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//==------------------------------------------------------------------------==//
//
// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
// See https://llvm.org/LICENSE.txt for license information.
// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
//
//===----------------------------------------------------------------------===//
#include "llvm/CodeGen/SDNodeInfo.h"
#include "llvm/CodeGen/SelectionDAG.h"
#include "llvm/CodeGen/SelectionDAGNodes.h"
#include "llvm/CodeGen/TargetLowering.h"
#include "llvm/CodeGen/TargetSubtargetInfo.h"
using namespace llvm;
static void reportNodeError(const SelectionDAG &DAG, const SDNode *N,
const Twine &Msg) {
std::string S;
raw_string_ostream SS(S);
SS << "invalid node: " << Msg << '\n';
N->printrWithDepth(SS, &DAG, 2);
report_fatal_error(StringRef(S));
}
static void checkResultType(const SelectionDAG &DAG, const SDNode *N,
unsigned ResIdx, EVT ExpectedVT) {
EVT ActualVT = N->getValueType(ResIdx);
if (ActualVT != ExpectedVT)
reportNodeError(
DAG, N,
"result #" + Twine(ResIdx) + " has invalid type; expected " +
ExpectedVT.getEVTString() + ", got " + ActualVT.getEVTString());
}
static void checkOperandType(const SelectionDAG &DAG, const SDNode *N,
unsigned OpIdx, EVT ExpectedVT) {
EVT ActualVT = N->getOperand(OpIdx).getValueType();
if (ActualVT != ExpectedVT)
reportNodeError(
DAG, N,
"operand #" + Twine(OpIdx) + " has invalid type; expected " +
ExpectedVT.getEVTString() + ", got " + ActualVT.getEVTString());
}
namespace {
/// Similar to SDValue, but also records whether it is a result or an operand
/// of a node so we can provide more precise diagnostics.
class SDNodeValue {
const SDNode *N;
unsigned Idx;
bool IsRes;
public:
SDNodeValue(const SDNode *N, unsigned Idx, bool IsRes)
: N(N), Idx(Idx), IsRes(IsRes) {}
SDValue getValue() const {
return IsRes ? SDValue(const_cast<SDNode *>(N), Idx) : N->getOperand(Idx);
}
EVT getValueType() const { return getValue().getValueType(); }
friend raw_ostream &operator<<(raw_ostream &OS, const SDNodeValue &Op) {
return OS << (Op.IsRes ? "result" : "operand") << " #" << Op.Idx;
}
};
} // namespace
void SDNodeInfo::verifyNode(const SelectionDAG &DAG, const SDNode *N) const {
const SDNodeDesc &Desc = getDesc(N->getOpcode());
bool HasChain = Desc.hasProperty(SDNPHasChain);
bool HasOutGlue = Desc.hasProperty(SDNPOutGlue);
bool HasInGlue = Desc.hasProperty(SDNPInGlue);
bool HasOptInGlue = Desc.hasProperty(SDNPOptInGlue);
bool IsVariadic = Desc.hasProperty(SDNPVariadic);
unsigned ActualNumResults = N->getNumValues();
unsigned ExpectedNumResults = Desc.NumResults + HasChain + HasOutGlue;
if (ActualNumResults != ExpectedNumResults)
reportNodeError(DAG, N,
"invalid number of results; expected " +
Twine(ExpectedNumResults) + ", got " +
Twine(ActualNumResults));
// Chain result comes after all normal results.
if (HasChain) {
unsigned ChainResIdx = Desc.NumResults;
checkResultType(DAG, N, ChainResIdx, MVT::Other);
}
// Glue result comes last.
if (HasOutGlue) {
unsigned GlueResIdx = Desc.NumResults + HasChain;
checkResultType(DAG, N, GlueResIdx, MVT::Glue);
}
// In the most general case, the operands of a node go in the following order:
// chain, fix#0, ..., fix#M-1, var#0, ... var#N-1, glue
// If the number of operands is < 0, M can be any;
// If the node has SDNPVariadic property, N can be any.
bool HasOptionalOperands = Desc.NumOperands < 0 || IsVariadic;
unsigned ActualNumOperands = N->getNumOperands();
unsigned ExpectedMinNumOperands =
(Desc.NumOperands >= 0 ? Desc.NumOperands : 0) + HasChain + HasInGlue;
// Check the lower bound.
if (ActualNumOperands < ExpectedMinNumOperands) {
StringRef How = HasOptionalOperands ? "at least " : "";
reportNodeError(DAG, N,
"invalid number of operands; expected " + How +
Twine(ExpectedMinNumOperands) + ", got " +
Twine(ActualNumOperands));
}
// Check the upper bound. We can only do this if the number of fixed operands
// is known and there are no variadic operands.
if (Desc.NumOperands >= 0 && !IsVariadic) {
// Account for optional input glue.
unsigned ExpectedMaxNumOperands = ExpectedMinNumOperands + HasOptInGlue;
if (ActualNumOperands > ExpectedMaxNumOperands) {
StringRef How = HasOptInGlue ? "at most " : "";
reportNodeError(DAG, N,
"invalid number of operands; expected " + How +
Twine(ExpectedMaxNumOperands) + ", got " +
Twine(ActualNumOperands));
}
}
// Chain operand comes first.
if (HasChain)
checkOperandType(DAG, N, 0, MVT::Other);
// Glue operand comes last.
if (HasInGlue)
checkOperandType(DAG, N, ActualNumOperands - 1, MVT::Glue);
if (HasOptInGlue && ActualNumOperands >= 1 &&
N->getOperand(ActualNumOperands - 1).getValueType() == MVT::Glue)
HasInGlue = true;
// Check variadic operands. These should be Register or RegisterMask.
if (IsVariadic && Desc.NumOperands >= 0) {
unsigned VarOpStart = HasChain + Desc.NumOperands;
unsigned VarOpEnd = ActualNumOperands - HasInGlue;
for (unsigned OpIdx = VarOpStart; OpIdx != VarOpEnd; ++OpIdx) {
unsigned OpOpcode = N->getOperand(OpIdx).getOpcode();
if (OpOpcode != ISD::Register && OpOpcode != ISD::RegisterMask)
reportNodeError(DAG, N,
"variadic operand #" + Twine(OpIdx) +
" must be Register or RegisterMask");
}
}
unsigned VTHwMode =
DAG.getSubtarget().getHwMode(MCSubtargetInfo::HwMode_ValueType);
// Returns a constrained or constraining value (result or operand) of a node.
// ValIdx is the index of a node's value, as defined by SDTypeConstraint;
// that is, it indexes a node's operands after its results and ignores
// chain/glue values.
auto GetConstraintValue = [&](unsigned ValIdx) {
if (ValIdx < Desc.NumResults)
return SDNodeValue(N, ValIdx, /*IsRes=*/true);
return SDNodeValue(N, HasChain + (ValIdx - Desc.NumResults),
/*IsRes=*/false);
};
auto GetConstraintVT = [&](const SDTypeConstraint &C) {
if (!C.NumHwModes)
return static_cast<MVT::SimpleValueType>(C.VT);
for (auto [Mode, VT] : ArrayRef(&VTByHwModeTable[C.VT], C.NumHwModes))
if (Mode == VTHwMode)
return VT;
llvm_unreachable("No value type for this HW mode");
};
SmallString<128> ES;
raw_svector_ostream SS(ES);
for (const SDTypeConstraint &C : getConstraints(N->getOpcode())) {
SDNodeValue Val = GetConstraintValue(C.ConstrainedValIdx);
EVT VT = Val.getValueType();
switch (C.Kind) {
case SDTCisVT: {
EVT ExpectedVT = GetConstraintVT(C);
bool IsPtr = ExpectedVT == MVT::iPTR;
if (IsPtr)
ExpectedVT =
DAG.getTargetLoweringInfo().getPointerTy(DAG.getDataLayout());
if (VT != ExpectedVT) {
SS << Val << " must have type " << ExpectedVT;
if (IsPtr)
SS << " (iPTR)";
SS << ", but has type " << VT;
reportNodeError(DAG, N, SS.str());
}
break;
}
case SDTCisPtrTy:
break;
case SDTCisInt:
break;
case SDTCisFP:
break;
case SDTCisVec:
break;
case SDTCisSameAs:
break;
case SDTCisVTSmallerThanOp:
break;
case SDTCisOpSmallerThanOp:
break;
case SDTCisEltOfVec:
break;
case SDTCisSubVecOfVec:
break;
case SDTCVecEltisVT: {
EVT ExpectedVT = GetConstraintVT(C);
if (!VT.isVector()) {
SS << Val << " must have vector type";
reportNodeError(DAG, N, SS.str());
}
if (VT.getVectorElementType() != ExpectedVT) {
SS << Val << " must have " << ExpectedVT << " element type, but has "
<< VT.getVectorElementType() << " element type";
reportNodeError(DAG, N, SS.str());
}
break;
}
case SDTCisSameNumEltsAs:
break;
case SDTCisSameSizeAs:
break;
}
}
}
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