which gives an increment
- // of zero here!).
- unsigned Increment = VT.getSizeInBits() / 8;
- SDOperand Tmp = DAG.getNode(ISD::ADD, TLI.getPointerTy(), VAList,
- DAG.getConstant(Increment, TLI.getPointerTy()));
+ SmallVector<SDValue, 8> Parts(NumRegs);
+ for (unsigned i = 0; i < NumRegs; ++i) {
+ Parts[i] = DAG.getVAArg(RegVT, Chain, Ptr, N->getOperand(2));
+ Chain = Parts[i].getValue(1);
+ }
- // Store the incremented VAList to the pointer.
- Tmp = DAG.getStore(VAList.getValue(1), Tmp, Ptr, V, 0);
+ // Handle endianness of the load.
+ if (TLI.isBigEndian())
+ std::reverse(Parts.begin(), Parts.end());
- // Load the actual argument out of the arg pointer VAList.
- Tmp = DAG.getExtLoad(ISD::EXTLOAD, TLI.getTypeToTransformTo(VT), Tmp,
- VAList, NULL, 0, VT);
+ // Assemble the parts in the promoted type.
+ MVT NVT = TLI.getTypeToTransformTo(N->getValueType(0));
+ SDValue Res = DAG.getNode(ISD::ZERO_EXTEND, NVT, Parts[0]);
+ for (unsigned i = 1; i < NumRegs; ++i) {
+ SDValue Part = DAG.getNode(ISD::ZERO_EXTEND, NVT, Parts[i]);
+ // Shift it to the right position and "or" it in.
+ Part = DAG.getNode(ISD::SHL, NVT, Part,
+ DAG.getConstant(i * RegVT.getSizeInBits(),
+ TLI.getShiftAmountTy()));
+ Res = DAG.getNode(ISD::OR, NVT, Res, Part);
+ }
- // Legalized the chain result - switch anything that used the old chain to
+ // Modified the chain result - switch anything that used the old chain to
// use the new one.
- ReplaceValueWith(SDOperand(N, 1), Tmp.getValue(1));
- return Tmp;
+ ReplaceValueWith(SDValue(N, 1), Chain);
+
+ return Res;
}
/// node may need promotion or expansion as well as the specified one.
bool DAGTypeLegalizer::PromoteIntegerOperand(SDNode *N, unsigned OpNo) {
DEBUG(cerr << "Promote integer operand: "; N->dump(&DAG); cerr << "\n");
- SDOperand Res = SDOperand();
+ SDValue Res = SDValue();
if (TLI.getOperationAction(N->getOpcode(), N->getOperand(OpNo).getValueType())
== TargetLowering::Custom)
- Res = TLI.LowerOperation(SDOperand(N, OpNo), DAG);
+ Res = TLI.LowerOperation(SDValue(N, 0), DAG);
- if (Res.Val == 0) {
+ if (Res.getNode() == 0) {
switch (N->getOpcode()) {
default:
#ifndef NDEBUG
}
// If the result is null, the sub-method took care of registering results etc.
- if (!Res.Val) return false;
+ if (!Res.getNode()) return false;
// If the result is N, the sub-method updated N in place.
- if (Res.Val == N) {
+ if (Res.getNode() == N) {
// Mark N as new and remark N and its operands. This allows us to correctly
// revisit N if it needs another step of promotion and allows us to visit
// any new operands to N.
assert(Res.getValueType() == N->getValueType(0) && N->getNumValues() == 1 &&
"Invalid operand expansion");
- ReplaceValueWith(SDOperand(N, 0), Res);
+ ReplaceValueWith(SDValue(N, 0), Res);
return false;
}
/// PromoteSetCCOperands - Promote the operands of a comparison. This code is
/// shared among BR_CC, SELECT_CC, and SETCC handlers.
-void DAGTypeLegalizer::PromoteSetCCOperands(SDOperand &NewLHS,SDOperand &NewRHS,
+void DAGTypeLegalizer::PromoteSetCCOperands(SDValue &NewLHS,SDValue &NewRHS,
ISD::CondCode CCCode) {
MVT VT = NewLHS.getValueType();
}
}
-SDOperand DAGTypeLegalizer::PromoteIntOp_ANY_EXTEND(SDNode *N) {
- SDOperand Op = GetPromotedInteger(N->getOperand(0));
+SDValue DAGTypeLegalizer::PromoteIntOp_ANY_EXTEND(SDNode *N) {
+ SDValue Op = GetPromotedInteger(N->getOperand(0));
return DAG.getNode(ISD::ANY_EXTEND, N->getValueType(0), Op);
}
-SDOperand DAGTypeLegalizer::PromoteIntOp_BR_CC(SDNode *N, unsigned OpNo) {
+SDValue DAGTypeLegalizer::PromoteIntOp_BR_CC(SDNode *N, unsigned OpNo) {
assert(OpNo == 2 && "Don't know how to promote this operand!");
- SDOperand LHS = N->getOperand(2);
- SDOperand RHS = N->getOperand(3);
+ SDValue LHS = N->getOperand(2);
+ SDValue RHS = N->getOperand(3);
PromoteSetCCOperands(LHS, RHS, cast<CondCodeSDNode>(N->getOperand(1))->get());
// The chain (Op#0), CC (#1) and basic block destination (Op#4) are always
// legal types.
- return DAG.UpdateNodeOperands(SDOperand(N, 0), N->getOperand(0),
+ return DAG.UpdateNodeOperands(SDValue(N, 0), N->getOperand(0),
N->getOperand(1), LHS, RHS, N->getOperand(4));
}
-SDOperand DAGTypeLegalizer::PromoteIntOp_BRCOND(SDNode *N, unsigned OpNo) {
+SDValue DAGTypeLegalizer::PromoteIntOp_BRCOND(SDNode *N, unsigned OpNo) {
assert(OpNo == 1 && "only know how to promote condition");
- SDOperand Cond = GetPromotedInteger(N->getOperand(1)); // Promote condition.
+ SDValue Cond = GetPromotedInteger(N->getOperand(1)); // Promote condition.
- // The top bits of the promoted condition are not necessarily zero, ensure
- // that the value is properly zero extended.
- unsigned BitWidth = Cond.getValueSizeInBits();
- if (!DAG.MaskedValueIsZero(Cond,
- APInt::getHighBitsSet(BitWidth, BitWidth-1)))
- Cond = DAG.getZeroExtendInReg(Cond, MVT::i1);
+ // Make sure the extra bits coming from type promotion conform to
+ // getSetCCResultContents.
+ unsigned CondBits = Cond.getValueSizeInBits();
+ switch (TLI.getSetCCResultContents()) {
+ default:
+ assert(false && "Unknown SetCCResultValue!");
+ case TargetLowering::UndefinedSetCCResult:
+ // The promoted value, which may contain rubbish in the upper bits, is fine.
+ break;
+ case TargetLowering::ZeroOrOneSetCCResult:
+ if (!DAG.MaskedValueIsZero(Cond,APInt::getHighBitsSet(CondBits,CondBits-1)))
+ Cond = DAG.getZeroExtendInReg(Cond, MVT::i1);
+ break;
+ case TargetLowering::ZeroOrNegativeOneSetCCResult:
+ if (DAG.ComputeNumSignBits(Cond) != CondBits)
+ Cond = DAG.getNode(ISD::SIGN_EXTEND_INREG, Cond.getValueType(), Cond,
+ DAG.getValueType(MVT::i1));
+ break;
+ }
// The chain (Op#0) and basic block destination (Op#2) are always legal types.
- return DAG.UpdateNodeOperands(SDOperand(N, 0), N->getOperand(0), Cond,
+ return DAG.UpdateNodeOperands(SDValue(N, 0), N->getOperand(0), Cond,
N->getOperand(2));
}
-SDOperand DAGTypeLegalizer::PromoteIntOp_BUILD_PAIR(SDNode *N) {
+SDValue DAGTypeLegalizer::PromoteIntOp_BUILD_PAIR(SDNode *N) {
// Since the result type is legal, the operands must promote to it.
MVT OVT = N->getOperand(0).getValueType();
- SDOperand Lo = GetPromotedInteger(N->getOperand(0));
- SDOperand Hi = GetPromotedInteger(N->getOperand(1));
+ SDValue Lo = GetPromotedInteger(N->getOperand(0));
+ SDValue Hi = GetPromotedInteger(N->getOperand(1));
assert(Lo.getValueType() == N->getValueType(0) && "Operand over promoted?");
Lo = DAG.getZeroExtendInReg(Lo, OVT);
return DAG.getNode(ISD::OR, N->getValueType(0), Lo, Hi);
}
-SDOperand DAGTypeLegalizer::PromoteIntOp_BUILD_VECTOR(SDNode *N) {
+SDValue DAGTypeLegalizer::PromoteIntOp_BUILD_VECTOR(SDNode *N) {
// The vector type is legal but the element type is not. This implies
// that the vector is a power-of-two in length and that the element
// type does not have a strange size (eg: it is not i1).
MVT NewVT = MVT::getIntegerVT(2 * OldVT.getSizeInBits());
assert(OldVT.isSimple() && NewVT.isSimple());
- std::vector<SDOperand> NewElts;
+ std::vector<SDValue> NewElts;
NewElts.reserve(NumElts/2);
for (unsigned i = 0; i < NumElts; i += 2) {
// Combine two successive elements into one promoted element.
- SDOperand Lo = N->getOperand(i);
- SDOperand Hi = N->getOperand(i+1);
+ SDValue Lo = N->getOperand(i);
+ SDValue Hi = N->getOperand(i+1);
if (TLI.isBigEndian())
std::swap(Lo, Hi);
NewElts.push_back(JoinIntegers(Lo, Hi));
}
- SDOperand NewVec = DAG.getNode(ISD::BUILD_VECTOR,
+ SDValue NewVec = DAG.getNode(ISD::BUILD_VECTOR,
MVT::getVectorVT(NewVT, NewElts.size()),
&NewElts[0], NewElts.size());
return DAG.getNode(ISD::BIT_CONVERT, VecVT, NewVec);
}
-SDOperand DAGTypeLegalizer::PromoteIntOp_FP_EXTEND(SDNode *N) {
- SDOperand Op = GetPromotedInteger(N->getOperand(0));
+SDValue DAGTypeLegalizer::PromoteIntOp_FP_EXTEND(SDNode *N) {
+ SDValue Op = GetPromotedInteger(N->getOperand(0));
return DAG.getNode(ISD::FP_EXTEND, N->getValueType(0), Op);
}
-SDOperand DAGTypeLegalizer::PromoteIntOp_FP_ROUND(SDNode *N) {
- SDOperand Op = GetPromotedInteger(N->getOperand(0));
+SDValue DAGTypeLegalizer::PromoteIntOp_FP_ROUND(SDNode *N) {
+ SDValue Op = GetPromotedInteger(N->getOperand(0));
return DAG.getNode(ISD::FP_ROUND, N->getValueType(0), Op,
DAG.getIntPtrConstant(0));
}
-SDOperand DAGTypeLegalizer::PromoteIntOp_INSERT_VECTOR_ELT(SDNode *N,
- unsigned OpNo) {
+SDValue DAGTypeLegalizer::PromoteIntOp_INSERT_VECTOR_ELT(SDNode *N,
+ unsigned OpNo) {
if (OpNo == 1) {
// Promote the inserted value. This is valid because the type does not
// have to match the vector element type.
assert(N->getOperand(1).getValueType().getSizeInBits() >=
N->getValueType(0).getVectorElementType().getSizeInBits() &&
"Type of inserted value narrower than vector element type!");
- return DAG.UpdateNodeOperands(SDOperand(N, 0), N->getOperand(0),
+ return DAG.UpdateNodeOperands(SDValue(N, 0), N->getOperand(0),
GetPromotedInteger(N->getOperand(1)),
N->getOperand(2));
}
assert(OpNo == 2 && "Different operand and result vector types?");
// Promote the index.
- SDOperand Idx = N->getOperand(2);
+ SDValue Idx = N->getOperand(2);
Idx = DAG.getZeroExtendInReg(GetPromotedInteger(Idx), Idx.getValueType());
- return DAG.UpdateNodeOperands(SDOperand(N, 0), N->getOperand(0),
+ return DAG.UpdateNodeOperands(SDValue(N, 0), N->getOperand(0),
N->getOperand(1), Idx);
}
-SDOperand DAGTypeLegalizer::PromoteIntOp_INT_TO_FP(SDNode *N) {
- SDOperand In = GetPromotedInteger(N->getOperand(0));
+SDValue DAGTypeLegalizer::PromoteIntOp_INT_TO_FP(SDNode *N) {
+ SDValue In = GetPromotedInteger(N->getOperand(0));
MVT OpVT = N->getOperand(0).getValueType();
if (N->getOpcode() == ISD::UINT_TO_FP)
In = DAG.getZeroExtendInReg(In, OpVT);
In = DAG.getNode(ISD::SIGN_EXTEND_INREG, In.getValueType(),
In, DAG.getValueType(OpVT));
- return DAG.UpdateNodeOperands(SDOperand(N, 0), In);
+ return DAG.UpdateNodeOperands(SDValue(N, 0), In);
}
-SDOperand DAGTypeLegalizer::PromoteIntOp_MEMBARRIER(SDNode *N) {
- SDOperand NewOps[6];
+SDValue DAGTypeLegalizer::PromoteIntOp_MEMBARRIER(SDNode *N) {
+ SDValue NewOps[6];
NewOps[0] = N->getOperand(0);
for (unsigned i = 1; i < array_lengthof(NewOps); ++i) {
- SDOperand Flag = GetPromotedInteger(N->getOperand(i));
+ SDValue Flag = GetPromotedInteger(N->getOperand(i));
NewOps[i] = DAG.getZeroExtendInReg(Flag, MVT::i1);
}
- return DAG.UpdateNodeOperands(SDOperand (N, 0), NewOps,
+ return DAG.UpdateNodeOperands(SDValue (N, 0), NewOps,
array_lengthof(NewOps));
}
-SDOperand DAGTypeLegalizer::PromoteIntOp_SELECT(SDNode *N, unsigned OpNo) {
+SDValue DAGTypeLegalizer::PromoteIntOp_SELECT(SDNode *N, unsigned OpNo) {
assert(OpNo == 0 && "Only know how to promote condition");
- SDOperand Cond = GetPromotedInteger(N->getOperand(0)); // Promote condition.
-
- // The top bits of the promoted condition are not necessarily zero, ensure
- // that the value is properly zero extended.
- unsigned BitWidth = Cond.getValueSizeInBits();
- if (!DAG.MaskedValueIsZero(Cond,
- APInt::getHighBitsSet(BitWidth, BitWidth-1)))
- Cond = DAG.getZeroExtendInReg(Cond, MVT::i1);
+ SDValue Cond = GetPromotedInteger(N->getOperand(0));
+
+ // Promote all the way up to SVT, the canonical SetCC type.
+ // FIXME: Not clear what value to pass to getSetCCResultType.
+ // [This only matters for CellSPU since all other targets
+ // ignore the argument.] We used to pass Cond, resulting in
+ // SVT = MVT::i8, but CellSPU has no select patterns for i8,
+ // causing an abort later. Passing the result type works
+ // around the problem.
+ MVT SVT = TLI.getSetCCResultType(N->getOperand(1));
+ assert(isTypeLegal(SVT) && "Illegal SetCC type!");
+ assert(Cond.getValueSizeInBits() <= SVT.getSizeInBits() &&
+ "Unexpected SetCC type!");
+
+ // Make sure the extra bits conform to getSetCCResultContents. There are
+ // two sets of extra bits: those in Cond, which come from type promotion,
+ // and those we need to add to have the final type be SVT (for most targets
+ // this last set of bits is empty).
+ unsigned CondBits = Cond.getValueSizeInBits();
+ ISD::NodeType ExtendCode;
+ switch (TLI.getSetCCResultContents()) {
+ default:
+ assert(false && "Unknown SetCCResultValue!");
+ case TargetLowering::UndefinedSetCCResult:
+ // Extend to SVT by adding rubbish.
+ ExtendCode = ISD::ANY_EXTEND;
+ break;
+ case TargetLowering::ZeroOrOneSetCCResult:
+ ExtendCode = ISD::ZERO_EXTEND;
+ if (!DAG.MaskedValueIsZero(Cond,APInt::getHighBitsSet(CondBits,CondBits-1)))
+ // All extra bits need to be cleared. Do this by zero extending the
+ // original condition value all the way to SVT.
+ Cond = N->getOperand(0);
+ break;
+ case TargetLowering::ZeroOrNegativeOneSetCCResult: {
+ ExtendCode = ISD::SIGN_EXTEND;
+ unsigned SignBits = DAG.ComputeNumSignBits(Cond);
+ if (SignBits != CondBits)
+ // All extra bits need to be sign extended. Do this by sign extending the
+ // original condition value all the way to SVT.
+ Cond = N->getOperand(0);
+ break;
+ }
+ }
+ Cond = DAG.getNode(ExtendCode, SVT, Cond);
- // The chain (Op#0) and basic block destination (Op#2) are always legal types.
- return DAG.UpdateNodeOperands(SDOperand(N, 0), Cond, N->getOperand(1),
- N->getOperand(2));
+ return DAG.UpdateNodeOperands(SDValue(N, 0), Cond,
+ N->getOperand(1), N->getOperand(2));
}
-SDOperand DAGTypeLegalizer::PromoteIntOp_SELECT_CC(SDNode *N, unsigned OpNo) {
+SDValue DAGTypeLegalizer::PromoteIntOp_SELECT_CC(SDNode *N, unsigned OpNo) {
assert(OpNo == 0 && "Don't know how to promote this operand!");
- SDOperand LHS = N->getOperand(0);
- SDOperand RHS = N->getOperand(1);
+ SDValue LHS = N->getOperand(0);
+ SDValue RHS = N->getOperand(1);
PromoteSetCCOperands(LHS, RHS, cast<CondCodeSDNode>(N->getOperand(4))->get());
// The CC (#4) and the possible return values (#2 and #3) have legal types.
- return DAG.UpdateNodeOperands(SDOperand(N, 0), LHS, RHS, N->getOperand(2),
+ return DAG.UpdateNodeOperands(SDValue(N, 0), LHS, RHS, N->getOperand(2),
N->getOperand(3), N->getOperand(4));
}
-SDOperand DAGTypeLegalizer::PromoteIntOp_SETCC(SDNode *N, unsigned OpNo) {
+SDValue DAGTypeLegalizer::PromoteIntOp_SETCC(SDNode *N, unsigned OpNo) {
assert(OpNo == 0 && "Don't know how to promote this operand!");
- SDOperand LHS = N->getOperand(0);
- SDOperand RHS = N->getOperand(1);
+ SDValue LHS = N->getOperand(0);
+ SDValue RHS = N->getOperand(1);
PromoteSetCCOperands(LHS, RHS, cast<CondCodeSDNode>(N->getOperand(2))->get());
// The CC (#2) is always legal.
- return DAG.UpdateNodeOperands(SDOperand(N, 0), LHS, RHS, N->getOperand(2));
+ return DAG.UpdateNodeOperands(SDValue(N, 0), LHS, RHS, N->getOperand(2));
}
-SDOperand DAGTypeLegalizer::PromoteIntOp_SIGN_EXTEND(SDNode *N) {
- SDOperand Op = GetPromotedInteger(N->getOperand(0));
+SDValue DAGTypeLegalizer::PromoteIntOp_SIGN_EXTEND(SDNode *N) {
+ SDValue Op = GetPromotedInteger(N->getOperand(0));
Op = DAG.getNode(ISD::ANY_EXTEND, N->getValueType(0), Op);
return DAG.getNode(ISD::SIGN_EXTEND_INREG, Op.getValueType(),
Op, DAG.getValueType(N->getOperand(0).getValueType()));
}
-SDOperand DAGTypeLegalizer::PromoteIntOp_STORE(StoreSDNode *N, unsigned OpNo){
+SDValue DAGTypeLegalizer::PromoteIntOp_STORE(StoreSDNode *N, unsigned OpNo){
assert(ISD::isUNINDEXEDStore(N) && "Indexed store during type legalization!");
- SDOperand Ch = N->getChain(), Ptr = N->getBasePtr();
+ SDValue Ch = N->getChain(), Ptr = N->getBasePtr();
int SVOffset = N->getSrcValueOffset();
unsigned Alignment = N->getAlignment();
bool isVolatile = N->isVolatile();
- SDOperand Val = GetPromotedInteger(N->getValue()); // Get promoted value.
+ SDValue Val = GetPromotedInteger(N->getValue()); // Get promoted value.
assert(!N->isTruncatingStore() && "Cannot promote this store operand!");
isVolatile, Alignment);
}
-SDOperand DAGTypeLegalizer::PromoteIntOp_TRUNCATE(SDNode *N) {
- SDOperand Op = GetPromotedInteger(N->getOperand(0));
+SDValue DAGTypeLegalizer::PromoteIntOp_TRUNCATE(SDNode *N) {
+ SDValue Op = GetPromotedInteger(N->getOperand(0));
return DAG.getNode(ISD::TRUNCATE, N->getValueType(0), Op);
}
-SDOperand DAGTypeLegalizer::PromoteIntOp_ZERO_EXTEND(SDNode *N) {
- SDOperand Op = GetPromotedInteger(N->getOperand(0));
+SDValue DAGTypeLegalizer::PromoteIntOp_ZERO_EXTEND(SDNode *N) {
+ SDValue Op = GetPromotedInteger(N->getOperand(0));
Op = DAG.getNode(ISD::ANY_EXTEND, N->getValueType(0), Op);
return DAG.getZeroExtendInReg(Op, N->getOperand(0).getValueType());
}
/// know that (at least) one result needs expansion.
void DAGTypeLegalizer::ExpandIntegerResult(SDNode *N, unsigned ResNo) {
DEBUG(cerr << "Expand integer result: "; N->dump(&DAG); cerr << "\n");
- SDOperand Lo, Hi;
- Lo = Hi = SDOperand();
+ SDValue Lo, Hi;
+ Lo = Hi = SDValue();
// See if the target wants to custom expand this node.
if (TLI.getOperationAction(N->getOpcode(), N->getValueType(ResNo)) ==
case ISD::BUILD_PAIR: ExpandRes_BUILD_PAIR(N, Lo, Hi); break;
case ISD::EXTRACT_ELEMENT: ExpandRes_EXTRACT_ELEMENT(N, Lo, Hi); break;
case ISD::EXTRACT_VECTOR_ELT: ExpandRes_EXTRACT_VECTOR_ELT(N, Lo, Hi); break;
+ case ISD::VAARG: ExpandRes_VAARG(N, Lo, Hi); break;
case ISD::ANY_EXTEND: ExpandIntRes_ANY_EXTEND(N, Lo, Hi); break;
case ISD::AssertSext: ExpandIntRes_AssertSext(N, Lo, Hi); break;
}
// If Lo/Hi is null, the sub-method took care of registering results etc.
- if (Lo.Val)
- SetExpandedInteger(SDOperand(N, ResNo), Lo, Hi);
+ if (Lo.getNode())
+ SetExpandedInteger(SDValue(N, ResNo), Lo, Hi);
}
/// ExpandShiftByConstant - N is a shift by a value that needs to be expanded,
/// and the shift amount is a constant 'Amt'. Expand the operation.
void DAGTypeLegalizer::ExpandShiftByConstant(SDNode *N, unsigned Amt,
- SDOperand &Lo, SDOperand &Hi) {
+ SDValue &Lo, SDValue &Hi) {
// Expand the incoming operand to be shifted, so that we have its parts
- SDOperand InL, InH;
+ SDValue InL, InH;
GetExpandedInteger(N->getOperand(0), InL, InH);
MVT NVT = InL.getValueType();
} else if (Amt == 1) {
// Emit this X << 1 as X+X.
SDVTList VTList = DAG.getVTList(NVT, MVT::Flag);
- SDOperand LoOps[2] = { InL, InL };
+ SDValue LoOps[2] = { InL, InL };
Lo = DAG.getNode(ISD::ADDC, VTList, LoOps, 2);
- SDOperand HiOps[3] = { InH, InH, Lo.getValue(1) };
+ SDValue HiOps[3] = { InH, InH, Lo.getValue(1) };
Hi = DAG.getNode(ISD::ADDE, VTList, HiOps, 3);
} else {
Lo = DAG.getNode(ISD::SHL, NVT, InL, DAG.getConstant(Amt, ShTy));
/// can tell this, we know that it is >= 32 or < 32, without knowing the actual
/// shift amount.
bool DAGTypeLegalizer::
-ExpandShiftWithKnownAmountBit(SDNode *N, SDOperand &Lo, SDOperand &Hi) {
- SDOperand Amt = N->getOperand(1);
+ExpandShiftWithKnownAmountBit(SDNode *N, SDValue &Lo, SDValue &Hi) {
+ SDValue Amt = N->getOperand(1);
MVT NVT = TLI.getTypeToTransformTo(N->getValueType(0));
MVT ShTy = Amt.getValueType();
unsigned ShBits = ShTy.getSizeInBits();
return false;
// Get the incoming operand to be shifted.
- SDOperand InL, InH;
+ SDValue InL, InH;
GetExpandedInteger(N->getOperand(0), InL, InH);
// If we know that any of the high bits of the shift amount are one, then we
// can do this as a couple of simple shifts.
if ((KnownZero & HighBitMask) == HighBitMask) {
// Compute 32-amt.
- SDOperand Amt2 = DAG.getNode(ISD::SUB, ShTy,
+ SDValue Amt2 = DAG.getNode(ISD::SUB, ShTy,
DAG.getConstant(NVTBits, ShTy),
Amt);
unsigned Op1, Op2;
}
void DAGTypeLegalizer::ExpandIntRes_ADDSUB(SDNode *N,
- SDOperand &Lo, SDOperand &Hi) {
+ SDValue &Lo, SDValue &Hi) {
// Expand the subcomponents.
- SDOperand LHSL, LHSH, RHSL, RHSH;
+ SDValue LHSL, LHSH, RHSL, RHSH;
GetExpandedInteger(N->getOperand(0), LHSL, LHSH);
GetExpandedInteger(N->getOperand(1), RHSL, RHSH);
- SDVTList VTList = DAG.getVTList(LHSL.getValueType(), MVT::Flag);
- SDOperand LoOps[2] = { LHSL, RHSL };
- SDOperand HiOps[3] = { LHSH, RHSH };
- if (N->getOpcode() == ISD::ADD) {
- Lo = DAG.getNode(ISD::ADDC, VTList, LoOps, 2);
- HiOps[2] = Lo.getValue(1);
- Hi = DAG.getNode(ISD::ADDE, VTList, HiOps, 3);
+ MVT NVT = LHSL.getValueType();
+ SDVTList VTList = DAG.getVTList(NVT, MVT::Flag);
+ SDValue LoOps[2] = { LHSL, RHSL };
+ SDValue HiOps[3] = { LHSH, RHSH };
+
+ // Do not generate ADDC/ADDE or SUBC/SUBE if the target does not support
+ // them. TODO: Teach operation legalization how to expand unsupported
+ // ADDC/ADDE/SUBC/SUBE. The problem is that these operations generate
+ // a carry of type MVT::Flag, but there doesn't seem to be any way to
+ // generate a value of this type in the expanded code sequence.
+ bool hasCarry =
+ TLI.isOperationLegal(N->getOpcode() == ISD::ADD ? ISD::ADDC : ISD::SUBC,
+ TLI.getTypeToExpandTo(NVT));
+
+ if (hasCarry) {
+ if (N->getOpcode() == ISD::ADD) {
+ Lo = DAG.getNode(ISD::ADDC, VTList, LoOps, 2);
+ HiOps[2] = Lo.getValue(1);
+ Hi = DAG.getNode(ISD::ADDE, VTList, HiOps, 3);
+ } else {
+ Lo = DAG.getNode(ISD::SUBC, VTList, LoOps, 2);
+ HiOps[2] = Lo.getValue(1);
+ Hi = DAG.getNode(ISD::SUBE, VTList, HiOps, 3);
+ }
} else {
- Lo = DAG.getNode(ISD::SUBC, VTList, LoOps, 2);
- HiOps[2] = Lo.getValue(1);
- Hi = DAG.getNode(ISD::SUBE, VTList, HiOps, 3);
+ if (N->getOpcode() == ISD::ADD) {
+ Lo = DAG.getNode(ISD::ADD, VTList, LoOps, 2);
+ Hi = DAG.getNode(ISD::ADD, VTList, HiOps, 2);
+ SDValue Cmp1 = DAG.getSetCC(TLI.getSetCCResultType(Lo), Lo, LoOps[0],
+ ISD::SETULT);
+ SDValue Carry1 = DAG.getNode(ISD::SELECT, NVT, Cmp1,
+ DAG.getConstant(1, NVT),
+ DAG.getConstant(0, NVT));
+ SDValue Cmp2 = DAG.getSetCC(TLI.getSetCCResultType(Lo), Lo, LoOps[1],
+ ISD::SETULT);
+ SDValue Carry2 = DAG.getNode(ISD::SELECT, NVT, Cmp2,
+ DAG.getConstant(1, NVT), Carry1);
+ Hi = DAG.getNode(ISD::ADD, NVT, Hi, Carry2);
+ } else {
+ Lo = DAG.getNode(ISD::SUB, VTList, LoOps, 2);
+ Hi = DAG.getNode(ISD::SUB, VTList, HiOps, 2);
+ SDValue Cmp = DAG.getSetCC(NVT, LoOps[0], LoOps[1], ISD::SETULT);
+ SDValue Borrow = DAG.getNode(ISD::SELECT, NVT, Cmp,
+ DAG.getConstant(1, NVT),
+ DAG.getConstant(0, NVT));
+ Hi = DAG.getNode(ISD::SUB, NVT, Hi, Borrow);
+ }
}
}
void DAGTypeLegalizer::ExpandIntRes_ADDSUBC(SDNode *N,
- SDOperand &Lo, SDOperand &Hi) {
+ SDValue &Lo, SDValue &Hi) {
// Expand the subcomponents.
- SDOperand LHSL, LHSH, RHSL, RHSH;
+ SDValue LHSL, LHSH, RHSL, RHSH;
GetExpandedInteger(N->getOperand(0), LHSL, LHSH);
GetExpandedInteger(N->getOperand(1), RHSL, RHSH);
SDVTList VTList = DAG.getVTList(LHSL.getValueType(), MVT::Flag);
- SDOperand LoOps[2] = { LHSL, RHSL };
- SDOperand HiOps[3] = { LHSH, RHSH };
+ SDValue LoOps[2] = { LHSL, RHSL };
+ SDValue HiOps[3] = { LHSH, RHSH };
if (N->getOpcode() == ISD::ADDC) {
Lo = DAG.getNode(ISD::ADDC, VTList, LoOps, 2);
// Legalized the flag result - switch anything that used the old flag to
// use the new one.
- ReplaceValueWith(SDOperand(N, 1), Hi.getValue(1));
+ ReplaceValueWith(SDValue(N, 1), Hi.getValue(1));
}
void DAGTypeLegalizer::ExpandIntRes_ADDSUBE(SDNode *N,
- SDOperand &Lo, SDOperand &Hi) {
+ SDValue &Lo, SDValue &Hi) {
// Expand the subcomponents.
- SDOperand LHSL, LHSH, RHSL, RHSH;
+ SDValue LHSL, LHSH, RHSL, RHSH;
GetExpandedInteger(N->getOperand(0), LHSL, LHSH);
GetExpandedInteger(N->getOperand(1), RHSL, RHSH);
SDVTList VTList = DAG.getVTList(LHSL.getValueType(), MVT::Flag);
- SDOperand LoOps[3] = { LHSL, RHSL, N->getOperand(2) };
- SDOperand HiOps[3] = { LHSH, RHSH };
+ SDValue LoOps[3] = { LHSL, RHSL, N->getOperand(2) };
+ SDValue HiOps[3] = { LHSH, RHSH };
Lo = DAG.getNode(N->getOpcode(), VTList, LoOps, 3);
HiOps[2] = Lo.getValue(1);
// Legalized the flag result - switch anything that used the old flag to
// use the new one.
- ReplaceValueWith(SDOperand(N, 1), Hi.getValue(1));
+ ReplaceValueWith(SDValue(N, 1), Hi.getValue(1));
}
void DAGTypeLegalizer::ExpandIntRes_ANY_EXTEND(SDNode *N,
- SDOperand &Lo, SDOperand &Hi) {
+ SDValue &Lo, SDValue &Hi) {
MVT NVT = TLI.getTypeToTransformTo(N->getValueType(0));
- SDOperand Op = N->getOperand(0);
+ SDValue Op = N->getOperand(0);
if (Op.getValueType().bitsLE(NVT)) {
// The low part is any extension of the input (which degenerates to a copy).
Lo = DAG.getNode(ISD::ANY_EXTEND, NVT, Op);
// promotes to the result type, so will end up being expanded too.
assert(getTypeAction(Op.getValueType()) == PromoteInteger &&
"Only know how to promote this result!");
- SDOperand Res = GetPromotedInteger(Op);
+ SDValue Res = GetPromotedInteger(Op);
assert(Res.getValueType() == N->getValueType(0) &&
"Operand over promoted?");
// Split the promoted operand. This will simplify when it is expanded.
}
void DAGTypeLegalizer::ExpandIntRes_AssertSext(SDNode *N,
- SDOperand &Lo, SDOperand &Hi) {
+ SDValue &Lo, SDValue &Hi) {
GetExpandedInteger(N->getOperand(0), Lo, Hi);
MVT NVT = Lo.getValueType();
MVT EVT = cast<VTSDNode>(N->getOperand(1))->getVT();
}
void DAGTypeLegalizer::ExpandIntRes_AssertZext(SDNode *N,
- SDOperand &Lo, SDOperand &Hi) {
+ SDValue &Lo, SDValue &Hi) {
GetExpandedInteger(N->getOperand(0), Lo, Hi);
MVT NVT = Lo.getValueType();
MVT EVT = cast<VTSDNode>(N->getOperand(1))->getVT();
}
void DAGTypeLegalizer::ExpandIntRes_BSWAP(SDNode *N,
- SDOperand &Lo, SDOperand &Hi) {
+ SDValue &Lo, SDValue &Hi) {
GetExpandedInteger(N->getOperand(0), Hi, Lo); // Note swapped operands.
Lo = DAG.getNode(ISD::BSWAP, Lo.getValueType(), Lo);
Hi = DAG.getNode(ISD::BSWAP, Hi.getValueType(), Hi);
}
void DAGTypeLegalizer::ExpandIntRes_Constant(SDNode *N,
- SDOperand &Lo, SDOperand &Hi) {
+ SDValue &Lo, SDValue &Hi) {
MVT NVT = TLI.getTypeToTransformTo(N->getValueType(0));
unsigned NBitWidth = NVT.getSizeInBits();
const APInt &Cst = cast<ConstantSDNode>(N)->getAPIntValue();
}
void DAGTypeLegalizer::ExpandIntRes_CTLZ(SDNode *N,
- SDOperand &Lo, SDOperand &Hi) {
+ SDValue &Lo, SDValue &Hi) {
// ctlz (HiLo) -> Hi != 0 ? ctlz(Hi) : (ctlz(Lo)+32)
GetExpandedInteger(N->getOperand(0), Lo, Hi);
MVT NVT = Lo.getValueType();
- SDOperand HiNotZero = DAG.getSetCC(TLI.getSetCCResultType(Hi), Hi,
- DAG.getConstant(0, NVT), ISD::SETNE);
+ SDValue HiNotZero = DAG.getSetCC(TLI.getSetCCResultType(Hi), Hi,
+ DAG.getConstant(0, NVT), ISD::SETNE);
- SDOperand LoLZ = DAG.getNode(ISD::CTLZ, NVT, Lo);
- SDOperand HiLZ = DAG.getNode(ISD::CTLZ, NVT, Hi);
+ SDValue LoLZ = DAG.getNode(ISD::CTLZ, NVT, Lo);
+ SDValue HiLZ = DAG.getNode(ISD::CTLZ, NVT, Hi);
Lo = DAG.getNode(ISD::SELECT, NVT, HiNotZero, HiLZ,
DAG.getNode(ISD::ADD, NVT, LoLZ,
}
void DAGTypeLegalizer::ExpandIntRes_CTPOP(SDNode *N,
- SDOperand &Lo, SDOperand &Hi) {
+ SDValue &Lo, SDValue &Hi) {
// ctpop(HiLo) -> ctpop(Hi)+ctpop(Lo)
GetExpandedInteger(N->getOperand(0), Lo, Hi);
MVT NVT = Lo.getValueType();
}
void DAGTypeLegalizer::ExpandIntRes_CTTZ(SDNode *N,
- SDOperand &Lo, SDOperand &Hi) {
+ SDValue &Lo, SDValue &Hi) {
// cttz (HiLo) -> Lo != 0 ? cttz(Lo) : (cttz(Hi)+32)
GetExpandedInteger(N->getOperand(0), Lo, Hi);
MVT NVT = Lo.getValueType();
- SDOperand LoNotZero = DAG.getSetCC(TLI.getSetCCResultType(Lo), Lo,
- DAG.getConstant(0, NVT), ISD::SETNE);
+ SDValue LoNotZero = DAG.getSetCC(TLI.getSetCCResultType(Lo), Lo,
+ DAG.getConstant(0, NVT), ISD::SETNE);
- SDOperand LoLZ = DAG.getNode(ISD::CTTZ, NVT, Lo);
- SDOperand HiLZ = DAG.getNode(ISD::CTTZ, NVT, Hi);
+ SDValue LoLZ = DAG.getNode(ISD::CTTZ, NVT, Lo);
+ SDValue HiLZ = DAG.getNode(ISD::CTTZ, NVT, Hi);
Lo = DAG.getNode(ISD::SELECT, NVT, LoNotZero, LoLZ,
DAG.getNode(ISD::ADD, NVT, HiLZ,
Hi = DAG.getConstant(0, NVT);
}
-void DAGTypeLegalizer::ExpandIntRes_FP_TO_SINT(SDNode *N, SDOperand &Lo,
- SDOperand &Hi) {
+void DAGTypeLegalizer::ExpandIntRes_FP_TO_SINT(SDNode *N, SDValue &Lo,
+ SDValue &Hi) {
MVT VT = N->getValueType(0);
- SDOperand Op = N->getOperand(0);
+ SDValue Op = N->getOperand(0);
RTLIB::Libcall LC = RTLIB::getFPTOSINT(Op.getValueType(), VT);
assert(LC != RTLIB::UNKNOWN_LIBCALL && "Unexpected fp-to-sint conversion!");
SplitInteger(MakeLibCall(LC, VT, &Op, 1, true/*sign irrelevant*/), Lo, Hi);
}
-void DAGTypeLegalizer::ExpandIntRes_FP_TO_UINT(SDNode *N, SDOperand &Lo,
- SDOperand &Hi) {
+void DAGTypeLegalizer::ExpandIntRes_FP_TO_UINT(SDNode *N, SDValue &Lo,
+ SDValue &Hi) {
MVT VT = N->getValueType(0);
- SDOperand Op = N->getOperand(0);
+ SDValue Op = N->getOperand(0);
RTLIB::Libcall LC = RTLIB::getFPTOUINT(Op.getValueType(), VT);
assert(LC != RTLIB::UNKNOWN_LIBCALL && "Unexpected fp-to-uint conversion!");
SplitInteger(MakeLibCall(LC, VT, &Op, 1, false/*sign irrelevant*/), Lo, Hi);
}
void DAGTypeLegalizer::ExpandIntRes_LOAD(LoadSDNode *N,
- SDOperand &Lo, SDOperand &Hi) {
+ SDValue &Lo, SDValue &Hi) {
if (ISD::isNormalLoad(N)) {
ExpandRes_NormalLoad(N, Lo, Hi);
return;
MVT VT = N->getValueType(0);
MVT NVT = TLI.getTypeToTransformTo(VT);
- SDOperand Ch = N->getChain();
- SDOperand Ptr = N->getBasePtr();
+ SDValue Ch = N->getChain();
+ SDValue Ptr = N->getBasePtr();
ISD::LoadExtType ExtType = N->getExtensionType();
int SVOffset = N->getSrcValueOffset();
unsigned Alignment = N->getAlignment();
// Legalized the chain result - switch anything that used the old chain to
// use the new one.
- ReplaceValueWith(SDOperand(N, 1), Ch);
+ ReplaceValueWith(SDValue(N, 1), Ch);
}
void DAGTypeLegalizer::ExpandIntRes_Logical(SDNode *N,
- SDOperand &Lo, SDOperand &Hi) {
- SDOperand LL, LH, RL, RH;
+ SDValue &Lo, SDValue &Hi) {
+ SDValue LL, LH, RL, RH;
GetExpandedInteger(N->getOperand(0), LL, LH);
GetExpandedInteger(N->getOperand(1), RL, RH);
Lo = DAG.getNode(N->getOpcode(), LL.getValueType(), LL, RL);
}
void DAGTypeLegalizer::ExpandIntRes_MUL(SDNode *N,
- SDOperand &Lo, SDOperand &Hi) {
+ SDValue &Lo, SDValue &Hi) {
MVT VT = N->getValueType(0);
MVT NVT = TLI.getTypeToTransformTo(VT);
bool HasSMUL_LOHI = TLI.isOperationLegal(ISD::SMUL_LOHI, NVT);
bool HasUMUL_LOHI = TLI.isOperationLegal(ISD::UMUL_LOHI, NVT);
if (HasMULHU || HasMULHS || HasUMUL_LOHI || HasSMUL_LOHI) {
- SDOperand LL, LH, RL, RH;
+ SDValue LL, LH, RL, RH;
GetExpandedInteger(N->getOperand(0), LL, LH);
GetExpandedInteger(N->getOperand(1), RL, RH);
unsigned OuterBitSize = VT.getSizeInBits();
if (HasUMUL_LOHI) {
// We can emit a umul_lohi.
Lo = DAG.getNode(ISD::UMUL_LOHI, DAG.getVTList(NVT, NVT), LL, RL);
- Hi = SDOperand(Lo.Val, 1);
+ Hi = SDValue(Lo.getNode(), 1);
return;
}
if (HasMULHU) {
if (HasSMUL_LOHI) {
// We can emit a smul_lohi.
Lo = DAG.getNode(ISD::SMUL_LOHI, DAG.getVTList(NVT, NVT), LL, RL);
- Hi = SDOperand(Lo.Val, 1);
+ Hi = SDValue(Lo.getNode(), 1);
return;
}
if (HasMULHS) {
}
if (HasUMUL_LOHI) {
// Lo,Hi = umul LHS, RHS.
- SDOperand UMulLOHI = DAG.getNode(ISD::UMUL_LOHI,
+ SDValue UMulLOHI = DAG.getNode(ISD::UMUL_LOHI,
DAG.getVTList(NVT, NVT), LL, RL);
Lo = UMulLOHI;
Hi = UMulLOHI.getValue(1);
LC = RTLIB::MUL_I128;
assert(LC != RTLIB::UNKNOWN_LIBCALL && "Unsupported MUL!");
- SDOperand Ops[2] = { N->getOperand(0), N->getOperand(1) };
+ SDValue Ops[2] = { N->getOperand(0), N->getOperand(1) };
SplitInteger(MakeLibCall(LC, VT, Ops, 2, true/*sign irrelevant*/), Lo, Hi);
}
void DAGTypeLegalizer::ExpandIntRes_SDIV(SDNode *N,
- SDOperand &Lo, SDOperand &Hi) {
+ SDValue &Lo, SDValue &Hi) {
MVT VT = N->getValueType(0);
RTLIB::Libcall LC = RTLIB::UNKNOWN_LIBCALL;
LC = RTLIB::SDIV_I128;
assert(LC != RTLIB::UNKNOWN_LIBCALL && "Unsupported SDIV!");
- SDOperand Ops[2] = { N->getOperand(0), N->getOperand(1) };
+ SDValue Ops[2] = { N->getOperand(0), N->getOperand(1) };
SplitInteger(MakeLibCall(LC, VT, Ops, 2, true), Lo, Hi);
}
void DAGTypeLegalizer::ExpandIntRes_Shift(SDNode *N,
- SDOperand &Lo, SDOperand &Hi) {
+ SDValue &Lo, SDValue &Hi) {
MVT VT = N->getValueType(0);
// If we can emit an efficient shift operation, do so now. Check to see if
// the RHS is a constant.
if (ConstantSDNode *CN = dyn_cast<ConstantSDNode>(N->getOperand(1)))
- return ExpandShiftByConstant(N, CN->getValue(), Lo, Hi);
+ return ExpandShiftByConstant(N, CN->getZExtValue(), Lo, Hi);
// If we can determine that the high bit of the shift is zero or one, even if
// the low bits are variable, emit this shift in an optimized form.
if ((Action == TargetLowering::Legal && TLI.isTypeLegal(NVT)) ||
Action == TargetLowering::Custom) {
// Expand the subcomponents.
- SDOperand LHSL, LHSH;
+ SDValue LHSL, LHSH;
GetExpandedInteger(N->getOperand(0), LHSL, LHSH);
- SDOperand Ops[] = { LHSL, LHSH, N->getOperand(1) };
+ SDValue Ops[] = { LHSL, LHSH, N->getOperand(1) };
MVT VT = LHSL.getValueType();
Lo = DAG.getNode(PartsOpc, DAG.getNodeValueTypes(VT, VT), 2, Ops, 3);
Hi = Lo.getValue(1);
}
assert(LC != RTLIB::UNKNOWN_LIBCALL && "Unsupported shift!");
- SDOperand Ops[2] = { N->getOperand(0), N->getOperand(1) };
+ SDValue Ops[2] = { N->getOperand(0), N->getOperand(1) };
SplitInteger(MakeLibCall(LC, VT, Ops, 2, isSigned), Lo, Hi);
}
void DAGTypeLegalizer::ExpandIntRes_SIGN_EXTEND(SDNode *N,
- SDOperand &Lo, SDOperand &Hi) {
+ SDValue &Lo, SDValue &Hi) {
MVT NVT = TLI.getTypeToTransformTo(N->getValueType(0));
- SDOperand Op = N->getOperand(0);
+ SDValue Op = N->getOperand(0);
if (Op.getValueType().bitsLE(NVT)) {
- // The low part is sign extension of the input (which degenerates to a copy).
+ // The low part is sign extension of the input (degenerates to a copy).
Lo = DAG.getNode(ISD::SIGN_EXTEND, NVT, N->getOperand(0));
// The high part is obtained by SRA'ing all but one of the bits of low part.
unsigned LoSize = NVT.getSizeInBits();
// promotes to the result type, so will end up being expanded too.
assert(getTypeAction(Op.getValueType()) == PromoteInteger &&
"Only know how to promote this result!");
- SDOperand Res = GetPromotedInteger(Op);
+ SDValue Res = GetPromotedInteger(Op);
assert(Res.getValueType() == N->getValueType(0) &&
"Operand over promoted?");
// Split the promoted operand. This will simplify when it is expanded.
}
void DAGTypeLegalizer::
-ExpandIntRes_SIGN_EXTEND_INREG(SDNode *N, SDOperand &Lo, SDOperand &Hi) {
+ExpandIntRes_SIGN_EXTEND_INREG(SDNode *N, SDValue &Lo, SDValue &Hi) {
GetExpandedInteger(N->getOperand(0), Lo, Hi);
MVT EVT = cast<VTSDNode>(N->getOperand(1))->getVT();
}
void DAGTypeLegalizer::ExpandIntRes_SREM(SDNode *N,
- SDOperand &Lo, SDOperand &Hi) {
+ SDValue &Lo, SDValue &Hi) {
MVT VT = N->getValueType(0);
RTLIB::Libcall LC = RTLIB::UNKNOWN_LIBCALL;
LC = RTLIB::SREM_I128;
assert(LC != RTLIB::UNKNOWN_LIBCALL && "Unsupported SREM!");
- SDOperand Ops[2] = { N->getOperand(0), N->getOperand(1) };
+ SDValue Ops[2] = { N->getOperand(0), N->getOperand(1) };
SplitInteger(MakeLibCall(LC, VT, Ops, 2, true), Lo, Hi);
}
void DAGTypeLegalizer::ExpandIntRes_TRUNCATE(SDNode *N,
- SDOperand &Lo, SDOperand &Hi) {
+ SDValue &Lo, SDValue &Hi) {
MVT NVT = TLI.getTypeToTransformTo(N->getValueType(0));
Lo = DAG.getNode(ISD::TRUNCATE, NVT, N->getOperand(0));
Hi = DAG.getNode(ISD::SRL, N->getOperand(0).getValueType(), N->getOperand(0),
}
void DAGTypeLegalizer::ExpandIntRes_UDIV(SDNode *N,
- SDOperand &Lo, SDOperand &Hi) {
+ SDValue &Lo, SDValue &Hi) {
MVT VT = N->getValueType(0);
RTLIB::Libcall LC = RTLIB::UNKNOWN_LIBCALL;
LC = RTLIB::UDIV_I128;
assert(LC != RTLIB::UNKNOWN_LIBCALL && "Unsupported UDIV!");
- SDOperand Ops[2] = { N->getOperand(0), N->getOperand(1) };
+ SDValue Ops[2] = { N->getOperand(0), N->getOperand(1) };
SplitInteger(MakeLibCall(LC, VT, Ops, 2, false), Lo, Hi);
}
void DAGTypeLegalizer::ExpandIntRes_UREM(SDNode *N,
- SDOperand &Lo, SDOperand &Hi) {
+ SDValue &Lo, SDValue &Hi) {
MVT VT = N->getValueType(0);
RTLIB::Libcall LC = RTLIB::UNKNOWN_LIBCALL;
LC = RTLIB::UREM_I128;
assert(LC != RTLIB::UNKNOWN_LIBCALL && "Unsupported UREM!");
- SDOperand Ops[2] = { N->getOperand(0), N->getOperand(1) };
+ SDValue Ops[2] = { N->getOperand(0), N->getOperand(1) };
SplitInteger(MakeLibCall(LC, VT, Ops, 2, false), Lo, Hi);
}
void DAGTypeLegalizer::ExpandIntRes_ZERO_EXTEND(SDNode *N,
- SDOperand &Lo, SDOperand &Hi) {
+ SDValue &Lo, SDValue &Hi) {
MVT NVT = TLI.getTypeToTransformTo(N->getValueType(0));
- SDOperand Op = N->getOperand(0);
+ SDValue Op = N->getOperand(0);
if (Op.getValueType().bitsLE(NVT)) {
- // The low part is zero extension of the input (which degenerates to a copy).
+ // The low part is zero extension of the input (degenerates to a copy).
Lo = DAG.getNode(ISD::ZERO_EXTEND, NVT, N->getOperand(0));
Hi = DAG.getConstant(0, NVT); // The high part is just a zero.
} else {
// promotes to the result type, so will end up being expanded too.
assert(getTypeAction(Op.getValueType()) == PromoteInteger &&
"Only know how to promote this result!");
- SDOperand Res = GetPromotedInteger(Op);
+ SDValue Res = GetPromotedInteger(Op);
assert(Res.getValueType() == N->getValueType(0) &&
"Operand over promoted?");
// Split the promoted operand. This will simplify when it is expanded.
/// node may need promotion or expansion as well as the specified one.
bool DAGTypeLegalizer::ExpandIntegerOperand(SDNode *N, unsigned OpNo) {
DEBUG(cerr << "Expand integer operand: "; N->dump(&DAG); cerr << "\n");
- SDOperand Res = SDOperand();
+ SDValue Res = SDValue();
if (TLI.getOperationAction(N->getOpcode(), N->getOperand(OpNo).getValueType())
== TargetLowering::Custom)
- Res = TLI.LowerOperation(SDOperand(N, OpNo), DAG);
+ Res = TLI.LowerOperation(SDValue(N, 0), DAG);
- if (Res.Val == 0) {
+ if (Res.getNode() == 0) {
switch (N->getOpcode()) {
default:
#ifndef NDEBUG
}
// If the result is null, the sub-method took care of registering results etc.
- if (!Res.Val) return false;
+ if (!Res.getNode()) return false;
// If the result is N, the sub-method updated N in place. Check to see if any
// operands are new, and if so, mark them.
- if (Res.Val == N) {
+ if (Res.getNode() == N) {
// Mark N as new and remark N and its operands. This allows us to correctly
// revisit N if it needs another step of expansion and allows us to visit
// any new operands to N.
assert(Res.getValueType() == N->getValueType(0) && N->getNumValues() == 1 &&
"Invalid operand expansion");
- ReplaceValueWith(SDOperand(N, 0), Res);
+ ReplaceValueWith(SDValue(N, 0), Res);
return false;
}
/// IntegerExpandSetCCOperands - Expand the operands of a comparison. This code
/// is shared among BR_CC, SELECT_CC, and SETCC handlers.
-void DAGTypeLegalizer::IntegerExpandSetCCOperands(SDOperand &NewLHS,
- SDOperand &NewRHS,
+void DAGTypeLegalizer::IntegerExpandSetCCOperands(SDValue &NewLHS,
+ SDValue &NewRHS,
ISD::CondCode &CCCode) {
- SDOperand LHSLo, LHSHi, RHSLo, RHSHi;
+ SDValue LHSLo, LHSHi, RHSLo, RHSHi;
GetExpandedInteger(NewLHS, LHSLo, LHSHi);
GetExpandedInteger(NewRHS, RHSLo, RHSHi);
// NOTE: on targets without efficient SELECT of bools, we can always use
// this identity: (B1 ? B2 : B3) --> (B1 & B2)|(!B1&B3)
TargetLowering::DAGCombinerInfo DagCombineInfo(DAG, false, true, NULL);
- SDOperand Tmp1, Tmp2;
+ SDValue Tmp1, Tmp2;
Tmp1 = TLI.SimplifySetCC(TLI.getSetCCResultType(LHSLo), LHSLo, RHSLo, LowCC,
false, DagCombineInfo);
- if (!Tmp1.Val)
+ if (!Tmp1.getNode())
Tmp1 = DAG.getSetCC(TLI.getSetCCResultType(LHSLo), LHSLo, RHSLo, LowCC);
Tmp2 = TLI.SimplifySetCC(TLI.getSetCCResultType(LHSHi), LHSHi, RHSHi,
CCCode, false, DagCombineInfo);
- if (!Tmp2.Val)
+ if (!Tmp2.getNode())
Tmp2 = DAG.getNode(ISD::SETCC, TLI.getSetCCResultType(LHSHi), LHSHi, RHSHi,
DAG.getCondCode(CCCode));
- ConstantSDNode *Tmp1C = dyn_cast<ConstantSDNode>(Tmp1.Val);
- ConstantSDNode *Tmp2C = dyn_cast<ConstantSDNode>(Tmp2.Val);
+ ConstantSDNode *Tmp1C = dyn_cast<ConstantSDNode>(Tmp1.getNode());
+ ConstantSDNode *Tmp2C = dyn_cast<ConstantSDNode>(Tmp2.getNode());
if ((Tmp1C && Tmp1C->isNullValue()) ||
(Tmp2C && Tmp2C->isNullValue() &&
(CCCode == ISD::SETLE || CCCode == ISD::SETGE ||
// For LE / GE, if high part is known false, ignore the low part.
// For LT / GT, if high part is known true, ignore the low part.
NewLHS = Tmp2;
- NewRHS = SDOperand();
+ NewRHS = SDValue();
return;
}
NewLHS = TLI.SimplifySetCC(TLI.getSetCCResultType(LHSHi), LHSHi, RHSHi,
ISD::SETEQ, false, DagCombineInfo);
- if (!NewLHS.Val)
+ if (!NewLHS.getNode())
NewLHS = DAG.getSetCC(TLI.getSetCCResultType(LHSHi), LHSHi, RHSHi,
ISD::SETEQ);
NewLHS = DAG.getNode(ISD::SELECT, Tmp1.getValueType(),
NewLHS, Tmp1, Tmp2);
- NewRHS = SDOperand();
+ NewRHS = SDValue();
}
-SDOperand DAGTypeLegalizer::ExpandIntOp_BR_CC(SDNode *N) {
- SDOperand NewLHS = N->getOperand(2), NewRHS = N->getOperand(3);
+SDValue DAGTypeLegalizer::ExpandIntOp_BR_CC(SDNode *N) {
+ SDValue NewLHS = N->getOperand(2), NewRHS = N->getOperand(3);
ISD::CondCode CCCode = cast<CondCodeSDNode>(N->getOperand(1))->get();
IntegerExpandSetCCOperands(NewLHS, NewRHS, CCCode);
// If ExpandSetCCOperands returned a scalar, we need to compare the result
// against zero to select between true and false values.
- if (NewRHS.Val == 0) {
+ if (NewRHS.getNode() == 0) {
NewRHS = DAG.getConstant(0, NewLHS.getValueType());
CCCode = ISD::SETNE;
}
// Update N to have the operands specified.
- return DAG.UpdateNodeOperands(SDOperand(N, 0), N->getOperand(0),
+ return DAG.UpdateNodeOperands(SDValue(N, 0), N->getOperand(0),
DAG.getCondCode(CCCode), NewLHS, NewRHS,
N->getOperand(4));
}
-SDOperand DAGTypeLegalizer::ExpandIntOp_SELECT_CC(SDNode *N) {
- SDOperand NewLHS = N->getOperand(0), NewRHS = N->getOperand(1);
+SDValue DAGTypeLegalizer::ExpandIntOp_SELECT_CC(SDNode *N) {
+ SDValue NewLHS = N->getOperand(0), NewRHS = N->getOperand(1);
ISD::CondCode CCCode = cast<CondCodeSDNode>(N->getOperand(4))->get();
IntegerExpandSetCCOperands(NewLHS, NewRHS, CCCode);
// If ExpandSetCCOperands returned a scalar, we need to compare the result
// against zero to select between true and false values.
- if (NewRHS.Val == 0) {
+ if (NewRHS.getNode() == 0) {
NewRHS = DAG.getConstant(0, NewLHS.getValueType());
CCCode = ISD::SETNE;
}
// Update N to have the operands specified.
- return DAG.UpdateNodeOperands(SDOperand(N, 0), NewLHS, NewRHS,
+ return DAG.UpdateNodeOperands(SDValue(N, 0), NewLHS, NewRHS,
N->getOperand(2), N->getOperand(3),
DAG.getCondCode(CCCode));
}
-SDOperand DAGTypeLegalizer::ExpandIntOp_SETCC(SDNode *N) {
- SDOperand NewLHS = N->getOperand(0), NewRHS = N->getOperand(1);
+SDValue DAGTypeLegalizer::ExpandIntOp_SETCC(SDNode *N) {
+ SDValue NewLHS = N->getOperand(0), NewRHS = N->getOperand(1);
ISD::CondCode CCCode = cast<CondCodeSDNode>(N->getOperand(2))->get();
IntegerExpandSetCCOperands(NewLHS, NewRHS, CCCode);
// If ExpandSetCCOperands returned a scalar, use it.
- if (NewRHS.Val == 0) {
+ if (NewRHS.getNode() == 0) {
assert(NewLHS.getValueType() == N->getValueType(0) &&
"Unexpected setcc expansion!");
return NewLHS;
}
// Otherwise, update N to have the operands specified.
- return DAG.UpdateNodeOperands(SDOperand(N, 0), NewLHS, NewRHS,
+ return DAG.UpdateNodeOperands(SDValue(N, 0), NewLHS, NewRHS,
DAG.getCondCode(CCCode));
}
-SDOperand DAGTypeLegalizer::ExpandIntOp_SINT_TO_FP(SDNode *N) {
- SDOperand Op = N->getOperand(0);
+SDValue DAGTypeLegalizer::ExpandIntOp_SINT_TO_FP(SDNode *N) {
+ SDValue Op = N->getOperand(0);
MVT DstVT = N->getValueType(0);
RTLIB::Libcall LC = RTLIB::getSINTTOFP(Op.getValueType(), DstVT);
assert(LC != RTLIB::UNKNOWN_LIBCALL &&
return MakeLibCall(LC, DstVT, &Op, 1, true);
}
-SDOperand DAGTypeLegalizer::ExpandIntOp_STORE(StoreSDNode *N, unsigned OpNo) {
+SDValue DAGTypeLegalizer::ExpandIntOp_STORE(StoreSDNode *N, unsigned OpNo) {
if (ISD::isNormalStore(N))
return ExpandOp_NormalStore(N, OpNo);
MVT VT = N->getOperand(1).getValueType();
MVT NVT = TLI.getTypeToTransformTo(VT);
- SDOperand Ch = N->getChain();
- SDOperand Ptr = N->getBasePtr();
+ SDValue Ch = N->getChain();
+ SDValue Ptr = N->getBasePtr();
int SVOffset = N->getSrcValueOffset();
unsigned Alignment = N->getAlignment();
bool isVolatile = N->isVolatile();
- SDOperand Lo, Hi;
+ SDValue Lo, Hi;
assert(NVT.isByteSized() && "Expanded type not byte sized!");
}
}
-SDOperand DAGTypeLegalizer::ExpandIntOp_TRUNCATE(SDNode *N) {
- SDOperand InL, InH;
+SDValue DAGTypeLegalizer::ExpandIntOp_TRUNCATE(SDNode *N) {
+ SDValue InL, InH;
GetExpandedInteger(N->getOperand(0), InL, InH);
// Just truncate the low part of the source.
return DAG.getNode(ISD::TRUNCATE, N->getValueType(0), InL);
}
-SDOperand DAGTypeLegalizer::ExpandIntOp_UINT_TO_FP(SDNode *N) {
- SDOperand Op = N->getOperand(0);
+SDValue DAGTypeLegalizer::ExpandIntOp_UINT_TO_FP(SDNode *N) {
+ SDValue Op = N->getOperand(0);
MVT SrcVT = Op.getValueType();
MVT DstVT = N->getValueType(0);
if (TLI.getOperationAction(ISD::SINT_TO_FP, SrcVT) == TargetLowering::Custom){
// Do a signed conversion then adjust the result.
- SDOperand SignedConv = DAG.getNode(ISD::SINT_TO_FP, DstVT, Op);
+ SDValue SignedConv = DAG.getNode(ISD::SINT_TO_FP, DstVT, Op);
SignedConv = TLI.LowerOperation(SignedConv, DAG);
// The result of the signed conversion needs adjusting if the 'sign bit' of
assert(false && "Unsupported UINT_TO_FP!");
// Check whether the sign bit is set.
- SDOperand Lo, Hi;
+ SDValue Lo, Hi;
GetExpandedInteger(Op, Lo, Hi);
- SDOperand SignSet = DAG.getSetCC(TLI.getSetCCResultType(Hi), Hi,
- DAG.getConstant(0, Hi.getValueType()),
- ISD::SETLT);
+ SDValue SignSet = DAG.getSetCC(TLI.getSetCCResultType(Hi), Hi,
+ DAG.getConstant(0, Hi.getValueType()),
+ ISD::SETLT);
// Build a 64 bit pair (0, FF) in the constant pool, with FF in the lo bits.
- SDOperand FudgePtr = DAG.getConstantPool(ConstantInt::get(FF.zext(64)),
- TLI.getPointerTy());
+ SDValue FudgePtr = DAG.getConstantPool(ConstantInt::get(FF.zext(64)),
+ TLI.getPointerTy());
// Get a pointer to FF if the sign bit was set, or to 0 otherwise.
- SDOperand Zero = DAG.getIntPtrConstant(0);
- SDOperand Four = DAG.getIntPtrConstant(4);
+ SDValue Zero = DAG.getIntPtrConstant(0);
+ SDValue Four = DAG.getIntPtrConstant(4);
if (TLI.isBigEndian()) std::swap(Zero, Four);
- SDOperand Offset = DAG.getNode(ISD::SELECT, Zero.getValueType(), SignSet,
- Zero, Four);
+ SDValue Offset = DAG.getNode(ISD::SELECT, Zero.getValueType(), SignSet,
+ Zero, Four);
+ unsigned Alignment =
+ 1 << cast<ConstantPoolSDNode>(FudgePtr)->getAlignment();
FudgePtr = DAG.getNode(ISD::ADD, TLI.getPointerTy(), FudgePtr, Offset);
+ Alignment = std::min(Alignment, 4u);
// Load the value out, extending it from f32 to the destination float type.
// FIXME: Avoid the extend by constructing the right constant pool?
- SDOperand Fudge = DAG.getExtLoad(ISD::EXTLOAD, DstVT, DAG.getEntryNode(),
- FudgePtr, NULL, 0, MVT::f32);
+ SDValue Fudge = DAG.getExtLoad(ISD::EXTLOAD, DstVT, DAG.getEntryNode(),
+ FudgePtr, NULL, 0, MVT::f32,
+ false, Alignment);
return DAG.getNode(ISD::FADD, DstVT, SignedConv, Fudge);
}