return isUsedByReturnOnly(Node, Chain);
}
+/// \brief Set CallLoweringInfo attribute flags based on a call instruction
+/// and called function attributes.
+void TargetLowering::ArgListEntry::setAttributes(ImmutableCallSite *CS,
+ unsigned AttrIdx) {
+ isSExt = CS->paramHasAttr(AttrIdx, Attribute::SExt);
+ isZExt = CS->paramHasAttr(AttrIdx, Attribute::ZExt);
+ isInReg = CS->paramHasAttr(AttrIdx, Attribute::InReg);
+ isSRet = CS->paramHasAttr(AttrIdx, Attribute::StructRet);
+ isNest = CS->paramHasAttr(AttrIdx, Attribute::Nest);
+ isByVal = CS->paramHasAttr(AttrIdx, Attribute::ByVal);
+ isReturned = CS->paramHasAttr(AttrIdx, Attribute::Returned);
+ Alignment = CS->getParamAlignment(AttrIdx);
+}
/// Generate a libcall taking the given operands as arguments and returning a
/// result of type RetVT.
TLO.DAG.getNode(ISD::ANY_EXTEND, dl, Op.getValueType(),
NarrowShl));
}
+ // Repeat the SHL optimization above in cases where an extension
+ // intervenes: (shl (anyext (shr x, c1)), c2) to
+ // (shl (anyext x), c2-c1). This requires that the bottom c1 bits
+ // aren't demanded (as above) and that the shifted upper c1 bits of
+ // x aren't demanded.
+ if (InOp.hasOneUse() &&
+ InnerOp.getOpcode() == ISD::SRL &&
+ InnerOp.hasOneUse() &&
+ isa<ConstantSDNode>(InnerOp.getOperand(1))) {
+ uint64_t InnerShAmt = cast<ConstantSDNode>(InnerOp.getOperand(1))
+ ->getZExtValue();
+ if (InnerShAmt < ShAmt &&
+ InnerShAmt < InnerBits &&
+ NewMask.lshr(InnerBits - InnerShAmt + ShAmt) == 0 &&
+ NewMask.trunc(ShAmt) == 0) {
+ SDValue NewSA =
+ TLO.DAG.getConstant(ShAmt - InnerShAmt,
+ Op.getOperand(1).getValueType());
+ EVT VT = Op.getValueType();
+ SDValue NewExt = TLO.DAG.getNode(ISD::ANY_EXTEND, dl, VT,
+ InnerOp.getOperand(0));
+ return TLO.CombineTo(Op, TLO.DAG.getNode(ISD::SHL, dl, VT,
+ NewExt, NewSA));
+ }
+ }
}
KnownZero <<= SA->getZExtValue();
// If the input sign bit is known to be zero, or if none of the top bits
// are demanded, turn this into an unsigned shift right.
- if (KnownZero.intersects(SignBit) || (HighBits & ~NewMask) == HighBits) {
+ if (KnownZero.intersects(SignBit) || (HighBits & ~NewMask) == HighBits)
return TLO.CombineTo(Op, TLO.DAG.getNode(ISD::SRL, dl, VT,
Op.getOperand(0),
Op.getOperand(1)));
- } else if (KnownOne.intersects(SignBit)) { // New bits are known one.
- KnownOne |= HighBits;
+
+ int Log2 = NewMask.exactLogBase2();
+ if (Log2 >= 0) {
+ // The bit must come from the sign.
+ SDValue NewSA =
+ TLO.DAG.getConstant(BitWidth - 1 - Log2,
+ Op.getOperand(1).getValueType());
+ return TLO.CombineTo(Op, TLO.DAG.getNode(ISD::SRL, dl, VT,
+ Op.getOperand(0), NewSA));
}
+
+ if (KnownOne.intersects(SignBit))
+ // New bits are known one.
+ KnownOne |= HighBits;
}
break;
case ISD::SIGN_EXTEND_INREG: {
std::pair<unsigned, const TargetRegisterClass*> TargetLowering::
getRegForInlineAsmConstraint(const std::string &Constraint,
MVT VT) const {
- if (Constraint[0] != '{')
+ if (Constraint.empty() || Constraint[0] != '{')
return std::make_pair(0u, static_cast<TargetRegisterClass*>(0));
assert(*(Constraint.end()-1) == '}' && "Not a brace enclosed constraint?");
break;
}
} else if (PointerType *PT = dyn_cast<PointerType>(OpTy)) {
- OpInfo.ConstraintVT = MVT::getIntegerVT(
- 8*getDataLayout()->getPointerSize(PT->getAddressSpace()));
+ unsigned PtrSize
+ = getDataLayout()->getPointerSizeInBits(PT->getAddressSpace());
+ OpInfo.ConstraintVT = MVT::getIntegerVT(PtrSize);
} else {
OpInfo.ConstraintVT = MVT::getVT(OpTy, true);
}