// After instruction selection, insert COPY_TO_REGCLASS nodes to help in
// choosing the proper register classes.
void BlackfinDAGToDAGISel::FixRegisterClasses(SelectionDAG &DAG) {
  const BlackfinInstrInfo &TII = getInstrInfo();
  const BlackfinRegisterInfo *TRI = getRegisterInfo();
  DAG.AssignTopologicalOrder();
  HandleSDNode Dummy(DAG.getRoot());

  for (SelectionDAG::allnodes_iterator NI = DAG.allnodes_begin();
       NI != DAG.allnodes_end(); ++NI) {
    if (NI->use_empty() || !NI->isMachineOpcode())
      continue;
    const TargetInstrDesc &DefTID = TII.get(NI->getMachineOpcode());
    for (SDNode::use_iterator UI = NI->use_begin(); !UI.atEnd(); ++UI) {
      if (!UI->isMachineOpcode())
        continue;

      if (UI.getUse().getResNo() >= DefTID.getNumDefs())
        continue;
      const TargetRegisterClass *DefRC =
        DefTID.OpInfo[UI.getUse().getResNo()].getRegClass(TRI);

      const TargetInstrDesc &UseTID = TII.get(UI->getMachineOpcode());
      if (UseTID.getNumDefs()+UI.getOperandNo() >= UseTID.getNumOperands())
        continue;
      const TargetRegisterClass *UseRC =
        UseTID.OpInfo[UseTID.getNumDefs()+UI.getOperandNo()].getRegClass(TRI);
      if (!DefRC || !UseRC)
        continue;
      // We cannot copy CC <-> !(CC/D)
      if ((isCC(DefRC) && !isDCC(UseRC)) || (isCC(UseRC) && !isDCC(DefRC))) {
        SDNode *Copy =
          DAG.getMachineNode(TargetOpcode::COPY_TO_REGCLASS,
                             NI->getDebugLoc(),
                             MVT::i32,
                             UI.getUse().get(),
                             DAG.getTargetConstant(BF::DRegClassID, MVT::i32));
        UpdateNodeOperand(DAG, *UI, UI.getOperandNo(), SDValue(Copy, 0));
      }
    }
  }
  DAG.setRoot(Dummy.getValue());
}
Esempio n. 2
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/// Do extensive, expensive, sanity checking.
void DAGTypeLegalizer::PerformExpensiveChecks() {
  // If a node is not processed, then none of its values should be mapped by any
  // of PromotedIntegers, ExpandedIntegers, ..., ReplacedValues.

  // If a node is processed, then each value with an illegal type must be mapped
  // by exactly one of PromotedIntegers, ExpandedIntegers, ..., ReplacedValues.
  // Values with a legal type may be mapped by ReplacedValues, but not by any of
  // the other maps.

  // Note that these invariants may not hold momentarily when processing a node:
  // the node being processed may be put in a map before being marked Processed.

  // Note that it is possible to have nodes marked NewNode in the DAG.  This can
  // occur in two ways.  Firstly, a node may be created during legalization but
  // never passed to the legalization core.  This is usually due to the implicit
  // folding that occurs when using the DAG.getNode operators.  Secondly, a new
  // node may be passed to the legalization core, but when analyzed may morph
  // into a different node, leaving the original node as a NewNode in the DAG.
  // A node may morph if one of its operands changes during analysis.  Whether
  // it actually morphs or not depends on whether, after updating its operands,
  // it is equivalent to an existing node: if so, it morphs into that existing
  // node (CSE).  An operand can change during analysis if the operand is a new
  // node that morphs, or it is a processed value that was mapped to some other
  // value (as recorded in ReplacedValues) in which case the operand is turned
  // into that other value.  If a node morphs then the node it morphed into will
  // be used instead of it for legalization, however the original node continues
  // to live on in the DAG.
  // The conclusion is that though there may be nodes marked NewNode in the DAG,
  // all uses of such nodes are also marked NewNode: the result is a fungus of
  // NewNodes growing on top of the useful nodes, and perhaps using them, but
  // not used by them.

  // If a value is mapped by ReplacedValues, then it must have no uses, except
  // by nodes marked NewNode (see above).

  // The final node obtained by mapping by ReplacedValues is not marked NewNode.
  // Note that ReplacedValues should be applied iteratively.

  // Note that the ReplacedValues map may also map deleted nodes (by iterating
  // over the DAG we never dereference deleted nodes).  This means that it may
  // also map nodes marked NewNode if the deallocated memory was reallocated as
  // another node, and that new node was not seen by the LegalizeTypes machinery
  // (for example because it was created but not used).  In general, we cannot
  // distinguish between new nodes and deleted nodes.
  SmallVector<SDNode*, 16> NewNodes;
  for (SDNode &Node : DAG.allnodes()) {
    // Remember nodes marked NewNode - they are subject to extra checking below.
    if (Node.getNodeId() == NewNode)
      NewNodes.push_back(&Node);

    for (unsigned i = 0, e = Node.getNumValues(); i != e; ++i) {
      SDValue Res(&Node, i);
      EVT VT = Res.getValueType();
      bool Failed = false;

      unsigned Mapped = 0;
      if (ReplacedValues.find(Res) != ReplacedValues.end()) {
        Mapped |= 1;
        // Check that remapped values are only used by nodes marked NewNode.
        for (SDNode::use_iterator UI = Node.use_begin(), UE = Node.use_end();
             UI != UE; ++UI)
          if (UI.getUse().getResNo() == i)
            assert(UI->getNodeId() == NewNode &&
                   "Remapped value has non-trivial use!");

        // Check that the final result of applying ReplacedValues is not
        // marked NewNode.
        SDValue NewVal = ReplacedValues[Res];
        DenseMap<SDValue, SDValue>::iterator I = ReplacedValues.find(NewVal);
        while (I != ReplacedValues.end()) {
          NewVal = I->second;
          I = ReplacedValues.find(NewVal);
        }
        assert(NewVal.getNode()->getNodeId() != NewNode &&
               "ReplacedValues maps to a new node!");
      }
      if (PromotedIntegers.find(Res) != PromotedIntegers.end())
        Mapped |= 2;
      if (SoftenedFloats.find(Res) != SoftenedFloats.end())
        Mapped |= 4;
      if (ScalarizedVectors.find(Res) != ScalarizedVectors.end())
        Mapped |= 8;
      if (ExpandedIntegers.find(Res) != ExpandedIntegers.end())
        Mapped |= 16;
      if (ExpandedFloats.find(Res) != ExpandedFloats.end())
        Mapped |= 32;
      if (SplitVectors.find(Res) != SplitVectors.end())
        Mapped |= 64;
      if (WidenedVectors.find(Res) != WidenedVectors.end())
        Mapped |= 128;
      if (PromotedFloats.find(Res) != PromotedFloats.end())
        Mapped |= 256;

      if (Node.getNodeId() != Processed) {
        // Since we allow ReplacedValues to map deleted nodes, it may map nodes
        // marked NewNode too, since a deleted node may have been reallocated as
        // another node that has not been seen by the LegalizeTypes machinery.
        if ((Node.getNodeId() == NewNode && Mapped > 1) ||
            (Node.getNodeId() != NewNode && Mapped != 0)) {
          dbgs() << "Unprocessed value in a map!";
          Failed = true;
        }
      } else if (isTypeLegal(VT) || IgnoreNodeResults(&Node)) {
        if (Mapped > 1) {
          dbgs() << "Value with legal type was transformed!";
          Failed = true;
        }
      } else {
        // If the value can be kept in HW registers, softening machinery can
        // leave it unchanged and don't put it to any map.
        if (Mapped == 0 &&
            !(getTypeAction(VT) == TargetLowering::TypeSoftenFloat &&
              isLegalInHWReg(VT))) {
          dbgs() << "Processed value not in any map!";
          Failed = true;
        } else if (Mapped & (Mapped - 1)) {
          dbgs() << "Value in multiple maps!";
          Failed = true;
        }
      }

      if (Failed) {
        if (Mapped & 1)
          dbgs() << " ReplacedValues";
        if (Mapped & 2)
          dbgs() << " PromotedIntegers";
        if (Mapped & 4)
          dbgs() << " SoftenedFloats";
        if (Mapped & 8)
          dbgs() << " ScalarizedVectors";
        if (Mapped & 16)
          dbgs() << " ExpandedIntegers";
        if (Mapped & 32)
          dbgs() << " ExpandedFloats";
        if (Mapped & 64)
          dbgs() << " SplitVectors";
        if (Mapped & 128)
          dbgs() << " WidenedVectors";
        if (Mapped & 256)
          dbgs() << " PromotedFloats";
        dbgs() << "\n";
        llvm_unreachable(nullptr);
      }
    }
  }

  // Checked that NewNodes are only used by other NewNodes.
  for (unsigned i = 0, e = NewNodes.size(); i != e; ++i) {
    SDNode *N = NewNodes[i];
    for (SDNode::use_iterator UI = N->use_begin(), UE = N->use_end();
         UI != UE; ++UI)
      assert(UI->getNodeId() == NewNode && "NewNode used by non-NewNode!");
  }
}