CodeGen/SelectionDAG/LegalizeDAG.cpp

*0b57cec5SDimitry Andric//===- LegalizeDAG.cpp - Implement SelectionDAG::Legalize -----------------===//
*0b57cec5SDimitry Andric//
*0b57cec5SDimitry Andric// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
*0b57cec5SDimitry Andric// See https://llvm.org/LICENSE.txt for license information.
*0b57cec5SDimitry Andric// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
*0b57cec5SDimitry Andric//
*0b57cec5SDimitry Andric//===----------------------------------------------------------------------===//
*0b57cec5SDimitry Andric//
*0b57cec5SDimitry Andric// This file implements the SelectionDAG::Legalize method.
*0b57cec5SDimitry Andric//
*0b57cec5SDimitry Andric//===----------------------------------------------------------------------===//
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric#include "llvm/ADT/APFloat.h"
*0b57cec5SDimitry Andric#include "llvm/ADT/APInt.h"
*0b57cec5SDimitry Andric#include "llvm/ADT/ArrayRef.h"
*0b57cec5SDimitry Andric#include "llvm/ADT/SetVector.h"
*0b57cec5SDimitry Andric#include "llvm/ADT/SmallPtrSet.h"
*0b57cec5SDimitry Andric#include "llvm/ADT/SmallSet.h"
*0b57cec5SDimitry Andric#include "llvm/ADT/SmallVector.h"
*0b57cec5SDimitry Andric#include "llvm/CodeGen/ISDOpcodes.h"
*0b57cec5SDimitry Andric#include "llvm/CodeGen/MachineFunction.h"
*0b57cec5SDimitry Andric#include "llvm/CodeGen/MachineJumpTableInfo.h"
*0b57cec5SDimitry Andric#include "llvm/CodeGen/MachineMemOperand.h"
*0b57cec5SDimitry Andric#include "llvm/CodeGen/RuntimeLibcalls.h"
*0b57cec5SDimitry Andric#include "llvm/CodeGen/SelectionDAG.h"
*0b57cec5SDimitry Andric#include "llvm/CodeGen/SelectionDAGNodes.h"
*0b57cec5SDimitry Andric#include "llvm/CodeGen/TargetFrameLowering.h"
*0b57cec5SDimitry Andric#include "llvm/CodeGen/TargetLowering.h"
*0b57cec5SDimitry Andric#include "llvm/CodeGen/TargetSubtargetInfo.h"
*0b57cec5SDimitry Andric#include "llvm/CodeGen/ValueTypes.h"
*0b57cec5SDimitry Andric#include "llvm/IR/CallingConv.h"
*0b57cec5SDimitry Andric#include "llvm/IR/Constants.h"
*0b57cec5SDimitry Andric#include "llvm/IR/DataLayout.h"
*0b57cec5SDimitry Andric#include "llvm/IR/DerivedTypes.h"
*0b57cec5SDimitry Andric#include "llvm/IR/Function.h"
*0b57cec5SDimitry Andric#include "llvm/IR/Metadata.h"
*0b57cec5SDimitry Andric#include "llvm/IR/Type.h"
*0b57cec5SDimitry Andric#include "llvm/Support/Casting.h"
*0b57cec5SDimitry Andric#include "llvm/Support/Compiler.h"
*0b57cec5SDimitry Andric#include "llvm/Support/Debug.h"
*0b57cec5SDimitry Andric#include "llvm/Support/ErrorHandling.h"
*0b57cec5SDimitry Andric#include "llvm/Support/MachineValueType.h"
*0b57cec5SDimitry Andric#include "llvm/Support/MathExtras.h"
*0b57cec5SDimitry Andric#include "llvm/Support/raw_ostream.h"
*0b57cec5SDimitry Andric#include "llvm/Target/TargetMachine.h"
*0b57cec5SDimitry Andric#include "llvm/Target/TargetOptions.h"
*0b57cec5SDimitry Andric#include <algorithm>
*0b57cec5SDimitry Andric#include <cassert>
*0b57cec5SDimitry Andric#include <cstdint>
*0b57cec5SDimitry Andric#include <tuple>
*0b57cec5SDimitry Andric#include <utility>
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andricusing namespace llvm;
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric#define DEBUG_TYPE "legalizedag"
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andricnamespace {
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric/// Keeps track of state when getting the sign of a floating-point value as an
*0b57cec5SDimitry Andric/// integer.
*0b57cec5SDimitry Andricstruct FloatSignAsInt {
*0b57cec5SDimitry Andric  EVT FloatVT;
*0b57cec5SDimitry Andric  SDValue Chain;
*0b57cec5SDimitry Andric  SDValue FloatPtr;
*0b57cec5SDimitry Andric  SDValue IntPtr;
*0b57cec5SDimitry Andric  MachinePointerInfo IntPointerInfo;
*0b57cec5SDimitry Andric  MachinePointerInfo FloatPointerInfo;
*0b57cec5SDimitry Andric  SDValue IntValue;
*0b57cec5SDimitry Andric  APInt SignMask;
*0b57cec5SDimitry Andric  uint8_t SignBit;
*0b57cec5SDimitry Andric};
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric//===----------------------------------------------------------------------===//
*0b57cec5SDimitry Andric/// This takes an arbitrary SelectionDAG as input and
*0b57cec5SDimitry Andric/// hacks on it until the target machine can handle it.  This involves
*0b57cec5SDimitry Andric/// eliminating value sizes the machine cannot handle (promoting small sizes to
*0b57cec5SDimitry Andric/// large sizes or splitting up large values into small values) as well as
*0b57cec5SDimitry Andric/// eliminating operations the machine cannot handle.
*0b57cec5SDimitry Andric///
*0b57cec5SDimitry Andric/// This code also does a small amount of optimization and recognition of idioms
*0b57cec5SDimitry Andric/// as part of its processing.  For example, if a target does not support a
*0b57cec5SDimitry Andric/// 'setcc' instruction efficiently, but does support 'brcc' instruction, this
*0b57cec5SDimitry Andric/// will attempt merge setcc and brc instructions into brcc's.
*0b57cec5SDimitry Andricclass SelectionDAGLegalize {
*0b57cec5SDimitry Andric  const TargetMachine &TM;
*0b57cec5SDimitry Andric  const TargetLowering &TLI;
*0b57cec5SDimitry Andric  SelectionDAG &DAG;
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric  /// The set of nodes which have already been legalized. We hold a
*0b57cec5SDimitry Andric  /// reference to it in order to update as necessary on node deletion.
*0b57cec5SDimitry Andric  SmallPtrSetImpl<SDNode *> &LegalizedNodes;
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric  /// A set of all the nodes updated during legalization.
*0b57cec5SDimitry Andric  SmallSetVector<SDNode *, 16> *UpdatedNodes;
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric  EVT getSetCCResultType(EVT VT) const {
*0b57cec5SDimitry Andric    return TLI.getSetCCResultType(DAG.getDataLayout(), *DAG.getContext(), VT);
*0b57cec5SDimitry Andric  }
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric  // Libcall insertion helpers.
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andricpublic:
*0b57cec5SDimitry Andric  SelectionDAGLegalize(SelectionDAG &DAG,
*0b57cec5SDimitry Andric                       SmallPtrSetImpl<SDNode *> &LegalizedNodes,
*0b57cec5SDimitry Andric                       SmallSetVector<SDNode *, 16> *UpdatedNodes = nullptr)
*0b57cec5SDimitry Andric      : TM(DAG.getTarget()), TLI(DAG.getTargetLoweringInfo()), DAG(DAG),
*0b57cec5SDimitry Andric        LegalizedNodes(LegalizedNodes), UpdatedNodes(UpdatedNodes) {}
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric  /// Legalizes the given operation.
*0b57cec5SDimitry Andric  void LegalizeOp(SDNode *Node);
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andricprivate:
*0b57cec5SDimitry Andric  SDValue OptimizeFloatStore(StoreSDNode *ST);
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric  void LegalizeLoadOps(SDNode *Node);
*0b57cec5SDimitry Andric  void LegalizeStoreOps(SDNode *Node);
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric  /// Some targets cannot handle a variable
*0b57cec5SDimitry Andric  /// insertion index for the INSERT_VECTOR_ELT instruction.  In this case, it
*0b57cec5SDimitry Andric  /// is necessary to spill the vector being inserted into to memory, perform
*0b57cec5SDimitry Andric  /// the insert there, and then read the result back.
*0b57cec5SDimitry Andric  SDValue PerformInsertVectorEltInMemory(SDValue Vec, SDValue Val, SDValue Idx,
*0b57cec5SDimitry Andric                                         const SDLoc &dl);
*0b57cec5SDimitry Andric  SDValue ExpandINSERT_VECTOR_ELT(SDValue Vec, SDValue Val, SDValue Idx,
*0b57cec5SDimitry Andric                                  const SDLoc &dl);
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric  /// Return a vector shuffle operation which
*0b57cec5SDimitry Andric  /// performs the same shuffe in terms of order or result bytes, but on a type
*0b57cec5SDimitry Andric  /// whose vector element type is narrower than the original shuffle type.
*0b57cec5SDimitry Andric  /// e.g. <v4i32> <0, 1, 0, 1> -> v8i16 <0, 1, 2, 3, 0, 1, 2, 3>
*0b57cec5SDimitry Andric  SDValue ShuffleWithNarrowerEltType(EVT NVT, EVT VT, const SDLoc &dl,
*0b57cec5SDimitry Andric                                     SDValue N1, SDValue N2,
*0b57cec5SDimitry Andric                                     ArrayRef<int> Mask) const;
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric  bool LegalizeSetCCCondCode(EVT VT, SDValue &LHS, SDValue &RHS, SDValue &CC,
*0b57cec5SDimitry Andric                             bool &NeedInvert, const SDLoc &dl);
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric  SDValue ExpandLibCall(RTLIB::Libcall LC, SDNode *Node, bool isSigned);
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric  std::pair<SDValue, SDValue> ExpandChainLibCall(RTLIB::Libcall LC,
*0b57cec5SDimitry Andric                                                 SDNode *Node, bool isSigned);
*0b57cec5SDimitry Andric  SDValue ExpandFPLibCall(SDNode *Node, RTLIB::Libcall Call_F32,
*0b57cec5SDimitry Andric                          RTLIB::Libcall Call_F64, RTLIB::Libcall Call_F80,
*0b57cec5SDimitry Andric                          RTLIB::Libcall Call_F128,
*0b57cec5SDimitry Andric                          RTLIB::Libcall Call_PPCF128);
*0b57cec5SDimitry Andric  SDValue ExpandIntLibCall(SDNode *Node, bool isSigned,
*0b57cec5SDimitry Andric                           RTLIB::Libcall Call_I8,
*0b57cec5SDimitry Andric                           RTLIB::Libcall Call_I16,
*0b57cec5SDimitry Andric                           RTLIB::Libcall Call_I32,
*0b57cec5SDimitry Andric                           RTLIB::Libcall Call_I64,
*0b57cec5SDimitry Andric                           RTLIB::Libcall Call_I128);
*0b57cec5SDimitry Andric  SDValue ExpandArgFPLibCall(SDNode *Node,
*0b57cec5SDimitry Andric                             RTLIB::Libcall Call_F32, RTLIB::Libcall Call_F64,
*0b57cec5SDimitry Andric                             RTLIB::Libcall Call_F80, RTLIB::Libcall Call_F128,
*0b57cec5SDimitry Andric                             RTLIB::Libcall Call_PPCF128);
*0b57cec5SDimitry Andric  void ExpandDivRemLibCall(SDNode *Node, SmallVectorImpl<SDValue> &Results);
*0b57cec5SDimitry Andric  void ExpandSinCosLibCall(SDNode *Node, SmallVectorImpl<SDValue> &Results);
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric  SDValue EmitStackConvert(SDValue SrcOp, EVT SlotVT, EVT DestVT,
*0b57cec5SDimitry Andric                           const SDLoc &dl);
*0b57cec5SDimitry Andric  SDValue EmitStackConvert(SDValue SrcOp, EVT SlotVT, EVT DestVT,
*0b57cec5SDimitry Andric                           const SDLoc &dl, SDValue ChainIn);
*0b57cec5SDimitry Andric  SDValue ExpandBUILD_VECTOR(SDNode *Node);
*0b57cec5SDimitry Andric  SDValue ExpandSCALAR_TO_VECTOR(SDNode *Node);
*0b57cec5SDimitry Andric  void ExpandDYNAMIC_STACKALLOC(SDNode *Node,
*0b57cec5SDimitry Andric                                SmallVectorImpl<SDValue> &Results);
*0b57cec5SDimitry Andric  void getSignAsIntValue(FloatSignAsInt &State, const SDLoc &DL,
*0b57cec5SDimitry Andric                         SDValue Value) const;
*0b57cec5SDimitry Andric  SDValue modifySignAsInt(const FloatSignAsInt &State, const SDLoc &DL,
*0b57cec5SDimitry Andric                          SDValue NewIntValue) const;
*0b57cec5SDimitry Andric  SDValue ExpandFCOPYSIGN(SDNode *Node) const;
*0b57cec5SDimitry Andric  SDValue ExpandFABS(SDNode *Node) const;
*0b57cec5SDimitry Andric  SDValue ExpandLegalINT_TO_FP(bool isSigned, SDValue Op0, EVT DestVT,
*0b57cec5SDimitry Andric                               const SDLoc &dl);
*0b57cec5SDimitry Andric  SDValue PromoteLegalINT_TO_FP(SDValue LegalOp, EVT DestVT, bool isSigned,
*0b57cec5SDimitry Andric                                const SDLoc &dl);
*0b57cec5SDimitry Andric  SDValue PromoteLegalFP_TO_INT(SDValue LegalOp, EVT DestVT, bool isSigned,
*0b57cec5SDimitry Andric                                const SDLoc &dl);
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric  SDValue ExpandBITREVERSE(SDValue Op, const SDLoc &dl);
*0b57cec5SDimitry Andric  SDValue ExpandBSWAP(SDValue Op, const SDLoc &dl);
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric  SDValue ExpandExtractFromVectorThroughStack(SDValue Op);
*0b57cec5SDimitry Andric  SDValue ExpandInsertToVectorThroughStack(SDValue Op);
*0b57cec5SDimitry Andric  SDValue ExpandVectorBuildThroughStack(SDNode* Node);
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric  SDValue ExpandConstantFP(ConstantFPSDNode *CFP, bool UseCP);
*0b57cec5SDimitry Andric  SDValue ExpandConstant(ConstantSDNode *CP);
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric  // if ExpandNode returns false, LegalizeOp falls back to ConvertNodeToLibcall
*0b57cec5SDimitry Andric  bool ExpandNode(SDNode *Node);
*0b57cec5SDimitry Andric  void ConvertNodeToLibcall(SDNode *Node);
*0b57cec5SDimitry Andric  void PromoteNode(SDNode *Node);
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andricpublic:
*0b57cec5SDimitry Andric  // Node replacement helpers
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric  void ReplacedNode(SDNode *N) {
*0b57cec5SDimitry Andric    LegalizedNodes.erase(N);
*0b57cec5SDimitry Andric    if (UpdatedNodes)
*0b57cec5SDimitry Andric      UpdatedNodes->insert(N);
*0b57cec5SDimitry Andric  }
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric  void ReplaceNode(SDNode *Old, SDNode *New) {
*0b57cec5SDimitry Andric    LLVM_DEBUG(dbgs() << " ... replacing: "; Old->dump(&DAG);
*0b57cec5SDimitry Andric               dbgs() << "     with:      "; New->dump(&DAG));
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric    assert(Old->getNumValues() == New->getNumValues() &&
*0b57cec5SDimitry Andric           "Replacing one node with another that produces a different number "
*0b57cec5SDimitry Andric           "of values!");
*0b57cec5SDimitry Andric    DAG.ReplaceAllUsesWith(Old, New);
*0b57cec5SDimitry Andric    if (UpdatedNodes)
*0b57cec5SDimitry Andric      UpdatedNodes->insert(New);
*0b57cec5SDimitry Andric    ReplacedNode(Old);
*0b57cec5SDimitry Andric  }
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric  void ReplaceNode(SDValue Old, SDValue New) {
*0b57cec5SDimitry Andric    LLVM_DEBUG(dbgs() << " ... replacing: "; Old->dump(&DAG);
*0b57cec5SDimitry Andric               dbgs() << "     with:      "; New->dump(&DAG));
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric    DAG.ReplaceAllUsesWith(Old, New);
*0b57cec5SDimitry Andric    if (UpdatedNodes)
*0b57cec5SDimitry Andric      UpdatedNodes->insert(New.getNode());
*0b57cec5SDimitry Andric    ReplacedNode(Old.getNode());
*0b57cec5SDimitry Andric  }
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric  void ReplaceNode(SDNode *Old, const SDValue *New) {
*0b57cec5SDimitry Andric    LLVM_DEBUG(dbgs() << " ... replacing: "; Old->dump(&DAG));
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric    DAG.ReplaceAllUsesWith(Old, New);
*0b57cec5SDimitry Andric    for (unsigned i = 0, e = Old->getNumValues(); i != e; ++i) {
*0b57cec5SDimitry Andric      LLVM_DEBUG(dbgs() << (i == 0 ? "     with:      " : "      and:      ");
*0b57cec5SDimitry Andric                 New[i]->dump(&DAG));
*0b57cec5SDimitry Andric      if (UpdatedNodes)
*0b57cec5SDimitry Andric        UpdatedNodes->insert(New[i].getNode());
*0b57cec5SDimitry Andric    }
*0b57cec5SDimitry Andric    ReplacedNode(Old);
*0b57cec5SDimitry Andric  }
*0b57cec5SDimitry Andric};
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric} // end anonymous namespace
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric/// Return a vector shuffle operation which
*0b57cec5SDimitry Andric/// performs the same shuffle in terms of order or result bytes, but on a type
*0b57cec5SDimitry Andric/// whose vector element type is narrower than the original shuffle type.
*0b57cec5SDimitry Andric/// e.g. <v4i32> <0, 1, 0, 1> -> v8i16 <0, 1, 2, 3, 0, 1, 2, 3>
*0b57cec5SDimitry AndricSDValue SelectionDAGLegalize::ShuffleWithNarrowerEltType(
*0b57cec5SDimitry Andric    EVT NVT, EVT VT, const SDLoc &dl, SDValue N1, SDValue N2,
*0b57cec5SDimitry Andric    ArrayRef<int> Mask) const {
*0b57cec5SDimitry Andric  unsigned NumMaskElts = VT.getVectorNumElements();
*0b57cec5SDimitry Andric  unsigned NumDestElts = NVT.getVectorNumElements();
*0b57cec5SDimitry Andric  unsigned NumEltsGrowth = NumDestElts / NumMaskElts;
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric  assert(NumEltsGrowth && "Cannot promote to vector type with fewer elts!");
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric  if (NumEltsGrowth == 1)
*0b57cec5SDimitry Andric    return DAG.getVectorShuffle(NVT, dl, N1, N2, Mask);
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric  SmallVector<int, 8> NewMask;
*0b57cec5SDimitry Andric  for (unsigned i = 0; i != NumMaskElts; ++i) {
*0b57cec5SDimitry Andric    int Idx = Mask[i];
*0b57cec5SDimitry Andric    for (unsigned j = 0; j != NumEltsGrowth; ++j) {
*0b57cec5SDimitry Andric      if (Idx < 0)
*0b57cec5SDimitry Andric        NewMask.push_back(-1);
*0b57cec5SDimitry Andric      else
*0b57cec5SDimitry Andric        NewMask.push_back(Idx * NumEltsGrowth + j);
*0b57cec5SDimitry Andric    }
*0b57cec5SDimitry Andric  }
*0b57cec5SDimitry Andric  assert(NewMask.size() == NumDestElts && "Non-integer NumEltsGrowth?");
*0b57cec5SDimitry Andric  assert(TLI.isShuffleMaskLegal(NewMask, NVT) && "Shuffle not legal?");
*0b57cec5SDimitry Andric  return DAG.getVectorShuffle(NVT, dl, N1, N2, NewMask);
*0b57cec5SDimitry Andric}
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric/// Expands the ConstantFP node to an integer constant or
*0b57cec5SDimitry Andric/// a load from the constant pool.
*0b57cec5SDimitry AndricSDValue
*0b57cec5SDimitry AndricSelectionDAGLegalize::ExpandConstantFP(ConstantFPSDNode *CFP, bool UseCP) {
*0b57cec5SDimitry Andric  bool Extend = false;
*0b57cec5SDimitry Andric  SDLoc dl(CFP);
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric  // If a FP immediate is precise when represented as a float and if the
*0b57cec5SDimitry Andric  // target can do an extending load from float to double, we put it into
*0b57cec5SDimitry Andric  // the constant pool as a float, even if it's is statically typed as a
*0b57cec5SDimitry Andric  // double.  This shrinks FP constants and canonicalizes them for targets where
*0b57cec5SDimitry Andric  // an FP extending load is the same cost as a normal load (such as on the x87
*0b57cec5SDimitry Andric  // fp stack or PPC FP unit).
*0b57cec5SDimitry Andric  EVT VT = CFP->getValueType(0);
*0b57cec5SDimitry Andric  ConstantFP *LLVMC = const_cast<ConstantFP*>(CFP->getConstantFPValue());
*0b57cec5SDimitry Andric  if (!UseCP) {
*0b57cec5SDimitry Andric    assert((VT == MVT::f64 || VT == MVT::f32) && "Invalid type expansion");
*0b57cec5SDimitry Andric    return DAG.getConstant(LLVMC->getValueAPF().bitcastToAPInt(), dl,
*0b57cec5SDimitry Andric                           (VT == MVT::f64) ? MVT::i64 : MVT::i32);
*0b57cec5SDimitry Andric  }
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric  APFloat APF = CFP->getValueAPF();
*0b57cec5SDimitry Andric  EVT OrigVT = VT;
*0b57cec5SDimitry Andric  EVT SVT = VT;
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric  // We don't want to shrink SNaNs. Converting the SNaN back to its real type
*0b57cec5SDimitry Andric  // can cause it to be changed into a QNaN on some platforms (e.g. on SystemZ).
*0b57cec5SDimitry Andric  if (!APF.isSignaling()) {
*0b57cec5SDimitry Andric    while (SVT != MVT::f32 && SVT != MVT::f16) {
*0b57cec5SDimitry Andric      SVT = (MVT::SimpleValueType)(SVT.getSimpleVT().SimpleTy - 1);
*0b57cec5SDimitry Andric      if (ConstantFPSDNode::isValueValidForType(SVT, APF) &&
*0b57cec5SDimitry Andric          // Only do this if the target has a native EXTLOAD instruction from
*0b57cec5SDimitry Andric          // smaller type.
*0b57cec5SDimitry Andric          TLI.isLoadExtLegal(ISD::EXTLOAD, OrigVT, SVT) &&
*0b57cec5SDimitry Andric          TLI.ShouldShrinkFPConstant(OrigVT)) {
*0b57cec5SDimitry Andric        Type *SType = SVT.getTypeForEVT(*DAG.getContext());
*0b57cec5SDimitry Andric        LLVMC = cast<ConstantFP>(ConstantExpr::getFPTrunc(LLVMC, SType));
*0b57cec5SDimitry Andric        VT = SVT;
*0b57cec5SDimitry Andric        Extend = true;
*0b57cec5SDimitry Andric      }
*0b57cec5SDimitry Andric    }
*0b57cec5SDimitry Andric  }
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric  SDValue CPIdx =
*0b57cec5SDimitry Andric      DAG.getConstantPool(LLVMC, TLI.getPointerTy(DAG.getDataLayout()));
*0b57cec5SDimitry Andric  unsigned Alignment = cast<ConstantPoolSDNode>(CPIdx)->getAlignment();
*0b57cec5SDimitry Andric  if (Extend) {
*0b57cec5SDimitry Andric    SDValue Result = DAG.getExtLoad(
*0b57cec5SDimitry Andric        ISD::EXTLOAD, dl, OrigVT, DAG.getEntryNode(), CPIdx,
*0b57cec5SDimitry Andric        MachinePointerInfo::getConstantPool(DAG.getMachineFunction()), VT,
*0b57cec5SDimitry Andric        Alignment);
*0b57cec5SDimitry Andric    return Result;
*0b57cec5SDimitry Andric  }
*0b57cec5SDimitry Andric  SDValue Result = DAG.getLoad(
*0b57cec5SDimitry Andric      OrigVT, dl, DAG.getEntryNode(), CPIdx,
*0b57cec5SDimitry Andric      MachinePointerInfo::getConstantPool(DAG.getMachineFunction()), Alignment);
*0b57cec5SDimitry Andric  return Result;
*0b57cec5SDimitry Andric}
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric/// Expands the Constant node to a load from the constant pool.
*0b57cec5SDimitry AndricSDValue SelectionDAGLegalize::ExpandConstant(ConstantSDNode *CP) {
*0b57cec5SDimitry Andric  SDLoc dl(CP);
*0b57cec5SDimitry Andric  EVT VT = CP->getValueType(0);
*0b57cec5SDimitry Andric  SDValue CPIdx = DAG.getConstantPool(CP->getConstantIntValue(),
*0b57cec5SDimitry Andric                                      TLI.getPointerTy(DAG.getDataLayout()));
*0b57cec5SDimitry Andric  unsigned Alignment = cast<ConstantPoolSDNode>(CPIdx)->getAlignment();
*0b57cec5SDimitry Andric  SDValue Result = DAG.getLoad(
*0b57cec5SDimitry Andric      VT, dl, DAG.getEntryNode(), CPIdx,
*0b57cec5SDimitry Andric      MachinePointerInfo::getConstantPool(DAG.getMachineFunction()), Alignment);
*0b57cec5SDimitry Andric  return Result;
*0b57cec5SDimitry Andric}
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric/// Some target cannot handle a variable insertion index for the
*0b57cec5SDimitry Andric/// INSERT_VECTOR_ELT instruction.  In this case, it
*0b57cec5SDimitry Andric/// is necessary to spill the vector being inserted into to memory, perform
*0b57cec5SDimitry Andric/// the insert there, and then read the result back.
*0b57cec5SDimitry AndricSDValue SelectionDAGLegalize::PerformInsertVectorEltInMemory(SDValue Vec,
*0b57cec5SDimitry Andric                                                             SDValue Val,
*0b57cec5SDimitry Andric                                                             SDValue Idx,
*0b57cec5SDimitry Andric                                                             const SDLoc &dl) {
*0b57cec5SDimitry Andric  SDValue Tmp1 = Vec;
*0b57cec5SDimitry Andric  SDValue Tmp2 = Val;
*0b57cec5SDimitry Andric  SDValue Tmp3 = Idx;
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric  // If the target doesn't support this, we have to spill the input vector
*0b57cec5SDimitry Andric  // to a temporary stack slot, update the element, then reload it.  This is
*0b57cec5SDimitry Andric  // badness.  We could also load the value into a vector register (either
*0b57cec5SDimitry Andric  // with a "move to register" or "extload into register" instruction, then
*0b57cec5SDimitry Andric  // permute it into place, if the idx is a constant and if the idx is
*0b57cec5SDimitry Andric  // supported by the target.
*0b57cec5SDimitry Andric  EVT VT    = Tmp1.getValueType();
*0b57cec5SDimitry Andric  EVT EltVT = VT.getVectorElementType();
*0b57cec5SDimitry Andric  SDValue StackPtr = DAG.CreateStackTemporary(VT);
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric  int SPFI = cast<FrameIndexSDNode>(StackPtr.getNode())->getIndex();
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric  // Store the vector.
*0b57cec5SDimitry Andric  SDValue Ch = DAG.getStore(
*0b57cec5SDimitry Andric      DAG.getEntryNode(), dl, Tmp1, StackPtr,
*0b57cec5SDimitry Andric      MachinePointerInfo::getFixedStack(DAG.getMachineFunction(), SPFI));
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric  SDValue StackPtr2 = TLI.getVectorElementPointer(DAG, StackPtr, VT, Tmp3);
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric  // Store the scalar value.
*0b57cec5SDimitry Andric  Ch = DAG.getTruncStore(Ch, dl, Tmp2, StackPtr2, MachinePointerInfo(), EltVT);
*0b57cec5SDimitry Andric  // Load the updated vector.
*0b57cec5SDimitry Andric  return DAG.getLoad(VT, dl, Ch, StackPtr, MachinePointerInfo::getFixedStack(
*0b57cec5SDimitry Andric                                               DAG.getMachineFunction(), SPFI));
*0b57cec5SDimitry Andric}
*0b57cec5SDimitry Andric
*0b57cec5SDimitry AndricSDValue SelectionDAGLegalize::ExpandINSERT_VECTOR_ELT(SDValue Vec, SDValue Val,
*0b57cec5SDimitry Andric                                                      SDValue Idx,
*0b57cec5SDimitry Andric                                                      const SDLoc &dl) {
*0b57cec5SDimitry Andric  if (ConstantSDNode *InsertPos = dyn_cast<ConstantSDNode>(Idx)) {
*0b57cec5SDimitry Andric    // SCALAR_TO_VECTOR requires that the type of the value being inserted
*0b57cec5SDimitry Andric    // match the element type of the vector being created, except for
*0b57cec5SDimitry Andric    // integers in which case the inserted value can be over width.
*0b57cec5SDimitry Andric    EVT EltVT = Vec.getValueType().getVectorElementType();
*0b57cec5SDimitry Andric    if (Val.getValueType() == EltVT ||
*0b57cec5SDimitry Andric        (EltVT.isInteger() && Val.getValueType().bitsGE(EltVT))) {
*0b57cec5SDimitry Andric      SDValue ScVec = DAG.getNode(ISD::SCALAR_TO_VECTOR, dl,
*0b57cec5SDimitry Andric                                  Vec.getValueType(), Val);
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric      unsigned NumElts = Vec.getValueType().getVectorNumElements();
*0b57cec5SDimitry Andric      // We generate a shuffle of InVec and ScVec, so the shuffle mask
*0b57cec5SDimitry Andric      // should be 0,1,2,3,4,5... with the appropriate element replaced with
*0b57cec5SDimitry Andric      // elt 0 of the RHS.
*0b57cec5SDimitry Andric      SmallVector<int, 8> ShufOps;
*0b57cec5SDimitry Andric      for (unsigned i = 0; i != NumElts; ++i)
*0b57cec5SDimitry Andric        ShufOps.push_back(i != InsertPos->getZExtValue() ? i : NumElts);
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric      return DAG.getVectorShuffle(Vec.getValueType(), dl, Vec, ScVec, ShufOps);
*0b57cec5SDimitry Andric    }
*0b57cec5SDimitry Andric  }
*0b57cec5SDimitry Andric  return PerformInsertVectorEltInMemory(Vec, Val, Idx, dl);
*0b57cec5SDimitry Andric}
*0b57cec5SDimitry Andric
*0b57cec5SDimitry AndricSDValue SelectionDAGLegalize::OptimizeFloatStore(StoreSDNode* ST) {
*0b57cec5SDimitry Andric  LLVM_DEBUG(dbgs() << "Optimizing float store operations\n");
*0b57cec5SDimitry Andric  // Turn 'store float 1.0, Ptr' -> 'store int 0x12345678, Ptr'
*0b57cec5SDimitry Andric  // FIXME: We shouldn't do this for TargetConstantFP's.
*0b57cec5SDimitry Andric  // FIXME: move this to the DAG Combiner!  Note that we can't regress due
*0b57cec5SDimitry Andric  // to phase ordering between legalized code and the dag combiner.  This
*0b57cec5SDimitry Andric  // probably means that we need to integrate dag combiner and legalizer
*0b57cec5SDimitry Andric  // together.
*0b57cec5SDimitry Andric  // We generally can't do this one for long doubles.
*0b57cec5SDimitry Andric  SDValue Chain = ST->getChain();
*0b57cec5SDimitry Andric  SDValue Ptr = ST->getBasePtr();
*0b57cec5SDimitry Andric  unsigned Alignment = ST->getAlignment();
*0b57cec5SDimitry Andric  MachineMemOperand::Flags MMOFlags = ST->getMemOperand()->getFlags();
*0b57cec5SDimitry Andric  AAMDNodes AAInfo = ST->getAAInfo();
*0b57cec5SDimitry Andric  SDLoc dl(ST);
*0b57cec5SDimitry Andric  if (ConstantFPSDNode *CFP = dyn_cast<ConstantFPSDNode>(ST->getValue())) {
*0b57cec5SDimitry Andric    if (CFP->getValueType(0) == MVT::f32 &&
*0b57cec5SDimitry Andric        TLI.isTypeLegal(MVT::i32)) {
*0b57cec5SDimitry Andric      SDValue Con = DAG.getConstant(CFP->getValueAPF().
*0b57cec5SDimitry Andric                                      bitcastToAPInt().zextOrTrunc(32),
*0b57cec5SDimitry Andric                                    SDLoc(CFP), MVT::i32);
*0b57cec5SDimitry Andric      return DAG.getStore(Chain, dl, Con, Ptr, ST->getPointerInfo(), Alignment,
*0b57cec5SDimitry Andric                          MMOFlags, AAInfo);
*0b57cec5SDimitry Andric    }
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric    if (CFP->getValueType(0) == MVT::f64) {
*0b57cec5SDimitry Andric      // If this target supports 64-bit registers, do a single 64-bit store.
*0b57cec5SDimitry Andric      if (TLI.isTypeLegal(MVT::i64)) {
*0b57cec5SDimitry Andric        SDValue Con = DAG.getConstant(CFP->getValueAPF().bitcastToAPInt().
*0b57cec5SDimitry Andric                                      zextOrTrunc(64), SDLoc(CFP), MVT::i64);
*0b57cec5SDimitry Andric        return DAG.getStore(Chain, dl, Con, Ptr, ST->getPointerInfo(),
*0b57cec5SDimitry Andric                            Alignment, MMOFlags, AAInfo);
*0b57cec5SDimitry Andric      }
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric      if (TLI.isTypeLegal(MVT::i32) && !ST->isVolatile()) {
*0b57cec5SDimitry Andric        // Otherwise, if the target supports 32-bit registers, use 2 32-bit
*0b57cec5SDimitry Andric        // stores.  If the target supports neither 32- nor 64-bits, this
*0b57cec5SDimitry Andric        // xform is certainly not worth it.
*0b57cec5SDimitry Andric        const APInt &IntVal = CFP->getValueAPF().bitcastToAPInt();
*0b57cec5SDimitry Andric        SDValue Lo = DAG.getConstant(IntVal.trunc(32), dl, MVT::i32);
*0b57cec5SDimitry Andric        SDValue Hi = DAG.getConstant(IntVal.lshr(32).trunc(32), dl, MVT::i32);
*0b57cec5SDimitry Andric        if (DAG.getDataLayout().isBigEndian())
*0b57cec5SDimitry Andric          std::swap(Lo, Hi);
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric        Lo = DAG.getStore(Chain, dl, Lo, Ptr, ST->getPointerInfo(), Alignment,
*0b57cec5SDimitry Andric                          MMOFlags, AAInfo);
*0b57cec5SDimitry Andric        Ptr = DAG.getNode(ISD::ADD, dl, Ptr.getValueType(), Ptr,
*0b57cec5SDimitry Andric                          DAG.getConstant(4, dl, Ptr.getValueType()));
*0b57cec5SDimitry Andric        Hi = DAG.getStore(Chain, dl, Hi, Ptr,
*0b57cec5SDimitry Andric                          ST->getPointerInfo().getWithOffset(4),
*0b57cec5SDimitry Andric                          MinAlign(Alignment, 4U), MMOFlags, AAInfo);
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric        return DAG.getNode(ISD::TokenFactor, dl, MVT::Other, Lo, Hi);
*0b57cec5SDimitry Andric      }
*0b57cec5SDimitry Andric    }
*0b57cec5SDimitry Andric  }
*0b57cec5SDimitry Andric  return SDValue(nullptr, 0);
*0b57cec5SDimitry Andric}
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andricvoid SelectionDAGLegalize::LegalizeStoreOps(SDNode *Node) {
*0b57cec5SDimitry Andric  StoreSDNode *ST = cast<StoreSDNode>(Node);
*0b57cec5SDimitry Andric  SDValue Chain = ST->getChain();
*0b57cec5SDimitry Andric  SDValue Ptr = ST->getBasePtr();
*0b57cec5SDimitry Andric  SDLoc dl(Node);
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric  unsigned Alignment = ST->getAlignment();
*0b57cec5SDimitry Andric  MachineMemOperand::Flags MMOFlags = ST->getMemOperand()->getFlags();
*0b57cec5SDimitry Andric  AAMDNodes AAInfo = ST->getAAInfo();
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric  if (!ST->isTruncatingStore()) {
*0b57cec5SDimitry Andric    LLVM_DEBUG(dbgs() << "Legalizing store operation\n");
*0b57cec5SDimitry Andric    if (SDNode *OptStore = OptimizeFloatStore(ST).getNode()) {
*0b57cec5SDimitry Andric      ReplaceNode(ST, OptStore);
*0b57cec5SDimitry Andric      return;
*0b57cec5SDimitry Andric    }
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric    SDValue Value = ST->getValue();
*0b57cec5SDimitry Andric    MVT VT = Value.getSimpleValueType();
*0b57cec5SDimitry Andric    switch (TLI.getOperationAction(ISD::STORE, VT)) {
*0b57cec5SDimitry Andric    default: llvm_unreachable("This action is not supported yet!");
*0b57cec5SDimitry Andric    case TargetLowering::Legal: {
*0b57cec5SDimitry Andric      // If this is an unaligned store and the target doesn't support it,
*0b57cec5SDimitry Andric      // expand it.
*0b57cec5SDimitry Andric      EVT MemVT = ST->getMemoryVT();
*0b57cec5SDimitry Andric      const DataLayout &DL = DAG.getDataLayout();
*0b57cec5SDimitry Andric      if (!TLI.allowsMemoryAccess(*DAG.getContext(), DL, MemVT,
*0b57cec5SDimitry Andric                                  *ST->getMemOperand())) {
*0b57cec5SDimitry Andric        LLVM_DEBUG(dbgs() << "Expanding unsupported unaligned store\n");
*0b57cec5SDimitry Andric        SDValue Result = TLI.expandUnalignedStore(ST, DAG);
*0b57cec5SDimitry Andric        ReplaceNode(SDValue(ST, 0), Result);
*0b57cec5SDimitry Andric      } else
*0b57cec5SDimitry Andric        LLVM_DEBUG(dbgs() << "Legal store\n");
*0b57cec5SDimitry Andric      break;
*0b57cec5SDimitry Andric    }
*0b57cec5SDimitry Andric    case TargetLowering::Custom: {
*0b57cec5SDimitry Andric      LLVM_DEBUG(dbgs() << "Trying custom lowering\n");
*0b57cec5SDimitry Andric      SDValue Res = TLI.LowerOperation(SDValue(Node, 0), DAG);
*0b57cec5SDimitry Andric      if (Res && Res != SDValue(Node, 0))
*0b57cec5SDimitry Andric        ReplaceNode(SDValue(Node, 0), Res);
*0b57cec5SDimitry Andric      return;
*0b57cec5SDimitry Andric    }
*0b57cec5SDimitry Andric    case TargetLowering::Promote: {
*0b57cec5SDimitry Andric      MVT NVT = TLI.getTypeToPromoteTo(ISD::STORE, VT);
*0b57cec5SDimitry Andric      assert(NVT.getSizeInBits() == VT.getSizeInBits() &&
*0b57cec5SDimitry Andric             "Can only promote stores to same size type");
*0b57cec5SDimitry Andric      Value = DAG.getNode(ISD::BITCAST, dl, NVT, Value);
*0b57cec5SDimitry Andric      SDValue Result =
*0b57cec5SDimitry Andric          DAG.getStore(Chain, dl, Value, Ptr, ST->getPointerInfo(),
*0b57cec5SDimitry Andric                       Alignment, MMOFlags, AAInfo);
*0b57cec5SDimitry Andric      ReplaceNode(SDValue(Node, 0), Result);
*0b57cec5SDimitry Andric      break;
*0b57cec5SDimitry Andric    }
*0b57cec5SDimitry Andric    }
*0b57cec5SDimitry Andric    return;
*0b57cec5SDimitry Andric  }
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric  LLVM_DEBUG(dbgs() << "Legalizing truncating store operations\n");
*0b57cec5SDimitry Andric  SDValue Value = ST->getValue();
*0b57cec5SDimitry Andric  EVT StVT = ST->getMemoryVT();
*0b57cec5SDimitry Andric  unsigned StWidth = StVT.getSizeInBits();
*0b57cec5SDimitry Andric  auto &DL = DAG.getDataLayout();
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric  if (StWidth != StVT.getStoreSizeInBits()) {
*0b57cec5SDimitry Andric    // Promote to a byte-sized store with upper bits zero if not
*0b57cec5SDimitry Andric    // storing an integral number of bytes.  For example, promote
*0b57cec5SDimitry Andric    // TRUNCSTORE:i1 X -> TRUNCSTORE:i8 (and X, 1)
*0b57cec5SDimitry Andric    EVT NVT = EVT::getIntegerVT(*DAG.getContext(),
*0b57cec5SDimitry Andric                                StVT.getStoreSizeInBits());
*0b57cec5SDimitry Andric    Value = DAG.getZeroExtendInReg(Value, dl, StVT);
*0b57cec5SDimitry Andric    SDValue Result =
*0b57cec5SDimitry Andric        DAG.getTruncStore(Chain, dl, Value, Ptr, ST->getPointerInfo(), NVT,
*0b57cec5SDimitry Andric                          Alignment, MMOFlags, AAInfo);
*0b57cec5SDimitry Andric    ReplaceNode(SDValue(Node, 0), Result);
*0b57cec5SDimitry Andric  } else if (StWidth & (StWidth - 1)) {
*0b57cec5SDimitry Andric    // If not storing a power-of-2 number of bits, expand as two stores.
*0b57cec5SDimitry Andric    assert(!StVT.isVector() && "Unsupported truncstore!");
*0b57cec5SDimitry Andric    unsigned LogStWidth = Log2_32(StWidth);
*0b57cec5SDimitry Andric    assert(LogStWidth < 32);
*0b57cec5SDimitry Andric    unsigned RoundWidth = 1 << LogStWidth;
*0b57cec5SDimitry Andric    assert(RoundWidth < StWidth);
*0b57cec5SDimitry Andric    unsigned ExtraWidth = StWidth - RoundWidth;
*0b57cec5SDimitry Andric    assert(ExtraWidth < RoundWidth);
*0b57cec5SDimitry Andric    assert(!(RoundWidth % 8) && !(ExtraWidth % 8) &&
*0b57cec5SDimitry Andric           "Store size not an integral number of bytes!");
*0b57cec5SDimitry Andric    EVT RoundVT = EVT::getIntegerVT(*DAG.getContext(), RoundWidth);
*0b57cec5SDimitry Andric    EVT ExtraVT = EVT::getIntegerVT(*DAG.getContext(), ExtraWidth);
*0b57cec5SDimitry Andric    SDValue Lo, Hi;
*0b57cec5SDimitry Andric    unsigned IncrementSize;
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric    if (DL.isLittleEndian()) {
*0b57cec5SDimitry Andric      // TRUNCSTORE:i24 X -> TRUNCSTORE:i16 X, TRUNCSTORE@+2:i8 (srl X, 16)
*0b57cec5SDimitry Andric      // Store the bottom RoundWidth bits.
*0b57cec5SDimitry Andric      Lo = DAG.getTruncStore(Chain, dl, Value, Ptr, ST->getPointerInfo(),
*0b57cec5SDimitry Andric                             RoundVT, Alignment, MMOFlags, AAInfo);
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric      // Store the remaining ExtraWidth bits.
*0b57cec5SDimitry Andric      IncrementSize = RoundWidth / 8;
*0b57cec5SDimitry Andric      Ptr = DAG.getNode(ISD::ADD, dl, Ptr.getValueType(), Ptr,
*0b57cec5SDimitry Andric                        DAG.getConstant(IncrementSize, dl,
*0b57cec5SDimitry Andric                                        Ptr.getValueType()));
*0b57cec5SDimitry Andric      Hi = DAG.getNode(
*0b57cec5SDimitry Andric          ISD::SRL, dl, Value.getValueType(), Value,
*0b57cec5SDimitry Andric          DAG.getConstant(RoundWidth, dl,
*0b57cec5SDimitry Andric                          TLI.getShiftAmountTy(Value.getValueType(), DL)));
*0b57cec5SDimitry Andric      Hi = DAG.getTruncStore(
*0b57cec5SDimitry Andric          Chain, dl, Hi, Ptr,
*0b57cec5SDimitry Andric          ST->getPointerInfo().getWithOffset(IncrementSize), ExtraVT,
*0b57cec5SDimitry Andric          MinAlign(Alignment, IncrementSize), MMOFlags, AAInfo);
*0b57cec5SDimitry Andric    } else {
*0b57cec5SDimitry Andric      // Big endian - avoid unaligned stores.
*0b57cec5SDimitry Andric      // TRUNCSTORE:i24 X -> TRUNCSTORE:i16 (srl X, 8), TRUNCSTORE@+2:i8 X
*0b57cec5SDimitry Andric      // Store the top RoundWidth bits.
*0b57cec5SDimitry Andric      Hi = DAG.getNode(
*0b57cec5SDimitry Andric          ISD::SRL, dl, Value.getValueType(), Value,
*0b57cec5SDimitry Andric          DAG.getConstant(ExtraWidth, dl,
*0b57cec5SDimitry Andric                          TLI.getShiftAmountTy(Value.getValueType(), DL)));
*0b57cec5SDimitry Andric      Hi = DAG.getTruncStore(Chain, dl, Hi, Ptr, ST->getPointerInfo(),
*0b57cec5SDimitry Andric                             RoundVT, Alignment, MMOFlags, AAInfo);
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric      // Store the remaining ExtraWidth bits.
*0b57cec5SDimitry Andric      IncrementSize = RoundWidth / 8;
*0b57cec5SDimitry Andric      Ptr = DAG.getNode(ISD::ADD, dl, Ptr.getValueType(), Ptr,
*0b57cec5SDimitry Andric                        DAG.getConstant(IncrementSize, dl,
*0b57cec5SDimitry Andric                                        Ptr.getValueType()));
*0b57cec5SDimitry Andric      Lo = DAG.getTruncStore(
*0b57cec5SDimitry Andric          Chain, dl, Value, Ptr,
*0b57cec5SDimitry Andric          ST->getPointerInfo().getWithOffset(IncrementSize), ExtraVT,
*0b57cec5SDimitry Andric          MinAlign(Alignment, IncrementSize), MMOFlags, AAInfo);
*0b57cec5SDimitry Andric    }
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric    // The order of the stores doesn't matter.
*0b57cec5SDimitry Andric    SDValue Result = DAG.getNode(ISD::TokenFactor, dl, MVT::Other, Lo, Hi);
*0b57cec5SDimitry Andric    ReplaceNode(SDValue(Node, 0), Result);
*0b57cec5SDimitry Andric  } else {
*0b57cec5SDimitry Andric    switch (TLI.getTruncStoreAction(ST->getValue().getValueType(), StVT)) {
*0b57cec5SDimitry Andric    default: llvm_unreachable("This action is not supported yet!");
*0b57cec5SDimitry Andric    case TargetLowering::Legal: {
*0b57cec5SDimitry Andric      EVT MemVT = ST->getMemoryVT();
*0b57cec5SDimitry Andric      // If this is an unaligned store and the target doesn't support it,
*0b57cec5SDimitry Andric      // expand it.
*0b57cec5SDimitry Andric      if (!TLI.allowsMemoryAccess(*DAG.getContext(), DL, MemVT,
*0b57cec5SDimitry Andric                                  *ST->getMemOperand())) {
*0b57cec5SDimitry Andric        SDValue Result = TLI.expandUnalignedStore(ST, DAG);
*0b57cec5SDimitry Andric        ReplaceNode(SDValue(ST, 0), Result);
*0b57cec5SDimitry Andric      }
*0b57cec5SDimitry Andric      break;
*0b57cec5SDimitry Andric    }
*0b57cec5SDimitry Andric    case TargetLowering::Custom: {
*0b57cec5SDimitry Andric      SDValue Res = TLI.LowerOperation(SDValue(Node, 0), DAG);
*0b57cec5SDimitry Andric      if (Res && Res != SDValue(Node, 0))
*0b57cec5SDimitry Andric        ReplaceNode(SDValue(Node, 0), Res);
*0b57cec5SDimitry Andric      return;
*0b57cec5SDimitry Andric    }
*0b57cec5SDimitry Andric    case TargetLowering::Expand:
*0b57cec5SDimitry Andric      assert(!StVT.isVector() &&
*0b57cec5SDimitry Andric             "Vector Stores are handled in LegalizeVectorOps");
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric      SDValue Result;
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric      // TRUNCSTORE:i16 i32 -> STORE i16
*0b57cec5SDimitry Andric      if (TLI.isTypeLegal(StVT)) {
*0b57cec5SDimitry Andric        Value = DAG.getNode(ISD::TRUNCATE, dl, StVT, Value);
*0b57cec5SDimitry Andric        Result = DAG.getStore(Chain, dl, Value, Ptr, ST->getPointerInfo(),
*0b57cec5SDimitry Andric                              Alignment, MMOFlags, AAInfo);
*0b57cec5SDimitry Andric      } else {
*0b57cec5SDimitry Andric        // The in-memory type isn't legal. Truncate to the type it would promote
*0b57cec5SDimitry Andric        // to, and then do a truncstore.
*0b57cec5SDimitry Andric        Value = DAG.getNode(ISD::TRUNCATE, dl,
*0b57cec5SDimitry Andric                            TLI.getTypeToTransformTo(*DAG.getContext(), StVT),
*0b57cec5SDimitry Andric                            Value);
*0b57cec5SDimitry Andric        Result = DAG.getTruncStore(Chain, dl, Value, Ptr, ST->getPointerInfo(),
*0b57cec5SDimitry Andric                                   StVT, Alignment, MMOFlags, AAInfo);
*0b57cec5SDimitry Andric      }
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric      ReplaceNode(SDValue(Node, 0), Result);
*0b57cec5SDimitry Andric      break;
*0b57cec5SDimitry Andric    }
*0b57cec5SDimitry Andric  }
*0b57cec5SDimitry Andric}
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andricvoid SelectionDAGLegalize::LegalizeLoadOps(SDNode *Node) {
*0b57cec5SDimitry Andric  LoadSDNode *LD = cast<LoadSDNode>(Node);
*0b57cec5SDimitry Andric  SDValue Chain = LD->getChain();  // The chain.
*0b57cec5SDimitry Andric  SDValue Ptr = LD->getBasePtr();  // The base pointer.
*0b57cec5SDimitry Andric  SDValue Value;                   // The value returned by the load op.
*0b57cec5SDimitry Andric  SDLoc dl(Node);
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric  ISD::LoadExtType ExtType = LD->getExtensionType();
*0b57cec5SDimitry Andric  if (ExtType == ISD::NON_EXTLOAD) {
*0b57cec5SDimitry Andric    LLVM_DEBUG(dbgs() << "Legalizing non-extending load operation\n");
*0b57cec5SDimitry Andric    MVT VT = Node->getSimpleValueType(0);
*0b57cec5SDimitry Andric    SDValue RVal = SDValue(Node, 0);
*0b57cec5SDimitry Andric    SDValue RChain = SDValue(Node, 1);
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric    switch (TLI.getOperationAction(Node->getOpcode(), VT)) {
*0b57cec5SDimitry Andric    default: llvm_unreachable("This action is not supported yet!");
*0b57cec5SDimitry Andric    case TargetLowering::Legal: {
*0b57cec5SDimitry Andric      EVT MemVT = LD->getMemoryVT();
*0b57cec5SDimitry Andric      const DataLayout &DL = DAG.getDataLayout();
*0b57cec5SDimitry Andric      // If this is an unaligned load and the target doesn't support it,
*0b57cec5SDimitry Andric      // expand it.
*0b57cec5SDimitry Andric      if (!TLI.allowsMemoryAccess(*DAG.getContext(), DL, MemVT,
*0b57cec5SDimitry Andric                                  *LD->getMemOperand())) {
*0b57cec5SDimitry Andric        std::tie(RVal, RChain) = TLI.expandUnalignedLoad(LD, DAG);
*0b57cec5SDimitry Andric      }
*0b57cec5SDimitry Andric      break;
*0b57cec5SDimitry Andric    }
*0b57cec5SDimitry Andric    case TargetLowering::Custom:
*0b57cec5SDimitry Andric      if (SDValue Res = TLI.LowerOperation(RVal, DAG)) {
*0b57cec5SDimitry Andric        RVal = Res;
*0b57cec5SDimitry Andric        RChain = Res.getValue(1);
*0b57cec5SDimitry Andric      }
*0b57cec5SDimitry Andric      break;
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric    case TargetLowering::Promote: {
*0b57cec5SDimitry Andric      MVT NVT = TLI.getTypeToPromoteTo(Node->getOpcode(), VT);
*0b57cec5SDimitry Andric      assert(NVT.getSizeInBits() == VT.getSizeInBits() &&
*0b57cec5SDimitry Andric             "Can only promote loads to same size type");
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric      SDValue Res = DAG.getLoad(NVT, dl, Chain, Ptr, LD->getMemOperand());
*0b57cec5SDimitry Andric      RVal = DAG.getNode(ISD::BITCAST, dl, VT, Res);
*0b57cec5SDimitry Andric      RChain = Res.getValue(1);
*0b57cec5SDimitry Andric      break;
*0b57cec5SDimitry Andric    }
*0b57cec5SDimitry Andric    }
*0b57cec5SDimitry Andric    if (RChain.getNode() != Node) {
*0b57cec5SDimitry Andric      assert(RVal.getNode() != Node && "Load must be completely replaced");
*0b57cec5SDimitry Andric      DAG.ReplaceAllUsesOfValueWith(SDValue(Node, 0), RVal);
*0b57cec5SDimitry Andric      DAG.ReplaceAllUsesOfValueWith(SDValue(Node, 1), RChain);
*0b57cec5SDimitry Andric      if (UpdatedNodes) {
*0b57cec5SDimitry Andric        UpdatedNodes->insert(RVal.getNode());
*0b57cec5SDimitry Andric        UpdatedNodes->insert(RChain.getNode());
*0b57cec5SDimitry Andric      }
*0b57cec5SDimitry Andric      ReplacedNode(Node);
*0b57cec5SDimitry Andric    }
*0b57cec5SDimitry Andric    return;
*0b57cec5SDimitry Andric  }
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric  LLVM_DEBUG(dbgs() << "Legalizing extending load operation\n");
*0b57cec5SDimitry Andric  EVT SrcVT = LD->getMemoryVT();
*0b57cec5SDimitry Andric  unsigned SrcWidth = SrcVT.getSizeInBits();
*0b57cec5SDimitry Andric  unsigned Alignment = LD->getAlignment();
*0b57cec5SDimitry Andric  MachineMemOperand::Flags MMOFlags = LD->getMemOperand()->getFlags();
*0b57cec5SDimitry Andric  AAMDNodes AAInfo = LD->getAAInfo();
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric  if (SrcWidth != SrcVT.getStoreSizeInBits() &&
*0b57cec5SDimitry Andric      // Some targets pretend to have an i1 loading operation, and actually
*0b57cec5SDimitry Andric      // load an i8.  This trick is correct for ZEXTLOAD because the top 7
*0b57cec5SDimitry Andric      // bits are guaranteed to be zero; it helps the optimizers understand
*0b57cec5SDimitry Andric      // that these bits are zero.  It is also useful for EXTLOAD, since it
*0b57cec5SDimitry Andric      // tells the optimizers that those bits are undefined.  It would be
*0b57cec5SDimitry Andric      // nice to have an effective generic way of getting these benefits...
*0b57cec5SDimitry Andric      // Until such a way is found, don't insist on promoting i1 here.
*0b57cec5SDimitry Andric      (SrcVT != MVT::i1 ||
*0b57cec5SDimitry Andric       TLI.getLoadExtAction(ExtType, Node->getValueType(0), MVT::i1) ==
*0b57cec5SDimitry Andric         TargetLowering::Promote)) {
*0b57cec5SDimitry Andric    // Promote to a byte-sized load if not loading an integral number of
*0b57cec5SDimitry Andric    // bytes.  For example, promote EXTLOAD:i20 -> EXTLOAD:i24.
*0b57cec5SDimitry Andric    unsigned NewWidth = SrcVT.getStoreSizeInBits();
*0b57cec5SDimitry Andric    EVT NVT = EVT::getIntegerVT(*DAG.getContext(), NewWidth);
*0b57cec5SDimitry Andric    SDValue Ch;
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric    // The extra bits are guaranteed to be zero, since we stored them that
*0b57cec5SDimitry Andric    // way.  A zext load from NVT thus automatically gives zext from SrcVT.
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric    ISD::LoadExtType NewExtType =
*0b57cec5SDimitry Andric      ExtType == ISD::ZEXTLOAD ? ISD::ZEXTLOAD : ISD::EXTLOAD;
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric    SDValue Result =
*0b57cec5SDimitry Andric        DAG.getExtLoad(NewExtType, dl, Node->getValueType(0), Chain, Ptr,
*0b57cec5SDimitry Andric                       LD->getPointerInfo(), NVT, Alignment, MMOFlags, AAInfo);
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric    Ch = Result.getValue(1); // The chain.
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric    if (ExtType == ISD::SEXTLOAD)
*0b57cec5SDimitry Andric      // Having the top bits zero doesn't help when sign extending.
*0b57cec5SDimitry Andric      Result = DAG.getNode(ISD::SIGN_EXTEND_INREG, dl,
*0b57cec5SDimitry Andric                           Result.getValueType(),
*0b57cec5SDimitry Andric                           Result, DAG.getValueType(SrcVT));
*0b57cec5SDimitry Andric    else if (ExtType == ISD::ZEXTLOAD || NVT == Result.getValueType())
*0b57cec5SDimitry Andric      // All the top bits are guaranteed to be zero - inform the optimizers.
*0b57cec5SDimitry Andric      Result = DAG.getNode(ISD::AssertZext, dl,
*0b57cec5SDimitry Andric                           Result.getValueType(), Result,
*0b57cec5SDimitry Andric                           DAG.getValueType(SrcVT));
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric    Value = Result;
*0b57cec5SDimitry Andric    Chain = Ch;
*0b57cec5SDimitry Andric  } else if (SrcWidth & (SrcWidth - 1)) {
*0b57cec5SDimitry Andric    // If not loading a power-of-2 number of bits, expand as two loads.
*0b57cec5SDimitry Andric    assert(!SrcVT.isVector() && "Unsupported extload!");
*0b57cec5SDimitry Andric    unsigned LogSrcWidth = Log2_32(SrcWidth);
*0b57cec5SDimitry Andric    assert(LogSrcWidth < 32);
*0b57cec5SDimitry Andric    unsigned RoundWidth = 1 << LogSrcWidth;
*0b57cec5SDimitry Andric    assert(RoundWidth < SrcWidth);
*0b57cec5SDimitry Andric    unsigned ExtraWidth = SrcWidth - RoundWidth;
*0b57cec5SDimitry Andric    assert(ExtraWidth < RoundWidth);
*0b57cec5SDimitry Andric    assert(!(RoundWidth % 8) && !(ExtraWidth % 8) &&
*0b57cec5SDimitry Andric           "Load size not an integral number of bytes!");
*0b57cec5SDimitry Andric    EVT RoundVT = EVT::getIntegerVT(*DAG.getContext(), RoundWidth);
*0b57cec5SDimitry Andric    EVT ExtraVT = EVT::getIntegerVT(*DAG.getContext(), ExtraWidth);
*0b57cec5SDimitry Andric    SDValue Lo, Hi, Ch;
*0b57cec5SDimitry Andric    unsigned IncrementSize;
*0b57cec5SDimitry Andric    auto &DL = DAG.getDataLayout();
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric    if (DL.isLittleEndian()) {
*0b57cec5SDimitry Andric      // EXTLOAD:i24 -> ZEXTLOAD:i16 | (shl EXTLOAD@+2:i8, 16)
*0b57cec5SDimitry Andric      // Load the bottom RoundWidth bits.
*0b57cec5SDimitry Andric      Lo = DAG.getExtLoad(ISD::ZEXTLOAD, dl, Node->getValueType(0), Chain, Ptr,
*0b57cec5SDimitry Andric                          LD->getPointerInfo(), RoundVT, Alignment, MMOFlags,
*0b57cec5SDimitry Andric                          AAInfo);
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric      // Load the remaining ExtraWidth bits.
*0b57cec5SDimitry Andric      IncrementSize = RoundWidth / 8;
*0b57cec5SDimitry Andric      Ptr = DAG.getNode(ISD::ADD, dl, Ptr.getValueType(), Ptr,
*0b57cec5SDimitry Andric                         DAG.getConstant(IncrementSize, dl,
*0b57cec5SDimitry Andric                                         Ptr.getValueType()));
*0b57cec5SDimitry Andric      Hi = DAG.getExtLoad(ExtType, dl, Node->getValueType(0), Chain, Ptr,
*0b57cec5SDimitry Andric                          LD->getPointerInfo().getWithOffset(IncrementSize),
*0b57cec5SDimitry Andric                          ExtraVT, MinAlign(Alignment, IncrementSize), MMOFlags,
*0b57cec5SDimitry Andric                          AAInfo);
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric      // Build a factor node to remember that this load is independent of
*0b57cec5SDimitry Andric      // the other one.
*0b57cec5SDimitry Andric      Ch = DAG.getNode(ISD::TokenFactor, dl, MVT::Other, Lo.getValue(1),
*0b57cec5SDimitry Andric                       Hi.getValue(1));
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric      // Move the top bits to the right place.
*0b57cec5SDimitry Andric      Hi = DAG.getNode(
*0b57cec5SDimitry Andric          ISD::SHL, dl, Hi.getValueType(), Hi,
*0b57cec5SDimitry Andric          DAG.getConstant(RoundWidth, dl,
*0b57cec5SDimitry Andric                          TLI.getShiftAmountTy(Hi.getValueType(), DL)));
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric      // Join the hi and lo parts.
*0b57cec5SDimitry Andric      Value = DAG.getNode(ISD::OR, dl, Node->getValueType(0), Lo, Hi);
*0b57cec5SDimitry Andric    } else {
*0b57cec5SDimitry Andric      // Big endian - avoid unaligned loads.
*0b57cec5SDimitry Andric      // EXTLOAD:i24 -> (shl EXTLOAD:i16, 8) | ZEXTLOAD@+2:i8
*0b57cec5SDimitry Andric      // Load the top RoundWidth bits.
*0b57cec5SDimitry Andric      Hi = DAG.getExtLoad(ExtType, dl, Node->getValueType(0), Chain, Ptr,
*0b57cec5SDimitry Andric                          LD->getPointerInfo(), RoundVT, Alignment, MMOFlags,
*0b57cec5SDimitry Andric                          AAInfo);
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric      // Load the remaining ExtraWidth bits.
*0b57cec5SDimitry Andric      IncrementSize = RoundWidth / 8;
*0b57cec5SDimitry Andric      Ptr = DAG.getNode(ISD::ADD, dl, Ptr.getValueType(), Ptr,
*0b57cec5SDimitry Andric                         DAG.getConstant(IncrementSize, dl,
*0b57cec5SDimitry Andric                                         Ptr.getValueType()));
*0b57cec5SDimitry Andric      Lo = DAG.getExtLoad(ISD::ZEXTLOAD, dl, Node->getValueType(0), Chain, Ptr,
*0b57cec5SDimitry Andric                          LD->getPointerInfo().getWithOffset(IncrementSize),
*0b57cec5SDimitry Andric                          ExtraVT, MinAlign(Alignment, IncrementSize), MMOFlags,
*0b57cec5SDimitry Andric                          AAInfo);
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric      // Build a factor node to remember that this load is independent of
*0b57cec5SDimitry Andric      // the other one.
*0b57cec5SDimitry Andric      Ch = DAG.getNode(ISD::TokenFactor, dl, MVT::Other, Lo.getValue(1),
*0b57cec5SDimitry Andric                       Hi.getValue(1));
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric      // Move the top bits to the right place.
*0b57cec5SDimitry Andric      Hi = DAG.getNode(
*0b57cec5SDimitry Andric          ISD::SHL, dl, Hi.getValueType(), Hi,
*0b57cec5SDimitry Andric          DAG.getConstant(ExtraWidth, dl,
*0b57cec5SDimitry Andric                          TLI.getShiftAmountTy(Hi.getValueType(), DL)));
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric      // Join the hi and lo parts.
*0b57cec5SDimitry Andric      Value = DAG.getNode(ISD::OR, dl, Node->getValueType(0), Lo, Hi);
*0b57cec5SDimitry Andric    }
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric    Chain = Ch;
*0b57cec5SDimitry Andric  } else {
*0b57cec5SDimitry Andric    bool isCustom = false;
*0b57cec5SDimitry Andric    switch (TLI.getLoadExtAction(ExtType, Node->getValueType(0),
*0b57cec5SDimitry Andric                                 SrcVT.getSimpleVT())) {
*0b57cec5SDimitry Andric    default: llvm_unreachable("This action is not supported yet!");
*0b57cec5SDimitry Andric    case TargetLowering::Custom:
*0b57cec5SDimitry Andric      isCustom = true;
*0b57cec5SDimitry Andric      LLVM_FALLTHROUGH;
*0b57cec5SDimitry Andric    case TargetLowering::Legal:
*0b57cec5SDimitry Andric      Value = SDValue(Node, 0);
*0b57cec5SDimitry Andric      Chain = SDValue(Node, 1);
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric      if (isCustom) {
*0b57cec5SDimitry Andric        if (SDValue Res = TLI.LowerOperation(SDValue(Node, 0), DAG)) {
*0b57cec5SDimitry Andric          Value = Res;
*0b57cec5SDimitry Andric          Chain = Res.getValue(1);
*0b57cec5SDimitry Andric        }
*0b57cec5SDimitry Andric      } else {
*0b57cec5SDimitry Andric        // If this is an unaligned load and the target doesn't support it,
*0b57cec5SDimitry Andric        // expand it.
*0b57cec5SDimitry Andric        EVT MemVT = LD->getMemoryVT();
*0b57cec5SDimitry Andric        const DataLayout &DL = DAG.getDataLayout();
*0b57cec5SDimitry Andric        if (!TLI.allowsMemoryAccess(*DAG.getContext(), DL, MemVT,
*0b57cec5SDimitry Andric                                    *LD->getMemOperand())) {
*0b57cec5SDimitry Andric          std::tie(Value, Chain) = TLI.expandUnalignedLoad(LD, DAG);
*0b57cec5SDimitry Andric        }
*0b57cec5SDimitry Andric      }
*0b57cec5SDimitry Andric      break;
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric    case TargetLowering::Expand: {
*0b57cec5SDimitry Andric      EVT DestVT = Node->getValueType(0);
*0b57cec5SDimitry Andric      if (!TLI.isLoadExtLegal(ISD::EXTLOAD, DestVT, SrcVT)) {
*0b57cec5SDimitry Andric        // If the source type is not legal, see if there is a legal extload to
*0b57cec5SDimitry Andric        // an intermediate type that we can then extend further.
*0b57cec5SDimitry Andric        EVT LoadVT = TLI.getRegisterType(SrcVT.getSimpleVT());
*0b57cec5SDimitry Andric        if (TLI.isTypeLegal(SrcVT) || // Same as SrcVT == LoadVT?
*0b57cec5SDimitry Andric            TLI.isLoadExtLegal(ExtType, LoadVT, SrcVT)) {
*0b57cec5SDimitry Andric          // If we are loading a legal type, this is a non-extload followed by a
*0b57cec5SDimitry Andric          // full extend.
*0b57cec5SDimitry Andric          ISD::LoadExtType MidExtType =
*0b57cec5SDimitry Andric              (LoadVT == SrcVT) ? ISD::NON_EXTLOAD : ExtType;
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric          SDValue Load = DAG.getExtLoad(MidExtType, dl, LoadVT, Chain, Ptr,
*0b57cec5SDimitry Andric                                        SrcVT, LD->getMemOperand());
*0b57cec5SDimitry Andric          unsigned ExtendOp =
*0b57cec5SDimitry Andric              ISD::getExtForLoadExtType(SrcVT.isFloatingPoint(), ExtType);
*0b57cec5SDimitry Andric          Value = DAG.getNode(ExtendOp, dl, Node->getValueType(0), Load);
*0b57cec5SDimitry Andric          Chain = Load.getValue(1);
*0b57cec5SDimitry Andric          break;
*0b57cec5SDimitry Andric        }
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric        // Handle the special case of fp16 extloads. EXTLOAD doesn't have the
*0b57cec5SDimitry Andric        // normal undefined upper bits behavior to allow using an in-reg extend
*0b57cec5SDimitry Andric        // with the illegal FP type, so load as an integer and do the
*0b57cec5SDimitry Andric        // from-integer conversion.
*0b57cec5SDimitry Andric        if (SrcVT.getScalarType() == MVT::f16) {
*0b57cec5SDimitry Andric          EVT ISrcVT = SrcVT.changeTypeToInteger();
*0b57cec5SDimitry Andric          EVT IDestVT = DestVT.changeTypeToInteger();
*0b57cec5SDimitry Andric          EVT LoadVT = TLI.getRegisterType(IDestVT.getSimpleVT());
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric          SDValue Result = DAG.getExtLoad(ISD::ZEXTLOAD, dl, LoadVT,
*0b57cec5SDimitry Andric                                          Chain, Ptr, ISrcVT,
*0b57cec5SDimitry Andric                                          LD->getMemOperand());
*0b57cec5SDimitry Andric          Value = DAG.getNode(ISD::FP16_TO_FP, dl, DestVT, Result);
*0b57cec5SDimitry Andric          Chain = Result.getValue(1);
*0b57cec5SDimitry Andric          break;
*0b57cec5SDimitry Andric        }
*0b57cec5SDimitry Andric      }
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric      assert(!SrcVT.isVector() &&
*0b57cec5SDimitry Andric             "Vector Loads are handled in LegalizeVectorOps");
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric      // FIXME: This does not work for vectors on most targets.  Sign-
*0b57cec5SDimitry Andric      // and zero-extend operations are currently folded into extending
*0b57cec5SDimitry Andric      // loads, whether they are legal or not, and then we end up here
*0b57cec5SDimitry Andric      // without any support for legalizing them.
*0b57cec5SDimitry Andric      assert(ExtType != ISD::EXTLOAD &&
*0b57cec5SDimitry Andric             "EXTLOAD should always be supported!");
*0b57cec5SDimitry Andric      // Turn the unsupported load into an EXTLOAD followed by an
*0b57cec5SDimitry Andric      // explicit zero/sign extend inreg.
*0b57cec5SDimitry Andric      SDValue Result = DAG.getExtLoad(ISD::EXTLOAD, dl,
*0b57cec5SDimitry Andric                                      Node->getValueType(0),
*0b57cec5SDimitry Andric                                      Chain, Ptr, SrcVT,
*0b57cec5SDimitry Andric                                      LD->getMemOperand());
*0b57cec5SDimitry Andric      SDValue ValRes;
*0b57cec5SDimitry Andric      if (ExtType == ISD::SEXTLOAD)
*0b57cec5SDimitry Andric        ValRes = DAG.getNode(ISD::SIGN_EXTEND_INREG, dl,
*0b57cec5SDimitry Andric                             Result.getValueType(),
*0b57cec5SDimitry Andric                             Result, DAG.getValueType(SrcVT));
*0b57cec5SDimitry Andric      else
*0b57cec5SDimitry Andric        ValRes = DAG.getZeroExtendInReg(Result, dl, SrcVT.getScalarType());
*0b57cec5SDimitry Andric      Value = ValRes;
*0b57cec5SDimitry Andric      Chain = Result.getValue(1);
*0b57cec5SDimitry Andric      break;
*0b57cec5SDimitry Andric    }
*0b57cec5SDimitry Andric    }
*0b57cec5SDimitry Andric  }
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric  // Since loads produce two values, make sure to remember that we legalized
*0b57cec5SDimitry Andric  // both of them.
*0b57cec5SDimitry Andric  if (Chain.getNode() != Node) {
*0b57cec5SDimitry Andric    assert(Value.getNode() != Node && "Load must be completely replaced");
*0b57cec5SDimitry Andric    DAG.ReplaceAllUsesOfValueWith(SDValue(Node, 0), Value);
*0b57cec5SDimitry Andric    DAG.ReplaceAllUsesOfValueWith(SDValue(Node, 1), Chain);
*0b57cec5SDimitry Andric    if (UpdatedNodes) {
*0b57cec5SDimitry Andric      UpdatedNodes->insert(Value.getNode());
*0b57cec5SDimitry Andric      UpdatedNodes->insert(Chain.getNode());
*0b57cec5SDimitry Andric    }
*0b57cec5SDimitry Andric    ReplacedNode(Node);
*0b57cec5SDimitry Andric  }
*0b57cec5SDimitry Andric}
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric/// Return a legal replacement for the given operation, with all legal operands.
*0b57cec5SDimitry Andricvoid SelectionDAGLegalize::LegalizeOp(SDNode *Node) {
*0b57cec5SDimitry Andric  LLVM_DEBUG(dbgs() << "\nLegalizing: "; Node->dump(&DAG));
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric  // Allow illegal target nodes and illegal registers.
*0b57cec5SDimitry Andric  if (Node->getOpcode() == ISD::TargetConstant ||
*0b57cec5SDimitry Andric      Node->getOpcode() == ISD::Register)
*0b57cec5SDimitry Andric    return;
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric#ifndef NDEBUG
*0b57cec5SDimitry Andric  for (unsigned i = 0, e = Node->getNumValues(); i != e; ++i)
*0b57cec5SDimitry Andric    assert((TLI.getTypeAction(*DAG.getContext(), Node->getValueType(i)) ==
*0b57cec5SDimitry Andric              TargetLowering::TypeLegal ||
*0b57cec5SDimitry Andric            TLI.isTypeLegal(Node->getValueType(i))) &&
*0b57cec5SDimitry Andric           "Unexpected illegal type!");
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric  for (const SDValue &Op : Node->op_values())
*0b57cec5SDimitry Andric    assert((TLI.getTypeAction(*DAG.getContext(), Op.getValueType()) ==
*0b57cec5SDimitry Andric              TargetLowering::TypeLegal ||
*0b57cec5SDimitry Andric            TLI.isTypeLegal(Op.getValueType()) ||
*0b57cec5SDimitry Andric            Op.getOpcode() == ISD::TargetConstant ||
*0b57cec5SDimitry Andric            Op.getOpcode() == ISD::Register) &&
*0b57cec5SDimitry Andric            "Unexpected illegal type!");
*0b57cec5SDimitry Andric#endif
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric  // Figure out the correct action; the way to query this varies by opcode
*0b57cec5SDimitry Andric  TargetLowering::LegalizeAction Action = TargetLowering::Legal;
*0b57cec5SDimitry Andric  bool SimpleFinishLegalizing = true;
*0b57cec5SDimitry Andric  switch (Node->getOpcode()) {
*0b57cec5SDimitry Andric  case ISD::INTRINSIC_W_CHAIN:
*0b57cec5SDimitry Andric  case ISD::INTRINSIC_WO_CHAIN:
*0b57cec5SDimitry Andric  case ISD::INTRINSIC_VOID:
*0b57cec5SDimitry Andric  case ISD::STACKSAVE:
*0b57cec5SDimitry Andric    Action = TLI.getOperationAction(Node->getOpcode(), MVT::Other);
*0b57cec5SDimitry Andric    break;
*0b57cec5SDimitry Andric  case ISD::GET_DYNAMIC_AREA_OFFSET:
*0b57cec5SDimitry Andric    Action = TLI.getOperationAction(Node->getOpcode(),
*0b57cec5SDimitry Andric                                    Node->getValueType(0));
*0b57cec5SDimitry Andric    break;
*0b57cec5SDimitry Andric  case ISD::VAARG:
*0b57cec5SDimitry Andric    Action = TLI.getOperationAction(Node->getOpcode(),
*0b57cec5SDimitry Andric                                    Node->getValueType(0));
*0b57cec5SDimitry Andric    if (Action != TargetLowering::Promote)
*0b57cec5SDimitry Andric      Action = TLI.getOperationAction(Node->getOpcode(), MVT::Other);
*0b57cec5SDimitry Andric    break;
*0b57cec5SDimitry Andric  case ISD::FP_TO_FP16:
*0b57cec5SDimitry Andric  case ISD::SINT_TO_FP:
*0b57cec5SDimitry Andric  case ISD::UINT_TO_FP:
*0b57cec5SDimitry Andric  case ISD::EXTRACT_VECTOR_ELT:
*0b57cec5SDimitry Andric  case ISD::LROUND:
*0b57cec5SDimitry Andric  case ISD::LLROUND:
*0b57cec5SDimitry Andric  case ISD::LRINT:
*0b57cec5SDimitry Andric  case ISD::LLRINT:
*0b57cec5SDimitry Andric    Action = TLI.getOperationAction(Node->getOpcode(),
*0b57cec5SDimitry Andric                                    Node->getOperand(0).getValueType());
*0b57cec5SDimitry Andric    break;
*0b57cec5SDimitry Andric  case ISD::FP_ROUND_INREG:
*0b57cec5SDimitry Andric  case ISD::SIGN_EXTEND_INREG: {
*0b57cec5SDimitry Andric    EVT InnerType = cast<VTSDNode>(Node->getOperand(1))->getVT();
*0b57cec5SDimitry Andric    Action = TLI.getOperationAction(Node->getOpcode(), InnerType);
*0b57cec5SDimitry Andric    break;
*0b57cec5SDimitry Andric  }
*0b57cec5SDimitry Andric  case ISD::ATOMIC_STORE:
*0b57cec5SDimitry Andric    Action = TLI.getOperationAction(Node->getOpcode(),
*0b57cec5SDimitry Andric                                    Node->getOperand(2).getValueType());
*0b57cec5SDimitry Andric    break;
*0b57cec5SDimitry Andric  case ISD::SELECT_CC:
*0b57cec5SDimitry Andric  case ISD::SETCC:
*0b57cec5SDimitry Andric  case ISD::BR_CC: {
*0b57cec5SDimitry Andric    unsigned CCOperand = Node->getOpcode() == ISD::SELECT_CC ? 4 :
*0b57cec5SDimitry Andric                         Node->getOpcode() == ISD::SETCC ? 2 : 1;
*0b57cec5SDimitry Andric    unsigned CompareOperand = Node->getOpcode() == ISD::BR_CC ? 2 : 0;
*0b57cec5SDimitry Andric    MVT OpVT = Node->getOperand(CompareOperand).getSimpleValueType();
*0b57cec5SDimitry Andric    ISD::CondCode CCCode =
*0b57cec5SDimitry Andric        cast<CondCodeSDNode>(Node->getOperand(CCOperand))->get();
*0b57cec5SDimitry Andric    Action = TLI.getCondCodeAction(CCCode, OpVT);
*0b57cec5SDimitry Andric    if (Action == TargetLowering::Legal) {
*0b57cec5SDimitry Andric      if (Node->getOpcode() == ISD::SELECT_CC)
*0b57cec5SDimitry Andric        Action = TLI.getOperationAction(Node->getOpcode(),
*0b57cec5SDimitry Andric                                        Node->getValueType(0));
*0b57cec5SDimitry Andric      else
*0b57cec5SDimitry Andric        Action = TLI.getOperationAction(Node->getOpcode(), OpVT);
*0b57cec5SDimitry Andric    }
*0b57cec5SDimitry Andric    break;
*0b57cec5SDimitry Andric  }
*0b57cec5SDimitry Andric  case ISD::LOAD:
*0b57cec5SDimitry Andric  case ISD::STORE:
*0b57cec5SDimitry Andric    // FIXME: Model these properly.  LOAD and STORE are complicated, and
*0b57cec5SDimitry Andric    // STORE expects the unlegalized operand in some cases.
*0b57cec5SDimitry Andric    SimpleFinishLegalizing = false;
*0b57cec5SDimitry Andric    break;
*0b57cec5SDimitry Andric  case ISD::CALLSEQ_START:
*0b57cec5SDimitry Andric  case ISD::CALLSEQ_END:
*0b57cec5SDimitry Andric    // FIXME: This shouldn't be necessary.  These nodes have special properties
*0b57cec5SDimitry Andric    // dealing with the recursive nature of legalization.  Removing this
*0b57cec5SDimitry Andric    // special case should be done as part of making LegalizeDAG non-recursive.
*0b57cec5SDimitry Andric    SimpleFinishLegalizing = false;
*0b57cec5SDimitry Andric    break;
*0b57cec5SDimitry Andric  case ISD::EXTRACT_ELEMENT:
*0b57cec5SDimitry Andric  case ISD::FLT_ROUNDS_:
*0b57cec5SDimitry Andric  case ISD::MERGE_VALUES:
*0b57cec5SDimitry Andric  case ISD::EH_RETURN:
*0b57cec5SDimitry Andric  case ISD::FRAME_TO_ARGS_OFFSET:
*0b57cec5SDimitry Andric  case ISD::EH_DWARF_CFA:
*0b57cec5SDimitry Andric  case ISD::EH_SJLJ_SETJMP:
*0b57cec5SDimitry Andric  case ISD::EH_SJLJ_LONGJMP:
*0b57cec5SDimitry Andric  case ISD::EH_SJLJ_SETUP_DISPATCH:
*0b57cec5SDimitry Andric    // These operations lie about being legal: when they claim to be legal,
*0b57cec5SDimitry Andric    // they should actually be expanded.
*0b57cec5SDimitry Andric    Action = TLI.getOperationAction(Node->getOpcode(), Node->getValueType(0));
*0b57cec5SDimitry Andric    if (Action == TargetLowering::Legal)
*0b57cec5SDimitry Andric      Action = TargetLowering::Expand;
*0b57cec5SDimitry Andric    break;
*0b57cec5SDimitry Andric  case ISD::INIT_TRAMPOLINE:
*0b57cec5SDimitry Andric  case ISD::ADJUST_TRAMPOLINE:
*0b57cec5SDimitry Andric  case ISD::FRAMEADDR:
*0b57cec5SDimitry Andric  case ISD::RETURNADDR:
*0b57cec5SDimitry Andric  case ISD::ADDROFRETURNADDR:
*0b57cec5SDimitry Andric  case ISD::SPONENTRY:
*0b57cec5SDimitry Andric    // These operations lie about being legal: when they claim to be legal,
*0b57cec5SDimitry Andric    // they should actually be custom-lowered.
*0b57cec5SDimitry Andric    Action = TLI.getOperationAction(Node->getOpcode(), Node->getValueType(0));
*0b57cec5SDimitry Andric    if (Action == TargetLowering::Legal)
*0b57cec5SDimitry Andric      Action = TargetLowering::Custom;
*0b57cec5SDimitry Andric    break;
*0b57cec5SDimitry Andric  case ISD::READCYCLECOUNTER:
*0b57cec5SDimitry Andric    // READCYCLECOUNTER returns an i64, even if type legalization might have
*0b57cec5SDimitry Andric    // expanded that to several smaller types.
*0b57cec5SDimitry Andric    Action = TLI.getOperationAction(Node->getOpcode(), MVT::i64);
*0b57cec5SDimitry Andric    break;
*0b57cec5SDimitry Andric  case ISD::READ_REGISTER:
*0b57cec5SDimitry Andric  case ISD::WRITE_REGISTER:
*0b57cec5SDimitry Andric    // Named register is legal in the DAG, but blocked by register name
*0b57cec5SDimitry Andric    // selection if not implemented by target (to chose the correct register)
*0b57cec5SDimitry Andric    // They'll be converted to Copy(To/From)Reg.
*0b57cec5SDimitry Andric    Action = TargetLowering::Legal;
*0b57cec5SDimitry Andric    break;
*0b57cec5SDimitry Andric  case ISD::DEBUGTRAP:
*0b57cec5SDimitry Andric    Action = TLI.getOperationAction(Node->getOpcode(), Node->getValueType(0));
*0b57cec5SDimitry Andric    if (Action == TargetLowering::Expand) {
*0b57cec5SDimitry Andric      // replace ISD::DEBUGTRAP with ISD::TRAP
*0b57cec5SDimitry Andric      SDValue NewVal;
*0b57cec5SDimitry Andric      NewVal = DAG.getNode(ISD::TRAP, SDLoc(Node), Node->getVTList(),
*0b57cec5SDimitry Andric                           Node->getOperand(0));
*0b57cec5SDimitry Andric      ReplaceNode(Node, NewVal.getNode());
*0b57cec5SDimitry Andric      LegalizeOp(NewVal.getNode());
*0b57cec5SDimitry Andric      return;
*0b57cec5SDimitry Andric    }
*0b57cec5SDimitry Andric    break;
*0b57cec5SDimitry Andric  case ISD::STRICT_FADD:
*0b57cec5SDimitry Andric  case ISD::STRICT_FSUB:
*0b57cec5SDimitry Andric  case ISD::STRICT_FMUL:
*0b57cec5SDimitry Andric  case ISD::STRICT_FDIV:
*0b57cec5SDimitry Andric  case ISD::STRICT_FREM:
*0b57cec5SDimitry Andric  case ISD::STRICT_FSQRT:
*0b57cec5SDimitry Andric  case ISD::STRICT_FMA:
*0b57cec5SDimitry Andric  case ISD::STRICT_FPOW:
*0b57cec5SDimitry Andric  case ISD::STRICT_FPOWI:
*0b57cec5SDimitry Andric  case ISD::STRICT_FSIN:
*0b57cec5SDimitry Andric  case ISD::STRICT_FCOS:
*0b57cec5SDimitry Andric  case ISD::STRICT_FEXP:
*0b57cec5SDimitry Andric  case ISD::STRICT_FEXP2:
*0b57cec5SDimitry Andric  case ISD::STRICT_FLOG:
*0b57cec5SDimitry Andric  case ISD::STRICT_FLOG10:
*0b57cec5SDimitry Andric  case ISD::STRICT_FLOG2:
*0b57cec5SDimitry Andric  case ISD::STRICT_FRINT:
*0b57cec5SDimitry Andric  case ISD::STRICT_FNEARBYINT:
*0b57cec5SDimitry Andric  case ISD::STRICT_FMAXNUM:
*0b57cec5SDimitry Andric  case ISD::STRICT_FMINNUM:
*0b57cec5SDimitry Andric  case ISD::STRICT_FCEIL:
*0b57cec5SDimitry Andric  case ISD::STRICT_FFLOOR:
*0b57cec5SDimitry Andric  case ISD::STRICT_FROUND:
*0b57cec5SDimitry Andric  case ISD::STRICT_FTRUNC:
*0b57cec5SDimitry Andric  case ISD::STRICT_FP_ROUND:
*0b57cec5SDimitry Andric  case ISD::STRICT_FP_EXTEND:
*0b57cec5SDimitry Andric    // These pseudo-ops get legalized as if they were their non-strict
*0b57cec5SDimitry Andric    // equivalent.  For instance, if ISD::FSQRT is legal then ISD::STRICT_FSQRT
*0b57cec5SDimitry Andric    // is also legal, but if ISD::FSQRT requires expansion then so does
*0b57cec5SDimitry Andric    // ISD::STRICT_FSQRT.
*0b57cec5SDimitry Andric    Action = TLI.getStrictFPOperationAction(Node->getOpcode(),
*0b57cec5SDimitry Andric                                            Node->getValueType(0));
*0b57cec5SDimitry Andric    break;
*0b57cec5SDimitry Andric  case ISD::SADDSAT:
*0b57cec5SDimitry Andric  case ISD::UADDSAT:
*0b57cec5SDimitry Andric  case ISD::SSUBSAT:
*0b57cec5SDimitry Andric  case ISD::USUBSAT: {
*0b57cec5SDimitry Andric    Action = TLI.getOperationAction(Node->getOpcode(), Node->getValueType(0));
*0b57cec5SDimitry Andric    break;
*0b57cec5SDimitry Andric  }
*0b57cec5SDimitry Andric  case ISD::SMULFIX:
*0b57cec5SDimitry Andric  case ISD::SMULFIXSAT:
*0b57cec5SDimitry Andric  case ISD::UMULFIX: {
*0b57cec5SDimitry Andric    unsigned Scale = Node->getConstantOperandVal(2);
*0b57cec5SDimitry Andric    Action = TLI.getFixedPointOperationAction(Node->getOpcode(),
*0b57cec5SDimitry Andric                                              Node->getValueType(0), Scale);
*0b57cec5SDimitry Andric    break;
*0b57cec5SDimitry Andric  }
*0b57cec5SDimitry Andric  case ISD::MSCATTER:
*0b57cec5SDimitry Andric    Action = TLI.getOperationAction(Node->getOpcode(),
*0b57cec5SDimitry Andric                    cast<MaskedScatterSDNode>(Node)->getValue().getValueType());
*0b57cec5SDimitry Andric    break;
*0b57cec5SDimitry Andric  case ISD::MSTORE:
*0b57cec5SDimitry Andric    Action = TLI.getOperationAction(Node->getOpcode(),
*0b57cec5SDimitry Andric                    cast<MaskedStoreSDNode>(Node)->getValue().getValueType());
*0b57cec5SDimitry Andric    break;
*0b57cec5SDimitry Andric  case ISD::VECREDUCE_FADD:
*0b57cec5SDimitry Andric  case ISD::VECREDUCE_FMUL:
*0b57cec5SDimitry Andric  case ISD::VECREDUCE_ADD:
*0b57cec5SDimitry Andric  case ISD::VECREDUCE_MUL:
*0b57cec5SDimitry Andric  case ISD::VECREDUCE_AND:
*0b57cec5SDimitry Andric  case ISD::VECREDUCE_OR:
*0b57cec5SDimitry Andric  case ISD::VECREDUCE_XOR:
*0b57cec5SDimitry Andric  case ISD::VECREDUCE_SMAX:
*0b57cec5SDimitry Andric  case ISD::VECREDUCE_SMIN:
*0b57cec5SDimitry Andric  case ISD::VECREDUCE_UMAX:
*0b57cec5SDimitry Andric  case ISD::VECREDUCE_UMIN:
*0b57cec5SDimitry Andric  case ISD::VECREDUCE_FMAX:
*0b57cec5SDimitry Andric  case ISD::VECREDUCE_FMIN:
*0b57cec5SDimitry Andric    Action = TLI.getOperationAction(
*0b57cec5SDimitry Andric        Node->getOpcode(), Node->getOperand(0).getValueType());
*0b57cec5SDimitry Andric    break;
*0b57cec5SDimitry Andric  default:
*0b57cec5SDimitry Andric    if (Node->getOpcode() >= ISD::BUILTIN_OP_END) {
*0b57cec5SDimitry Andric      Action = TargetLowering::Legal;
*0b57cec5SDimitry Andric    } else {
*0b57cec5SDimitry Andric      Action = TLI.getOperationAction(Node->getOpcode(), Node->getValueType(0));
*0b57cec5SDimitry Andric    }
*0b57cec5SDimitry Andric    break;
*0b57cec5SDimitry Andric  }
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric  if (SimpleFinishLegalizing) {
*0b57cec5SDimitry Andric    SDNode *NewNode = Node;
*0b57cec5SDimitry Andric    switch (Node->getOpcode()) {
*0b57cec5SDimitry Andric    default: break;
*0b57cec5SDimitry Andric    case ISD::SHL:
*0b57cec5SDimitry Andric    case ISD::SRL:
*0b57cec5SDimitry Andric    case ISD::SRA:
*0b57cec5SDimitry Andric    case ISD::ROTL:
*0b57cec5SDimitry Andric    case ISD::ROTR: {
*0b57cec5SDimitry Andric      // Legalizing shifts/rotates requires adjusting the shift amount
*0b57cec5SDimitry Andric      // to the appropriate width.
*0b57cec5SDimitry Andric      SDValue Op0 = Node->getOperand(0);
*0b57cec5SDimitry Andric      SDValue Op1 = Node->getOperand(1);
*0b57cec5SDimitry Andric      if (!Op1.getValueType().isVector()) {
*0b57cec5SDimitry Andric        SDValue SAO = DAG.getShiftAmountOperand(Op0.getValueType(), Op1);
*0b57cec5SDimitry Andric        // The getShiftAmountOperand() may create a new operand node or
*0b57cec5SDimitry Andric        // return the existing one. If new operand is created we need
*0b57cec5SDimitry Andric        // to update the parent node.
*0b57cec5SDimitry Andric        // Do not try to legalize SAO here! It will be automatically legalized
*0b57cec5SDimitry Andric        // in the next round.
*0b57cec5SDimitry Andric        if (SAO != Op1)
*0b57cec5SDimitry Andric          NewNode = DAG.UpdateNodeOperands(Node, Op0, SAO);
*0b57cec5SDimitry Andric      }
*0b57cec5SDimitry Andric    }
*0b57cec5SDimitry Andric    break;
*0b57cec5SDimitry Andric    case ISD::FSHL:
*0b57cec5SDimitry Andric    case ISD::FSHR:
*0b57cec5SDimitry Andric    case ISD::SRL_PARTS:
*0b57cec5SDimitry Andric    case ISD::SRA_PARTS:
*0b57cec5SDimitry Andric    case ISD::SHL_PARTS: {
*0b57cec5SDimitry Andric      // Legalizing shifts/rotates requires adjusting the shift amount
*0b57cec5SDimitry Andric      // to the appropriate width.
*0b57cec5SDimitry Andric      SDValue Op0 = Node->getOperand(0);
*0b57cec5SDimitry Andric      SDValue Op1 = Node->getOperand(1);
*0b57cec5SDimitry Andric      SDValue Op2 = Node->getOperand(2);
*0b57cec5SDimitry Andric      if (!Op2.getValueType().isVector()) {
*0b57cec5SDimitry Andric        SDValue SAO = DAG.getShiftAmountOperand(Op0.getValueType(), Op2);
*0b57cec5SDimitry Andric        // The getShiftAmountOperand() may create a new operand node or
*0b57cec5SDimitry Andric        // return the existing one. If new operand is created we need
*0b57cec5SDimitry Andric        // to update the parent node.
*0b57cec5SDimitry Andric        if (SAO != Op2)
*0b57cec5SDimitry Andric          NewNode = DAG.UpdateNodeOperands(Node, Op0, Op1, SAO);
*0b57cec5SDimitry Andric      }
*0b57cec5SDimitry Andric      break;
*0b57cec5SDimitry Andric    }
*0b57cec5SDimitry Andric    }
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric    if (NewNode != Node) {
*0b57cec5SDimitry Andric      ReplaceNode(Node, NewNode);
*0b57cec5SDimitry Andric      Node = NewNode;
*0b57cec5SDimitry Andric    }
*0b57cec5SDimitry Andric    switch (Action) {
*0b57cec5SDimitry Andric    case TargetLowering::Legal:
*0b57cec5SDimitry Andric      LLVM_DEBUG(dbgs() << "Legal node: nothing to do\n");
*0b57cec5SDimitry Andric      return;
*0b57cec5SDimitry Andric    case TargetLowering::Custom:
*0b57cec5SDimitry Andric      LLVM_DEBUG(dbgs() << "Trying custom legalization\n");
*0b57cec5SDimitry Andric      // FIXME: The handling for custom lowering with multiple results is
*0b57cec5SDimitry Andric      // a complete mess.
*0b57cec5SDimitry Andric      if (SDValue Res = TLI.LowerOperation(SDValue(Node, 0), DAG)) {
*0b57cec5SDimitry Andric        if (!(Res.getNode() != Node || Res.getResNo() != 0))
*0b57cec5SDimitry Andric          return;
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric        if (Node->getNumValues() == 1) {
*0b57cec5SDimitry Andric          LLVM_DEBUG(dbgs() << "Successfully custom legalized node\n");
*0b57cec5SDimitry Andric          // We can just directly replace this node with the lowered value.
*0b57cec5SDimitry Andric          ReplaceNode(SDValue(Node, 0), Res);
*0b57cec5SDimitry Andric          return;
*0b57cec5SDimitry Andric        }
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric        SmallVector<SDValue, 8> ResultVals;
*0b57cec5SDimitry Andric        for (unsigned i = 0, e = Node->getNumValues(); i != e; ++i)
*0b57cec5SDimitry Andric          ResultVals.push_back(Res.getValue(i));
*0b57cec5SDimitry Andric        LLVM_DEBUG(dbgs() << "Successfully custom legalized node\n");
*0b57cec5SDimitry Andric        ReplaceNode(Node, ResultVals.data());
*0b57cec5SDimitry Andric        return;
*0b57cec5SDimitry Andric      }
*0b57cec5SDimitry Andric      LLVM_DEBUG(dbgs() << "Could not custom legalize node\n");
*0b57cec5SDimitry Andric      LLVM_FALLTHROUGH;
*0b57cec5SDimitry Andric    case TargetLowering::Expand:
*0b57cec5SDimitry Andric      if (ExpandNode(Node))
*0b57cec5SDimitry Andric        return;
*0b57cec5SDimitry Andric      LLVM_FALLTHROUGH;
*0b57cec5SDimitry Andric    case TargetLowering::LibCall:
*0b57cec5SDimitry Andric      ConvertNodeToLibcall(Node);
*0b57cec5SDimitry Andric      return;
*0b57cec5SDimitry Andric    case TargetLowering::Promote:
*0b57cec5SDimitry Andric      PromoteNode(Node);
*0b57cec5SDimitry Andric      return;
*0b57cec5SDimitry Andric    }
*0b57cec5SDimitry Andric  }
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric  switch (Node->getOpcode()) {
*0b57cec5SDimitry Andric  default:
*0b57cec5SDimitry Andric#ifndef NDEBUG
*0b57cec5SDimitry Andric    dbgs() << "NODE: ";
*0b57cec5SDimitry Andric    Node->dump( &DAG);
*0b57cec5SDimitry Andric    dbgs() << "\n";
*0b57cec5SDimitry Andric#endif
*0b57cec5SDimitry Andric    llvm_unreachable("Do not know how to legalize this operator!");
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric  case ISD::CALLSEQ_START:
*0b57cec5SDimitry Andric  case ISD::CALLSEQ_END:
*0b57cec5SDimitry Andric    break;
*0b57cec5SDimitry Andric  case ISD::LOAD:
*0b57cec5SDimitry Andric    return LegalizeLoadOps(Node);
*0b57cec5SDimitry Andric  case ISD::STORE:
*0b57cec5SDimitry Andric    return LegalizeStoreOps(Node);
*0b57cec5SDimitry Andric  }
*0b57cec5SDimitry Andric}
*0b57cec5SDimitry Andric
*0b57cec5SDimitry AndricSDValue SelectionDAGLegalize::ExpandExtractFromVectorThroughStack(SDValue Op) {
*0b57cec5SDimitry Andric  SDValue Vec = Op.getOperand(0);
*0b57cec5SDimitry Andric  SDValue Idx = Op.getOperand(1);
*0b57cec5SDimitry Andric  SDLoc dl(Op);
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric  // Before we generate a new store to a temporary stack slot, see if there is
*0b57cec5SDimitry Andric  // already one that we can use. There often is because when we scalarize
*0b57cec5SDimitry Andric  // vector operations (using SelectionDAG::UnrollVectorOp for example) a whole
*0b57cec5SDimitry Andric  // series of EXTRACT_VECTOR_ELT nodes are generated, one for each element in
*0b57cec5SDimitry Andric  // the vector. If all are expanded here, we don't want one store per vector
*0b57cec5SDimitry Andric  // element.
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric  // Caches for hasPredecessorHelper
*0b57cec5SDimitry Andric  SmallPtrSet<const SDNode *, 32> Visited;
*0b57cec5SDimitry Andric  SmallVector<const SDNode *, 16> Worklist;
*0b57cec5SDimitry Andric  Visited.insert(Op.getNode());
*0b57cec5SDimitry Andric  Worklist.push_back(Idx.getNode());
*0b57cec5SDimitry Andric  SDValue StackPtr, Ch;
*0b57cec5SDimitry Andric  for (SDNode::use_iterator UI = Vec.getNode()->use_begin(),
*0b57cec5SDimitry Andric       UE = Vec.getNode()->use_end(); UI != UE; ++UI) {
*0b57cec5SDimitry Andric    SDNode *User = *UI;
*0b57cec5SDimitry Andric    if (StoreSDNode *ST = dyn_cast<StoreSDNode>(User)) {
*0b57cec5SDimitry Andric      if (ST->isIndexed() || ST->isTruncatingStore() ||
*0b57cec5SDimitry Andric          ST->getValue() != Vec)
*0b57cec5SDimitry Andric        continue;
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric      // Make sure that nothing else could have stored into the destination of
*0b57cec5SDimitry Andric      // this store.
*0b57cec5SDimitry Andric      if (!ST->getChain().reachesChainWithoutSideEffects(DAG.getEntryNode()))
*0b57cec5SDimitry Andric        continue;
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric      // If the index is dependent on the store we will introduce a cycle when
*0b57cec5SDimitry Andric      // creating the load (the load uses the index, and by replacing the chain
*0b57cec5SDimitry Andric      // we will make the index dependent on the load). Also, the store might be
*0b57cec5SDimitry Andric      // dependent on the extractelement and introduce a cycle when creating
*0b57cec5SDimitry Andric      // the load.
*0b57cec5SDimitry Andric      if (SDNode::hasPredecessorHelper(ST, Visited, Worklist) ||
*0b57cec5SDimitry Andric          ST->hasPredecessor(Op.getNode()))
*0b57cec5SDimitry Andric        continue;
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric      StackPtr = ST->getBasePtr();
*0b57cec5SDimitry Andric      Ch = SDValue(ST, 0);
*0b57cec5SDimitry Andric      break;
*0b57cec5SDimitry Andric    }
*0b57cec5SDimitry Andric  }
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric  EVT VecVT = Vec.getValueType();
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric  if (!Ch.getNode()) {
*0b57cec5SDimitry Andric    // Store the value to a temporary stack slot, then LOAD the returned part.
*0b57cec5SDimitry Andric    StackPtr = DAG.CreateStackTemporary(VecVT);
*0b57cec5SDimitry Andric    Ch = DAG.getStore(DAG.getEntryNode(), dl, Vec, StackPtr,
*0b57cec5SDimitry Andric                      MachinePointerInfo());
*0b57cec5SDimitry Andric  }
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric  StackPtr = TLI.getVectorElementPointer(DAG, StackPtr, VecVT, Idx);
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric  SDValue NewLoad;
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric  if (Op.getValueType().isVector())
*0b57cec5SDimitry Andric    NewLoad =
*0b57cec5SDimitry Andric        DAG.getLoad(Op.getValueType(), dl, Ch, StackPtr, MachinePointerInfo());
*0b57cec5SDimitry Andric  else
*0b57cec5SDimitry Andric    NewLoad = DAG.getExtLoad(ISD::EXTLOAD, dl, Op.getValueType(), Ch, StackPtr,
*0b57cec5SDimitry Andric                             MachinePointerInfo(),
*0b57cec5SDimitry Andric                             VecVT.getVectorElementType());
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric  // Replace the chain going out of the store, by the one out of the load.
*0b57cec5SDimitry Andric  DAG.ReplaceAllUsesOfValueWith(Ch, SDValue(NewLoad.getNode(), 1));
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric  // We introduced a cycle though, so update the loads operands, making sure
*0b57cec5SDimitry Andric  // to use the original store's chain as an incoming chain.
*0b57cec5SDimitry Andric  SmallVector<SDValue, 6> NewLoadOperands(NewLoad->op_begin(),
*0b57cec5SDimitry Andric                                          NewLoad->op_end());
*0b57cec5SDimitry Andric  NewLoadOperands[0] = Ch;
*0b57cec5SDimitry Andric  NewLoad =
*0b57cec5SDimitry Andric      SDValue(DAG.UpdateNodeOperands(NewLoad.getNode(), NewLoadOperands), 0);
*0b57cec5SDimitry Andric  return NewLoad;
*0b57cec5SDimitry Andric}
*0b57cec5SDimitry Andric
*0b57cec5SDimitry AndricSDValue SelectionDAGLegalize::ExpandInsertToVectorThroughStack(SDValue Op) {
*0b57cec5SDimitry Andric  assert(Op.getValueType().isVector() && "Non-vector insert subvector!");
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric  SDValue Vec  = Op.getOperand(0);
*0b57cec5SDimitry Andric  SDValue Part = Op.getOperand(1);
*0b57cec5SDimitry Andric  SDValue Idx  = Op.getOperand(2);
*0b57cec5SDimitry Andric  SDLoc dl(Op);
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric  // Store the value to a temporary stack slot, then LOAD the returned part.
*0b57cec5SDimitry Andric  EVT VecVT = Vec.getValueType();
*0b57cec5SDimitry Andric  SDValue StackPtr = DAG.CreateStackTemporary(VecVT);
*0b57cec5SDimitry Andric  int FI = cast<FrameIndexSDNode>(StackPtr.getNode())->getIndex();
*0b57cec5SDimitry Andric  MachinePointerInfo PtrInfo =
*0b57cec5SDimitry Andric      MachinePointerInfo::getFixedStack(DAG.getMachineFunction(), FI);
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric  // First store the whole vector.
*0b57cec5SDimitry Andric  SDValue Ch = DAG.getStore(DAG.getEntryNode(), dl, Vec, StackPtr, PtrInfo);
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric  // Then store the inserted part.
*0b57cec5SDimitry Andric  SDValue SubStackPtr = TLI.getVectorElementPointer(DAG, StackPtr, VecVT, Idx);
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric  // Store the subvector.
*0b57cec5SDimitry Andric  Ch = DAG.getStore(Ch, dl, Part, SubStackPtr, MachinePointerInfo());
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric  // Finally, load the updated vector.
*0b57cec5SDimitry Andric  return DAG.getLoad(Op.getValueType(), dl, Ch, StackPtr, PtrInfo);
*0b57cec5SDimitry Andric}
*0b57cec5SDimitry Andric
*0b57cec5SDimitry AndricSDValue SelectionDAGLegalize::ExpandVectorBuildThroughStack(SDNode* Node) {
*0b57cec5SDimitry Andric  // We can't handle this case efficiently.  Allocate a sufficiently
*0b57cec5SDimitry Andric  // aligned object on the stack, store each element into it, then load
*0b57cec5SDimitry Andric  // the result as a vector.
*0b57cec5SDimitry Andric  // Create the stack frame object.
*0b57cec5SDimitry Andric  EVT VT = Node->getValueType(0);
*0b57cec5SDimitry Andric  EVT EltVT = VT.getVectorElementType();
*0b57cec5SDimitry Andric  SDLoc dl(Node);
*0b57cec5SDimitry Andric  SDValue FIPtr = DAG.CreateStackTemporary(VT);
*0b57cec5SDimitry Andric  int FI = cast<FrameIndexSDNode>(FIPtr.getNode())->getIndex();
*0b57cec5SDimitry Andric  MachinePointerInfo PtrInfo =
*0b57cec5SDimitry Andric      MachinePointerInfo::getFixedStack(DAG.getMachineFunction(), FI);
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric  // Emit a store of each element to the stack slot.
*0b57cec5SDimitry Andric  SmallVector<SDValue, 8> Stores;
*0b57cec5SDimitry Andric  unsigned TypeByteSize = EltVT.getSizeInBits() / 8;
*0b57cec5SDimitry Andric  assert(TypeByteSize > 0 && "Vector element type too small for stack store!");
*0b57cec5SDimitry Andric  // Store (in the right endianness) the elements to memory.
*0b57cec5SDimitry Andric  for (unsigned i = 0, e = Node->getNumOperands(); i != e; ++i) {
*0b57cec5SDimitry Andric    // Ignore undef elements.
*0b57cec5SDimitry Andric    if (Node->getOperand(i).isUndef()) continue;
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric    unsigned Offset = TypeByteSize*i;
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric    SDValue Idx = DAG.getConstant(Offset, dl, FIPtr.getValueType());
*0b57cec5SDimitry Andric    Idx = DAG.getNode(ISD::ADD, dl, FIPtr.getValueType(), FIPtr, Idx);
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric    // If the destination vector element type is narrower than the source
*0b57cec5SDimitry Andric    // element type, only store the bits necessary.
*0b57cec5SDimitry Andric    if (EltVT.bitsLT(Node->getOperand(i).getValueType().getScalarType())) {
*0b57cec5SDimitry Andric      Stores.push_back(DAG.getTruncStore(DAG.getEntryNode(), dl,
*0b57cec5SDimitry Andric                                         Node->getOperand(i), Idx,
*0b57cec5SDimitry Andric                                         PtrInfo.getWithOffset(Offset), EltVT));
*0b57cec5SDimitry Andric    } else
*0b57cec5SDimitry Andric      Stores.push_back(DAG.getStore(DAG.getEntryNode(), dl, Node->getOperand(i),
*0b57cec5SDimitry Andric                                    Idx, PtrInfo.getWithOffset(Offset)));
*0b57cec5SDimitry Andric  }
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric  SDValue StoreChain;
*0b57cec5SDimitry Andric  if (!Stores.empty())    // Not all undef elements?
*0b57cec5SDimitry Andric    StoreChain = DAG.getNode(ISD::TokenFactor, dl, MVT::Other, Stores);
*0b57cec5SDimitry Andric  else
*0b57cec5SDimitry Andric    StoreChain = DAG.getEntryNode();
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric  // Result is a load from the stack slot.
*0b57cec5SDimitry Andric  return DAG.getLoad(VT, dl, StoreChain, FIPtr, PtrInfo);
*0b57cec5SDimitry Andric}
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric/// Bitcast a floating-point value to an integer value. Only bitcast the part
*0b57cec5SDimitry Andric/// containing the sign bit if the target has no integer value capable of
*0b57cec5SDimitry Andric/// holding all bits of the floating-point value.
*0b57cec5SDimitry Andricvoid SelectionDAGLegalize::getSignAsIntValue(FloatSignAsInt &State,
*0b57cec5SDimitry Andric                                             const SDLoc &DL,
*0b57cec5SDimitry Andric                                             SDValue Value) const {
*0b57cec5SDimitry Andric  EVT FloatVT = Value.getValueType();
*0b57cec5SDimitry Andric  unsigned NumBits = FloatVT.getSizeInBits();
*0b57cec5SDimitry Andric  State.FloatVT = FloatVT;
*0b57cec5SDimitry Andric  EVT IVT = EVT::getIntegerVT(*DAG.getContext(), NumBits);
*0b57cec5SDimitry Andric  // Convert to an integer of the same size.
*0b57cec5SDimitry Andric  if (TLI.isTypeLegal(IVT)) {
*0b57cec5SDimitry Andric    State.IntValue = DAG.getNode(ISD::BITCAST, DL, IVT, Value);
*0b57cec5SDimitry Andric    State.SignMask = APInt::getSignMask(NumBits);
*0b57cec5SDimitry Andric    State.SignBit = NumBits - 1;
*0b57cec5SDimitry Andric    return;
*0b57cec5SDimitry Andric  }
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric  auto &DataLayout = DAG.getDataLayout();
*0b57cec5SDimitry Andric  // Store the float to memory, then load the sign part out as an integer.
*0b57cec5SDimitry Andric  MVT LoadTy = TLI.getRegisterType(*DAG.getContext(), MVT::i8);
*0b57cec5SDimitry Andric  // First create a temporary that is aligned for both the load and store.
*0b57cec5SDimitry Andric  SDValue StackPtr = DAG.CreateStackTemporary(FloatVT, LoadTy);
*0b57cec5SDimitry Andric  int FI = cast<FrameIndexSDNode>(StackPtr.getNode())->getIndex();
*0b57cec5SDimitry Andric  // Then store the float to it.
*0b57cec5SDimitry Andric  State.FloatPtr = StackPtr;
*0b57cec5SDimitry Andric  MachineFunction &MF = DAG.getMachineFunction();
*0b57cec5SDimitry Andric  State.FloatPointerInfo = MachinePointerInfo::getFixedStack(MF, FI);
*0b57cec5SDimitry Andric  State.Chain = DAG.getStore(DAG.getEntryNode(), DL, Value, State.FloatPtr,
*0b57cec5SDimitry Andric                             State.FloatPointerInfo);
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric  SDValue IntPtr;
*0b57cec5SDimitry Andric  if (DataLayout.isBigEndian()) {
*0b57cec5SDimitry Andric    assert(FloatVT.isByteSized() && "Unsupported floating point type!");
*0b57cec5SDimitry Andric    // Load out a legal integer with the same sign bit as the float.
*0b57cec5SDimitry Andric    IntPtr = StackPtr;
*0b57cec5SDimitry Andric    State.IntPointerInfo = State.FloatPointerInfo;
*0b57cec5SDimitry Andric  } else {
*0b57cec5SDimitry Andric    // Advance the pointer so that the loaded byte will contain the sign bit.
*0b57cec5SDimitry Andric    unsigned ByteOffset = (FloatVT.getSizeInBits() / 8) - 1;
*0b57cec5SDimitry Andric    IntPtr = DAG.getNode(ISD::ADD, DL, StackPtr.getValueType(), StackPtr,
*0b57cec5SDimitry Andric                      DAG.getConstant(ByteOffset, DL, StackPtr.getValueType()));
*0b57cec5SDimitry Andric    State.IntPointerInfo = MachinePointerInfo::getFixedStack(MF, FI,
*0b57cec5SDimitry Andric                                                             ByteOffset);
*0b57cec5SDimitry Andric  }
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric  State.IntPtr = IntPtr;
*0b57cec5SDimitry Andric  State.IntValue = DAG.getExtLoad(ISD::EXTLOAD, DL, LoadTy, State.Chain, IntPtr,
*0b57cec5SDimitry Andric                                  State.IntPointerInfo, MVT::i8);
*0b57cec5SDimitry Andric  State.SignMask = APInt::getOneBitSet(LoadTy.getSizeInBits(), 7);
*0b57cec5SDimitry Andric  State.SignBit = 7;
*0b57cec5SDimitry Andric}
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric/// Replace the integer value produced by getSignAsIntValue() with a new value
*0b57cec5SDimitry Andric/// and cast the result back to a floating-point type.
*0b57cec5SDimitry AndricSDValue SelectionDAGLegalize::modifySignAsInt(const FloatSignAsInt &State,
*0b57cec5SDimitry Andric                                              const SDLoc &DL,
*0b57cec5SDimitry Andric                                              SDValue NewIntValue) const {
*0b57cec5SDimitry Andric  if (!State.Chain)
*0b57cec5SDimitry Andric    return DAG.getNode(ISD::BITCAST, DL, State.FloatVT, NewIntValue);
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric  // Override the part containing the sign bit in the value stored on the stack.
*0b57cec5SDimitry Andric  SDValue Chain = DAG.getTruncStore(State.Chain, DL, NewIntValue, State.IntPtr,
*0b57cec5SDimitry Andric                                    State.IntPointerInfo, MVT::i8);
*0b57cec5SDimitry Andric  return DAG.getLoad(State.FloatVT, DL, Chain, State.FloatPtr,
*0b57cec5SDimitry Andric                     State.FloatPointerInfo);
*0b57cec5SDimitry Andric}
*0b57cec5SDimitry Andric
*0b57cec5SDimitry AndricSDValue SelectionDAGLegalize::ExpandFCOPYSIGN(SDNode *Node) const {
*0b57cec5SDimitry Andric  SDLoc DL(Node);
*0b57cec5SDimitry Andric  SDValue Mag = Node->getOperand(0);
*0b57cec5SDimitry Andric  SDValue Sign = Node->getOperand(1);
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric  // Get sign bit into an integer value.
*0b57cec5SDimitry Andric  FloatSignAsInt SignAsInt;
*0b57cec5SDimitry Andric  getSignAsIntValue(SignAsInt, DL, Sign);
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric  EVT IntVT = SignAsInt.IntValue.getValueType();
*0b57cec5SDimitry Andric  SDValue SignMask = DAG.getConstant(SignAsInt.SignMask, DL, IntVT);
*0b57cec5SDimitry Andric  SDValue SignBit = DAG.getNode(ISD::AND, DL, IntVT, SignAsInt.IntValue,
*0b57cec5SDimitry Andric                                SignMask);
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric  // If FABS is legal transform FCOPYSIGN(x, y) => sign(x) ? -FABS(x) : FABS(X)
*0b57cec5SDimitry Andric  EVT FloatVT = Mag.getValueType();
*0b57cec5SDimitry Andric  if (TLI.isOperationLegalOrCustom(ISD::FABS, FloatVT) &&
*0b57cec5SDimitry Andric      TLI.isOperationLegalOrCustom(ISD::FNEG, FloatVT)) {
*0b57cec5SDimitry Andric    SDValue AbsValue = DAG.getNode(ISD::FABS, DL, FloatVT, Mag);
*0b57cec5SDimitry Andric    SDValue NegValue = DAG.getNode(ISD::FNEG, DL, FloatVT, AbsValue);
*0b57cec5SDimitry Andric    SDValue Cond = DAG.getSetCC(DL, getSetCCResultType(IntVT), SignBit,
*0b57cec5SDimitry Andric                                DAG.getConstant(0, DL, IntVT), ISD::SETNE);
*0b57cec5SDimitry Andric    return DAG.getSelect(DL, FloatVT, Cond, NegValue, AbsValue);
*0b57cec5SDimitry Andric  }
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric  // Transform Mag value to integer, and clear the sign bit.
*0b57cec5SDimitry Andric  FloatSignAsInt MagAsInt;
*0b57cec5SDimitry Andric  getSignAsIntValue(MagAsInt, DL, Mag);
*0b57cec5SDimitry Andric  EVT MagVT = MagAsInt.IntValue.getValueType();
*0b57cec5SDimitry Andric  SDValue ClearSignMask = DAG.getConstant(~MagAsInt.SignMask, DL, MagVT);
*0b57cec5SDimitry Andric  SDValue ClearedSign = DAG.getNode(ISD::AND, DL, MagVT, MagAsInt.IntValue,
*0b57cec5SDimitry Andric                                    ClearSignMask);
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric  // Get the signbit at the right position for MagAsInt.
*0b57cec5SDimitry Andric  int ShiftAmount = SignAsInt.SignBit - MagAsInt.SignBit;
*0b57cec5SDimitry Andric  EVT ShiftVT = IntVT;
*0b57cec5SDimitry Andric  if (SignBit.getValueSizeInBits() < ClearedSign.getValueSizeInBits()) {
*0b57cec5SDimitry Andric    SignBit = DAG.getNode(ISD::ZERO_EXTEND, DL, MagVT, SignBit);
*0b57cec5SDimitry Andric    ShiftVT = MagVT;
*0b57cec5SDimitry Andric  }
*0b57cec5SDimitry Andric  if (ShiftAmount > 0) {
*0b57cec5SDimitry Andric    SDValue ShiftCnst = DAG.getConstant(ShiftAmount, DL, ShiftVT);
*0b57cec5SDimitry Andric    SignBit = DAG.getNode(ISD::SRL, DL, ShiftVT, SignBit, ShiftCnst);
*0b57cec5SDimitry Andric  } else if (ShiftAmount < 0) {
*0b57cec5SDimitry Andric    SDValue ShiftCnst = DAG.getConstant(-ShiftAmount, DL, ShiftVT);
*0b57cec5SDimitry Andric    SignBit = DAG.getNode(ISD::SHL, DL, ShiftVT, SignBit, ShiftCnst);
*0b57cec5SDimitry Andric  }
*0b57cec5SDimitry Andric  if (SignBit.getValueSizeInBits() > ClearedSign.getValueSizeInBits()) {
*0b57cec5SDimitry Andric    SignBit = DAG.getNode(ISD::TRUNCATE, DL, MagVT, SignBit);
*0b57cec5SDimitry Andric  }
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric  // Store the part with the modified sign and convert back to float.
*0b57cec5SDimitry Andric  SDValue CopiedSign = DAG.getNode(ISD::OR, DL, MagVT, ClearedSign, SignBit);
*0b57cec5SDimitry Andric  return modifySignAsInt(MagAsInt, DL, CopiedSign);
*0b57cec5SDimitry Andric}
*0b57cec5SDimitry Andric
*0b57cec5SDimitry AndricSDValue SelectionDAGLegalize::ExpandFABS(SDNode *Node) const {
*0b57cec5SDimitry Andric  SDLoc DL(Node);
*0b57cec5SDimitry Andric  SDValue Value = Node->getOperand(0);
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric  // Transform FABS(x) => FCOPYSIGN(x, 0.0) if FCOPYSIGN is legal.
*0b57cec5SDimitry Andric  EVT FloatVT = Value.getValueType();
*0b57cec5SDimitry Andric  if (TLI.isOperationLegalOrCustom(ISD::FCOPYSIGN, FloatVT)) {
*0b57cec5SDimitry Andric    SDValue Zero = DAG.getConstantFP(0.0, DL, FloatVT);
*0b57cec5SDimitry Andric    return DAG.getNode(ISD::FCOPYSIGN, DL, FloatVT, Value, Zero);
*0b57cec5SDimitry Andric  }
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric  // Transform value to integer, clear the sign bit and transform back.
*0b57cec5SDimitry Andric  FloatSignAsInt ValueAsInt;
*0b57cec5SDimitry Andric  getSignAsIntValue(ValueAsInt, DL, Value);
*0b57cec5SDimitry Andric  EVT IntVT = ValueAsInt.IntValue.getValueType();
*0b57cec5SDimitry Andric  SDValue ClearSignMask = DAG.getConstant(~ValueAsInt.SignMask, DL, IntVT);
*0b57cec5SDimitry Andric  SDValue ClearedSign = DAG.getNode(ISD::AND, DL, IntVT, ValueAsInt.IntValue,
*0b57cec5SDimitry Andric                                    ClearSignMask);
*0b57cec5SDimitry Andric  return modifySignAsInt(ValueAsInt, DL, ClearedSign);
*0b57cec5SDimitry Andric}
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andricvoid SelectionDAGLegalize::ExpandDYNAMIC_STACKALLOC(SDNode* Node,
*0b57cec5SDimitry Andric                                           SmallVectorImpl<SDValue> &Results) {
*0b57cec5SDimitry Andric  unsigned SPReg = TLI.getStackPointerRegisterToSaveRestore();
*0b57cec5SDimitry Andric  assert(SPReg && "Target cannot require DYNAMIC_STACKALLOC expansion and"
*0b57cec5SDimitry Andric          " not tell us which reg is the stack pointer!");
*0b57cec5SDimitry Andric  SDLoc dl(Node);
*0b57cec5SDimitry Andric  EVT VT = Node->getValueType(0);
*0b57cec5SDimitry Andric  SDValue Tmp1 = SDValue(Node, 0);
*0b57cec5SDimitry Andric  SDValue Tmp2 = SDValue(Node, 1);
*0b57cec5SDimitry Andric  SDValue Tmp3 = Node->getOperand(2);
*0b57cec5SDimitry Andric  SDValue Chain = Tmp1.getOperand(0);
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric  // Chain the dynamic stack allocation so that it doesn't modify the stack
*0b57cec5SDimitry Andric  // pointer when other instructions are using the stack.
*0b57cec5SDimitry Andric  Chain = DAG.getCALLSEQ_START(Chain, 0, 0, dl);
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric  SDValue Size  = Tmp2.getOperand(1);
*0b57cec5SDimitry Andric  SDValue SP = DAG.getCopyFromReg(Chain, dl, SPReg, VT);
*0b57cec5SDimitry Andric  Chain = SP.getValue(1);
*0b57cec5SDimitry Andric  unsigned Align = cast<ConstantSDNode>(Tmp3)->getZExtValue();
*0b57cec5SDimitry Andric  unsigned StackAlign =
*0b57cec5SDimitry Andric      DAG.getSubtarget().getFrameLowering()->getStackAlignment();
*0b57cec5SDimitry Andric  Tmp1 = DAG.getNode(ISD::SUB, dl, VT, SP, Size);       // Value
*0b57cec5SDimitry Andric  if (Align > StackAlign)
*0b57cec5SDimitry Andric    Tmp1 = DAG.getNode(ISD::AND, dl, VT, Tmp1,
*0b57cec5SDimitry Andric                       DAG.getConstant(-(uint64_t)Align, dl, VT));
*0b57cec5SDimitry Andric  Chain = DAG.getCopyToReg(Chain, dl, SPReg, Tmp1);     // Output chain
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric  Tmp2 = DAG.getCALLSEQ_END(Chain, DAG.getIntPtrConstant(0, dl, true),
*0b57cec5SDimitry Andric                            DAG.getIntPtrConstant(0, dl, true), SDValue(), dl);
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric  Results.push_back(Tmp1);
*0b57cec5SDimitry Andric  Results.push_back(Tmp2);
*0b57cec5SDimitry Andric}
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric/// Legalize a SETCC with given LHS and RHS and condition code CC on the current
*0b57cec5SDimitry Andric/// target.
*0b57cec5SDimitry Andric///
*0b57cec5SDimitry Andric/// If the SETCC has been legalized using AND / OR, then the legalized node
*0b57cec5SDimitry Andric/// will be stored in LHS. RHS and CC will be set to SDValue(). NeedInvert
*0b57cec5SDimitry Andric/// will be set to false.
*0b57cec5SDimitry Andric///
*0b57cec5SDimitry Andric/// If the SETCC has been legalized by using getSetCCSwappedOperands(),
*0b57cec5SDimitry Andric/// then the values of LHS and RHS will be swapped, CC will be set to the
*0b57cec5SDimitry Andric/// new condition, and NeedInvert will be set to false.
*0b57cec5SDimitry Andric///
*0b57cec5SDimitry Andric/// If the SETCC has been legalized using the inverse condcode, then LHS and
*0b57cec5SDimitry Andric/// RHS will be unchanged, CC will set to the inverted condcode, and NeedInvert
*0b57cec5SDimitry Andric/// will be set to true. The caller must invert the result of the SETCC with
*0b57cec5SDimitry Andric/// SelectionDAG::getLogicalNOT() or take equivalent action to swap the effect
*0b57cec5SDimitry Andric/// of a true/false result.
*0b57cec5SDimitry Andric///
*0b57cec5SDimitry Andric/// \returns true if the SetCC has been legalized, false if it hasn't.
*0b57cec5SDimitry Andricbool SelectionDAGLegalize::LegalizeSetCCCondCode(EVT VT, SDValue &LHS,
*0b57cec5SDimitry Andric                                                 SDValue &RHS, SDValue &CC,
*0b57cec5SDimitry Andric                                                 bool &NeedInvert,
*0b57cec5SDimitry Andric                                                 const SDLoc &dl) {
*0b57cec5SDimitry Andric  MVT OpVT = LHS.getSimpleValueType();
*0b57cec5SDimitry Andric  ISD::CondCode CCCode = cast<CondCodeSDNode>(CC)->get();
*0b57cec5SDimitry Andric  NeedInvert = false;
*0b57cec5SDimitry Andric  bool NeedSwap = false;
*0b57cec5SDimitry Andric  switch (TLI.getCondCodeAction(CCCode, OpVT)) {
*0b57cec5SDimitry Andric  default: llvm_unreachable("Unknown condition code action!");
*0b57cec5SDimitry Andric  case TargetLowering::Legal:
*0b57cec5SDimitry Andric    // Nothing to do.
*0b57cec5SDimitry Andric    break;
*0b57cec5SDimitry Andric  case TargetLowering::Expand: {
*0b57cec5SDimitry Andric    ISD::CondCode InvCC = ISD::getSetCCSwappedOperands(CCCode);
*0b57cec5SDimitry Andric    if (TLI.isCondCodeLegalOrCustom(InvCC, OpVT)) {
*0b57cec5SDimitry Andric      std::swap(LHS, RHS);
*0b57cec5SDimitry Andric      CC = DAG.getCondCode(InvCC);
*0b57cec5SDimitry Andric      return true;
*0b57cec5SDimitry Andric    }
*0b57cec5SDimitry Andric    // Swapping operands didn't work. Try inverting the condition.
*0b57cec5SDimitry Andric    InvCC = getSetCCInverse(CCCode, OpVT.isInteger());
*0b57cec5SDimitry Andric    if (!TLI.isCondCodeLegalOrCustom(InvCC, OpVT)) {
*0b57cec5SDimitry Andric      // If inverting the condition is not enough, try swapping operands
*0b57cec5SDimitry Andric      // on top of it.
*0b57cec5SDimitry Andric      InvCC = ISD::getSetCCSwappedOperands(InvCC);
*0b57cec5SDimitry Andric      NeedSwap = true;
*0b57cec5SDimitry Andric    }
*0b57cec5SDimitry Andric    if (TLI.isCondCodeLegalOrCustom(InvCC, OpVT)) {
*0b57cec5SDimitry Andric      CC = DAG.getCondCode(InvCC);
*0b57cec5SDimitry Andric      NeedInvert = true;
*0b57cec5SDimitry Andric      if (NeedSwap)
*0b57cec5SDimitry Andric        std::swap(LHS, RHS);
*0b57cec5SDimitry Andric      return true;
*0b57cec5SDimitry Andric    }
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric    ISD::CondCode CC1 = ISD::SETCC_INVALID, CC2 = ISD::SETCC_INVALID;
*0b57cec5SDimitry Andric    unsigned Opc = 0;
*0b57cec5SDimitry Andric    switch (CCCode) {
*0b57cec5SDimitry Andric    default: llvm_unreachable("Don't know how to expand this condition!");
*0b57cec5SDimitry Andric    case ISD::SETO:
*0b57cec5SDimitry Andric        assert(TLI.isCondCodeLegal(ISD::SETOEQ, OpVT)
*0b57cec5SDimitry Andric            && "If SETO is expanded, SETOEQ must be legal!");
*0b57cec5SDimitry Andric        CC1 = ISD::SETOEQ; CC2 = ISD::SETOEQ; Opc = ISD::AND; break;
*0b57cec5SDimitry Andric    case ISD::SETUO:
*0b57cec5SDimitry Andric        assert(TLI.isCondCodeLegal(ISD::SETUNE, OpVT)
*0b57cec5SDimitry Andric            && "If SETUO is expanded, SETUNE must be legal!");
*0b57cec5SDimitry Andric        CC1 = ISD::SETUNE; CC2 = ISD::SETUNE; Opc = ISD::OR;  break;
*0b57cec5SDimitry Andric    case ISD::SETOEQ:
*0b57cec5SDimitry Andric    case ISD::SETOGT:
*0b57cec5SDimitry Andric    case ISD::SETOGE:
*0b57cec5SDimitry Andric    case ISD::SETOLT:
*0b57cec5SDimitry Andric    case ISD::SETOLE:
*0b57cec5SDimitry Andric    case ISD::SETONE:
*0b57cec5SDimitry Andric    case ISD::SETUEQ:
*0b57cec5SDimitry Andric    case ISD::SETUNE:
*0b57cec5SDimitry Andric    case ISD::SETUGT:
*0b57cec5SDimitry Andric    case ISD::SETUGE:
*0b57cec5SDimitry Andric    case ISD::SETULT:
*0b57cec5SDimitry Andric    case ISD::SETULE:
*0b57cec5SDimitry Andric        // If we are floating point, assign and break, otherwise fall through.
*0b57cec5SDimitry Andric        if (!OpVT.isInteger()) {
*0b57cec5SDimitry Andric          // We can use the 4th bit to tell if we are the unordered
*0b57cec5SDimitry Andric          // or ordered version of the opcode.
*0b57cec5SDimitry Andric          CC2 = ((unsigned)CCCode & 0x8U) ? ISD::SETUO : ISD::SETO;
*0b57cec5SDimitry Andric          Opc = ((unsigned)CCCode & 0x8U) ? ISD::OR : ISD::AND;
*0b57cec5SDimitry Andric          CC1 = (ISD::CondCode)(((int)CCCode & 0x7) | 0x10);
*0b57cec5SDimitry Andric          break;
*0b57cec5SDimitry Andric        }
*0b57cec5SDimitry Andric        // Fallthrough if we are unsigned integer.
*0b57cec5SDimitry Andric        LLVM_FALLTHROUGH;
*0b57cec5SDimitry Andric    case ISD::SETLE:
*0b57cec5SDimitry Andric    case ISD::SETGT:
*0b57cec5SDimitry Andric    case ISD::SETGE:
*0b57cec5SDimitry Andric    case ISD::SETLT:
*0b57cec5SDimitry Andric    case ISD::SETNE:
*0b57cec5SDimitry Andric    case ISD::SETEQ:
*0b57cec5SDimitry Andric      // If all combinations of inverting the condition and swapping operands
*0b57cec5SDimitry Andric      // didn't work then we have no means to expand the condition.
*0b57cec5SDimitry Andric      llvm_unreachable("Don't know how to expand this condition!");
*0b57cec5SDimitry Andric    }
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric    SDValue SetCC1, SetCC2;
*0b57cec5SDimitry Andric    if (CCCode != ISD::SETO && CCCode != ISD::SETUO) {
*0b57cec5SDimitry Andric      // If we aren't the ordered or unorder operation,
*0b57cec5SDimitry Andric      // then the pattern is (LHS CC1 RHS) Opc (LHS CC2 RHS).
*0b57cec5SDimitry Andric      SetCC1 = DAG.getSetCC(dl, VT, LHS, RHS, CC1);
*0b57cec5SDimitry Andric      SetCC2 = DAG.getSetCC(dl, VT, LHS, RHS, CC2);
*0b57cec5SDimitry Andric    } else {
*0b57cec5SDimitry Andric      // Otherwise, the pattern is (LHS CC1 LHS) Opc (RHS CC2 RHS)
*0b57cec5SDimitry Andric      SetCC1 = DAG.getSetCC(dl, VT, LHS, LHS, CC1);
*0b57cec5SDimitry Andric      SetCC2 = DAG.getSetCC(dl, VT, RHS, RHS, CC2);
*0b57cec5SDimitry Andric    }
*0b57cec5SDimitry Andric    LHS = DAG.getNode(Opc, dl, VT, SetCC1, SetCC2);
*0b57cec5SDimitry Andric    RHS = SDValue();
*0b57cec5SDimitry Andric    CC  = SDValue();
*0b57cec5SDimitry Andric    return true;
*0b57cec5SDimitry Andric  }
*0b57cec5SDimitry Andric  }
*0b57cec5SDimitry Andric  return false;
*0b57cec5SDimitry Andric}
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric/// Emit a store/load combination to the stack.  This stores
*0b57cec5SDimitry Andric/// SrcOp to a stack slot of type SlotVT, truncating it if needed.  It then does
*0b57cec5SDimitry Andric/// a load from the stack slot to DestVT, extending it if needed.
*0b57cec5SDimitry Andric/// The resultant code need not be legal.
*0b57cec5SDimitry AndricSDValue SelectionDAGLegalize::EmitStackConvert(SDValue SrcOp, EVT SlotVT,
*0b57cec5SDimitry Andric                                               EVT DestVT, const SDLoc &dl) {
*0b57cec5SDimitry Andric  return EmitStackConvert(SrcOp, SlotVT, DestVT, dl, DAG.getEntryNode());
*0b57cec5SDimitry Andric}
*0b57cec5SDimitry Andric
*0b57cec5SDimitry AndricSDValue SelectionDAGLegalize::EmitStackConvert(SDValue SrcOp, EVT SlotVT,
*0b57cec5SDimitry Andric                                               EVT DestVT, const SDLoc &dl,
*0b57cec5SDimitry Andric                                               SDValue Chain) {
*0b57cec5SDimitry Andric  // Create the stack frame object.
*0b57cec5SDimitry Andric  unsigned SrcAlign = DAG.getDataLayout().getPrefTypeAlignment(
*0b57cec5SDimitry Andric      SrcOp.getValueType().getTypeForEVT(*DAG.getContext()));
*0b57cec5SDimitry Andric  SDValue FIPtr = DAG.CreateStackTemporary(SlotVT, SrcAlign);
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric  FrameIndexSDNode *StackPtrFI = cast<FrameIndexSDNode>(FIPtr);
*0b57cec5SDimitry Andric  int SPFI = StackPtrFI->getIndex();
*0b57cec5SDimitry Andric  MachinePointerInfo PtrInfo =
*0b57cec5SDimitry Andric      MachinePointerInfo::getFixedStack(DAG.getMachineFunction(), SPFI);
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric  unsigned SrcSize = SrcOp.getValueSizeInBits();
*0b57cec5SDimitry Andric  unsigned SlotSize = SlotVT.getSizeInBits();
*0b57cec5SDimitry Andric  unsigned DestSize = DestVT.getSizeInBits();
*0b57cec5SDimitry Andric  Type *DestType = DestVT.getTypeForEVT(*DAG.getContext());
*0b57cec5SDimitry Andric  unsigned DestAlign = DAG.getDataLayout().getPrefTypeAlignment(DestType);
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric  // Emit a store to the stack slot.  Use a truncstore if the input value is
*0b57cec5SDimitry Andric  // later than DestVT.
*0b57cec5SDimitry Andric  SDValue Store;
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric  if (SrcSize > SlotSize)
*0b57cec5SDimitry Andric    Store = DAG.getTruncStore(Chain, dl, SrcOp, FIPtr, PtrInfo,
*0b57cec5SDimitry Andric                              SlotVT, SrcAlign);
*0b57cec5SDimitry Andric  else {
*0b57cec5SDimitry Andric    assert(SrcSize == SlotSize && "Invalid store");
*0b57cec5SDimitry Andric    Store =
*0b57cec5SDimitry Andric        DAG.getStore(Chain, dl, SrcOp, FIPtr, PtrInfo, SrcAlign);
*0b57cec5SDimitry Andric  }
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric  // Result is a load from the stack slot.
*0b57cec5SDimitry Andric  if (SlotSize == DestSize)
*0b57cec5SDimitry Andric    return DAG.getLoad(DestVT, dl, Store, FIPtr, PtrInfo, DestAlign);
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric  assert(SlotSize < DestSize && "Unknown extension!");
*0b57cec5SDimitry Andric  return DAG.getExtLoad(ISD::EXTLOAD, dl, DestVT, Store, FIPtr, PtrInfo, SlotVT,
*0b57cec5SDimitry Andric                        DestAlign);
*0b57cec5SDimitry Andric}
*0b57cec5SDimitry Andric
*0b57cec5SDimitry AndricSDValue SelectionDAGLegalize::ExpandSCALAR_TO_VECTOR(SDNode *Node) {
*0b57cec5SDimitry Andric  SDLoc dl(Node);
*0b57cec5SDimitry Andric  // Create a vector sized/aligned stack slot, store the value to element #0,
*0b57cec5SDimitry Andric  // then load the whole vector back out.
*0b57cec5SDimitry Andric  SDValue StackPtr = DAG.CreateStackTemporary(Node->getValueType(0));
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric  FrameIndexSDNode *StackPtrFI = cast<FrameIndexSDNode>(StackPtr);
*0b57cec5SDimitry Andric  int SPFI = StackPtrFI->getIndex();
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric  SDValue Ch = DAG.getTruncStore(
*0b57cec5SDimitry Andric      DAG.getEntryNode(), dl, Node->getOperand(0), StackPtr,
*0b57cec5SDimitry Andric      MachinePointerInfo::getFixedStack(DAG.getMachineFunction(), SPFI),
*0b57cec5SDimitry Andric      Node->getValueType(0).getVectorElementType());
*0b57cec5SDimitry Andric  return DAG.getLoad(
*0b57cec5SDimitry Andric      Node->getValueType(0), dl, Ch, StackPtr,
*0b57cec5SDimitry Andric      MachinePointerInfo::getFixedStack(DAG.getMachineFunction(), SPFI));
*0b57cec5SDimitry Andric}
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andricstatic bool
*0b57cec5SDimitry AndricExpandBVWithShuffles(SDNode *Node, SelectionDAG &DAG,
*0b57cec5SDimitry Andric                     const TargetLowering &TLI, SDValue &Res) {
*0b57cec5SDimitry Andric  unsigned NumElems = Node->getNumOperands();
*0b57cec5SDimitry Andric  SDLoc dl(Node);
*0b57cec5SDimitry Andric  EVT VT = Node->getValueType(0);
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric  // Try to group the scalars into pairs, shuffle the pairs together, then
*0b57cec5SDimitry Andric  // shuffle the pairs of pairs together, etc. until the vector has
*0b57cec5SDimitry Andric  // been built. This will work only if all of the necessary shuffle masks
*0b57cec5SDimitry Andric  // are legal.
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric  // We do this in two phases; first to check the legality of the shuffles,
*0b57cec5SDimitry Andric  // and next, assuming that all shuffles are legal, to create the new nodes.
*0b57cec5SDimitry Andric  for (int Phase = 0; Phase < 2; ++Phase) {
*0b57cec5SDimitry Andric    SmallVector<std::pair<SDValue, SmallVector<int, 16>>, 16> IntermedVals,
*0b57cec5SDimitry Andric                                                              NewIntermedVals;
*0b57cec5SDimitry Andric    for (unsigned i = 0; i < NumElems; ++i) {
*0b57cec5SDimitry Andric      SDValue V = Node->getOperand(i);
*0b57cec5SDimitry Andric      if (V.isUndef())
*0b57cec5SDimitry Andric        continue;
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric      SDValue Vec;
*0b57cec5SDimitry Andric      if (Phase)
*0b57cec5SDimitry Andric        Vec = DAG.getNode(ISD::SCALAR_TO_VECTOR, dl, VT, V);
*0b57cec5SDimitry Andric      IntermedVals.push_back(std::make_pair(Vec, SmallVector<int, 16>(1, i)));
*0b57cec5SDimitry Andric    }
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric    while (IntermedVals.size() > 2) {
*0b57cec5SDimitry Andric      NewIntermedVals.clear();
*0b57cec5SDimitry Andric      for (unsigned i = 0, e = (IntermedVals.size() & ~1u); i < e; i += 2) {
*0b57cec5SDimitry Andric        // This vector and the next vector are shuffled together (simply to
*0b57cec5SDimitry Andric        // append the one to the other).
*0b57cec5SDimitry Andric        SmallVector<int, 16> ShuffleVec(NumElems, -1);
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric        SmallVector<int, 16> FinalIndices;
*0b57cec5SDimitry Andric        FinalIndices.reserve(IntermedVals[i].second.size() +
*0b57cec5SDimitry Andric                             IntermedVals[i+1].second.size());
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric        int k = 0;
*0b57cec5SDimitry Andric        for (unsigned j = 0, f = IntermedVals[i].second.size(); j != f;
*0b57cec5SDimitry Andric             ++j, ++k) {
*0b57cec5SDimitry Andric          ShuffleVec[k] = j;
*0b57cec5SDimitry Andric          FinalIndices.push_back(IntermedVals[i].second[j]);
*0b57cec5SDimitry Andric        }
*0b57cec5SDimitry Andric        for (unsigned j = 0, f = IntermedVals[i+1].second.size(); j != f;
*0b57cec5SDimitry Andric             ++j, ++k) {
*0b57cec5SDimitry Andric          ShuffleVec[k] = NumElems + j;
*0b57cec5SDimitry Andric          FinalIndices.push_back(IntermedVals[i+1].second[j]);
*0b57cec5SDimitry Andric        }
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric        SDValue Shuffle;
*0b57cec5SDimitry Andric        if (Phase)
*0b57cec5SDimitry Andric          Shuffle = DAG.getVectorShuffle(VT, dl, IntermedVals[i].first,
*0b57cec5SDimitry Andric                                         IntermedVals[i+1].first,
*0b57cec5SDimitry Andric                                         ShuffleVec);
*0b57cec5SDimitry Andric        else if (!TLI.isShuffleMaskLegal(ShuffleVec, VT))
*0b57cec5SDimitry Andric          return false;
*0b57cec5SDimitry Andric        NewIntermedVals.push_back(
*0b57cec5SDimitry Andric            std::make_pair(Shuffle, std::move(FinalIndices)));
*0b57cec5SDimitry Andric      }
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric      // If we had an odd number of defined values, then append the last
*0b57cec5SDimitry Andric      // element to the array of new vectors.
*0b57cec5SDimitry Andric      if ((IntermedVals.size() & 1) != 0)
*0b57cec5SDimitry Andric        NewIntermedVals.push_back(IntermedVals.back());
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric      IntermedVals.swap(NewIntermedVals);
*0b57cec5SDimitry Andric    }
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric    assert(IntermedVals.size() <= 2 && IntermedVals.size() > 0 &&
*0b57cec5SDimitry Andric           "Invalid number of intermediate vectors");
*0b57cec5SDimitry Andric    SDValue Vec1 = IntermedVals[0].first;
*0b57cec5SDimitry Andric    SDValue Vec2;
*0b57cec5SDimitry Andric    if (IntermedVals.size() > 1)
*0b57cec5SDimitry Andric      Vec2 = IntermedVals[1].first;
*0b57cec5SDimitry Andric    else if (Phase)
*0b57cec5SDimitry Andric      Vec2 = DAG.getUNDEF(VT);
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric    SmallVector<int, 16> ShuffleVec(NumElems, -1);
*0b57cec5SDimitry Andric    for (unsigned i = 0, e = IntermedVals[0].second.size(); i != e; ++i)
*0b57cec5SDimitry Andric      ShuffleVec[IntermedVals[0].second[i]] = i;
*0b57cec5SDimitry Andric    for (unsigned i = 0, e = IntermedVals[1].second.size(); i != e; ++i)
*0b57cec5SDimitry Andric      ShuffleVec[IntermedVals[1].second[i]] = NumElems + i;
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric    if (Phase)
*0b57cec5SDimitry Andric      Res = DAG.getVectorShuffle(VT, dl, Vec1, Vec2, ShuffleVec);
*0b57cec5SDimitry Andric    else if (!TLI.isShuffleMaskLegal(ShuffleVec, VT))
*0b57cec5SDimitry Andric      return false;
*0b57cec5SDimitry Andric  }
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric  return true;
*0b57cec5SDimitry Andric}
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric/// Expand a BUILD_VECTOR node on targets that don't
*0b57cec5SDimitry Andric/// support the operation, but do support the resultant vector type.
*0b57cec5SDimitry AndricSDValue SelectionDAGLegalize::ExpandBUILD_VECTOR(SDNode *Node) {
*0b57cec5SDimitry Andric  unsigned NumElems = Node->getNumOperands();
*0b57cec5SDimitry Andric  SDValue Value1, Value2;
*0b57cec5SDimitry Andric  SDLoc dl(Node);
*0b57cec5SDimitry Andric  EVT VT = Node->getValueType(0);
*0b57cec5SDimitry Andric  EVT OpVT = Node->getOperand(0).getValueType();
*0b57cec5SDimitry Andric  EVT EltVT = VT.getVectorElementType();
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric  // If the only non-undef value is the low element, turn this into a
*0b57cec5SDimitry Andric  // SCALAR_TO_VECTOR node.  If this is { X, X, X, X }, determine X.
*0b57cec5SDimitry Andric  bool isOnlyLowElement = true;
*0b57cec5SDimitry Andric  bool MoreThanTwoValues = false;
*0b57cec5SDimitry Andric  bool isConstant = true;
*0b57cec5SDimitry Andric  for (unsigned i = 0; i < NumElems; ++i) {
*0b57cec5SDimitry Andric    SDValue V = Node->getOperand(i);
*0b57cec5SDimitry Andric    if (V.isUndef())
*0b57cec5SDimitry Andric      continue;
*0b57cec5SDimitry Andric    if (i > 0)
*0b57cec5SDimitry Andric      isOnlyLowElement = false;
*0b57cec5SDimitry Andric    if (!isa<ConstantFPSDNode>(V) && !isa<ConstantSDNode>(V))
*0b57cec5SDimitry Andric      isConstant = false;
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric    if (!Value1.getNode()) {
*0b57cec5SDimitry Andric      Value1 = V;
*0b57cec5SDimitry Andric    } else if (!Value2.getNode()) {
*0b57cec5SDimitry Andric      if (V != Value1)
*0b57cec5SDimitry Andric        Value2 = V;
*0b57cec5SDimitry Andric    } else if (V != Value1 && V != Value2) {
*0b57cec5SDimitry Andric      MoreThanTwoValues = true;
*0b57cec5SDimitry Andric    }
*0b57cec5SDimitry Andric  }
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric  if (!Value1.getNode())
*0b57cec5SDimitry Andric    return DAG.getUNDEF(VT);
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric  if (isOnlyLowElement)
*0b57cec5SDimitry Andric    return DAG.getNode(ISD::SCALAR_TO_VECTOR, dl, VT, Node->getOperand(0));
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric  // If all elements are constants, create a load from the constant pool.
*0b57cec5SDimitry Andric  if (isConstant) {
*0b57cec5SDimitry Andric    SmallVector<Constant*, 16> CV;
*0b57cec5SDimitry Andric    for (unsigned i = 0, e = NumElems; i != e; ++i) {
*0b57cec5SDimitry Andric      if (ConstantFPSDNode *V =
*0b57cec5SDimitry Andric          dyn_cast<ConstantFPSDNode>(Node->getOperand(i))) {
*0b57cec5SDimitry Andric        CV.push_back(const_cast<ConstantFP *>(V->getConstantFPValue()));
*0b57cec5SDimitry Andric      } else if (ConstantSDNode *V =
*0b57cec5SDimitry Andric                 dyn_cast<ConstantSDNode>(Node->getOperand(i))) {
*0b57cec5SDimitry Andric        if (OpVT==EltVT)
*0b57cec5SDimitry Andric          CV.push_back(const_cast<ConstantInt *>(V->getConstantIntValue()));
*0b57cec5SDimitry Andric        else {
*0b57cec5SDimitry Andric          // If OpVT and EltVT don't match, EltVT is not legal and the
*0b57cec5SDimitry Andric          // element values have been promoted/truncated earlier.  Undo this;
*0b57cec5SDimitry Andric          // we don't want a v16i8 to become a v16i32 for example.
*0b57cec5SDimitry Andric          const ConstantInt *CI = V->getConstantIntValue();
*0b57cec5SDimitry Andric          CV.push_back(ConstantInt::get(EltVT.getTypeForEVT(*DAG.getContext()),
*0b57cec5SDimitry Andric                                        CI->getZExtValue()));
*0b57cec5SDimitry Andric        }
*0b57cec5SDimitry Andric      } else {
*0b57cec5SDimitry Andric        assert(Node->getOperand(i).isUndef());
*0b57cec5SDimitry Andric        Type *OpNTy = EltVT.getTypeForEVT(*DAG.getContext());
*0b57cec5SDimitry Andric        CV.push_back(UndefValue::get(OpNTy));
*0b57cec5SDimitry Andric      }
*0b57cec5SDimitry Andric    }
*0b57cec5SDimitry Andric    Constant *CP = ConstantVector::get(CV);
*0b57cec5SDimitry Andric    SDValue CPIdx =
*0b57cec5SDimitry Andric        DAG.getConstantPool(CP, TLI.getPointerTy(DAG.getDataLayout()));
*0b57cec5SDimitry Andric    unsigned Alignment = cast<ConstantPoolSDNode>(CPIdx)->getAlignment();
*0b57cec5SDimitry Andric    return DAG.getLoad(
*0b57cec5SDimitry Andric        VT, dl, DAG.getEntryNode(), CPIdx,
*0b57cec5SDimitry Andric        MachinePointerInfo::getConstantPool(DAG.getMachineFunction()),
*0b57cec5SDimitry Andric        Alignment);
*0b57cec5SDimitry Andric  }
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric  SmallSet<SDValue, 16> DefinedValues;
*0b57cec5SDimitry Andric  for (unsigned i = 0; i < NumElems; ++i) {
*0b57cec5SDimitry Andric    if (Node->getOperand(i).isUndef())
*0b57cec5SDimitry Andric      continue;
*0b57cec5SDimitry Andric    DefinedValues.insert(Node->getOperand(i));
*0b57cec5SDimitry Andric  }
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric  if (TLI.shouldExpandBuildVectorWithShuffles(VT, DefinedValues.size())) {
*0b57cec5SDimitry Andric    if (!MoreThanTwoValues) {
*0b57cec5SDimitry Andric      SmallVector<int, 8> ShuffleVec(NumElems, -1);
*0b57cec5SDimitry Andric      for (unsigned i = 0; i < NumElems; ++i) {
*0b57cec5SDimitry Andric        SDValue V = Node->getOperand(i);
*0b57cec5SDimitry Andric        if (V.isUndef())
*0b57cec5SDimitry Andric          continue;
*0b57cec5SDimitry Andric        ShuffleVec[i] = V == Value1 ? 0 : NumElems;
*0b57cec5SDimitry Andric      }
*0b57cec5SDimitry Andric      if (TLI.isShuffleMaskLegal(ShuffleVec, Node->getValueType(0))) {
*0b57cec5SDimitry Andric        // Get the splatted value into the low element of a vector register.
*0b57cec5SDimitry Andric        SDValue Vec1 = DAG.getNode(ISD::SCALAR_TO_VECTOR, dl, VT, Value1);
*0b57cec5SDimitry Andric        SDValue Vec2;
*0b57cec5SDimitry Andric        if (Value2.getNode())
*0b57cec5SDimitry Andric          Vec2 = DAG.getNode(ISD::SCALAR_TO_VECTOR, dl, VT, Value2);
*0b57cec5SDimitry Andric        else
*0b57cec5SDimitry Andric          Vec2 = DAG.getUNDEF(VT);
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric        // Return shuffle(LowValVec, undef, <0,0,0,0>)
*0b57cec5SDimitry Andric        return DAG.getVectorShuffle(VT, dl, Vec1, Vec2, ShuffleVec);
*0b57cec5SDimitry Andric      }
*0b57cec5SDimitry Andric    } else {
*0b57cec5SDimitry Andric      SDValue Res;
*0b57cec5SDimitry Andric      if (ExpandBVWithShuffles(Node, DAG, TLI, Res))
*0b57cec5SDimitry Andric        return Res;
*0b57cec5SDimitry Andric    }
*0b57cec5SDimitry Andric  }
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric  // Otherwise, we can't handle this case efficiently.
*0b57cec5SDimitry Andric  return ExpandVectorBuildThroughStack(Node);
*0b57cec5SDimitry Andric}
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric// Expand a node into a call to a libcall.  If the result value
*0b57cec5SDimitry Andric// does not fit into a register, return the lo part and set the hi part to the
*0b57cec5SDimitry Andric// by-reg argument.  If it does fit into a single register, return the result
*0b57cec5SDimitry Andric// and leave the Hi part unset.
*0b57cec5SDimitry AndricSDValue SelectionDAGLegalize::ExpandLibCall(RTLIB::Libcall LC, SDNode *Node,
*0b57cec5SDimitry Andric                                            bool isSigned) {
*0b57cec5SDimitry Andric  TargetLowering::ArgListTy Args;
*0b57cec5SDimitry Andric  TargetLowering::ArgListEntry Entry;
*0b57cec5SDimitry Andric  for (const SDValue &Op : Node->op_values()) {
*0b57cec5SDimitry Andric    EVT ArgVT = Op.getValueType();
*0b57cec5SDimitry Andric    Type *ArgTy = ArgVT.getTypeForEVT(*DAG.getContext());
*0b57cec5SDimitry Andric    Entry.Node = Op;
*0b57cec5SDimitry Andric    Entry.Ty = ArgTy;
*0b57cec5SDimitry Andric    Entry.IsSExt = TLI.shouldSignExtendTypeInLibCall(ArgVT, isSigned);
*0b57cec5SDimitry Andric    Entry.IsZExt = !TLI.shouldSignExtendTypeInLibCall(ArgVT, isSigned);
*0b57cec5SDimitry Andric    Args.push_back(Entry);
*0b57cec5SDimitry Andric  }
*0b57cec5SDimitry Andric  SDValue Callee = DAG.getExternalSymbol(TLI.getLibcallName(LC),
*0b57cec5SDimitry Andric                                         TLI.getPointerTy(DAG.getDataLayout()));
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric  EVT RetVT = Node->getValueType(0);
*0b57cec5SDimitry Andric  Type *RetTy = RetVT.getTypeForEVT(*DAG.getContext());
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric  // By default, the input chain to this libcall is the entry node of the
*0b57cec5SDimitry Andric  // function. If the libcall is going to be emitted as a tail call then
*0b57cec5SDimitry Andric  // TLI.isUsedByReturnOnly will change it to the right chain if the return
*0b57cec5SDimitry Andric  // node which is being folded has a non-entry input chain.
*0b57cec5SDimitry Andric  SDValue InChain = DAG.getEntryNode();
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric  // isTailCall may be true since the callee does not reference caller stack
*0b57cec5SDimitry Andric  // frame. Check if it's in the right position and that the return types match.
*0b57cec5SDimitry Andric  SDValue TCChain = InChain;
*0b57cec5SDimitry Andric  const Function &F = DAG.getMachineFunction().getFunction();
*0b57cec5SDimitry Andric  bool isTailCall =
*0b57cec5SDimitry Andric      TLI.isInTailCallPosition(DAG, Node, TCChain) &&
*0b57cec5SDimitry Andric      (RetTy == F.getReturnType() || F.getReturnType()->isVoidTy());
*0b57cec5SDimitry Andric  if (isTailCall)
*0b57cec5SDimitry Andric    InChain = TCChain;
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric  TargetLowering::CallLoweringInfo CLI(DAG);
*0b57cec5SDimitry Andric  bool signExtend = TLI.shouldSignExtendTypeInLibCall(RetVT, isSigned);
*0b57cec5SDimitry Andric  CLI.setDebugLoc(SDLoc(Node))
*0b57cec5SDimitry Andric      .setChain(InChain)
*0b57cec5SDimitry Andric      .setLibCallee(TLI.getLibcallCallingConv(LC), RetTy, Callee,
*0b57cec5SDimitry Andric                    std::move(Args))
*0b57cec5SDimitry Andric      .setTailCall(isTailCall)
*0b57cec5SDimitry Andric      .setSExtResult(signExtend)
*0b57cec5SDimitry Andric      .setZExtResult(!signExtend)
*0b57cec5SDimitry Andric      .setIsPostTypeLegalization(true);
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric  std::pair<SDValue, SDValue> CallInfo = TLI.LowerCallTo(CLI);
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric  if (!CallInfo.second.getNode()) {
*0b57cec5SDimitry Andric    LLVM_DEBUG(dbgs() << "Created tailcall: "; DAG.getRoot().dump());
*0b57cec5SDimitry Andric    // It's a tailcall, return the chain (which is the DAG root).
*0b57cec5SDimitry Andric    return DAG.getRoot();
*0b57cec5SDimitry Andric  }
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric  LLVM_DEBUG(dbgs() << "Created libcall: "; CallInfo.first.dump());
*0b57cec5SDimitry Andric  return CallInfo.first;
*0b57cec5SDimitry Andric}
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric// Expand a node into a call to a libcall. Similar to
*0b57cec5SDimitry Andric// ExpandLibCall except that the first operand is the in-chain.
*0b57cec5SDimitry Andricstd::pair<SDValue, SDValue>
*0b57cec5SDimitry AndricSelectionDAGLegalize::ExpandChainLibCall(RTLIB::Libcall LC,
*0b57cec5SDimitry Andric                                         SDNode *Node,
*0b57cec5SDimitry Andric                                         bool isSigned) {
*0b57cec5SDimitry Andric  SDValue InChain = Node->getOperand(0);
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric  TargetLowering::ArgListTy Args;
*0b57cec5SDimitry Andric  TargetLowering::ArgListEntry Entry;
*0b57cec5SDimitry Andric  for (unsigned i = 1, e = Node->getNumOperands(); i != e; ++i) {
*0b57cec5SDimitry Andric    EVT ArgVT = Node->getOperand(i).getValueType();
*0b57cec5SDimitry Andric    Type *ArgTy = ArgVT.getTypeForEVT(*DAG.getContext());
*0b57cec5SDimitry Andric    Entry.Node = Node->getOperand(i);
*0b57cec5SDimitry Andric    Entry.Ty = ArgTy;
*0b57cec5SDimitry Andric    Entry.IsSExt = isSigned;
*0b57cec5SDimitry Andric    Entry.IsZExt = !isSigned;
*0b57cec5SDimitry Andric    Args.push_back(Entry);
*0b57cec5SDimitry Andric  }
*0b57cec5SDimitry Andric  SDValue Callee = DAG.getExternalSymbol(TLI.getLibcallName(LC),
*0b57cec5SDimitry Andric                                         TLI.getPointerTy(DAG.getDataLayout()));
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric  Type *RetTy = Node->getValueType(0).getTypeForEVT(*DAG.getContext());
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric  TargetLowering::CallLoweringInfo CLI(DAG);
*0b57cec5SDimitry Andric  CLI.setDebugLoc(SDLoc(Node))
*0b57cec5SDimitry Andric      .setChain(InChain)
*0b57cec5SDimitry Andric      .setLibCallee(TLI.getLibcallCallingConv(LC), RetTy, Callee,
*0b57cec5SDimitry Andric                    std::move(Args))
*0b57cec5SDimitry Andric      .setSExtResult(isSigned)
*0b57cec5SDimitry Andric      .setZExtResult(!isSigned);
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric  std::pair<SDValue, SDValue> CallInfo = TLI.LowerCallTo(CLI);
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric  return CallInfo;
*0b57cec5SDimitry Andric}
*0b57cec5SDimitry Andric
*0b57cec5SDimitry AndricSDValue SelectionDAGLegalize::ExpandFPLibCall(SDNode* Node,
*0b57cec5SDimitry Andric                                              RTLIB::Libcall Call_F32,
*0b57cec5SDimitry Andric                                              RTLIB::Libcall Call_F64,
*0b57cec5SDimitry Andric                                              RTLIB::Libcall Call_F80,
*0b57cec5SDimitry Andric                                              RTLIB::Libcall Call_F128,
*0b57cec5SDimitry Andric                                              RTLIB::Libcall Call_PPCF128) {
*0b57cec5SDimitry Andric  if (Node->isStrictFPOpcode())
*0b57cec5SDimitry Andric    Node = DAG.mutateStrictFPToFP(Node);
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric  RTLIB::Libcall LC;
*0b57cec5SDimitry Andric  switch (Node->getSimpleValueType(0).SimpleTy) {
*0b57cec5SDimitry Andric  default: llvm_unreachable("Unexpected request for libcall!");
*0b57cec5SDimitry Andric  case MVT::f32: LC = Call_F32; break;
*0b57cec5SDimitry Andric  case MVT::f64: LC = Call_F64; break;
*0b57cec5SDimitry Andric  case MVT::f80: LC = Call_F80; break;
*0b57cec5SDimitry Andric  case MVT::f128: LC = Call_F128; break;
*0b57cec5SDimitry Andric  case MVT::ppcf128: LC = Call_PPCF128; break;
*0b57cec5SDimitry Andric  }
*0b57cec5SDimitry Andric  return ExpandLibCall(LC, Node, false);
*0b57cec5SDimitry Andric}
*0b57cec5SDimitry Andric
*0b57cec5SDimitry AndricSDValue SelectionDAGLegalize::ExpandIntLibCall(SDNode* Node, bool isSigned,
*0b57cec5SDimitry Andric                                               RTLIB::Libcall Call_I8,
*0b57cec5SDimitry Andric                                               RTLIB::Libcall Call_I16,
*0b57cec5SDimitry Andric                                               RTLIB::Libcall Call_I32,
*0b57cec5SDimitry Andric                                               RTLIB::Libcall Call_I64,
*0b57cec5SDimitry Andric                                               RTLIB::Libcall Call_I128) {
*0b57cec5SDimitry Andric  RTLIB::Libcall LC;
*0b57cec5SDimitry Andric  switch (Node->getSimpleValueType(0).SimpleTy) {
*0b57cec5SDimitry Andric  default: llvm_unreachable("Unexpected request for libcall!");
*0b57cec5SDimitry Andric  case MVT::i8:   LC = Call_I8; break;
*0b57cec5SDimitry Andric  case MVT::i16:  LC = Call_I16; break;
*0b57cec5SDimitry Andric  case MVT::i32:  LC = Call_I32; break;
*0b57cec5SDimitry Andric  case MVT::i64:  LC = Call_I64; break;
*0b57cec5SDimitry Andric  case MVT::i128: LC = Call_I128; break;
*0b57cec5SDimitry Andric  }
*0b57cec5SDimitry Andric  return ExpandLibCall(LC, Node, isSigned);
*0b57cec5SDimitry Andric}
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric/// Expand the node to a libcall based on first argument type (for instance
*0b57cec5SDimitry Andric/// lround and its variant).
*0b57cec5SDimitry AndricSDValue SelectionDAGLegalize::ExpandArgFPLibCall(SDNode* Node,
*0b57cec5SDimitry Andric                                                 RTLIB::Libcall Call_F32,
*0b57cec5SDimitry Andric                                                 RTLIB::Libcall Call_F64,
*0b57cec5SDimitry Andric                                                 RTLIB::Libcall Call_F80,
*0b57cec5SDimitry Andric                                                 RTLIB::Libcall Call_F128,
*0b57cec5SDimitry Andric                                                 RTLIB::Libcall Call_PPCF128) {
*0b57cec5SDimitry Andric  RTLIB::Libcall LC;
*0b57cec5SDimitry Andric  switch (Node->getOperand(0).getValueType().getSimpleVT().SimpleTy) {
*0b57cec5SDimitry Andric  default: llvm_unreachable("Unexpected request for libcall!");
*0b57cec5SDimitry Andric  case MVT::f32:     LC = Call_F32; break;
*0b57cec5SDimitry Andric  case MVT::f64:     LC = Call_F64; break;
*0b57cec5SDimitry Andric  case MVT::f80:     LC = Call_F80; break;
*0b57cec5SDimitry Andric  case MVT::f128:    LC = Call_F128; break;
*0b57cec5SDimitry Andric  case MVT::ppcf128: LC = Call_PPCF128; break;
*0b57cec5SDimitry Andric  }
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric  return ExpandLibCall(LC, Node, false);
*0b57cec5SDimitry Andric}
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric/// Issue libcalls to __{u}divmod to compute div / rem pairs.
*0b57cec5SDimitry Andricvoid
*0b57cec5SDimitry AndricSelectionDAGLegalize::ExpandDivRemLibCall(SDNode *Node,
*0b57cec5SDimitry Andric                                          SmallVectorImpl<SDValue> &Results) {
*0b57cec5SDimitry Andric  unsigned Opcode = Node->getOpcode();
*0b57cec5SDimitry Andric  bool isSigned = Opcode == ISD::SDIVREM;
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric  RTLIB::Libcall LC;
*0b57cec5SDimitry Andric  switch (Node->getSimpleValueType(0).SimpleTy) {
*0b57cec5SDimitry Andric  default: llvm_unreachable("Unexpected request for libcall!");
*0b57cec5SDimitry Andric  case MVT::i8:   LC= isSigned ? RTLIB::SDIVREM_I8  : RTLIB::UDIVREM_I8;  break;
*0b57cec5SDimitry Andric  case MVT::i16:  LC= isSigned ? RTLIB::SDIVREM_I16 : RTLIB::UDIVREM_I16; break;
*0b57cec5SDimitry Andric  case MVT::i32:  LC= isSigned ? RTLIB::SDIVREM_I32 : RTLIB::UDIVREM_I32; break;
*0b57cec5SDimitry Andric  case MVT::i64:  LC= isSigned ? RTLIB::SDIVREM_I64 : RTLIB::UDIVREM_I64; break;
*0b57cec5SDimitry Andric  case MVT::i128: LC= isSigned ? RTLIB::SDIVREM_I128:RTLIB::UDIVREM_I128; break;
*0b57cec5SDimitry Andric  }
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric  // The input chain to this libcall is the entry node of the function.
*0b57cec5SDimitry Andric  // Legalizing the call will automatically add the previous call to the
*0b57cec5SDimitry Andric  // dependence.
*0b57cec5SDimitry Andric  SDValue InChain = DAG.getEntryNode();
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric  EVT RetVT = Node->getValueType(0);
*0b57cec5SDimitry Andric  Type *RetTy = RetVT.getTypeForEVT(*DAG.getContext());
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric  TargetLowering::ArgListTy Args;
*0b57cec5SDimitry Andric  TargetLowering::ArgListEntry Entry;
*0b57cec5SDimitry Andric  for (const SDValue &Op : Node->op_values()) {
*0b57cec5SDimitry Andric    EVT ArgVT = Op.getValueType();
*0b57cec5SDimitry Andric    Type *ArgTy = ArgVT.getTypeForEVT(*DAG.getContext());
*0b57cec5SDimitry Andric    Entry.Node = Op;
*0b57cec5SDimitry Andric    Entry.Ty = ArgTy;
*0b57cec5SDimitry Andric    Entry.IsSExt = isSigned;
*0b57cec5SDimitry Andric    Entry.IsZExt = !isSigned;
*0b57cec5SDimitry Andric    Args.push_back(Entry);
*0b57cec5SDimitry Andric  }
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric  // Also pass the return address of the remainder.
*0b57cec5SDimitry Andric  SDValue FIPtr = DAG.CreateStackTemporary(RetVT);
*0b57cec5SDimitry Andric  Entry.Node = FIPtr;
*0b57cec5SDimitry Andric  Entry.Ty = RetTy->getPointerTo();
*0b57cec5SDimitry Andric  Entry.IsSExt = isSigned;
*0b57cec5SDimitry Andric  Entry.IsZExt = !isSigned;
*0b57cec5SDimitry Andric  Args.push_back(Entry);
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric  SDValue Callee = DAG.getExternalSymbol(TLI.getLibcallName(LC),
*0b57cec5SDimitry Andric                                         TLI.getPointerTy(DAG.getDataLayout()));
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric  SDLoc dl(Node);
*0b57cec5SDimitry Andric  TargetLowering::CallLoweringInfo CLI(DAG);
*0b57cec5SDimitry Andric  CLI.setDebugLoc(dl)
*0b57cec5SDimitry Andric      .setChain(InChain)
*0b57cec5SDimitry Andric      .setLibCallee(TLI.getLibcallCallingConv(LC), RetTy, Callee,
*0b57cec5SDimitry Andric                    std::move(Args))
*0b57cec5SDimitry Andric      .setSExtResult(isSigned)
*0b57cec5SDimitry Andric      .setZExtResult(!isSigned);
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric  std::pair<SDValue, SDValue> CallInfo = TLI.LowerCallTo(CLI);
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric  // Remainder is loaded back from the stack frame.
*0b57cec5SDimitry Andric  SDValue Rem =
*0b57cec5SDimitry Andric      DAG.getLoad(RetVT, dl, CallInfo.second, FIPtr, MachinePointerInfo());
*0b57cec5SDimitry Andric  Results.push_back(CallInfo.first);
*0b57cec5SDimitry Andric  Results.push_back(Rem);
*0b57cec5SDimitry Andric}
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric/// Return true if sincos libcall is available.
*0b57cec5SDimitry Andricstatic bool isSinCosLibcallAvailable(SDNode *Node, const TargetLowering &TLI) {
*0b57cec5SDimitry Andric  RTLIB::Libcall LC;
*0b57cec5SDimitry Andric  switch (Node->getSimpleValueType(0).SimpleTy) {
*0b57cec5SDimitry Andric  default: llvm_unreachable("Unexpected request for libcall!");
*0b57cec5SDimitry Andric  case MVT::f32:     LC = RTLIB::SINCOS_F32; break;
*0b57cec5SDimitry Andric  case MVT::f64:     LC = RTLIB::SINCOS_F64; break;
*0b57cec5SDimitry Andric  case MVT::f80:     LC = RTLIB::SINCOS_F80; break;
*0b57cec5SDimitry Andric  case MVT::f128:    LC = RTLIB::SINCOS_F128; break;
*0b57cec5SDimitry Andric  case MVT::ppcf128: LC = RTLIB::SINCOS_PPCF128; break;
*0b57cec5SDimitry Andric  }
*0b57cec5SDimitry Andric  return TLI.getLibcallName(LC) != nullptr;
*0b57cec5SDimitry Andric}
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric/// Only issue sincos libcall if both sin and cos are needed.
*0b57cec5SDimitry Andricstatic bool useSinCos(SDNode *Node) {
*0b57cec5SDimitry Andric  unsigned OtherOpcode = Node->getOpcode() == ISD::FSIN
*0b57cec5SDimitry Andric    ? ISD::FCOS : ISD::FSIN;
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric  SDValue Op0 = Node->getOperand(0);
*0b57cec5SDimitry Andric  for (SDNode::use_iterator UI = Op0.getNode()->use_begin(),
*0b57cec5SDimitry Andric       UE = Op0.getNode()->use_end(); UI != UE; ++UI) {
*0b57cec5SDimitry Andric    SDNode *User = *UI;
*0b57cec5SDimitry Andric    if (User == Node)
*0b57cec5SDimitry Andric      continue;
*0b57cec5SDimitry Andric    // The other user might have been turned into sincos already.
*0b57cec5SDimitry Andric    if (User->getOpcode() == OtherOpcode || User->getOpcode() == ISD::FSINCOS)
*0b57cec5SDimitry Andric      return true;
*0b57cec5SDimitry Andric  }
*0b57cec5SDimitry Andric  return false;
*0b57cec5SDimitry Andric}
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric/// Issue libcalls to sincos to compute sin / cos pairs.
*0b57cec5SDimitry Andricvoid
*0b57cec5SDimitry AndricSelectionDAGLegalize::ExpandSinCosLibCall(SDNode *Node,
*0b57cec5SDimitry Andric                                          SmallVectorImpl<SDValue> &Results) {
*0b57cec5SDimitry Andric  RTLIB::Libcall LC;
*0b57cec5SDimitry Andric  switch (Node->getSimpleValueType(0).SimpleTy) {
*0b57cec5SDimitry Andric  default: llvm_unreachable("Unexpected request for libcall!");
*0b57cec5SDimitry Andric  case MVT::f32:     LC = RTLIB::SINCOS_F32; break;
*0b57cec5SDimitry Andric  case MVT::f64:     LC = RTLIB::SINCOS_F64; break;
*0b57cec5SDimitry Andric  case MVT::f80:     LC = RTLIB::SINCOS_F80; break;
*0b57cec5SDimitry Andric  case MVT::f128:    LC = RTLIB::SINCOS_F128; break;
*0b57cec5SDimitry Andric  case MVT::ppcf128: LC = RTLIB::SINCOS_PPCF128; break;
*0b57cec5SDimitry Andric  }
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric  // The input chain to this libcall is the entry node of the function.
*0b57cec5SDimitry Andric  // Legalizing the call will automatically add the previous call to the
*0b57cec5SDimitry Andric  // dependence.
*0b57cec5SDimitry Andric  SDValue InChain = DAG.getEntryNode();
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric  EVT RetVT = Node->getValueType(0);
*0b57cec5SDimitry Andric  Type *RetTy = RetVT.getTypeForEVT(*DAG.getContext());
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric  TargetLowering::ArgListTy Args;
*0b57cec5SDimitry Andric  TargetLowering::ArgListEntry Entry;
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric  // Pass the argument.
*0b57cec5SDimitry Andric  Entry.Node = Node->getOperand(0);
*0b57cec5SDimitry Andric  Entry.Ty = RetTy;
*0b57cec5SDimitry Andric  Entry.IsSExt = false;
*0b57cec5SDimitry Andric  Entry.IsZExt = false;
*0b57cec5SDimitry Andric  Args.push_back(Entry);
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric  // Pass the return address of sin.
*0b57cec5SDimitry Andric  SDValue SinPtr = DAG.CreateStackTemporary(RetVT);
*0b57cec5SDimitry Andric  Entry.Node = SinPtr;
*0b57cec5SDimitry Andric  Entry.Ty = RetTy->getPointerTo();
*0b57cec5SDimitry Andric  Entry.IsSExt = false;
*0b57cec5SDimitry Andric  Entry.IsZExt = false;
*0b57cec5SDimitry Andric  Args.push_back(Entry);
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric  // Also pass the return address of the cos.
*0b57cec5SDimitry Andric  SDValue CosPtr = DAG.CreateStackTemporary(RetVT);
*0b57cec5SDimitry Andric  Entry.Node = CosPtr;
*0b57cec5SDimitry Andric  Entry.Ty = RetTy->getPointerTo();
*0b57cec5SDimitry Andric  Entry.IsSExt = false;
*0b57cec5SDimitry Andric  Entry.IsZExt = false;
*0b57cec5SDimitry Andric  Args.push_back(Entry);
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric  SDValue Callee = DAG.getExternalSymbol(TLI.getLibcallName(LC),
*0b57cec5SDimitry Andric                                         TLI.getPointerTy(DAG.getDataLayout()));
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric  SDLoc dl(Node);
*0b57cec5SDimitry Andric  TargetLowering::CallLoweringInfo CLI(DAG);
*0b57cec5SDimitry Andric  CLI.setDebugLoc(dl).setChain(InChain).setLibCallee(
*0b57cec5SDimitry Andric      TLI.getLibcallCallingConv(LC), Type::getVoidTy(*DAG.getContext()), Callee,
*0b57cec5SDimitry Andric      std::move(Args));
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric  std::pair<SDValue, SDValue> CallInfo = TLI.LowerCallTo(CLI);
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric  Results.push_back(
*0b57cec5SDimitry Andric      DAG.getLoad(RetVT, dl, CallInfo.second, SinPtr, MachinePointerInfo()));
*0b57cec5SDimitry Andric  Results.push_back(
*0b57cec5SDimitry Andric      DAG.getLoad(RetVT, dl, CallInfo.second, CosPtr, MachinePointerInfo()));
*0b57cec5SDimitry Andric}
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric/// This function is responsible for legalizing a
*0b57cec5SDimitry Andric/// INT_TO_FP operation of the specified operand when the target requests that
*0b57cec5SDimitry Andric/// we expand it.  At this point, we know that the result and operand types are
*0b57cec5SDimitry Andric/// legal for the target.
*0b57cec5SDimitry AndricSDValue SelectionDAGLegalize::ExpandLegalINT_TO_FP(bool isSigned, SDValue Op0,
*0b57cec5SDimitry Andric                                                   EVT DestVT,
*0b57cec5SDimitry Andric                                                   const SDLoc &dl) {
*0b57cec5SDimitry Andric  EVT SrcVT = Op0.getValueType();
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric  // TODO: Should any fast-math-flags be set for the created nodes?
*0b57cec5SDimitry Andric  LLVM_DEBUG(dbgs() << "Legalizing INT_TO_FP\n");
*0b57cec5SDimitry Andric  if (SrcVT == MVT::i32 && TLI.isTypeLegal(MVT::f64)) {
*0b57cec5SDimitry Andric    LLVM_DEBUG(dbgs() << "32-bit [signed|unsigned] integer to float/double "
*0b57cec5SDimitry Andric                         "expansion\n");
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric    // Get the stack frame index of a 8 byte buffer.
*0b57cec5SDimitry Andric    SDValue StackSlot = DAG.CreateStackTemporary(MVT::f64);
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric    // word offset constant for Hi/Lo address computation
*0b57cec5SDimitry Andric    SDValue WordOff = DAG.getConstant(sizeof(int), dl,
*0b57cec5SDimitry Andric                                      StackSlot.getValueType());
*0b57cec5SDimitry Andric    // set up Hi and Lo (into buffer) address based on endian
*0b57cec5SDimitry Andric    SDValue Hi = StackSlot;
*0b57cec5SDimitry Andric    SDValue Lo = DAG.getNode(ISD::ADD, dl, StackSlot.getValueType(),
*0b57cec5SDimitry Andric                             StackSlot, WordOff);
*0b57cec5SDimitry Andric    if (DAG.getDataLayout().isLittleEndian())
*0b57cec5SDimitry Andric      std::swap(Hi, Lo);
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric    // if signed map to unsigned space
*0b57cec5SDimitry Andric    SDValue Op0Mapped;
*0b57cec5SDimitry Andric    if (isSigned) {
*0b57cec5SDimitry Andric      // constant used to invert sign bit (signed to unsigned mapping)
*0b57cec5SDimitry Andric      SDValue SignBit = DAG.getConstant(0x80000000u, dl, MVT::i32);
*0b57cec5SDimitry Andric      Op0Mapped = DAG.getNode(ISD::XOR, dl, MVT::i32, Op0, SignBit);
*0b57cec5SDimitry Andric    } else {
*0b57cec5SDimitry Andric      Op0Mapped = Op0;
*0b57cec5SDimitry Andric    }
*0b57cec5SDimitry Andric    // store the lo of the constructed double - based on integer input
*0b57cec5SDimitry Andric    SDValue Store1 = DAG.getStore(DAG.getEntryNode(), dl, Op0Mapped, Lo,
*0b57cec5SDimitry Andric                                  MachinePointerInfo());
*0b57cec5SDimitry Andric    // initial hi portion of constructed double
*0b57cec5SDimitry Andric    SDValue InitialHi = DAG.getConstant(0x43300000u, dl, MVT::i32);
*0b57cec5SDimitry Andric    // store the hi of the constructed double - biased exponent
*0b57cec5SDimitry Andric    SDValue Store2 =
*0b57cec5SDimitry Andric        DAG.getStore(Store1, dl, InitialHi, Hi, MachinePointerInfo());
*0b57cec5SDimitry Andric    // load the constructed double
*0b57cec5SDimitry Andric    SDValue Load =
*0b57cec5SDimitry Andric        DAG.getLoad(MVT::f64, dl, Store2, StackSlot, MachinePointerInfo());
*0b57cec5SDimitry Andric    // FP constant to bias correct the final result
*0b57cec5SDimitry Andric    SDValue Bias = DAG.getConstantFP(isSigned ?
*0b57cec5SDimitry Andric                                     BitsToDouble(0x4330000080000000ULL) :
*0b57cec5SDimitry Andric                                     BitsToDouble(0x4330000000000000ULL),
*0b57cec5SDimitry Andric                                     dl, MVT::f64);
*0b57cec5SDimitry Andric    // subtract the bias
*0b57cec5SDimitry Andric    SDValue Sub = DAG.getNode(ISD::FSUB, dl, MVT::f64, Load, Bias);
*0b57cec5SDimitry Andric    // final result
*0b57cec5SDimitry Andric    SDValue Result = DAG.getFPExtendOrRound(Sub, dl, DestVT);
*0b57cec5SDimitry Andric    return Result;
*0b57cec5SDimitry Andric  }
*0b57cec5SDimitry Andric  assert(!isSigned && "Legalize cannot Expand SINT_TO_FP for i64 yet");
*0b57cec5SDimitry Andric  // Code below here assumes !isSigned without checking again.
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric  SDValue Tmp1 = DAG.getNode(ISD::SINT_TO_FP, dl, DestVT, Op0);
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric  SDValue SignSet = DAG.getSetCC(dl, getSetCCResultType(SrcVT), Op0,
*0b57cec5SDimitry Andric                                 DAG.getConstant(0, dl, SrcVT), ISD::SETLT);
*0b57cec5SDimitry Andric  SDValue Zero = DAG.getIntPtrConstant(0, dl),
*0b57cec5SDimitry Andric          Four = DAG.getIntPtrConstant(4, dl);
*0b57cec5SDimitry Andric  SDValue CstOffset = DAG.getSelect(dl, Zero.getValueType(),
*0b57cec5SDimitry Andric                                    SignSet, Four, Zero);
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric  // If the sign bit of the integer is set, the large number will be treated
*0b57cec5SDimitry Andric  // as a negative number.  To counteract this, the dynamic code adds an
*0b57cec5SDimitry Andric  // offset depending on the data type.
*0b57cec5SDimitry Andric  uint64_t FF;
*0b57cec5SDimitry Andric  switch (SrcVT.getSimpleVT().SimpleTy) {
*0b57cec5SDimitry Andric  default: llvm_unreachable("Unsupported integer type!");
*0b57cec5SDimitry Andric  case MVT::i8 : FF = 0x43800000ULL; break;  // 2^8  (as a float)
*0b57cec5SDimitry Andric  case MVT::i16: FF = 0x47800000ULL; break;  // 2^16 (as a float)
*0b57cec5SDimitry Andric  case MVT::i32: FF = 0x4F800000ULL; break;  // 2^32 (as a float)
*0b57cec5SDimitry Andric  case MVT::i64: FF = 0x5F800000ULL; break;  // 2^64 (as a float)
*0b57cec5SDimitry Andric  }
*0b57cec5SDimitry Andric  if (DAG.getDataLayout().isLittleEndian())
*0b57cec5SDimitry Andric    FF <<= 32;
*0b57cec5SDimitry Andric  Constant *FudgeFactor = ConstantInt::get(
*0b57cec5SDimitry Andric                                       Type::getInt64Ty(*DAG.getContext()), FF);
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric  SDValue CPIdx =
*0b57cec5SDimitry Andric      DAG.getConstantPool(FudgeFactor, TLI.getPointerTy(DAG.getDataLayout()));
*0b57cec5SDimitry Andric  unsigned Alignment = cast<ConstantPoolSDNode>(CPIdx)->getAlignment();
*0b57cec5SDimitry Andric  CPIdx = DAG.getNode(ISD::ADD, dl, CPIdx.getValueType(), CPIdx, CstOffset);
*0b57cec5SDimitry Andric  Alignment = std::min(Alignment, 4u);
*0b57cec5SDimitry Andric  SDValue FudgeInReg;
*0b57cec5SDimitry Andric  if (DestVT == MVT::f32)
*0b57cec5SDimitry Andric    FudgeInReg = DAG.getLoad(
*0b57cec5SDimitry Andric        MVT::f32, dl, DAG.getEntryNode(), CPIdx,
*0b57cec5SDimitry Andric        MachinePointerInfo::getConstantPool(DAG.getMachineFunction()),
*0b57cec5SDimitry Andric        Alignment);
*0b57cec5SDimitry Andric  else {
*0b57cec5SDimitry Andric    SDValue Load = DAG.getExtLoad(
*0b57cec5SDimitry Andric        ISD::EXTLOAD, dl, DestVT, DAG.getEntryNode(), CPIdx,
*0b57cec5SDimitry Andric        MachinePointerInfo::getConstantPool(DAG.getMachineFunction()), MVT::f32,
*0b57cec5SDimitry Andric        Alignment);
*0b57cec5SDimitry Andric    HandleSDNode Handle(Load);
*0b57cec5SDimitry Andric    LegalizeOp(Load.getNode());
*0b57cec5SDimitry Andric    FudgeInReg = Handle.getValue();
*0b57cec5SDimitry Andric  }
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric  return DAG.getNode(ISD::FADD, dl, DestVT, Tmp1, FudgeInReg);
*0b57cec5SDimitry Andric}
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric/// This function is responsible for legalizing a
*0b57cec5SDimitry Andric/// *INT_TO_FP operation of the specified operand when the target requests that
*0b57cec5SDimitry Andric/// we promote it.  At this point, we know that the result and operand types are
*0b57cec5SDimitry Andric/// legal for the target, and that there is a legal UINT_TO_FP or SINT_TO_FP
*0b57cec5SDimitry Andric/// operation that takes a larger input.
*0b57cec5SDimitry AndricSDValue SelectionDAGLegalize::PromoteLegalINT_TO_FP(SDValue LegalOp, EVT DestVT,
*0b57cec5SDimitry Andric                                                    bool isSigned,
*0b57cec5SDimitry Andric                                                    const SDLoc &dl) {
*0b57cec5SDimitry Andric  // First step, figure out the appropriate *INT_TO_FP operation to use.
*0b57cec5SDimitry Andric  EVT NewInTy = LegalOp.getValueType();
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric  unsigned OpToUse = 0;
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric  // Scan for the appropriate larger type to use.
*0b57cec5SDimitry Andric  while (true) {
*0b57cec5SDimitry Andric    NewInTy = (MVT::SimpleValueType)(NewInTy.getSimpleVT().SimpleTy+1);
*0b57cec5SDimitry Andric    assert(NewInTy.isInteger() && "Ran out of possibilities!");
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric    // If the target supports SINT_TO_FP of this type, use it.
*0b57cec5SDimitry Andric    if (TLI.isOperationLegalOrCustom(ISD::SINT_TO_FP, NewInTy)) {
*0b57cec5SDimitry Andric      OpToUse = ISD::SINT_TO_FP;
*0b57cec5SDimitry Andric      break;
*0b57cec5SDimitry Andric    }
*0b57cec5SDimitry Andric    if (isSigned) continue;
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric    // If the target supports UINT_TO_FP of this type, use it.
*0b57cec5SDimitry Andric    if (TLI.isOperationLegalOrCustom(ISD::UINT_TO_FP, NewInTy)) {
*0b57cec5SDimitry Andric      OpToUse = ISD::UINT_TO_FP;
*0b57cec5SDimitry Andric      break;
*0b57cec5SDimitry Andric    }
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric    // Otherwise, try a larger type.
*0b57cec5SDimitry Andric  }
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric  // Okay, we found the operation and type to use.  Zero extend our input to the
*0b57cec5SDimitry Andric  // desired type then run the operation on it.
*0b57cec5SDimitry Andric  return DAG.getNode(OpToUse, dl, DestVT,
*0b57cec5SDimitry Andric                     DAG.getNode(isSigned ? ISD::SIGN_EXTEND : ISD::ZERO_EXTEND,
*0b57cec5SDimitry Andric                                 dl, NewInTy, LegalOp));
*0b57cec5SDimitry Andric}
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric/// This function is responsible for legalizing a
*0b57cec5SDimitry Andric/// FP_TO_*INT operation of the specified operand when the target requests that
*0b57cec5SDimitry Andric/// we promote it.  At this point, we know that the result and operand types are
*0b57cec5SDimitry Andric/// legal for the target, and that there is a legal FP_TO_UINT or FP_TO_SINT
*0b57cec5SDimitry Andric/// operation that returns a larger result.
*0b57cec5SDimitry AndricSDValue SelectionDAGLegalize::PromoteLegalFP_TO_INT(SDValue LegalOp, EVT DestVT,
*0b57cec5SDimitry Andric                                                    bool isSigned,
*0b57cec5SDimitry Andric                                                    const SDLoc &dl) {
*0b57cec5SDimitry Andric  // First step, figure out the appropriate FP_TO*INT operation to use.
*0b57cec5SDimitry Andric  EVT NewOutTy = DestVT;
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric  unsigned OpToUse = 0;
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric  // Scan for the appropriate larger type to use.
*0b57cec5SDimitry Andric  while (true) {
*0b57cec5SDimitry Andric    NewOutTy = (MVT::SimpleValueType)(NewOutTy.getSimpleVT().SimpleTy+1);
*0b57cec5SDimitry Andric    assert(NewOutTy.isInteger() && "Ran out of possibilities!");
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric    // A larger signed type can hold all unsigned values of the requested type,
*0b57cec5SDimitry Andric    // so using FP_TO_SINT is valid
*0b57cec5SDimitry Andric    if (TLI.isOperationLegalOrCustom(ISD::FP_TO_SINT, NewOutTy)) {
*0b57cec5SDimitry Andric      OpToUse = ISD::FP_TO_SINT;
*0b57cec5SDimitry Andric      break;
*0b57cec5SDimitry Andric    }
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric    // However, if the value may be < 0.0, we *must* use some FP_TO_SINT.
*0b57cec5SDimitry Andric    if (!isSigned && TLI.isOperationLegalOrCustom(ISD::FP_TO_UINT, NewOutTy)) {
*0b57cec5SDimitry Andric      OpToUse = ISD::FP_TO_UINT;
*0b57cec5SDimitry Andric      break;
*0b57cec5SDimitry Andric    }
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric    // Otherwise, try a larger type.
*0b57cec5SDimitry Andric  }
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric  // Okay, we found the operation and type to use.
*0b57cec5SDimitry Andric  SDValue Operation = DAG.getNode(OpToUse, dl, NewOutTy, LegalOp);
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric  // Truncate the result of the extended FP_TO_*INT operation to the desired
*0b57cec5SDimitry Andric  // size.
*0b57cec5SDimitry Andric  return DAG.getNode(ISD::TRUNCATE, dl, DestVT, Operation);
*0b57cec5SDimitry Andric}
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric/// Legalize a BITREVERSE scalar/vector operation as a series of mask + shifts.
*0b57cec5SDimitry AndricSDValue SelectionDAGLegalize::ExpandBITREVERSE(SDValue Op, const SDLoc &dl) {
*0b57cec5SDimitry Andric  EVT VT = Op.getValueType();
*0b57cec5SDimitry Andric  EVT SHVT = TLI.getShiftAmountTy(VT, DAG.getDataLayout());
*0b57cec5SDimitry Andric  unsigned Sz = VT.getScalarSizeInBits();
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric  SDValue Tmp, Tmp2, Tmp3;
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric  // If we can, perform BSWAP first and then the mask+swap the i4, then i2
*0b57cec5SDimitry Andric  // and finally the i1 pairs.
*0b57cec5SDimitry Andric  // TODO: We can easily support i4/i2 legal types if any target ever does.
*0b57cec5SDimitry Andric  if (Sz >= 8 && isPowerOf2_32(Sz)) {
*0b57cec5SDimitry Andric    // Create the masks - repeating the pattern every byte.
*0b57cec5SDimitry Andric    APInt MaskHi4 = APInt::getSplat(Sz, APInt(8, 0xF0));
*0b57cec5SDimitry Andric    APInt MaskHi2 = APInt::getSplat(Sz, APInt(8, 0xCC));
*0b57cec5SDimitry Andric    APInt MaskHi1 = APInt::getSplat(Sz, APInt(8, 0xAA));
*0b57cec5SDimitry Andric    APInt MaskLo4 = APInt::getSplat(Sz, APInt(8, 0x0F));
*0b57cec5SDimitry Andric    APInt MaskLo2 = APInt::getSplat(Sz, APInt(8, 0x33));
*0b57cec5SDimitry Andric    APInt MaskLo1 = APInt::getSplat(Sz, APInt(8, 0x55));
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric    // BSWAP if the type is wider than a single byte.
*0b57cec5SDimitry Andric    Tmp = (Sz > 8 ? DAG.getNode(ISD::BSWAP, dl, VT, Op) : Op);
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric    // swap i4: ((V & 0xF0) >> 4) | ((V & 0x0F) << 4)
*0b57cec5SDimitry Andric    Tmp2 = DAG.getNode(ISD::AND, dl, VT, Tmp, DAG.getConstant(MaskHi4, dl, VT));
*0b57cec5SDimitry Andric    Tmp3 = DAG.getNode(ISD::AND, dl, VT, Tmp, DAG.getConstant(MaskLo4, dl, VT));
*0b57cec5SDimitry Andric    Tmp2 = DAG.getNode(ISD::SRL, dl, VT, Tmp2, DAG.getConstant(4, dl, SHVT));
*0b57cec5SDimitry Andric    Tmp3 = DAG.getNode(ISD::SHL, dl, VT, Tmp3, DAG.getConstant(4, dl, SHVT));
*0b57cec5SDimitry Andric    Tmp = DAG.getNode(ISD::OR, dl, VT, Tmp2, Tmp3);
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric    // swap i2: ((V & 0xCC) >> 2) | ((V & 0x33) << 2)
*0b57cec5SDimitry Andric    Tmp2 = DAG.getNode(ISD::AND, dl, VT, Tmp, DAG.getConstant(MaskHi2, dl, VT));
*0b57cec5SDimitry Andric    Tmp3 = DAG.getNode(ISD::AND, dl, VT, Tmp, DAG.getConstant(MaskLo2, dl, VT));
*0b57cec5SDimitry Andric    Tmp2 = DAG.getNode(ISD::SRL, dl, VT, Tmp2, DAG.getConstant(2, dl, SHVT));
*0b57cec5SDimitry Andric    Tmp3 = DAG.getNode(ISD::SHL, dl, VT, Tmp3, DAG.getConstant(2, dl, SHVT));
*0b57cec5SDimitry Andric    Tmp = DAG.getNode(ISD::OR, dl, VT, Tmp2, Tmp3);
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric    // swap i1: ((V & 0xAA) >> 1) | ((V & 0x55) << 1)
*0b57cec5SDimitry Andric    Tmp2 = DAG.getNode(ISD::AND, dl, VT, Tmp, DAG.getConstant(MaskHi1, dl, VT));
*0b57cec5SDimitry Andric    Tmp3 = DAG.getNode(ISD::AND, dl, VT, Tmp, DAG.getConstant(MaskLo1, dl, VT));
*0b57cec5SDimitry Andric    Tmp2 = DAG.getNode(ISD::SRL, dl, VT, Tmp2, DAG.getConstant(1, dl, SHVT));
*0b57cec5SDimitry Andric    Tmp3 = DAG.getNode(ISD::SHL, dl, VT, Tmp3, DAG.getConstant(1, dl, SHVT));
*0b57cec5SDimitry Andric    Tmp = DAG.getNode(ISD::OR, dl, VT, Tmp2, Tmp3);
*0b57cec5SDimitry Andric    return Tmp;
*0b57cec5SDimitry Andric  }
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric  Tmp = DAG.getConstant(0, dl, VT);
*0b57cec5SDimitry Andric  for (unsigned I = 0, J = Sz-1; I < Sz; ++I, --J) {
*0b57cec5SDimitry Andric    if (I < J)
*0b57cec5SDimitry Andric      Tmp2 =
*0b57cec5SDimitry Andric          DAG.getNode(ISD::SHL, dl, VT, Op, DAG.getConstant(J - I, dl, SHVT));
*0b57cec5SDimitry Andric    else
*0b57cec5SDimitry Andric      Tmp2 =
*0b57cec5SDimitry Andric          DAG.getNode(ISD::SRL, dl, VT, Op, DAG.getConstant(I - J, dl, SHVT));
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric    APInt Shift(Sz, 1);
*0b57cec5SDimitry Andric    Shift <<= J;
*0b57cec5SDimitry Andric    Tmp2 = DAG.getNode(ISD::AND, dl, VT, Tmp2, DAG.getConstant(Shift, dl, VT));
*0b57cec5SDimitry Andric    Tmp = DAG.getNode(ISD::OR, dl, VT, Tmp, Tmp2);
*0b57cec5SDimitry Andric  }
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric  return Tmp;
*0b57cec5SDimitry Andric}
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric/// Open code the operations for BSWAP of the specified operation.
*0b57cec5SDimitry AndricSDValue SelectionDAGLegalize::ExpandBSWAP(SDValue Op, const SDLoc &dl) {
*0b57cec5SDimitry Andric  EVT VT = Op.getValueType();
*0b57cec5SDimitry Andric  EVT SHVT = TLI.getShiftAmountTy(VT, DAG.getDataLayout());
*0b57cec5SDimitry Andric  SDValue Tmp1, Tmp2, Tmp3, Tmp4, Tmp5, Tmp6, Tmp7, Tmp8;
*0b57cec5SDimitry Andric  switch (VT.getSimpleVT().getScalarType().SimpleTy) {
*0b57cec5SDimitry Andric  default: llvm_unreachable("Unhandled Expand type in BSWAP!");
*0b57cec5SDimitry Andric  case MVT::i16:
*0b57cec5SDimitry Andric    // Use a rotate by 8. This can be further expanded if necessary.
*0b57cec5SDimitry Andric    return DAG.getNode(ISD::ROTL, dl, VT, Op, DAG.getConstant(8, dl, SHVT));
*0b57cec5SDimitry Andric  case MVT::i32:
*0b57cec5SDimitry Andric    Tmp4 = DAG.getNode(ISD::SHL, dl, VT, Op, DAG.getConstant(24, dl, SHVT));
*0b57cec5SDimitry Andric    Tmp3 = DAG.getNode(ISD::SHL, dl, VT, Op, DAG.getConstant(8, dl, SHVT));
*0b57cec5SDimitry Andric    Tmp2 = DAG.getNode(ISD::SRL, dl, VT, Op, DAG.getConstant(8, dl, SHVT));
*0b57cec5SDimitry Andric    Tmp1 = DAG.getNode(ISD::SRL, dl, VT, Op, DAG.getConstant(24, dl, SHVT));
*0b57cec5SDimitry Andric    Tmp3 = DAG.getNode(ISD::AND, dl, VT, Tmp3,
*0b57cec5SDimitry Andric                       DAG.getConstant(0xFF0000, dl, VT));
*0b57cec5SDimitry Andric    Tmp2 = DAG.getNode(ISD::AND, dl, VT, Tmp2, DAG.getConstant(0xFF00, dl, VT));
*0b57cec5SDimitry Andric    Tmp4 = DAG.getNode(ISD::OR, dl, VT, Tmp4, Tmp3);
*0b57cec5SDimitry Andric    Tmp2 = DAG.getNode(ISD::OR, dl, VT, Tmp2, Tmp1);
*0b57cec5SDimitry Andric    return DAG.getNode(ISD::OR, dl, VT, Tmp4, Tmp2);
*0b57cec5SDimitry Andric  case MVT::i64:
*0b57cec5SDimitry Andric    Tmp8 = DAG.getNode(ISD::SHL, dl, VT, Op, DAG.getConstant(56, dl, SHVT));
*0b57cec5SDimitry Andric    Tmp7 = DAG.getNode(ISD::SHL, dl, VT, Op, DAG.getConstant(40, dl, SHVT));
*0b57cec5SDimitry Andric    Tmp6 = DAG.getNode(ISD::SHL, dl, VT, Op, DAG.getConstant(24, dl, SHVT));
*0b57cec5SDimitry Andric    Tmp5 = DAG.getNode(ISD::SHL, dl, VT, Op, DAG.getConstant(8, dl, SHVT));
*0b57cec5SDimitry Andric    Tmp4 = DAG.getNode(ISD::SRL, dl, VT, Op, DAG.getConstant(8, dl, SHVT));
*0b57cec5SDimitry Andric    Tmp3 = DAG.getNode(ISD::SRL, dl, VT, Op, DAG.getConstant(24, dl, SHVT));
*0b57cec5SDimitry Andric    Tmp2 = DAG.getNode(ISD::SRL, dl, VT, Op, DAG.getConstant(40, dl, SHVT));
*0b57cec5SDimitry Andric    Tmp1 = DAG.getNode(ISD::SRL, dl, VT, Op, DAG.getConstant(56, dl, SHVT));
*0b57cec5SDimitry Andric    Tmp7 = DAG.getNode(ISD::AND, dl, VT, Tmp7,
*0b57cec5SDimitry Andric                       DAG.getConstant(255ULL<<48, dl, VT));
*0b57cec5SDimitry Andric    Tmp6 = DAG.getNode(ISD::AND, dl, VT, Tmp6,
*0b57cec5SDimitry Andric                       DAG.getConstant(255ULL<<40, dl, VT));
*0b57cec5SDimitry Andric    Tmp5 = DAG.getNode(ISD::AND, dl, VT, Tmp5,
*0b57cec5SDimitry Andric                       DAG.getConstant(255ULL<<32, dl, VT));
*0b57cec5SDimitry Andric    Tmp4 = DAG.getNode(ISD::AND, dl, VT, Tmp4,
*0b57cec5SDimitry Andric                       DAG.getConstant(255ULL<<24, dl, VT));
*0b57cec5SDimitry Andric    Tmp3 = DAG.getNode(ISD::AND, dl, VT, Tmp3,
*0b57cec5SDimitry Andric                       DAG.getConstant(255ULL<<16, dl, VT));
*0b57cec5SDimitry Andric    Tmp2 = DAG.getNode(ISD::AND, dl, VT, Tmp2,
*0b57cec5SDimitry Andric                       DAG.getConstant(255ULL<<8 , dl, VT));
*0b57cec5SDimitry Andric    Tmp8 = DAG.getNode(ISD::OR, dl, VT, Tmp8, Tmp7);
*0b57cec5SDimitry Andric    Tmp6 = DAG.getNode(ISD::OR, dl, VT, Tmp6, Tmp5);
*0b57cec5SDimitry Andric    Tmp4 = DAG.getNode(ISD::OR, dl, VT, Tmp4, Tmp3);
*0b57cec5SDimitry Andric    Tmp2 = DAG.getNode(ISD::OR, dl, VT, Tmp2, Tmp1);
*0b57cec5SDimitry Andric    Tmp8 = DAG.getNode(ISD::OR, dl, VT, Tmp8, Tmp6);
*0b57cec5SDimitry Andric    Tmp4 = DAG.getNode(ISD::OR, dl, VT, Tmp4, Tmp2);
*0b57cec5SDimitry Andric    return DAG.getNode(ISD::OR, dl, VT, Tmp8, Tmp4);
*0b57cec5SDimitry Andric  }
*0b57cec5SDimitry Andric}
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andricbool SelectionDAGLegalize::ExpandNode(SDNode *Node) {
*0b57cec5SDimitry Andric  LLVM_DEBUG(dbgs() << "Trying to expand node\n");
*0b57cec5SDimitry Andric  SmallVector<SDValue, 8> Results;
*0b57cec5SDimitry Andric  SDLoc dl(Node);
*0b57cec5SDimitry Andric  SDValue Tmp1, Tmp2, Tmp3, Tmp4;
*0b57cec5SDimitry Andric  bool NeedInvert;
*0b57cec5SDimitry Andric  switch (Node->getOpcode()) {
*0b57cec5SDimitry Andric  case ISD::ABS:
*0b57cec5SDimitry Andric    if (TLI.expandABS(Node, Tmp1, DAG))
*0b57cec5SDimitry Andric      Results.push_back(Tmp1);
*0b57cec5SDimitry Andric    break;
*0b57cec5SDimitry Andric  case ISD::CTPOP:
*0b57cec5SDimitry Andric    if (TLI.expandCTPOP(Node, Tmp1, DAG))
*0b57cec5SDimitry Andric      Results.push_back(Tmp1);
*0b57cec5SDimitry Andric    break;
*0b57cec5SDimitry Andric  case ISD::CTLZ:
*0b57cec5SDimitry Andric  case ISD::CTLZ_ZERO_UNDEF:
*0b57cec5SDimitry Andric    if (TLI.expandCTLZ(Node, Tmp1, DAG))
*0b57cec5SDimitry Andric      Results.push_back(Tmp1);
*0b57cec5SDimitry Andric    break;
*0b57cec5SDimitry Andric  case ISD::CTTZ:
*0b57cec5SDimitry Andric  case ISD::CTTZ_ZERO_UNDEF:
*0b57cec5SDimitry Andric    if (TLI.expandCTTZ(Node, Tmp1, DAG))
*0b57cec5SDimitry Andric      Results.push_back(Tmp1);
*0b57cec5SDimitry Andric    break;
*0b57cec5SDimitry Andric  case ISD::BITREVERSE:
*0b57cec5SDimitry Andric    Results.push_back(ExpandBITREVERSE(Node->getOperand(0), dl));
*0b57cec5SDimitry Andric    break;
*0b57cec5SDimitry Andric  case ISD::BSWAP:
*0b57cec5SDimitry Andric    Results.push_back(ExpandBSWAP(Node->getOperand(0), dl));
*0b57cec5SDimitry Andric    break;
*0b57cec5SDimitry Andric  case ISD::FRAMEADDR:
*0b57cec5SDimitry Andric  case ISD::RETURNADDR:
*0b57cec5SDimitry Andric  case ISD::FRAME_TO_ARGS_OFFSET:
*0b57cec5SDimitry Andric    Results.push_back(DAG.getConstant(0, dl, Node->getValueType(0)));
*0b57cec5SDimitry Andric    break;
*0b57cec5SDimitry Andric  case ISD::EH_DWARF_CFA: {
*0b57cec5SDimitry Andric    SDValue CfaArg = DAG.getSExtOrTrunc(Node->getOperand(0), dl,
*0b57cec5SDimitry Andric                                        TLI.getPointerTy(DAG.getDataLayout()));
*0b57cec5SDimitry Andric    SDValue Offset = DAG.getNode(ISD::ADD, dl,
*0b57cec5SDimitry Andric                                 CfaArg.getValueType(),
*0b57cec5SDimitry Andric                                 DAG.getNode(ISD::FRAME_TO_ARGS_OFFSET, dl,
*0b57cec5SDimitry Andric                                             CfaArg.getValueType()),
*0b57cec5SDimitry Andric                                 CfaArg);
*0b57cec5SDimitry Andric    SDValue FA = DAG.getNode(
*0b57cec5SDimitry Andric        ISD::FRAMEADDR, dl, TLI.getPointerTy(DAG.getDataLayout()),
*0b57cec5SDimitry Andric        DAG.getConstant(0, dl, TLI.getPointerTy(DAG.getDataLayout())));
*0b57cec5SDimitry Andric    Results.push_back(DAG.getNode(ISD::ADD, dl, FA.getValueType(),
*0b57cec5SDimitry Andric                                  FA, Offset));
*0b57cec5SDimitry Andric    break;
*0b57cec5SDimitry Andric  }
*0b57cec5SDimitry Andric  case ISD::FLT_ROUNDS_:
*0b57cec5SDimitry Andric    Results.push_back(DAG.getConstant(1, dl, Node->getValueType(0)));
*0b57cec5SDimitry Andric    break;
*0b57cec5SDimitry Andric  case ISD::EH_RETURN:
*0b57cec5SDimitry Andric  case ISD::EH_LABEL:
*0b57cec5SDimitry Andric  case ISD::PREFETCH:
*0b57cec5SDimitry Andric  case ISD::VAEND:
*0b57cec5SDimitry Andric  case ISD::EH_SJLJ_LONGJMP:
*0b57cec5SDimitry Andric    // If the target didn't expand these, there's nothing to do, so just
*0b57cec5SDimitry Andric    // preserve the chain and be done.
*0b57cec5SDimitry Andric    Results.push_back(Node->getOperand(0));
*0b57cec5SDimitry Andric    break;
*0b57cec5SDimitry Andric  case ISD::READCYCLECOUNTER:
*0b57cec5SDimitry Andric    // If the target didn't expand this, just return 'zero' and preserve the
*0b57cec5SDimitry Andric    // chain.
*0b57cec5SDimitry Andric    Results.append(Node->getNumValues() - 1,
*0b57cec5SDimitry Andric                   DAG.getConstant(0, dl, Node->getValueType(0)));
*0b57cec5SDimitry Andric    Results.push_back(Node->getOperand(0));
*0b57cec5SDimitry Andric    break;
*0b57cec5SDimitry Andric  case ISD::EH_SJLJ_SETJMP:
*0b57cec5SDimitry Andric    // If the target didn't expand this, just return 'zero' and preserve the
*0b57cec5SDimitry Andric    // chain.
*0b57cec5SDimitry Andric    Results.push_back(DAG.getConstant(0, dl, MVT::i32));
*0b57cec5SDimitry Andric    Results.push_back(Node->getOperand(0));
*0b57cec5SDimitry Andric    break;
*0b57cec5SDimitry Andric  case ISD::ATOMIC_LOAD: {
*0b57cec5SDimitry Andric    // There is no libcall for atomic load; fake it with ATOMIC_CMP_SWAP.
*0b57cec5SDimitry Andric    SDValue Zero = DAG.getConstant(0, dl, Node->getValueType(0));
*0b57cec5SDimitry Andric    SDVTList VTs = DAG.getVTList(Node->getValueType(0), MVT::Other);
*0b57cec5SDimitry Andric    SDValue Swap = DAG.getAtomicCmpSwap(
*0b57cec5SDimitry Andric        ISD::ATOMIC_CMP_SWAP, dl, cast<AtomicSDNode>(Node)->getMemoryVT(), VTs,
*0b57cec5SDimitry Andric        Node->getOperand(0), Node->getOperand(1), Zero, Zero,
*0b57cec5SDimitry Andric        cast<AtomicSDNode>(Node)->getMemOperand());
*0b57cec5SDimitry Andric    Results.push_back(Swap.getValue(0));
*0b57cec5SDimitry Andric    Results.push_back(Swap.getValue(1));
*0b57cec5SDimitry Andric    break;
*0b57cec5SDimitry Andric  }
*0b57cec5SDimitry Andric  case ISD::ATOMIC_STORE: {
*0b57cec5SDimitry Andric    // There is no libcall for atomic store; fake it with ATOMIC_SWAP.
*0b57cec5SDimitry Andric    SDValue Swap = DAG.getAtomic(ISD::ATOMIC_SWAP, dl,
*0b57cec5SDimitry Andric                                 cast<AtomicSDNode>(Node)->getMemoryVT(),
*0b57cec5SDimitry Andric                                 Node->getOperand(0),
*0b57cec5SDimitry Andric                                 Node->getOperand(1), Node->getOperand(2),
*0b57cec5SDimitry Andric                                 cast<AtomicSDNode>(Node)->getMemOperand());
*0b57cec5SDimitry Andric    Results.push_back(Swap.getValue(1));
*0b57cec5SDimitry Andric    break;
*0b57cec5SDimitry Andric  }
*0b57cec5SDimitry Andric  case ISD::ATOMIC_CMP_SWAP_WITH_SUCCESS: {
*0b57cec5SDimitry Andric    // Expanding an ATOMIC_CMP_SWAP_WITH_SUCCESS produces an ATOMIC_CMP_SWAP and
*0b57cec5SDimitry Andric    // splits out the success value as a comparison. Expanding the resulting
*0b57cec5SDimitry Andric    // ATOMIC_CMP_SWAP will produce a libcall.
*0b57cec5SDimitry Andric    SDVTList VTs = DAG.getVTList(Node->getValueType(0), MVT::Other);
*0b57cec5SDimitry Andric    SDValue Res = DAG.getAtomicCmpSwap(
*0b57cec5SDimitry Andric        ISD::ATOMIC_CMP_SWAP, dl, cast<AtomicSDNode>(Node)->getMemoryVT(), VTs,
*0b57cec5SDimitry Andric        Node->getOperand(0), Node->getOperand(1), Node->getOperand(2),
*0b57cec5SDimitry Andric        Node->getOperand(3), cast<MemSDNode>(Node)->getMemOperand());
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric    SDValue ExtRes = Res;
*0b57cec5SDimitry Andric    SDValue LHS = Res;
*0b57cec5SDimitry Andric    SDValue RHS = Node->getOperand(1);
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric    EVT AtomicType = cast<AtomicSDNode>(Node)->getMemoryVT();
*0b57cec5SDimitry Andric    EVT OuterType = Node->getValueType(0);
*0b57cec5SDimitry Andric    switch (TLI.getExtendForAtomicOps()) {
*0b57cec5SDimitry Andric    case ISD::SIGN_EXTEND:
*0b57cec5SDimitry Andric      LHS = DAG.getNode(ISD::AssertSext, dl, OuterType, Res,
*0b57cec5SDimitry Andric                        DAG.getValueType(AtomicType));
*0b57cec5SDimitry Andric      RHS = DAG.getNode(ISD::SIGN_EXTEND_INREG, dl, OuterType,
*0b57cec5SDimitry Andric                        Node->getOperand(2), DAG.getValueType(AtomicType));
*0b57cec5SDimitry Andric      ExtRes = LHS;
*0b57cec5SDimitry Andric      break;
*0b57cec5SDimitry Andric    case ISD::ZERO_EXTEND:
*0b57cec5SDimitry Andric      LHS = DAG.getNode(ISD::AssertZext, dl, OuterType, Res,
*0b57cec5SDimitry Andric                        DAG.getValueType(AtomicType));
*0b57cec5SDimitry Andric      RHS = DAG.getZeroExtendInReg(Node->getOperand(2), dl, AtomicType);
*0b57cec5SDimitry Andric      ExtRes = LHS;
*0b57cec5SDimitry Andric      break;
*0b57cec5SDimitry Andric    case ISD::ANY_EXTEND:
*0b57cec5SDimitry Andric      LHS = DAG.getZeroExtendInReg(Res, dl, AtomicType);
*0b57cec5SDimitry Andric      RHS = DAG.getZeroExtendInReg(Node->getOperand(2), dl, AtomicType);
*0b57cec5SDimitry Andric      break;
*0b57cec5SDimitry Andric    default:
*0b57cec5SDimitry Andric      llvm_unreachable("Invalid atomic op extension");
*0b57cec5SDimitry Andric    }
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric    SDValue Success =
*0b57cec5SDimitry Andric        DAG.getSetCC(dl, Node->getValueType(1), LHS, RHS, ISD::SETEQ);
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric    Results.push_back(ExtRes.getValue(0));
*0b57cec5SDimitry Andric    Results.push_back(Success);
*0b57cec5SDimitry Andric    Results.push_back(Res.getValue(1));
*0b57cec5SDimitry Andric    break;
*0b57cec5SDimitry Andric  }
*0b57cec5SDimitry Andric  case ISD::DYNAMIC_STACKALLOC:
*0b57cec5SDimitry Andric    ExpandDYNAMIC_STACKALLOC(Node, Results);
*0b57cec5SDimitry Andric    break;
*0b57cec5SDimitry Andric  case ISD::MERGE_VALUES:
*0b57cec5SDimitry Andric    for (unsigned i = 0; i < Node->getNumValues(); i++)
*0b57cec5SDimitry Andric      Results.push_back(Node->getOperand(i));
*0b57cec5SDimitry Andric    break;
*0b57cec5SDimitry Andric  case ISD::UNDEF: {
*0b57cec5SDimitry Andric    EVT VT = Node->getValueType(0);
*0b57cec5SDimitry Andric    if (VT.isInteger())
*0b57cec5SDimitry Andric      Results.push_back(DAG.getConstant(0, dl, VT));
*0b57cec5SDimitry Andric    else {
*0b57cec5SDimitry Andric      assert(VT.isFloatingPoint() && "Unknown value type!");
*0b57cec5SDimitry Andric      Results.push_back(DAG.getConstantFP(0, dl, VT));
*0b57cec5SDimitry Andric    }
*0b57cec5SDimitry Andric    break;
*0b57cec5SDimitry Andric  }
*0b57cec5SDimitry Andric  case ISD::STRICT_FP_ROUND:
*0b57cec5SDimitry Andric    Tmp1 = EmitStackConvert(Node->getOperand(1),
*0b57cec5SDimitry Andric                            Node->getValueType(0),
*0b57cec5SDimitry Andric                            Node->getValueType(0), dl, Node->getOperand(0));
*0b57cec5SDimitry Andric    ReplaceNode(Node, Tmp1.getNode());
*0b57cec5SDimitry Andric    LLVM_DEBUG(dbgs() << "Successfully expanded STRICT_FP_ROUND node\n");
*0b57cec5SDimitry Andric    return true;
*0b57cec5SDimitry Andric  case ISD::FP_ROUND:
*0b57cec5SDimitry Andric  case ISD::BITCAST:
*0b57cec5SDimitry Andric    Tmp1 = EmitStackConvert(Node->getOperand(0),
*0b57cec5SDimitry Andric                            Node->getValueType(0),
*0b57cec5SDimitry Andric                            Node->getValueType(0), dl);
*0b57cec5SDimitry Andric    Results.push_back(Tmp1);
*0b57cec5SDimitry Andric    break;
*0b57cec5SDimitry Andric  case ISD::STRICT_FP_EXTEND:
*0b57cec5SDimitry Andric    Tmp1 = EmitStackConvert(Node->getOperand(1),
*0b57cec5SDimitry Andric                            Node->getOperand(1).getValueType(),
*0b57cec5SDimitry Andric                            Node->getValueType(0), dl, Node->getOperand(0));
*0b57cec5SDimitry Andric    ReplaceNode(Node, Tmp1.getNode());
*0b57cec5SDimitry Andric    LLVM_DEBUG(dbgs() << "Successfully expanded STRICT_FP_EXTEND node\n");
*0b57cec5SDimitry Andric    return true;
*0b57cec5SDimitry Andric  case ISD::FP_EXTEND:
*0b57cec5SDimitry Andric    Tmp1 = EmitStackConvert(Node->getOperand(0),
*0b57cec5SDimitry Andric                            Node->getOperand(0).getValueType(),
*0b57cec5SDimitry Andric                            Node->getValueType(0), dl);
*0b57cec5SDimitry Andric    Results.push_back(Tmp1);
*0b57cec5SDimitry Andric    break;
*0b57cec5SDimitry Andric  case ISD::SIGN_EXTEND_INREG: {
*0b57cec5SDimitry Andric    EVT ExtraVT = cast<VTSDNode>(Node->getOperand(1))->getVT();
*0b57cec5SDimitry Andric    EVT VT = Node->getValueType(0);
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric    // An in-register sign-extend of a boolean is a negation:
*0b57cec5SDimitry Andric    // 'true' (1) sign-extended is -1.
*0b57cec5SDimitry Andric    // 'false' (0) sign-extended is 0.
*0b57cec5SDimitry Andric    // However, we must mask the high bits of the source operand because the
*0b57cec5SDimitry Andric    // SIGN_EXTEND_INREG does not guarantee that the high bits are already zero.
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric    // TODO: Do this for vectors too?
*0b57cec5SDimitry Andric    if (ExtraVT.getSizeInBits() == 1) {
*0b57cec5SDimitry Andric      SDValue One = DAG.getConstant(1, dl, VT);
*0b57cec5SDimitry Andric      SDValue And = DAG.getNode(ISD::AND, dl, VT, Node->getOperand(0), One);
*0b57cec5SDimitry Andric      SDValue Zero = DAG.getConstant(0, dl, VT);
*0b57cec5SDimitry Andric      SDValue Neg = DAG.getNode(ISD::SUB, dl, VT, Zero, And);
*0b57cec5SDimitry Andric      Results.push_back(Neg);
*0b57cec5SDimitry Andric      break;
*0b57cec5SDimitry Andric    }
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric    // NOTE: we could fall back on load/store here too for targets without
*0b57cec5SDimitry Andric    // SRA.  However, it is doubtful that any exist.
*0b57cec5SDimitry Andric    EVT ShiftAmountTy = TLI.getShiftAmountTy(VT, DAG.getDataLayout());
*0b57cec5SDimitry Andric    unsigned BitsDiff = VT.getScalarSizeInBits() -
*0b57cec5SDimitry Andric                        ExtraVT.getScalarSizeInBits();
*0b57cec5SDimitry Andric    SDValue ShiftCst = DAG.getConstant(BitsDiff, dl, ShiftAmountTy);
*0b57cec5SDimitry Andric    Tmp1 = DAG.getNode(ISD::SHL, dl, Node->getValueType(0),
*0b57cec5SDimitry Andric                       Node->getOperand(0), ShiftCst);
*0b57cec5SDimitry Andric    Tmp1 = DAG.getNode(ISD::SRA, dl, Node->getValueType(0), Tmp1, ShiftCst);
*0b57cec5SDimitry Andric    Results.push_back(Tmp1);
*0b57cec5SDimitry Andric    break;
*0b57cec5SDimitry Andric  }
*0b57cec5SDimitry Andric  case ISD::FP_ROUND_INREG: {
*0b57cec5SDimitry Andric    // The only way we can lower this is to turn it into a TRUNCSTORE,
*0b57cec5SDimitry Andric    // EXTLOAD pair, targeting a temporary location (a stack slot).
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric    // NOTE: there is a choice here between constantly creating new stack
*0b57cec5SDimitry Andric    // slots and always reusing the same one.  We currently always create
*0b57cec5SDimitry Andric    // new ones, as reuse may inhibit scheduling.
*0b57cec5SDimitry Andric    EVT ExtraVT = cast<VTSDNode>(Node->getOperand(1))->getVT();
*0b57cec5SDimitry Andric    Tmp1 = EmitStackConvert(Node->getOperand(0), ExtraVT,
*0b57cec5SDimitry Andric                            Node->getValueType(0), dl);
*0b57cec5SDimitry Andric    Results.push_back(Tmp1);
*0b57cec5SDimitry Andric    break;
*0b57cec5SDimitry Andric  }
*0b57cec5SDimitry Andric  case ISD::UINT_TO_FP:
*0b57cec5SDimitry Andric    if (TLI.expandUINT_TO_FP(Node, Tmp1, DAG)) {
*0b57cec5SDimitry Andric      Results.push_back(Tmp1);
*0b57cec5SDimitry Andric      break;
*0b57cec5SDimitry Andric    }
*0b57cec5SDimitry Andric    LLVM_FALLTHROUGH;
*0b57cec5SDimitry Andric  case ISD::SINT_TO_FP:
*0b57cec5SDimitry Andric    Tmp1 = ExpandLegalINT_TO_FP(Node->getOpcode() == ISD::SINT_TO_FP,
*0b57cec5SDimitry Andric                                Node->getOperand(0), Node->getValueType(0), dl);
*0b57cec5SDimitry Andric    Results.push_back(Tmp1);
*0b57cec5SDimitry Andric    break;
*0b57cec5SDimitry Andric  case ISD::FP_TO_SINT:
*0b57cec5SDimitry Andric    if (TLI.expandFP_TO_SINT(Node, Tmp1, DAG))
*0b57cec5SDimitry Andric      Results.push_back(Tmp1);
*0b57cec5SDimitry Andric    break;
*0b57cec5SDimitry Andric  case ISD::FP_TO_UINT:
*0b57cec5SDimitry Andric    if (TLI.expandFP_TO_UINT(Node, Tmp1, DAG))
*0b57cec5SDimitry Andric      Results.push_back(Tmp1);
*0b57cec5SDimitry Andric    break;
*0b57cec5SDimitry Andric  case ISD::LROUND:
*0b57cec5SDimitry Andric    Results.push_back(ExpandArgFPLibCall(Node, RTLIB::LROUND_F32,
*0b57cec5SDimitry Andric                                         RTLIB::LROUND_F64, RTLIB::LROUND_F80,
*0b57cec5SDimitry Andric                                         RTLIB::LROUND_F128,
*0b57cec5SDimitry Andric                                         RTLIB::LROUND_PPCF128));
*0b57cec5SDimitry Andric    break;
*0b57cec5SDimitry Andric  case ISD::LLROUND:
*0b57cec5SDimitry Andric    Results.push_back(ExpandArgFPLibCall(Node, RTLIB::LLROUND_F32,
*0b57cec5SDimitry Andric                                         RTLIB::LLROUND_F64, RTLIB::LLROUND_F80,
*0b57cec5SDimitry Andric                                         RTLIB::LLROUND_F128,
*0b57cec5SDimitry Andric                                         RTLIB::LLROUND_PPCF128));
*0b57cec5SDimitry Andric    break;
*0b57cec5SDimitry Andric  case ISD::LRINT:
*0b57cec5SDimitry Andric    Results.push_back(ExpandArgFPLibCall(Node, RTLIB::LRINT_F32,
*0b57cec5SDimitry Andric                                         RTLIB::LRINT_F64, RTLIB::LRINT_F80,
*0b57cec5SDimitry Andric                                         RTLIB::LRINT_F128,
*0b57cec5SDimitry Andric                                         RTLIB::LRINT_PPCF128));
*0b57cec5SDimitry Andric    break;
*0b57cec5SDimitry Andric  case ISD::LLRINT:
*0b57cec5SDimitry Andric    Results.push_back(ExpandArgFPLibCall(Node, RTLIB::LLRINT_F32,
*0b57cec5SDimitry Andric                                         RTLIB::LLRINT_F64, RTLIB::LLRINT_F80,
*0b57cec5SDimitry Andric                                         RTLIB::LLRINT_F128,
*0b57cec5SDimitry Andric                                         RTLIB::LLRINT_PPCF128));
*0b57cec5SDimitry Andric    break;
*0b57cec5SDimitry Andric  case ISD::VAARG:
*0b57cec5SDimitry Andric    Results.push_back(DAG.expandVAArg(Node));
*0b57cec5SDimitry Andric    Results.push_back(Results[0].getValue(1));
*0b57cec5SDimitry Andric    break;
*0b57cec5SDimitry Andric  case ISD::VACOPY:
*0b57cec5SDimitry Andric    Results.push_back(DAG.expandVACopy(Node));
*0b57cec5SDimitry Andric    break;
*0b57cec5SDimitry Andric  case ISD::EXTRACT_VECTOR_ELT:
*0b57cec5SDimitry Andric    if (Node->getOperand(0).getValueType().getVectorNumElements() == 1)
*0b57cec5SDimitry Andric      // This must be an access of the only element.  Return it.
*0b57cec5SDimitry Andric      Tmp1 = DAG.getNode(ISD::BITCAST, dl, Node->getValueType(0),
*0b57cec5SDimitry Andric                         Node->getOperand(0));
*0b57cec5SDimitry Andric    else
*0b57cec5SDimitry Andric      Tmp1 = ExpandExtractFromVectorThroughStack(SDValue(Node, 0));
*0b57cec5SDimitry Andric    Results.push_back(Tmp1);
*0b57cec5SDimitry Andric    break;
*0b57cec5SDimitry Andric  case ISD::EXTRACT_SUBVECTOR:
*0b57cec5SDimitry Andric    Results.push_back(ExpandExtractFromVectorThroughStack(SDValue(Node, 0)));
*0b57cec5SDimitry Andric    break;
*0b57cec5SDimitry Andric  case ISD::INSERT_SUBVECTOR:
*0b57cec5SDimitry Andric    Results.push_back(ExpandInsertToVectorThroughStack(SDValue(Node, 0)));
*0b57cec5SDimitry Andric    break;
*0b57cec5SDimitry Andric  case ISD::CONCAT_VECTORS:
*0b57cec5SDimitry Andric    Results.push_back(ExpandVectorBuildThroughStack(Node));
*0b57cec5SDimitry Andric    break;
*0b57cec5SDimitry Andric  case ISD::SCALAR_TO_VECTOR:
*0b57cec5SDimitry Andric    Results.push_back(ExpandSCALAR_TO_VECTOR(Node));
*0b57cec5SDimitry Andric    break;
*0b57cec5SDimitry Andric  case ISD::INSERT_VECTOR_ELT:
*0b57cec5SDimitry Andric    Results.push_back(ExpandINSERT_VECTOR_ELT(Node->getOperand(0),
*0b57cec5SDimitry Andric                                              Node->getOperand(1),
*0b57cec5SDimitry Andric                                              Node->getOperand(2), dl));
*0b57cec5SDimitry Andric    break;
*0b57cec5SDimitry Andric  case ISD::VECTOR_SHUFFLE: {
*0b57cec5SDimitry Andric    SmallVector<int, 32> NewMask;
*0b57cec5SDimitry Andric    ArrayRef<int> Mask = cast<ShuffleVectorSDNode>(Node)->getMask();
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric    EVT VT = Node->getValueType(0);
*0b57cec5SDimitry Andric    EVT EltVT = VT.getVectorElementType();
*0b57cec5SDimitry Andric    SDValue Op0 = Node->getOperand(0);
*0b57cec5SDimitry Andric    SDValue Op1 = Node->getOperand(1);
*0b57cec5SDimitry Andric    if (!TLI.isTypeLegal(EltVT)) {
*0b57cec5SDimitry Andric      EVT NewEltVT = TLI.getTypeToTransformTo(*DAG.getContext(), EltVT);
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric      // BUILD_VECTOR operands are allowed to be wider than the element type.
*0b57cec5SDimitry Andric      // But if NewEltVT is smaller that EltVT the BUILD_VECTOR does not accept
*0b57cec5SDimitry Andric      // it.
*0b57cec5SDimitry Andric      if (NewEltVT.bitsLT(EltVT)) {
*0b57cec5SDimitry Andric        // Convert shuffle node.
*0b57cec5SDimitry Andric        // If original node was v4i64 and the new EltVT is i32,
*0b57cec5SDimitry Andric        // cast operands to v8i32 and re-build the mask.
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric        // Calculate new VT, the size of the new VT should be equal to original.
*0b57cec5SDimitry Andric        EVT NewVT =
*0b57cec5SDimitry Andric            EVT::getVectorVT(*DAG.getContext(), NewEltVT,
*0b57cec5SDimitry Andric                             VT.getSizeInBits() / NewEltVT.getSizeInBits());
*0b57cec5SDimitry Andric        assert(NewVT.bitsEq(VT));
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric        // cast operands to new VT
*0b57cec5SDimitry Andric        Op0 = DAG.getNode(ISD::BITCAST, dl, NewVT, Op0);
*0b57cec5SDimitry Andric        Op1 = DAG.getNode(ISD::BITCAST, dl, NewVT, Op1);
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric        // Convert the shuffle mask
*0b57cec5SDimitry Andric        unsigned int factor =
*0b57cec5SDimitry Andric                         NewVT.getVectorNumElements()/VT.getVectorNumElements();
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric        // EltVT gets smaller
*0b57cec5SDimitry Andric        assert(factor > 0);
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric        for (unsigned i = 0; i < VT.getVectorNumElements(); ++i) {
*0b57cec5SDimitry Andric          if (Mask[i] < 0) {
*0b57cec5SDimitry Andric            for (unsigned fi = 0; fi < factor; ++fi)
*0b57cec5SDimitry Andric              NewMask.push_back(Mask[i]);
*0b57cec5SDimitry Andric          }
*0b57cec5SDimitry Andric          else {
*0b57cec5SDimitry Andric            for (unsigned fi = 0; fi < factor; ++fi)
*0b57cec5SDimitry Andric              NewMask.push_back(Mask[i]*factor+fi);
*0b57cec5SDimitry Andric          }
*0b57cec5SDimitry Andric        }
*0b57cec5SDimitry Andric        Mask = NewMask;
*0b57cec5SDimitry Andric        VT = NewVT;
*0b57cec5SDimitry Andric      }
*0b57cec5SDimitry Andric      EltVT = NewEltVT;
*0b57cec5SDimitry Andric    }
*0b57cec5SDimitry Andric    unsigned NumElems = VT.getVectorNumElements();
*0b57cec5SDimitry Andric    SmallVector<SDValue, 16> Ops;
*0b57cec5SDimitry Andric    for (unsigned i = 0; i != NumElems; ++i) {
*0b57cec5SDimitry Andric      if (Mask[i] < 0) {
*0b57cec5SDimitry Andric        Ops.push_back(DAG.getUNDEF(EltVT));
*0b57cec5SDimitry Andric        continue;
*0b57cec5SDimitry Andric      }
*0b57cec5SDimitry Andric      unsigned Idx = Mask[i];
*0b57cec5SDimitry Andric      if (Idx < NumElems)
*0b57cec5SDimitry Andric        Ops.push_back(DAG.getNode(
*0b57cec5SDimitry Andric            ISD::EXTRACT_VECTOR_ELT, dl, EltVT, Op0,
*0b57cec5SDimitry Andric            DAG.getConstant(Idx, dl, TLI.getVectorIdxTy(DAG.getDataLayout()))));
*0b57cec5SDimitry Andric      else
*0b57cec5SDimitry Andric        Ops.push_back(DAG.getNode(
*0b57cec5SDimitry Andric            ISD::EXTRACT_VECTOR_ELT, dl, EltVT, Op1,
*0b57cec5SDimitry Andric            DAG.getConstant(Idx - NumElems, dl,
*0b57cec5SDimitry Andric                            TLI.getVectorIdxTy(DAG.getDataLayout()))));
*0b57cec5SDimitry Andric    }
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric    Tmp1 = DAG.getBuildVector(VT, dl, Ops);
*0b57cec5SDimitry Andric    // We may have changed the BUILD_VECTOR type. Cast it back to the Node type.
*0b57cec5SDimitry Andric    Tmp1 = DAG.getNode(ISD::BITCAST, dl, Node->getValueType(0), Tmp1);
*0b57cec5SDimitry Andric    Results.push_back(Tmp1);
*0b57cec5SDimitry Andric    break;
*0b57cec5SDimitry Andric  }
*0b57cec5SDimitry Andric  case ISD::EXTRACT_ELEMENT: {
*0b57cec5SDimitry Andric    EVT OpTy = Node->getOperand(0).getValueType();
*0b57cec5SDimitry Andric    if (cast<ConstantSDNode>(Node->getOperand(1))->getZExtValue()) {
*0b57cec5SDimitry Andric      // 1 -> Hi
*0b57cec5SDimitry Andric      Tmp1 = DAG.getNode(ISD::SRL, dl, OpTy, Node->getOperand(0),
*0b57cec5SDimitry Andric                         DAG.getConstant(OpTy.getSizeInBits() / 2, dl,
*0b57cec5SDimitry Andric                                         TLI.getShiftAmountTy(
*0b57cec5SDimitry Andric                                             Node->getOperand(0).getValueType(),
*0b57cec5SDimitry Andric                                             DAG.getDataLayout())));
*0b57cec5SDimitry Andric      Tmp1 = DAG.getNode(ISD::TRUNCATE, dl, Node->getValueType(0), Tmp1);
*0b57cec5SDimitry Andric    } else {
*0b57cec5SDimitry Andric      // 0 -> Lo
*0b57cec5SDimitry Andric      Tmp1 = DAG.getNode(ISD::TRUNCATE, dl, Node->getValueType(0),
*0b57cec5SDimitry Andric                         Node->getOperand(0));
*0b57cec5SDimitry Andric    }
*0b57cec5SDimitry Andric    Results.push_back(Tmp1);
*0b57cec5SDimitry Andric    break;
*0b57cec5SDimitry Andric  }
*0b57cec5SDimitry Andric  case ISD::STACKSAVE:
*0b57cec5SDimitry Andric    // Expand to CopyFromReg if the target set
*0b57cec5SDimitry Andric    // StackPointerRegisterToSaveRestore.
*0b57cec5SDimitry Andric    if (unsigned SP = TLI.getStackPointerRegisterToSaveRestore()) {
*0b57cec5SDimitry Andric      Results.push_back(DAG.getCopyFromReg(Node->getOperand(0), dl, SP,
*0b57cec5SDimitry Andric                                           Node->getValueType(0)));
*0b57cec5SDimitry Andric      Results.push_back(Results[0].getValue(1));
*0b57cec5SDimitry Andric    } else {
*0b57cec5SDimitry Andric      Results.push_back(DAG.getUNDEF(Node->getValueType(0)));
*0b57cec5SDimitry Andric      Results.push_back(Node->getOperand(0));
*0b57cec5SDimitry Andric    }
*0b57cec5SDimitry Andric    break;
*0b57cec5SDimitry Andric  case ISD::STACKRESTORE:
*0b57cec5SDimitry Andric    // Expand to CopyToReg if the target set
*0b57cec5SDimitry Andric    // StackPointerRegisterToSaveRestore.
*0b57cec5SDimitry Andric    if (unsigned SP = TLI.getStackPointerRegisterToSaveRestore()) {
*0b57cec5SDimitry Andric      Results.push_back(DAG.getCopyToReg(Node->getOperand(0), dl, SP,
*0b57cec5SDimitry Andric                                         Node->getOperand(1)));
*0b57cec5SDimitry Andric    } else {
*0b57cec5SDimitry Andric      Results.push_back(Node->getOperand(0));
*0b57cec5SDimitry Andric    }
*0b57cec5SDimitry Andric    break;
*0b57cec5SDimitry Andric  case ISD::GET_DYNAMIC_AREA_OFFSET:
*0b57cec5SDimitry Andric    Results.push_back(DAG.getConstant(0, dl, Node->getValueType(0)));
*0b57cec5SDimitry Andric    Results.push_back(Results[0].getValue(0));
*0b57cec5SDimitry Andric    break;
*0b57cec5SDimitry Andric  case ISD::FCOPYSIGN:
*0b57cec5SDimitry Andric    Results.push_back(ExpandFCOPYSIGN(Node));
*0b57cec5SDimitry Andric    break;
*0b57cec5SDimitry Andric  case ISD::FNEG:
*0b57cec5SDimitry Andric    // Expand Y = FNEG(X) ->  Y = SUB -0.0, X
*0b57cec5SDimitry Andric    Tmp1 = DAG.getConstantFP(-0.0, dl, Node->getValueType(0));
*0b57cec5SDimitry Andric    // TODO: If FNEG has fast-math-flags, propagate them to the FSUB.
*0b57cec5SDimitry Andric    Tmp1 = DAG.getNode(ISD::FSUB, dl, Node->getValueType(0), Tmp1,
*0b57cec5SDimitry Andric                       Node->getOperand(0));
*0b57cec5SDimitry Andric    Results.push_back(Tmp1);
*0b57cec5SDimitry Andric    break;
*0b57cec5SDimitry Andric  case ISD::FABS:
*0b57cec5SDimitry Andric    Results.push_back(ExpandFABS(Node));
*0b57cec5SDimitry Andric    break;
*0b57cec5SDimitry Andric  case ISD::SMIN:
*0b57cec5SDimitry Andric  case ISD::SMAX:
*0b57cec5SDimitry Andric  case ISD::UMIN:
*0b57cec5SDimitry Andric  case ISD::UMAX: {
*0b57cec5SDimitry Andric    // Expand Y = MAX(A, B) -> Y = (A > B) ? A : B
*0b57cec5SDimitry Andric    ISD::CondCode Pred;
*0b57cec5SDimitry Andric    switch (Node->getOpcode()) {
*0b57cec5SDimitry Andric    default: llvm_unreachable("How did we get here?");
*0b57cec5SDimitry Andric    case ISD::SMAX: Pred = ISD::SETGT; break;
*0b57cec5SDimitry Andric    case ISD::SMIN: Pred = ISD::SETLT; break;
*0b57cec5SDimitry Andric    case ISD::UMAX: Pred = ISD::SETUGT; break;
*0b57cec5SDimitry Andric    case ISD::UMIN: Pred = ISD::SETULT; break;
*0b57cec5SDimitry Andric    }
*0b57cec5SDimitry Andric    Tmp1 = Node->getOperand(0);
*0b57cec5SDimitry Andric    Tmp2 = Node->getOperand(1);
*0b57cec5SDimitry Andric    Tmp1 = DAG.getSelectCC(dl, Tmp1, Tmp2, Tmp1, Tmp2, Pred);
*0b57cec5SDimitry Andric    Results.push_back(Tmp1);
*0b57cec5SDimitry Andric    break;
*0b57cec5SDimitry Andric  }
*0b57cec5SDimitry Andric  case ISD::FMINNUM:
*0b57cec5SDimitry Andric  case ISD::FMAXNUM: {
*0b57cec5SDimitry Andric    if (SDValue Expanded = TLI.expandFMINNUM_FMAXNUM(Node, DAG))
*0b57cec5SDimitry Andric      Results.push_back(Expanded);
*0b57cec5SDimitry Andric    break;
*0b57cec5SDimitry Andric  }
*0b57cec5SDimitry Andric  case ISD::FSIN:
*0b57cec5SDimitry Andric  case ISD::FCOS: {
*0b57cec5SDimitry Andric    EVT VT = Node->getValueType(0);
*0b57cec5SDimitry Andric    // Turn fsin / fcos into ISD::FSINCOS node if there are a pair of fsin /
*0b57cec5SDimitry Andric    // fcos which share the same operand and both are used.
*0b57cec5SDimitry Andric    if ((TLI.isOperationLegalOrCustom(ISD::FSINCOS, VT) ||
*0b57cec5SDimitry Andric         isSinCosLibcallAvailable(Node, TLI))
*0b57cec5SDimitry Andric        && useSinCos(Node)) {
*0b57cec5SDimitry Andric      SDVTList VTs = DAG.getVTList(VT, VT);
*0b57cec5SDimitry Andric      Tmp1 = DAG.getNode(ISD::FSINCOS, dl, VTs, Node->getOperand(0));
*0b57cec5SDimitry Andric      if (Node->getOpcode() == ISD::FCOS)
*0b57cec5SDimitry Andric        Tmp1 = Tmp1.getValue(1);
*0b57cec5SDimitry Andric      Results.push_back(Tmp1);
*0b57cec5SDimitry Andric    }
*0b57cec5SDimitry Andric    break;
*0b57cec5SDimitry Andric  }
*0b57cec5SDimitry Andric  case ISD::FMAD:
*0b57cec5SDimitry Andric    llvm_unreachable("Illegal fmad should never be formed");
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric  case ISD::FP16_TO_FP:
*0b57cec5SDimitry Andric    if (Node->getValueType(0) != MVT::f32) {
*0b57cec5SDimitry Andric      // We can extend to types bigger than f32 in two steps without changing
*0b57cec5SDimitry Andric      // the result. Since "f16 -> f32" is much more commonly available, give
*0b57cec5SDimitry Andric      // CodeGen the option of emitting that before resorting to a libcall.
*0b57cec5SDimitry Andric      SDValue Res =
*0b57cec5SDimitry Andric          DAG.getNode(ISD::FP16_TO_FP, dl, MVT::f32, Node->getOperand(0));
*0b57cec5SDimitry Andric      Results.push_back(
*0b57cec5SDimitry Andric          DAG.getNode(ISD::FP_EXTEND, dl, Node->getValueType(0), Res));
*0b57cec5SDimitry Andric    }
*0b57cec5SDimitry Andric    break;
*0b57cec5SDimitry Andric  case ISD::FP_TO_FP16:
*0b57cec5SDimitry Andric    LLVM_DEBUG(dbgs() << "Legalizing FP_TO_FP16\n");
*0b57cec5SDimitry Andric    if (!TLI.useSoftFloat() && TM.Options.UnsafeFPMath) {
*0b57cec5SDimitry Andric      SDValue Op = Node->getOperand(0);
*0b57cec5SDimitry Andric      MVT SVT = Op.getSimpleValueType();
*0b57cec5SDimitry Andric      if ((SVT == MVT::f64 || SVT == MVT::f80) &&
*0b57cec5SDimitry Andric          TLI.isOperationLegalOrCustom(ISD::FP_TO_FP16, MVT::f32)) {
*0b57cec5SDimitry Andric        // Under fastmath, we can expand this node into a fround followed by
*0b57cec5SDimitry Andric        // a float-half conversion.
*0b57cec5SDimitry Andric        SDValue FloatVal = DAG.getNode(ISD::FP_ROUND, dl, MVT::f32, Op,
*0b57cec5SDimitry Andric                                       DAG.getIntPtrConstant(0, dl));
*0b57cec5SDimitry Andric        Results.push_back(
*0b57cec5SDimitry Andric            DAG.getNode(ISD::FP_TO_FP16, dl, Node->getValueType(0), FloatVal));
*0b57cec5SDimitry Andric      }
*0b57cec5SDimitry Andric    }
*0b57cec5SDimitry Andric    break;
*0b57cec5SDimitry Andric  case ISD::ConstantFP: {
*0b57cec5SDimitry Andric    ConstantFPSDNode *CFP = cast<ConstantFPSDNode>(Node);
*0b57cec5SDimitry Andric    // Check to see if this FP immediate is already legal.
*0b57cec5SDimitry Andric    // If this is a legal constant, turn it into a TargetConstantFP node.
*0b57cec5SDimitry Andric    if (!TLI.isFPImmLegal(CFP->getValueAPF(), Node->getValueType(0),
*0b57cec5SDimitry Andric                          DAG.getMachineFunction().getFunction().hasOptSize()))
*0b57cec5SDimitry Andric      Results.push_back(ExpandConstantFP(CFP, true));
*0b57cec5SDimitry Andric    break;
*0b57cec5SDimitry Andric  }
*0b57cec5SDimitry Andric  case ISD::Constant: {
*0b57cec5SDimitry Andric    ConstantSDNode *CP = cast<ConstantSDNode>(Node);
*0b57cec5SDimitry Andric    Results.push_back(ExpandConstant(CP));
*0b57cec5SDimitry Andric    break;
*0b57cec5SDimitry Andric  }
*0b57cec5SDimitry Andric  case ISD::FSUB: {
*0b57cec5SDimitry Andric    EVT VT = Node->getValueType(0);
*0b57cec5SDimitry Andric    if (TLI.isOperationLegalOrCustom(ISD::FADD, VT) &&
*0b57cec5SDimitry Andric        TLI.isOperationLegalOrCustom(ISD::FNEG, VT)) {
*0b57cec5SDimitry Andric      const SDNodeFlags Flags = Node->getFlags();
*0b57cec5SDimitry Andric      Tmp1 = DAG.getNode(ISD::FNEG, dl, VT, Node->getOperand(1));
*0b57cec5SDimitry Andric      Tmp1 = DAG.getNode(ISD::FADD, dl, VT, Node->getOperand(0), Tmp1, Flags);
*0b57cec5SDimitry Andric      Results.push_back(Tmp1);
*0b57cec5SDimitry Andric    }
*0b57cec5SDimitry Andric    break;
*0b57cec5SDimitry Andric  }
*0b57cec5SDimitry Andric  case ISD::SUB: {
*0b57cec5SDimitry Andric    EVT VT = Node->getValueType(0);
*0b57cec5SDimitry Andric    assert(TLI.isOperationLegalOrCustom(ISD::ADD, VT) &&
*0b57cec5SDimitry Andric           TLI.isOperationLegalOrCustom(ISD::XOR, VT) &&
*0b57cec5SDimitry Andric           "Don't know how to expand this subtraction!");
*0b57cec5SDimitry Andric    Tmp1 = DAG.getNode(ISD::XOR, dl, VT, Node->getOperand(1),
*0b57cec5SDimitry Andric               DAG.getConstant(APInt::getAllOnesValue(VT.getSizeInBits()), dl,
*0b57cec5SDimitry Andric                               VT));
*0b57cec5SDimitry Andric    Tmp1 = DAG.getNode(ISD::ADD, dl, VT, Tmp1, DAG.getConstant(1, dl, VT));
*0b57cec5SDimitry Andric    Results.push_back(DAG.getNode(ISD::ADD, dl, VT, Node->getOperand(0), Tmp1));
*0b57cec5SDimitry Andric    break;
*0b57cec5SDimitry Andric  }
*0b57cec5SDimitry Andric  case ISD::UREM:
*0b57cec5SDimitry Andric  case ISD::SREM: {
*0b57cec5SDimitry Andric    EVT VT = Node->getValueType(0);
*0b57cec5SDimitry Andric    bool isSigned = Node->getOpcode() == ISD::SREM;
*0b57cec5SDimitry Andric    unsigned DivOpc = isSigned ? ISD::SDIV : ISD::UDIV;
*0b57cec5SDimitry Andric    unsigned DivRemOpc = isSigned ? ISD::SDIVREM : ISD::UDIVREM;
*0b57cec5SDimitry Andric    Tmp2 = Node->getOperand(0);
*0b57cec5SDimitry Andric    Tmp3 = Node->getOperand(1);
*0b57cec5SDimitry Andric    if (TLI.isOperationLegalOrCustom(DivRemOpc, VT)) {
*0b57cec5SDimitry Andric      SDVTList VTs = DAG.getVTList(VT, VT);
*0b57cec5SDimitry Andric      Tmp1 = DAG.getNode(DivRemOpc, dl, VTs, Tmp2, Tmp3).getValue(1);
*0b57cec5SDimitry Andric      Results.push_back(Tmp1);
*0b57cec5SDimitry Andric    } else if (TLI.isOperationLegalOrCustom(DivOpc, VT)) {
*0b57cec5SDimitry Andric      // X % Y -> X-X/Y*Y
*0b57cec5SDimitry Andric      Tmp1 = DAG.getNode(DivOpc, dl, VT, Tmp2, Tmp3);
*0b57cec5SDimitry Andric      Tmp1 = DAG.getNode(ISD::MUL, dl, VT, Tmp1, Tmp3);
*0b57cec5SDimitry Andric      Tmp1 = DAG.getNode(ISD::SUB, dl, VT, Tmp2, Tmp1);
*0b57cec5SDimitry Andric      Results.push_back(Tmp1);
*0b57cec5SDimitry Andric    }
*0b57cec5SDimitry Andric    break;
*0b57cec5SDimitry Andric  }
*0b57cec5SDimitry Andric  case ISD::UDIV:
*0b57cec5SDimitry Andric  case ISD::SDIV: {
*0b57cec5SDimitry Andric    bool isSigned = Node->getOpcode() == ISD::SDIV;
*0b57cec5SDimitry Andric    unsigned DivRemOpc = isSigned ? ISD::SDIVREM : ISD::UDIVREM;
*0b57cec5SDimitry Andric    EVT VT = Node->getValueType(0);
*0b57cec5SDimitry Andric    if (TLI.isOperationLegalOrCustom(DivRemOpc, VT)) {
*0b57cec5SDimitry Andric      SDVTList VTs = DAG.getVTList(VT, VT);
*0b57cec5SDimitry Andric      Tmp1 = DAG.getNode(DivRemOpc, dl, VTs, Node->getOperand(0),
*0b57cec5SDimitry Andric                         Node->getOperand(1));
*0b57cec5SDimitry Andric      Results.push_back(Tmp1);
*0b57cec5SDimitry Andric    }
*0b57cec5SDimitry Andric    break;
*0b57cec5SDimitry Andric  }
*0b57cec5SDimitry Andric  case ISD::MULHU:
*0b57cec5SDimitry Andric  case ISD::MULHS: {
*0b57cec5SDimitry Andric    unsigned ExpandOpcode =
*0b57cec5SDimitry Andric        Node->getOpcode() == ISD::MULHU ? ISD::UMUL_LOHI : ISD::SMUL_LOHI;
*0b57cec5SDimitry Andric    EVT VT = Node->getValueType(0);
*0b57cec5SDimitry Andric    SDVTList VTs = DAG.getVTList(VT, VT);
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric    Tmp1 = DAG.getNode(ExpandOpcode, dl, VTs, Node->getOperand(0),
*0b57cec5SDimitry Andric                       Node->getOperand(1));
*0b57cec5SDimitry Andric    Results.push_back(Tmp1.getValue(1));
*0b57cec5SDimitry Andric    break;
*0b57cec5SDimitry Andric  }
*0b57cec5SDimitry Andric  case ISD::UMUL_LOHI:
*0b57cec5SDimitry Andric  case ISD::SMUL_LOHI: {
*0b57cec5SDimitry Andric    SDValue LHS = Node->getOperand(0);
*0b57cec5SDimitry Andric    SDValue RHS = Node->getOperand(1);
*0b57cec5SDimitry Andric    MVT VT = LHS.getSimpleValueType();
*0b57cec5SDimitry Andric    unsigned MULHOpcode =
*0b57cec5SDimitry Andric        Node->getOpcode() == ISD::UMUL_LOHI ? ISD::MULHU : ISD::MULHS;
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric    if (TLI.isOperationLegalOrCustom(MULHOpcode, VT)) {
*0b57cec5SDimitry Andric      Results.push_back(DAG.getNode(ISD::MUL, dl, VT, LHS, RHS));
*0b57cec5SDimitry Andric      Results.push_back(DAG.getNode(MULHOpcode, dl, VT, LHS, RHS));
*0b57cec5SDimitry Andric      break;
*0b57cec5SDimitry Andric    }
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric    SmallVector<SDValue, 4> Halves;
*0b57cec5SDimitry Andric    EVT HalfType = EVT(VT).getHalfSizedIntegerVT(*DAG.getContext());
*0b57cec5SDimitry Andric    assert(TLI.isTypeLegal(HalfType));
*0b57cec5SDimitry Andric    if (TLI.expandMUL_LOHI(Node->getOpcode(), VT, Node, LHS, RHS, Halves,
*0b57cec5SDimitry Andric                           HalfType, DAG,
*0b57cec5SDimitry Andric                           TargetLowering::MulExpansionKind::Always)) {
*0b57cec5SDimitry Andric      for (unsigned i = 0; i < 2; ++i) {
*0b57cec5SDimitry Andric        SDValue Lo = DAG.getNode(ISD::ZERO_EXTEND, dl, VT, Halves[2 * i]);
*0b57cec5SDimitry Andric        SDValue Hi = DAG.getNode(ISD::ANY_EXTEND, dl, VT, Halves[2 * i + 1]);
*0b57cec5SDimitry Andric        SDValue Shift = DAG.getConstant(
*0b57cec5SDimitry Andric            HalfType.getScalarSizeInBits(), dl,
*0b57cec5SDimitry Andric            TLI.getShiftAmountTy(HalfType, DAG.getDataLayout()));
*0b57cec5SDimitry Andric        Hi = DAG.getNode(ISD::SHL, dl, VT, Hi, Shift);
*0b57cec5SDimitry Andric        Results.push_back(DAG.getNode(ISD::OR, dl, VT, Lo, Hi));
*0b57cec5SDimitry Andric      }
*0b57cec5SDimitry Andric      break;
*0b57cec5SDimitry Andric    }
*0b57cec5SDimitry Andric    break;
*0b57cec5SDimitry Andric  }
*0b57cec5SDimitry Andric  case ISD::MUL: {
*0b57cec5SDimitry Andric    EVT VT = Node->getValueType(0);
*0b57cec5SDimitry Andric    SDVTList VTs = DAG.getVTList(VT, VT);
*0b57cec5SDimitry Andric    // See if multiply or divide can be lowered using two-result operations.
*0b57cec5SDimitry Andric    // We just need the low half of the multiply; try both the signed
*0b57cec5SDimitry Andric    // and unsigned forms. If the target supports both SMUL_LOHI and
*0b57cec5SDimitry Andric    // UMUL_LOHI, form a preference by checking which forms of plain
*0b57cec5SDimitry Andric    // MULH it supports.
*0b57cec5SDimitry Andric    bool HasSMUL_LOHI = TLI.isOperationLegalOrCustom(ISD::SMUL_LOHI, VT);
*0b57cec5SDimitry Andric    bool HasUMUL_LOHI = TLI.isOperationLegalOrCustom(ISD::UMUL_LOHI, VT);
*0b57cec5SDimitry Andric    bool HasMULHS = TLI.isOperationLegalOrCustom(ISD::MULHS, VT);
*0b57cec5SDimitry Andric    bool HasMULHU = TLI.isOperationLegalOrCustom(ISD::MULHU, VT);
*0b57cec5SDimitry Andric    unsigned OpToUse = 0;
*0b57cec5SDimitry Andric    if (HasSMUL_LOHI && !HasMULHS) {
*0b57cec5SDimitry Andric      OpToUse = ISD::SMUL_LOHI;
*0b57cec5SDimitry Andric    } else if (HasUMUL_LOHI && !HasMULHU) {
*0b57cec5SDimitry Andric      OpToUse = ISD::UMUL_LOHI;
*0b57cec5SDimitry Andric    } else if (HasSMUL_LOHI) {
*0b57cec5SDimitry Andric      OpToUse = ISD::SMUL_LOHI;
*0b57cec5SDimitry Andric    } else if (HasUMUL_LOHI) {
*0b57cec5SDimitry Andric      OpToUse = ISD::UMUL_LOHI;
*0b57cec5SDimitry Andric    }
*0b57cec5SDimitry Andric    if (OpToUse) {
*0b57cec5SDimitry Andric      Results.push_back(DAG.getNode(OpToUse, dl, VTs, Node->getOperand(0),
*0b57cec5SDimitry Andric                                    Node->getOperand(1)));
*0b57cec5SDimitry Andric      break;
*0b57cec5SDimitry Andric    }
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric    SDValue Lo, Hi;
*0b57cec5SDimitry Andric    EVT HalfType = VT.getHalfSizedIntegerVT(*DAG.getContext());
*0b57cec5SDimitry Andric    if (TLI.isOperationLegalOrCustom(ISD::ZERO_EXTEND, VT) &&
*0b57cec5SDimitry Andric        TLI.isOperationLegalOrCustom(ISD::ANY_EXTEND, VT) &&
*0b57cec5SDimitry Andric        TLI.isOperationLegalOrCustom(ISD::SHL, VT) &&
*0b57cec5SDimitry Andric        TLI.isOperationLegalOrCustom(ISD::OR, VT) &&
*0b57cec5SDimitry Andric        TLI.expandMUL(Node, Lo, Hi, HalfType, DAG,
*0b57cec5SDimitry Andric                      TargetLowering::MulExpansionKind::OnlyLegalOrCustom)) {
*0b57cec5SDimitry Andric      Lo = DAG.getNode(ISD::ZERO_EXTEND, dl, VT, Lo);
*0b57cec5SDimitry Andric      Hi = DAG.getNode(ISD::ANY_EXTEND, dl, VT, Hi);
*0b57cec5SDimitry Andric      SDValue Shift =
*0b57cec5SDimitry Andric          DAG.getConstant(HalfType.getSizeInBits(), dl,
*0b57cec5SDimitry Andric                          TLI.getShiftAmountTy(HalfType, DAG.getDataLayout()));
*0b57cec5SDimitry Andric      Hi = DAG.getNode(ISD::SHL, dl, VT, Hi, Shift);
*0b57cec5SDimitry Andric      Results.push_back(DAG.getNode(ISD::OR, dl, VT, Lo, Hi));
*0b57cec5SDimitry Andric    }
*0b57cec5SDimitry Andric    break;
*0b57cec5SDimitry Andric  }
*0b57cec5SDimitry Andric  case ISD::FSHL:
*0b57cec5SDimitry Andric  case ISD::FSHR:
*0b57cec5SDimitry Andric    if (TLI.expandFunnelShift(Node, Tmp1, DAG))
*0b57cec5SDimitry Andric      Results.push_back(Tmp1);
*0b57cec5SDimitry Andric    break;
*0b57cec5SDimitry Andric  case ISD::ROTL:
*0b57cec5SDimitry Andric  case ISD::ROTR:
*0b57cec5SDimitry Andric    if (TLI.expandROT(Node, Tmp1, DAG))
*0b57cec5SDimitry Andric      Results.push_back(Tmp1);
*0b57cec5SDimitry Andric    break;
*0b57cec5SDimitry Andric  case ISD::SADDSAT:
*0b57cec5SDimitry Andric  case ISD::UADDSAT:
*0b57cec5SDimitry Andric  case ISD::SSUBSAT:
*0b57cec5SDimitry Andric  case ISD::USUBSAT:
*0b57cec5SDimitry Andric    Results.push_back(TLI.expandAddSubSat(Node, DAG));
*0b57cec5SDimitry Andric    break;
*0b57cec5SDimitry Andric  case ISD::SMULFIX:
*0b57cec5SDimitry Andric  case ISD::SMULFIXSAT:
*0b57cec5SDimitry Andric  case ISD::UMULFIX:
*0b57cec5SDimitry Andric    Results.push_back(TLI.expandFixedPointMul(Node, DAG));
*0b57cec5SDimitry Andric    break;
*0b57cec5SDimitry Andric  case ISD::ADDCARRY:
*0b57cec5SDimitry Andric  case ISD::SUBCARRY: {
*0b57cec5SDimitry Andric    SDValue LHS = Node->getOperand(0);
*0b57cec5SDimitry Andric    SDValue RHS = Node->getOperand(1);
*0b57cec5SDimitry Andric    SDValue Carry = Node->getOperand(2);
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric    bool IsAdd = Node->getOpcode() == ISD::ADDCARRY;
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric    // Initial add of the 2 operands.
*0b57cec5SDimitry Andric    unsigned Op = IsAdd ? ISD::ADD : ISD::SUB;
*0b57cec5SDimitry Andric    EVT VT = LHS.getValueType();
*0b57cec5SDimitry Andric    SDValue Sum = DAG.getNode(Op, dl, VT, LHS, RHS);
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric    // Initial check for overflow.
*0b57cec5SDimitry Andric    EVT CarryType = Node->getValueType(1);
*0b57cec5SDimitry Andric    EVT SetCCType = getSetCCResultType(Node->getValueType(0));
*0b57cec5SDimitry Andric    ISD::CondCode CC = IsAdd ? ISD::SETULT : ISD::SETUGT;
*0b57cec5SDimitry Andric    SDValue Overflow = DAG.getSetCC(dl, SetCCType, Sum, LHS, CC);
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric    // Add of the sum and the carry.
*0b57cec5SDimitry Andric    SDValue CarryExt =
*0b57cec5SDimitry Andric        DAG.getZeroExtendInReg(DAG.getZExtOrTrunc(Carry, dl, VT), dl, MVT::i1);
*0b57cec5SDimitry Andric    SDValue Sum2 = DAG.getNode(Op, dl, VT, Sum, CarryExt);
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric    // Second check for overflow. If we are adding, we can only overflow if the
*0b57cec5SDimitry Andric    // initial sum is all 1s ang the carry is set, resulting in a new sum of 0.
*0b57cec5SDimitry Andric    // If we are subtracting, we can only overflow if the initial sum is 0 and
*0b57cec5SDimitry Andric    // the carry is set, resulting in a new sum of all 1s.
*0b57cec5SDimitry Andric    SDValue Zero = DAG.getConstant(0, dl, VT);
*0b57cec5SDimitry Andric    SDValue Overflow2 =
*0b57cec5SDimitry Andric        IsAdd ? DAG.getSetCC(dl, SetCCType, Sum2, Zero, ISD::SETEQ)
*0b57cec5SDimitry Andric              : DAG.getSetCC(dl, SetCCType, Sum, Zero, ISD::SETEQ);
*0b57cec5SDimitry Andric    Overflow2 = DAG.getNode(ISD::AND, dl, SetCCType, Overflow2,
*0b57cec5SDimitry Andric                            DAG.getZExtOrTrunc(Carry, dl, SetCCType));
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric    SDValue ResultCarry =
*0b57cec5SDimitry Andric        DAG.getNode(ISD::OR, dl, SetCCType, Overflow, Overflow2);
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric    Results.push_back(Sum2);
*0b57cec5SDimitry Andric    Results.push_back(DAG.getBoolExtOrTrunc(ResultCarry, dl, CarryType, VT));
*0b57cec5SDimitry Andric    break;
*0b57cec5SDimitry Andric  }
*0b57cec5SDimitry Andric  case ISD::SADDO:
*0b57cec5SDimitry Andric  case ISD::SSUBO: {
*0b57cec5SDimitry Andric    SDValue Result, Overflow;
*0b57cec5SDimitry Andric    TLI.expandSADDSUBO(Node, Result, Overflow, DAG);
*0b57cec5SDimitry Andric    Results.push_back(Result);
*0b57cec5SDimitry Andric    Results.push_back(Overflow);
*0b57cec5SDimitry Andric    break;
*0b57cec5SDimitry Andric  }
*0b57cec5SDimitry Andric  case ISD::UADDO:
*0b57cec5SDimitry Andric  case ISD::USUBO: {
*0b57cec5SDimitry Andric    SDValue Result, Overflow;
*0b57cec5SDimitry Andric    TLI.expandUADDSUBO(Node, Result, Overflow, DAG);
*0b57cec5SDimitry Andric    Results.push_back(Result);
*0b57cec5SDimitry Andric    Results.push_back(Overflow);
*0b57cec5SDimitry Andric    break;
*0b57cec5SDimitry Andric  }
*0b57cec5SDimitry Andric  case ISD::UMULO:
*0b57cec5SDimitry Andric  case ISD::SMULO: {
*0b57cec5SDimitry Andric    SDValue Result, Overflow;
*0b57cec5SDimitry Andric    if (TLI.expandMULO(Node, Result, Overflow, DAG)) {
*0b57cec5SDimitry Andric      Results.push_back(Result);
*0b57cec5SDimitry Andric      Results.push_back(Overflow);
*0b57cec5SDimitry Andric    }
*0b57cec5SDimitry Andric    break;
*0b57cec5SDimitry Andric  }
*0b57cec5SDimitry Andric  case ISD::BUILD_PAIR: {
*0b57cec5SDimitry Andric    EVT PairTy = Node->getValueType(0);
*0b57cec5SDimitry Andric    Tmp1 = DAG.getNode(ISD::ZERO_EXTEND, dl, PairTy, Node->getOperand(0));
*0b57cec5SDimitry Andric    Tmp2 = DAG.getNode(ISD::ANY_EXTEND, dl, PairTy, Node->getOperand(1));
*0b57cec5SDimitry Andric    Tmp2 = DAG.getNode(
*0b57cec5SDimitry Andric        ISD::SHL, dl, PairTy, Tmp2,
*0b57cec5SDimitry Andric        DAG.getConstant(PairTy.getSizeInBits() / 2, dl,
*0b57cec5SDimitry Andric                        TLI.getShiftAmountTy(PairTy, DAG.getDataLayout())));
*0b57cec5SDimitry Andric    Results.push_back(DAG.getNode(ISD::OR, dl, PairTy, Tmp1, Tmp2));
*0b57cec5SDimitry Andric    break;
*0b57cec5SDimitry Andric  }
*0b57cec5SDimitry Andric  case ISD::SELECT:
*0b57cec5SDimitry Andric    Tmp1 = Node->getOperand(0);
*0b57cec5SDimitry Andric    Tmp2 = Node->getOperand(1);
*0b57cec5SDimitry Andric    Tmp3 = Node->getOperand(2);
*0b57cec5SDimitry Andric    if (Tmp1.getOpcode() == ISD::SETCC) {
*0b57cec5SDimitry Andric      Tmp1 = DAG.getSelectCC(dl, Tmp1.getOperand(0), Tmp1.getOperand(1),
*0b57cec5SDimitry Andric                             Tmp2, Tmp3,
*0b57cec5SDimitry Andric                             cast<CondCodeSDNode>(Tmp1.getOperand(2))->get());
*0b57cec5SDimitry Andric    } else {
*0b57cec5SDimitry Andric      Tmp1 = DAG.getSelectCC(dl, Tmp1,
*0b57cec5SDimitry Andric                             DAG.getConstant(0, dl, Tmp1.getValueType()),
*0b57cec5SDimitry Andric                             Tmp2, Tmp3, ISD::SETNE);
*0b57cec5SDimitry Andric    }
*0b57cec5SDimitry Andric    Tmp1->setFlags(Node->getFlags());
*0b57cec5SDimitry Andric    Results.push_back(Tmp1);
*0b57cec5SDimitry Andric    break;
*0b57cec5SDimitry Andric  case ISD::BR_JT: {
*0b57cec5SDimitry Andric    SDValue Chain = Node->getOperand(0);
*0b57cec5SDimitry Andric    SDValue Table = Node->getOperand(1);
*0b57cec5SDimitry Andric    SDValue Index = Node->getOperand(2);
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric    const DataLayout &TD = DAG.getDataLayout();
*0b57cec5SDimitry Andric    EVT PTy = TLI.getPointerTy(TD);
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric    unsigned EntrySize =
*0b57cec5SDimitry Andric      DAG.getMachineFunction().getJumpTableInfo()->getEntrySize(TD);
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric    // For power-of-two jumptable entry sizes convert multiplication to a shift.
*0b57cec5SDimitry Andric    // This transformation needs to be done here since otherwise the MIPS
*0b57cec5SDimitry Andric    // backend will end up emitting a three instruction multiply sequence
*0b57cec5SDimitry Andric    // instead of a single shift and MSP430 will call a runtime function.
*0b57cec5SDimitry Andric    if (llvm::isPowerOf2_32(EntrySize))
*0b57cec5SDimitry Andric      Index = DAG.getNode(
*0b57cec5SDimitry Andric          ISD::SHL, dl, Index.getValueType(), Index,
*0b57cec5SDimitry Andric          DAG.getConstant(llvm::Log2_32(EntrySize), dl, Index.getValueType()));
*0b57cec5SDimitry Andric    else
*0b57cec5SDimitry Andric      Index = DAG.getNode(ISD::MUL, dl, Index.getValueType(), Index,
*0b57cec5SDimitry Andric                          DAG.getConstant(EntrySize, dl, Index.getValueType()));
*0b57cec5SDimitry Andric    SDValue Addr = DAG.getNode(ISD::ADD, dl, Index.getValueType(),
*0b57cec5SDimitry Andric                               Index, Table);
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric    EVT MemVT = EVT::getIntegerVT(*DAG.getContext(), EntrySize * 8);
*0b57cec5SDimitry Andric    SDValue LD = DAG.getExtLoad(
*0b57cec5SDimitry Andric        ISD::SEXTLOAD, dl, PTy, Chain, Addr,
*0b57cec5SDimitry Andric        MachinePointerInfo::getJumpTable(DAG.getMachineFunction()), MemVT);
*0b57cec5SDimitry Andric    Addr = LD;
*0b57cec5SDimitry Andric    if (TLI.isJumpTableRelative()) {
*0b57cec5SDimitry Andric      // For PIC, the sequence is:
*0b57cec5SDimitry Andric      // BRIND(load(Jumptable + index) + RelocBase)
*0b57cec5SDimitry Andric      // RelocBase can be JumpTable, GOT or some sort of global base.
*0b57cec5SDimitry Andric      Addr = DAG.getNode(ISD::ADD, dl, PTy, Addr,
*0b57cec5SDimitry Andric                          TLI.getPICJumpTableRelocBase(Table, DAG));
*0b57cec5SDimitry Andric    }
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric    Tmp1 = TLI.expandIndirectJTBranch(dl, LD.getValue(1), Addr, DAG);
*0b57cec5SDimitry Andric    Results.push_back(Tmp1);
*0b57cec5SDimitry Andric    break;
*0b57cec5SDimitry Andric  }
*0b57cec5SDimitry Andric  case ISD::BRCOND:
*0b57cec5SDimitry Andric    // Expand brcond's setcc into its constituent parts and create a BR_CC
*0b57cec5SDimitry Andric    // Node.
*0b57cec5SDimitry Andric    Tmp1 = Node->getOperand(0);
*0b57cec5SDimitry Andric    Tmp2 = Node->getOperand(1);
*0b57cec5SDimitry Andric    if (Tmp2.getOpcode() == ISD::SETCC) {
*0b57cec5SDimitry Andric      Tmp1 = DAG.getNode(ISD::BR_CC, dl, MVT::Other,
*0b57cec5SDimitry Andric                         Tmp1, Tmp2.getOperand(2),
*0b57cec5SDimitry Andric                         Tmp2.getOperand(0), Tmp2.getOperand(1),
*0b57cec5SDimitry Andric                         Node->getOperand(2));
*0b57cec5SDimitry Andric    } else {
*0b57cec5SDimitry Andric      // We test only the i1 bit.  Skip the AND if UNDEF or another AND.
*0b57cec5SDimitry Andric      if (Tmp2.isUndef() ||
*0b57cec5SDimitry Andric          (Tmp2.getOpcode() == ISD::AND &&
*0b57cec5SDimitry Andric           isa<ConstantSDNode>(Tmp2.getOperand(1)) &&
*0b57cec5SDimitry Andric           cast<ConstantSDNode>(Tmp2.getOperand(1))->getZExtValue() == 1))
*0b57cec5SDimitry Andric        Tmp3 = Tmp2;
*0b57cec5SDimitry Andric      else
*0b57cec5SDimitry Andric        Tmp3 = DAG.getNode(ISD::AND, dl, Tmp2.getValueType(), Tmp2,
*0b57cec5SDimitry Andric                           DAG.getConstant(1, dl, Tmp2.getValueType()));
*0b57cec5SDimitry Andric      Tmp1 = DAG.getNode(ISD::BR_CC, dl, MVT::Other, Tmp1,
*0b57cec5SDimitry Andric                         DAG.getCondCode(ISD::SETNE), Tmp3,
*0b57cec5SDimitry Andric                         DAG.getConstant(0, dl, Tmp3.getValueType()),
*0b57cec5SDimitry Andric                         Node->getOperand(2));
*0b57cec5SDimitry Andric    }
*0b57cec5SDimitry Andric    Results.push_back(Tmp1);
*0b57cec5SDimitry Andric    break;
*0b57cec5SDimitry Andric  case ISD::SETCC: {
*0b57cec5SDimitry Andric    Tmp1 = Node->getOperand(0);
*0b57cec5SDimitry Andric    Tmp2 = Node->getOperand(1);
*0b57cec5SDimitry Andric    Tmp3 = Node->getOperand(2);
*0b57cec5SDimitry Andric    bool Legalized = LegalizeSetCCCondCode(Node->getValueType(0), Tmp1, Tmp2,
*0b57cec5SDimitry Andric                                           Tmp3, NeedInvert, dl);
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric    if (Legalized) {
*0b57cec5SDimitry Andric      // If we expanded the SETCC by swapping LHS and RHS, or by inverting the
*0b57cec5SDimitry Andric      // condition code, create a new SETCC node.
*0b57cec5SDimitry Andric      if (Tmp3.getNode())
*0b57cec5SDimitry Andric        Tmp1 = DAG.getNode(ISD::SETCC, dl, Node->getValueType(0),
*0b57cec5SDimitry Andric                           Tmp1, Tmp2, Tmp3, Node->getFlags());
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric      // If we expanded the SETCC by inverting the condition code, then wrap
*0b57cec5SDimitry Andric      // the existing SETCC in a NOT to restore the intended condition.
*0b57cec5SDimitry Andric      if (NeedInvert)
*0b57cec5SDimitry Andric        Tmp1 = DAG.getLogicalNOT(dl, Tmp1, Tmp1->getValueType(0));
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric      Results.push_back(Tmp1);
*0b57cec5SDimitry Andric      break;
*0b57cec5SDimitry Andric    }
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric    // Otherwise, SETCC for the given comparison type must be completely
*0b57cec5SDimitry Andric    // illegal; expand it into a SELECT_CC.
*0b57cec5SDimitry Andric    EVT VT = Node->getValueType(0);
*0b57cec5SDimitry Andric    int TrueValue;
*0b57cec5SDimitry Andric    switch (TLI.getBooleanContents(Tmp1.getValueType())) {
*0b57cec5SDimitry Andric    case TargetLowering::ZeroOrOneBooleanContent:
*0b57cec5SDimitry Andric    case TargetLowering::UndefinedBooleanContent:
*0b57cec5SDimitry Andric      TrueValue = 1;
*0b57cec5SDimitry Andric      break;
*0b57cec5SDimitry Andric    case TargetLowering::ZeroOrNegativeOneBooleanContent:
*0b57cec5SDimitry Andric      TrueValue = -1;
*0b57cec5SDimitry Andric      break;
*0b57cec5SDimitry Andric    }
*0b57cec5SDimitry Andric    Tmp1 = DAG.getNode(ISD::SELECT_CC, dl, VT, Tmp1, Tmp2,
*0b57cec5SDimitry Andric                       DAG.getConstant(TrueValue, dl, VT),
*0b57cec5SDimitry Andric                       DAG.getConstant(0, dl, VT),
*0b57cec5SDimitry Andric                       Tmp3);
*0b57cec5SDimitry Andric    Tmp1->setFlags(Node->getFlags());
*0b57cec5SDimitry Andric    Results.push_back(Tmp1);
*0b57cec5SDimitry Andric    break;
*0b57cec5SDimitry Andric  }
*0b57cec5SDimitry Andric  case ISD::SELECT_CC: {
*0b57cec5SDimitry Andric    Tmp1 = Node->getOperand(0);   // LHS
*0b57cec5SDimitry Andric    Tmp2 = Node->getOperand(1);   // RHS
*0b57cec5SDimitry Andric    Tmp3 = Node->getOperand(2);   // True
*0b57cec5SDimitry Andric    Tmp4 = Node->getOperand(3);   // False
*0b57cec5SDimitry Andric    EVT VT = Node->getValueType(0);
*0b57cec5SDimitry Andric    SDValue CC = Node->getOperand(4);
*0b57cec5SDimitry Andric    ISD::CondCode CCOp = cast<CondCodeSDNode>(CC)->get();
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric    if (TLI.isCondCodeLegalOrCustom(CCOp, Tmp1.getSimpleValueType())) {
*0b57cec5SDimitry Andric      // If the condition code is legal, then we need to expand this
*0b57cec5SDimitry Andric      // node using SETCC and SELECT.
*0b57cec5SDimitry Andric      EVT CmpVT = Tmp1.getValueType();
*0b57cec5SDimitry Andric      assert(!TLI.isOperationExpand(ISD::SELECT, VT) &&
*0b57cec5SDimitry Andric             "Cannot expand ISD::SELECT_CC when ISD::SELECT also needs to be "
*0b57cec5SDimitry Andric             "expanded.");
*0b57cec5SDimitry Andric      EVT CCVT = getSetCCResultType(CmpVT);
*0b57cec5SDimitry Andric      SDValue Cond = DAG.getNode(ISD::SETCC, dl, CCVT, Tmp1, Tmp2, CC, Node->getFlags());
*0b57cec5SDimitry Andric      Results.push_back(DAG.getSelect(dl, VT, Cond, Tmp3, Tmp4));
*0b57cec5SDimitry Andric      break;
*0b57cec5SDimitry Andric    }
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric    // SELECT_CC is legal, so the condition code must not be.
*0b57cec5SDimitry Andric    bool Legalized = false;
*0b57cec5SDimitry Andric    // Try to legalize by inverting the condition.  This is for targets that
*0b57cec5SDimitry Andric    // might support an ordered version of a condition, but not the unordered
*0b57cec5SDimitry Andric    // version (or vice versa).
*0b57cec5SDimitry Andric    ISD::CondCode InvCC = ISD::getSetCCInverse(CCOp,
*0b57cec5SDimitry Andric                                               Tmp1.getValueType().isInteger());
*0b57cec5SDimitry Andric    if (TLI.isCondCodeLegalOrCustom(InvCC, Tmp1.getSimpleValueType())) {
*0b57cec5SDimitry Andric      // Use the new condition code and swap true and false
*0b57cec5SDimitry Andric      Legalized = true;
*0b57cec5SDimitry Andric      Tmp1 = DAG.getSelectCC(dl, Tmp1, Tmp2, Tmp4, Tmp3, InvCC);
*0b57cec5SDimitry Andric      Tmp1->setFlags(Node->getFlags());
*0b57cec5SDimitry Andric    } else {
*0b57cec5SDimitry Andric      // If The inverse is not legal, then try to swap the arguments using
*0b57cec5SDimitry Andric      // the inverse condition code.
*0b57cec5SDimitry Andric      ISD::CondCode SwapInvCC = ISD::getSetCCSwappedOperands(InvCC);
*0b57cec5SDimitry Andric      if (TLI.isCondCodeLegalOrCustom(SwapInvCC, Tmp1.getSimpleValueType())) {
*0b57cec5SDimitry Andric        // The swapped inverse condition is legal, so swap true and false,
*0b57cec5SDimitry Andric        // lhs and rhs.
*0b57cec5SDimitry Andric        Legalized = true;
*0b57cec5SDimitry Andric        Tmp1 = DAG.getSelectCC(dl, Tmp2, Tmp1, Tmp4, Tmp3, SwapInvCC);
*0b57cec5SDimitry Andric        Tmp1->setFlags(Node->getFlags());
*0b57cec5SDimitry Andric      }
*0b57cec5SDimitry Andric    }
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric    if (!Legalized) {
*0b57cec5SDimitry Andric      Legalized = LegalizeSetCCCondCode(
*0b57cec5SDimitry Andric          getSetCCResultType(Tmp1.getValueType()), Tmp1, Tmp2, CC, NeedInvert,
*0b57cec5SDimitry Andric          dl);
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric      assert(Legalized && "Can't legalize SELECT_CC with legal condition!");
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric      // If we expanded the SETCC by inverting the condition code, then swap
*0b57cec5SDimitry Andric      // the True/False operands to match.
*0b57cec5SDimitry Andric      if (NeedInvert)
*0b57cec5SDimitry Andric        std::swap(Tmp3, Tmp4);
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric      // If we expanded the SETCC by swapping LHS and RHS, or by inverting the
*0b57cec5SDimitry Andric      // condition code, create a new SELECT_CC node.
*0b57cec5SDimitry Andric      if (CC.getNode()) {
*0b57cec5SDimitry Andric        Tmp1 = DAG.getNode(ISD::SELECT_CC, dl, Node->getValueType(0),
*0b57cec5SDimitry Andric                           Tmp1, Tmp2, Tmp3, Tmp4, CC);
*0b57cec5SDimitry Andric      } else {
*0b57cec5SDimitry Andric        Tmp2 = DAG.getConstant(0, dl, Tmp1.getValueType());
*0b57cec5SDimitry Andric        CC = DAG.getCondCode(ISD::SETNE);
*0b57cec5SDimitry Andric        Tmp1 = DAG.getNode(ISD::SELECT_CC, dl, Node->getValueType(0), Tmp1,
*0b57cec5SDimitry Andric                           Tmp2, Tmp3, Tmp4, CC);
*0b57cec5SDimitry Andric      }
*0b57cec5SDimitry Andric      Tmp1->setFlags(Node->getFlags());
*0b57cec5SDimitry Andric    }
*0b57cec5SDimitry Andric    Results.push_back(Tmp1);
*0b57cec5SDimitry Andric    break;
*0b57cec5SDimitry Andric  }
*0b57cec5SDimitry Andric  case ISD::BR_CC: {
*0b57cec5SDimitry Andric    Tmp1 = Node->getOperand(0);              // Chain
*0b57cec5SDimitry Andric    Tmp2 = Node->getOperand(2);              // LHS
*0b57cec5SDimitry Andric    Tmp3 = Node->getOperand(3);              // RHS
*0b57cec5SDimitry Andric    Tmp4 = Node->getOperand(1);              // CC
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric    bool Legalized = LegalizeSetCCCondCode(getSetCCResultType(
*0b57cec5SDimitry Andric        Tmp2.getValueType()), Tmp2, Tmp3, Tmp4, NeedInvert, dl);
*0b57cec5SDimitry Andric    (void)Legalized;
*0b57cec5SDimitry Andric    assert(Legalized && "Can't legalize BR_CC with legal condition!");
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric    assert(!NeedInvert && "Don't know how to invert BR_CC!");
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric    // If we expanded the SETCC by swapping LHS and RHS, create a new BR_CC
*0b57cec5SDimitry Andric    // node.
*0b57cec5SDimitry Andric    if (Tmp4.getNode()) {
*0b57cec5SDimitry Andric      Tmp1 = DAG.getNode(ISD::BR_CC, dl, Node->getValueType(0), Tmp1,
*0b57cec5SDimitry Andric                         Tmp4, Tmp2, Tmp3, Node->getOperand(4));
*0b57cec5SDimitry Andric    } else {
*0b57cec5SDimitry Andric      Tmp3 = DAG.getConstant(0, dl, Tmp2.getValueType());
*0b57cec5SDimitry Andric      Tmp4 = DAG.getCondCode(ISD::SETNE);
*0b57cec5SDimitry Andric      Tmp1 = DAG.getNode(ISD::BR_CC, dl, Node->getValueType(0), Tmp1, Tmp4,
*0b57cec5SDimitry Andric                         Tmp2, Tmp3, Node->getOperand(4));
*0b57cec5SDimitry Andric    }
*0b57cec5SDimitry Andric    Results.push_back(Tmp1);
*0b57cec5SDimitry Andric    break;
*0b57cec5SDimitry Andric  }
*0b57cec5SDimitry Andric  case ISD::BUILD_VECTOR:
*0b57cec5SDimitry Andric    Results.push_back(ExpandBUILD_VECTOR(Node));
*0b57cec5SDimitry Andric    break;
*0b57cec5SDimitry Andric  case ISD::SRA:
*0b57cec5SDimitry Andric  case ISD::SRL:
*0b57cec5SDimitry Andric  case ISD::SHL: {
*0b57cec5SDimitry Andric    // Scalarize vector SRA/SRL/SHL.
*0b57cec5SDimitry Andric    EVT VT = Node->getValueType(0);
*0b57cec5SDimitry Andric    assert(VT.isVector() && "Unable to legalize non-vector shift");
*0b57cec5SDimitry Andric    assert(TLI.isTypeLegal(VT.getScalarType())&& "Element type must be legal");
*0b57cec5SDimitry Andric    unsigned NumElem = VT.getVectorNumElements();
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric    SmallVector<SDValue, 8> Scalars;
*0b57cec5SDimitry Andric    for (unsigned Idx = 0; Idx < NumElem; Idx++) {
*0b57cec5SDimitry Andric      SDValue Ex = DAG.getNode(
*0b57cec5SDimitry Andric          ISD::EXTRACT_VECTOR_ELT, dl, VT.getScalarType(), Node->getOperand(0),
*0b57cec5SDimitry Andric          DAG.getConstant(Idx, dl, TLI.getVectorIdxTy(DAG.getDataLayout())));
*0b57cec5SDimitry Andric      SDValue Sh = DAG.getNode(
*0b57cec5SDimitry Andric          ISD::EXTRACT_VECTOR_ELT, dl, VT.getScalarType(), Node->getOperand(1),
*0b57cec5SDimitry Andric          DAG.getConstant(Idx, dl, TLI.getVectorIdxTy(DAG.getDataLayout())));
*0b57cec5SDimitry Andric      Scalars.push_back(DAG.getNode(Node->getOpcode(), dl,
*0b57cec5SDimitry Andric                                    VT.getScalarType(), Ex, Sh));
*0b57cec5SDimitry Andric    }
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric    SDValue Result = DAG.getBuildVector(Node->getValueType(0), dl, Scalars);
*0b57cec5SDimitry Andric    ReplaceNode(SDValue(Node, 0), Result);
*0b57cec5SDimitry Andric    break;
*0b57cec5SDimitry Andric  }
*0b57cec5SDimitry Andric  case ISD::VECREDUCE_FADD:
*0b57cec5SDimitry Andric  case ISD::VECREDUCE_FMUL:
*0b57cec5SDimitry Andric  case ISD::VECREDUCE_ADD:
*0b57cec5SDimitry Andric  case ISD::VECREDUCE_MUL:
*0b57cec5SDimitry Andric  case ISD::VECREDUCE_AND:
*0b57cec5SDimitry Andric  case ISD::VECREDUCE_OR:
*0b57cec5SDimitry Andric  case ISD::VECREDUCE_XOR:
*0b57cec5SDimitry Andric  case ISD::VECREDUCE_SMAX:
*0b57cec5SDimitry Andric  case ISD::VECREDUCE_SMIN:
*0b57cec5SDimitry Andric  case ISD::VECREDUCE_UMAX:
*0b57cec5SDimitry Andric  case ISD::VECREDUCE_UMIN:
*0b57cec5SDimitry Andric  case ISD::VECREDUCE_FMAX:
*0b57cec5SDimitry Andric  case ISD::VECREDUCE_FMIN:
*0b57cec5SDimitry Andric    Results.push_back(TLI.expandVecReduce(Node, DAG));
*0b57cec5SDimitry Andric    break;
*0b57cec5SDimitry Andric  case ISD::GLOBAL_OFFSET_TABLE:
*0b57cec5SDimitry Andric  case ISD::GlobalAddress:
*0b57cec5SDimitry Andric  case ISD::GlobalTLSAddress:
*0b57cec5SDimitry Andric  case ISD::ExternalSymbol:
*0b57cec5SDimitry Andric  case ISD::ConstantPool:
*0b57cec5SDimitry Andric  case ISD::JumpTable:
*0b57cec5SDimitry Andric  case ISD::INTRINSIC_W_CHAIN:
*0b57cec5SDimitry Andric  case ISD::INTRINSIC_WO_CHAIN:
*0b57cec5SDimitry Andric  case ISD::INTRINSIC_VOID:
*0b57cec5SDimitry Andric    // FIXME: Custom lowering for these operations shouldn't return null!
*0b57cec5SDimitry Andric    break;
*0b57cec5SDimitry Andric  }
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric  // Replace the original node with the legalized result.
*0b57cec5SDimitry Andric  if (Results.empty()) {
*0b57cec5SDimitry Andric    LLVM_DEBUG(dbgs() << "Cannot expand node\n");
*0b57cec5SDimitry Andric    return false;
*0b57cec5SDimitry Andric  }
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric  LLVM_DEBUG(dbgs() << "Successfully expanded node\n");
*0b57cec5SDimitry Andric  ReplaceNode(Node, Results.data());
*0b57cec5SDimitry Andric  return true;
*0b57cec5SDimitry Andric}
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andricvoid SelectionDAGLegalize::ConvertNodeToLibcall(SDNode *Node) {
*0b57cec5SDimitry Andric  LLVM_DEBUG(dbgs() << "Trying to convert node to libcall\n");
*0b57cec5SDimitry Andric  SmallVector<SDValue, 8> Results;
*0b57cec5SDimitry Andric  SDLoc dl(Node);
*0b57cec5SDimitry Andric  // FIXME: Check flags on the node to see if we can use a finite call.
*0b57cec5SDimitry Andric  bool CanUseFiniteLibCall = TM.Options.NoInfsFPMath && TM.Options.NoNaNsFPMath;
*0b57cec5SDimitry Andric  unsigned Opc = Node->getOpcode();
*0b57cec5SDimitry Andric  switch (Opc) {
*0b57cec5SDimitry Andric  case ISD::ATOMIC_FENCE: {
*0b57cec5SDimitry Andric    // If the target didn't lower this, lower it to '__sync_synchronize()' call
*0b57cec5SDimitry Andric    // FIXME: handle "fence singlethread" more efficiently.
*0b57cec5SDimitry Andric    TargetLowering::ArgListTy Args;
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric    TargetLowering::CallLoweringInfo CLI(DAG);
*0b57cec5SDimitry Andric    CLI.setDebugLoc(dl)
*0b57cec5SDimitry Andric        .setChain(Node->getOperand(0))
*0b57cec5SDimitry Andric        .setLibCallee(
*0b57cec5SDimitry Andric            CallingConv::C, Type::getVoidTy(*DAG.getContext()),
*0b57cec5SDimitry Andric            DAG.getExternalSymbol("__sync_synchronize",
*0b57cec5SDimitry Andric                                  TLI.getPointerTy(DAG.getDataLayout())),
*0b57cec5SDimitry Andric            std::move(Args));
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric    std::pair<SDValue, SDValue> CallResult = TLI.LowerCallTo(CLI);
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric    Results.push_back(CallResult.second);
*0b57cec5SDimitry Andric    break;
*0b57cec5SDimitry Andric  }
*0b57cec5SDimitry Andric  // By default, atomic intrinsics are marked Legal and lowered. Targets
*0b57cec5SDimitry Andric  // which don't support them directly, however, may want libcalls, in which
*0b57cec5SDimitry Andric  // case they mark them Expand, and we get here.
*0b57cec5SDimitry Andric  case ISD::ATOMIC_SWAP:
*0b57cec5SDimitry Andric  case ISD::ATOMIC_LOAD_ADD:
*0b57cec5SDimitry Andric  case ISD::ATOMIC_LOAD_SUB:
*0b57cec5SDimitry Andric  case ISD::ATOMIC_LOAD_AND:
*0b57cec5SDimitry Andric  case ISD::ATOMIC_LOAD_CLR:
*0b57cec5SDimitry Andric  case ISD::ATOMIC_LOAD_OR:
*0b57cec5SDimitry Andric  case ISD::ATOMIC_LOAD_XOR:
*0b57cec5SDimitry Andric  case ISD::ATOMIC_LOAD_NAND:
*0b57cec5SDimitry Andric  case ISD::ATOMIC_LOAD_MIN:
*0b57cec5SDimitry Andric  case ISD::ATOMIC_LOAD_MAX:
*0b57cec5SDimitry Andric  case ISD::ATOMIC_LOAD_UMIN:
*0b57cec5SDimitry Andric  case ISD::ATOMIC_LOAD_UMAX:
*0b57cec5SDimitry Andric  case ISD::ATOMIC_CMP_SWAP: {
*0b57cec5SDimitry Andric    MVT VT = cast<AtomicSDNode>(Node)->getMemoryVT().getSimpleVT();
*0b57cec5SDimitry Andric    RTLIB::Libcall LC = RTLIB::getSYNC(Opc, VT);
*0b57cec5SDimitry Andric    assert(LC != RTLIB::UNKNOWN_LIBCALL && "Unexpected atomic op or value type!");
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric    std::pair<SDValue, SDValue> Tmp = ExpandChainLibCall(LC, Node, false);
*0b57cec5SDimitry Andric    Results.push_back(Tmp.first);
*0b57cec5SDimitry Andric    Results.push_back(Tmp.second);
*0b57cec5SDimitry Andric    break;
*0b57cec5SDimitry Andric  }
*0b57cec5SDimitry Andric  case ISD::TRAP: {
*0b57cec5SDimitry Andric    // If this operation is not supported, lower it to 'abort()' call
*0b57cec5SDimitry Andric    TargetLowering::ArgListTy Args;
*0b57cec5SDimitry Andric    TargetLowering::CallLoweringInfo CLI(DAG);
*0b57cec5SDimitry Andric    CLI.setDebugLoc(dl)
*0b57cec5SDimitry Andric        .setChain(Node->getOperand(0))
*0b57cec5SDimitry Andric        .setLibCallee(CallingConv::C, Type::getVoidTy(*DAG.getContext()),
*0b57cec5SDimitry Andric                      DAG.getExternalSymbol(
*0b57cec5SDimitry Andric                          "abort", TLI.getPointerTy(DAG.getDataLayout())),
*0b57cec5SDimitry Andric                      std::move(Args));
*0b57cec5SDimitry Andric    std::pair<SDValue, SDValue> CallResult = TLI.LowerCallTo(CLI);
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric    Results.push_back(CallResult.second);
*0b57cec5SDimitry Andric    break;
*0b57cec5SDimitry Andric  }
*0b57cec5SDimitry Andric  case ISD::FMINNUM:
*0b57cec5SDimitry Andric  case ISD::STRICT_FMINNUM:
*0b57cec5SDimitry Andric    Results.push_back(ExpandFPLibCall(Node, RTLIB::FMIN_F32, RTLIB::FMIN_F64,
*0b57cec5SDimitry Andric                                      RTLIB::FMIN_F80, RTLIB::FMIN_F128,
*0b57cec5SDimitry Andric                                      RTLIB::FMIN_PPCF128));
*0b57cec5SDimitry Andric    break;
*0b57cec5SDimitry Andric  case ISD::FMAXNUM:
*0b57cec5SDimitry Andric  case ISD::STRICT_FMAXNUM:
*0b57cec5SDimitry Andric    Results.push_back(ExpandFPLibCall(Node, RTLIB::FMAX_F32, RTLIB::FMAX_F64,
*0b57cec5SDimitry Andric                                      RTLIB::FMAX_F80, RTLIB::FMAX_F128,
*0b57cec5SDimitry Andric                                      RTLIB::FMAX_PPCF128));
*0b57cec5SDimitry Andric    break;
*0b57cec5SDimitry Andric  case ISD::FSQRT:
*0b57cec5SDimitry Andric  case ISD::STRICT_FSQRT:
*0b57cec5SDimitry Andric    Results.push_back(ExpandFPLibCall(Node, RTLIB::SQRT_F32, RTLIB::SQRT_F64,
*0b57cec5SDimitry Andric                                      RTLIB::SQRT_F80, RTLIB::SQRT_F128,
*0b57cec5SDimitry Andric                                      RTLIB::SQRT_PPCF128));
*0b57cec5SDimitry Andric    break;
*0b57cec5SDimitry Andric  case ISD::FCBRT:
*0b57cec5SDimitry Andric    Results.push_back(ExpandFPLibCall(Node, RTLIB::CBRT_F32, RTLIB::CBRT_F64,
*0b57cec5SDimitry Andric                                      RTLIB::CBRT_F80, RTLIB::CBRT_F128,
*0b57cec5SDimitry Andric                                      RTLIB::CBRT_PPCF128));
*0b57cec5SDimitry Andric    break;
*0b57cec5SDimitry Andric  case ISD::FSIN:
*0b57cec5SDimitry Andric  case ISD::STRICT_FSIN:
*0b57cec5SDimitry Andric    Results.push_back(ExpandFPLibCall(Node, RTLIB::SIN_F32, RTLIB::SIN_F64,
*0b57cec5SDimitry Andric                                      RTLIB::SIN_F80, RTLIB::SIN_F128,
*0b57cec5SDimitry Andric                                      RTLIB::SIN_PPCF128));
*0b57cec5SDimitry Andric    break;
*0b57cec5SDimitry Andric  case ISD::FCOS:
*0b57cec5SDimitry Andric  case ISD::STRICT_FCOS:
*0b57cec5SDimitry Andric    Results.push_back(ExpandFPLibCall(Node, RTLIB::COS_F32, RTLIB::COS_F64,
*0b57cec5SDimitry Andric                                      RTLIB::COS_F80, RTLIB::COS_F128,
*0b57cec5SDimitry Andric                                      RTLIB::COS_PPCF128));
*0b57cec5SDimitry Andric    break;
*0b57cec5SDimitry Andric  case ISD::FSINCOS:
*0b57cec5SDimitry Andric    // Expand into sincos libcall.
*0b57cec5SDimitry Andric    ExpandSinCosLibCall(Node, Results);
*0b57cec5SDimitry Andric    break;
*0b57cec5SDimitry Andric  case ISD::FLOG:
*0b57cec5SDimitry Andric  case ISD::STRICT_FLOG:
*0b57cec5SDimitry Andric    if (CanUseFiniteLibCall && DAG.getLibInfo().has(LibFunc_log_finite))
*0b57cec5SDimitry Andric      Results.push_back(ExpandFPLibCall(Node, RTLIB::LOG_FINITE_F32,
*0b57cec5SDimitry Andric                                        RTLIB::LOG_FINITE_F64,
*0b57cec5SDimitry Andric                                        RTLIB::LOG_FINITE_F80,
*0b57cec5SDimitry Andric                                        RTLIB::LOG_FINITE_F128,
*0b57cec5SDimitry Andric                                        RTLIB::LOG_FINITE_PPCF128));
*0b57cec5SDimitry Andric    else
*0b57cec5SDimitry Andric      Results.push_back(ExpandFPLibCall(Node, RTLIB::LOG_F32, RTLIB::LOG_F64,
*0b57cec5SDimitry Andric                                        RTLIB::LOG_F80, RTLIB::LOG_F128,
*0b57cec5SDimitry Andric                                        RTLIB::LOG_PPCF128));
*0b57cec5SDimitry Andric    break;
*0b57cec5SDimitry Andric  case ISD::FLOG2:
*0b57cec5SDimitry Andric  case ISD::STRICT_FLOG2:
*0b57cec5SDimitry Andric    if (CanUseFiniteLibCall && DAG.getLibInfo().has(LibFunc_log2_finite))
*0b57cec5SDimitry Andric      Results.push_back(ExpandFPLibCall(Node, RTLIB::LOG2_FINITE_F32,
*0b57cec5SDimitry Andric                                        RTLIB::LOG2_FINITE_F64,
*0b57cec5SDimitry Andric                                        RTLIB::LOG2_FINITE_F80,
*0b57cec5SDimitry Andric                                        RTLIB::LOG2_FINITE_F128,
*0b57cec5SDimitry Andric                                        RTLIB::LOG2_FINITE_PPCF128));
*0b57cec5SDimitry Andric    else
*0b57cec5SDimitry Andric      Results.push_back(ExpandFPLibCall(Node, RTLIB::LOG2_F32, RTLIB::LOG2_F64,
*0b57cec5SDimitry Andric                                        RTLIB::LOG2_F80, RTLIB::LOG2_F128,
*0b57cec5SDimitry Andric                                        RTLIB::LOG2_PPCF128));
*0b57cec5SDimitry Andric    break;
*0b57cec5SDimitry Andric  case ISD::FLOG10:
*0b57cec5SDimitry Andric  case ISD::STRICT_FLOG10:
*0b57cec5SDimitry Andric    if (CanUseFiniteLibCall && DAG.getLibInfo().has(LibFunc_log10_finite))
*0b57cec5SDimitry Andric      Results.push_back(ExpandFPLibCall(Node, RTLIB::LOG10_FINITE_F32,
*0b57cec5SDimitry Andric                                        RTLIB::LOG10_FINITE_F64,
*0b57cec5SDimitry Andric                                        RTLIB::LOG10_FINITE_F80,
*0b57cec5SDimitry Andric                                        RTLIB::LOG10_FINITE_F128,
*0b57cec5SDimitry Andric                                        RTLIB::LOG10_FINITE_PPCF128));
*0b57cec5SDimitry Andric    else
*0b57cec5SDimitry Andric      Results.push_back(ExpandFPLibCall(Node, RTLIB::LOG10_F32, RTLIB::LOG10_F64,
*0b57cec5SDimitry Andric                                        RTLIB::LOG10_F80, RTLIB::LOG10_F128,
*0b57cec5SDimitry Andric                                        RTLIB::LOG10_PPCF128));
*0b57cec5SDimitry Andric    break;
*0b57cec5SDimitry Andric  case ISD::FEXP:
*0b57cec5SDimitry Andric  case ISD::STRICT_FEXP:
*0b57cec5SDimitry Andric    if (CanUseFiniteLibCall && DAG.getLibInfo().has(LibFunc_exp_finite))
*0b57cec5SDimitry Andric      Results.push_back(ExpandFPLibCall(Node, RTLIB::EXP_FINITE_F32,
*0b57cec5SDimitry Andric                                        RTLIB::EXP_FINITE_F64,
*0b57cec5SDimitry Andric                                        RTLIB::EXP_FINITE_F80,
*0b57cec5SDimitry Andric                                        RTLIB::EXP_FINITE_F128,
*0b57cec5SDimitry Andric                                        RTLIB::EXP_FINITE_PPCF128));
*0b57cec5SDimitry Andric    else
*0b57cec5SDimitry Andric      Results.push_back(ExpandFPLibCall(Node, RTLIB::EXP_F32, RTLIB::EXP_F64,
*0b57cec5SDimitry Andric                                        RTLIB::EXP_F80, RTLIB::EXP_F128,
*0b57cec5SDimitry Andric                                        RTLIB::EXP_PPCF128));
*0b57cec5SDimitry Andric    break;
*0b57cec5SDimitry Andric  case ISD::FEXP2:
*0b57cec5SDimitry Andric  case ISD::STRICT_FEXP2:
*0b57cec5SDimitry Andric    if (CanUseFiniteLibCall && DAG.getLibInfo().has(LibFunc_exp2_finite))
*0b57cec5SDimitry Andric      Results.push_back(ExpandFPLibCall(Node, RTLIB::EXP2_FINITE_F32,
*0b57cec5SDimitry Andric                                        RTLIB::EXP2_FINITE_F64,
*0b57cec5SDimitry Andric                                        RTLIB::EXP2_FINITE_F80,
*0b57cec5SDimitry Andric                                        RTLIB::EXP2_FINITE_F128,
*0b57cec5SDimitry Andric                                        RTLIB::EXP2_FINITE_PPCF128));
*0b57cec5SDimitry Andric    else
*0b57cec5SDimitry Andric      Results.push_back(ExpandFPLibCall(Node, RTLIB::EXP2_F32, RTLIB::EXP2_F64,
*0b57cec5SDimitry Andric                                        RTLIB::EXP2_F80, RTLIB::EXP2_F128,
*0b57cec5SDimitry Andric                                        RTLIB::EXP2_PPCF128));
*0b57cec5SDimitry Andric    break;
*0b57cec5SDimitry Andric  case ISD::FTRUNC:
*0b57cec5SDimitry Andric  case ISD::STRICT_FTRUNC:
*0b57cec5SDimitry Andric    Results.push_back(ExpandFPLibCall(Node, RTLIB::TRUNC_F32, RTLIB::TRUNC_F64,
*0b57cec5SDimitry Andric                                      RTLIB::TRUNC_F80, RTLIB::TRUNC_F128,
*0b57cec5SDimitry Andric                                      RTLIB::TRUNC_PPCF128));
*0b57cec5SDimitry Andric    break;
*0b57cec5SDimitry Andric  case ISD::FFLOOR:
*0b57cec5SDimitry Andric  case ISD::STRICT_FFLOOR:
*0b57cec5SDimitry Andric    Results.push_back(ExpandFPLibCall(Node, RTLIB::FLOOR_F32, RTLIB::FLOOR_F64,
*0b57cec5SDimitry Andric                                      RTLIB::FLOOR_F80, RTLIB::FLOOR_F128,
*0b57cec5SDimitry Andric                                      RTLIB::FLOOR_PPCF128));
*0b57cec5SDimitry Andric    break;
*0b57cec5SDimitry Andric  case ISD::FCEIL:
*0b57cec5SDimitry Andric  case ISD::STRICT_FCEIL:
*0b57cec5SDimitry Andric    Results.push_back(ExpandFPLibCall(Node, RTLIB::CEIL_F32, RTLIB::CEIL_F64,
*0b57cec5SDimitry Andric                                      RTLIB::CEIL_F80, RTLIB::CEIL_F128,
*0b57cec5SDimitry Andric                                      RTLIB::CEIL_PPCF128));
*0b57cec5SDimitry Andric    break;
*0b57cec5SDimitry Andric  case ISD::FRINT:
*0b57cec5SDimitry Andric  case ISD::STRICT_FRINT:
*0b57cec5SDimitry Andric    Results.push_back(ExpandFPLibCall(Node, RTLIB::RINT_F32, RTLIB::RINT_F64,
*0b57cec5SDimitry Andric                                      RTLIB::RINT_F80, RTLIB::RINT_F128,
*0b57cec5SDimitry Andric                                      RTLIB::RINT_PPCF128));
*0b57cec5SDimitry Andric    break;
*0b57cec5SDimitry Andric  case ISD::FNEARBYINT:
*0b57cec5SDimitry Andric  case ISD::STRICT_FNEARBYINT:
*0b57cec5SDimitry Andric    Results.push_back(ExpandFPLibCall(Node, RTLIB::NEARBYINT_F32,
*0b57cec5SDimitry Andric                                      RTLIB::NEARBYINT_F64,
*0b57cec5SDimitry Andric                                      RTLIB::NEARBYINT_F80,
*0b57cec5SDimitry Andric                                      RTLIB::NEARBYINT_F128,
*0b57cec5SDimitry Andric                                      RTLIB::NEARBYINT_PPCF128));
*0b57cec5SDimitry Andric    break;
*0b57cec5SDimitry Andric  case ISD::FROUND:
*0b57cec5SDimitry Andric  case ISD::STRICT_FROUND:
*0b57cec5SDimitry Andric    Results.push_back(ExpandFPLibCall(Node, RTLIB::ROUND_F32,
*0b57cec5SDimitry Andric                                      RTLIB::ROUND_F64,
*0b57cec5SDimitry Andric                                      RTLIB::ROUND_F80,
*0b57cec5SDimitry Andric                                      RTLIB::ROUND_F128,
*0b57cec5SDimitry Andric                                      RTLIB::ROUND_PPCF128));
*0b57cec5SDimitry Andric    break;
*0b57cec5SDimitry Andric  case ISD::FPOWI:
*0b57cec5SDimitry Andric  case ISD::STRICT_FPOWI:
*0b57cec5SDimitry Andric    Results.push_back(ExpandFPLibCall(Node, RTLIB::POWI_F32, RTLIB::POWI_F64,
*0b57cec5SDimitry Andric                                      RTLIB::POWI_F80, RTLIB::POWI_F128,
*0b57cec5SDimitry Andric                                      RTLIB::POWI_PPCF128));
*0b57cec5SDimitry Andric    break;
*0b57cec5SDimitry Andric  case ISD::FPOW:
*0b57cec5SDimitry Andric  case ISD::STRICT_FPOW:
*0b57cec5SDimitry Andric    if (CanUseFiniteLibCall && DAG.getLibInfo().has(LibFunc_pow_finite))
*0b57cec5SDimitry Andric      Results.push_back(ExpandFPLibCall(Node, RTLIB::POW_FINITE_F32,
*0b57cec5SDimitry Andric                                        RTLIB::POW_FINITE_F64,
*0b57cec5SDimitry Andric                                        RTLIB::POW_FINITE_F80,
*0b57cec5SDimitry Andric                                        RTLIB::POW_FINITE_F128,
*0b57cec5SDimitry Andric                                        RTLIB::POW_FINITE_PPCF128));
*0b57cec5SDimitry Andric    else
*0b57cec5SDimitry Andric      Results.push_back(ExpandFPLibCall(Node, RTLIB::POW_F32, RTLIB::POW_F64,
*0b57cec5SDimitry Andric                                        RTLIB::POW_F80, RTLIB::POW_F128,
*0b57cec5SDimitry Andric                                        RTLIB::POW_PPCF128));
*0b57cec5SDimitry Andric    break;
*0b57cec5SDimitry Andric  case ISD::FDIV:
*0b57cec5SDimitry Andric    Results.push_back(ExpandFPLibCall(Node, RTLIB::DIV_F32, RTLIB::DIV_F64,
*0b57cec5SDimitry Andric                                      RTLIB::DIV_F80, RTLIB::DIV_F128,
*0b57cec5SDimitry Andric                                      RTLIB::DIV_PPCF128));
*0b57cec5SDimitry Andric    break;
*0b57cec5SDimitry Andric  case ISD::FREM:
*0b57cec5SDimitry Andric  case ISD::STRICT_FREM:
*0b57cec5SDimitry Andric    Results.push_back(ExpandFPLibCall(Node, RTLIB::REM_F32, RTLIB::REM_F64,
*0b57cec5SDimitry Andric                                      RTLIB::REM_F80, RTLIB::REM_F128,
*0b57cec5SDimitry Andric                                      RTLIB::REM_PPCF128));
*0b57cec5SDimitry Andric    break;
*0b57cec5SDimitry Andric  case ISD::FMA:
*0b57cec5SDimitry Andric  case ISD::STRICT_FMA:
*0b57cec5SDimitry Andric    Results.push_back(ExpandFPLibCall(Node, RTLIB::FMA_F32, RTLIB::FMA_F64,
*0b57cec5SDimitry Andric                                      RTLIB::FMA_F80, RTLIB::FMA_F128,
*0b57cec5SDimitry Andric                                      RTLIB::FMA_PPCF128));
*0b57cec5SDimitry Andric    break;
*0b57cec5SDimitry Andric  case ISD::FADD:
*0b57cec5SDimitry Andric    Results.push_back(ExpandFPLibCall(Node, RTLIB::ADD_F32, RTLIB::ADD_F64,
*0b57cec5SDimitry Andric                                      RTLIB::ADD_F80, RTLIB::ADD_F128,
*0b57cec5SDimitry Andric                                      RTLIB::ADD_PPCF128));
*0b57cec5SDimitry Andric    break;
*0b57cec5SDimitry Andric  case ISD::FMUL:
*0b57cec5SDimitry Andric    Results.push_back(ExpandFPLibCall(Node, RTLIB::MUL_F32, RTLIB::MUL_F64,
*0b57cec5SDimitry Andric                                      RTLIB::MUL_F80, RTLIB::MUL_F128,
*0b57cec5SDimitry Andric                                      RTLIB::MUL_PPCF128));
*0b57cec5SDimitry Andric    break;
*0b57cec5SDimitry Andric  case ISD::FP16_TO_FP:
*0b57cec5SDimitry Andric    if (Node->getValueType(0) == MVT::f32) {
*0b57cec5SDimitry Andric      Results.push_back(ExpandLibCall(RTLIB::FPEXT_F16_F32, Node, false));
*0b57cec5SDimitry Andric    }
*0b57cec5SDimitry Andric    break;
*0b57cec5SDimitry Andric  case ISD::FP_TO_FP16: {
*0b57cec5SDimitry Andric    RTLIB::Libcall LC =
*0b57cec5SDimitry Andric        RTLIB::getFPROUND(Node->getOperand(0).getValueType(), MVT::f16);
*0b57cec5SDimitry Andric    assert(LC != RTLIB::UNKNOWN_LIBCALL && "Unable to expand fp_to_fp16");
*0b57cec5SDimitry Andric    Results.push_back(ExpandLibCall(LC, Node, false));
*0b57cec5SDimitry Andric    break;
*0b57cec5SDimitry Andric  }
*0b57cec5SDimitry Andric  case ISD::FSUB:
*0b57cec5SDimitry Andric    Results.push_back(ExpandFPLibCall(Node, RTLIB::SUB_F32, RTLIB::SUB_F64,
*0b57cec5SDimitry Andric                                      RTLIB::SUB_F80, RTLIB::SUB_F128,
*0b57cec5SDimitry Andric                                      RTLIB::SUB_PPCF128));
*0b57cec5SDimitry Andric    break;
*0b57cec5SDimitry Andric  case ISD::SREM:
*0b57cec5SDimitry Andric    Results.push_back(ExpandIntLibCall(Node, true,
*0b57cec5SDimitry Andric                                       RTLIB::SREM_I8,
*0b57cec5SDimitry Andric                                       RTLIB::SREM_I16, RTLIB::SREM_I32,
*0b57cec5SDimitry Andric                                       RTLIB::SREM_I64, RTLIB::SREM_I128));
*0b57cec5SDimitry Andric    break;
*0b57cec5SDimitry Andric  case ISD::UREM:
*0b57cec5SDimitry Andric    Results.push_back(ExpandIntLibCall(Node, false,
*0b57cec5SDimitry Andric                                       RTLIB::UREM_I8,
*0b57cec5SDimitry Andric                                       RTLIB::UREM_I16, RTLIB::UREM_I32,
*0b57cec5SDimitry Andric                                       RTLIB::UREM_I64, RTLIB::UREM_I128));
*0b57cec5SDimitry Andric    break;
*0b57cec5SDimitry Andric  case ISD::SDIV:
*0b57cec5SDimitry Andric    Results.push_back(ExpandIntLibCall(Node, true,
*0b57cec5SDimitry Andric                                       RTLIB::SDIV_I8,
*0b57cec5SDimitry Andric                                       RTLIB::SDIV_I16, RTLIB::SDIV_I32,
*0b57cec5SDimitry Andric                                       RTLIB::SDIV_I64, RTLIB::SDIV_I128));
*0b57cec5SDimitry Andric    break;
*0b57cec5SDimitry Andric  case ISD::UDIV:
*0b57cec5SDimitry Andric    Results.push_back(ExpandIntLibCall(Node, false,
*0b57cec5SDimitry Andric                                       RTLIB::UDIV_I8,
*0b57cec5SDimitry Andric                                       RTLIB::UDIV_I16, RTLIB::UDIV_I32,
*0b57cec5SDimitry Andric                                       RTLIB::UDIV_I64, RTLIB::UDIV_I128));
*0b57cec5SDimitry Andric    break;
*0b57cec5SDimitry Andric  case ISD::SDIVREM:
*0b57cec5SDimitry Andric  case ISD::UDIVREM:
*0b57cec5SDimitry Andric    // Expand into divrem libcall
*0b57cec5SDimitry Andric    ExpandDivRemLibCall(Node, Results);
*0b57cec5SDimitry Andric    break;
*0b57cec5SDimitry Andric  case ISD::MUL:
*0b57cec5SDimitry Andric    Results.push_back(ExpandIntLibCall(Node, false,
*0b57cec5SDimitry Andric                                       RTLIB::MUL_I8,
*0b57cec5SDimitry Andric                                       RTLIB::MUL_I16, RTLIB::MUL_I32,
*0b57cec5SDimitry Andric                                       RTLIB::MUL_I64, RTLIB::MUL_I128));
*0b57cec5SDimitry Andric    break;
*0b57cec5SDimitry Andric  case ISD::CTLZ_ZERO_UNDEF:
*0b57cec5SDimitry Andric    switch (Node->getSimpleValueType(0).SimpleTy) {
*0b57cec5SDimitry Andric    default:
*0b57cec5SDimitry Andric      llvm_unreachable("LibCall explicitly requested, but not available");
*0b57cec5SDimitry Andric    case MVT::i32:
*0b57cec5SDimitry Andric      Results.push_back(ExpandLibCall(RTLIB::CTLZ_I32, Node, false));
*0b57cec5SDimitry Andric      break;
*0b57cec5SDimitry Andric    case MVT::i64:
*0b57cec5SDimitry Andric      Results.push_back(ExpandLibCall(RTLIB::CTLZ_I64, Node, false));
*0b57cec5SDimitry Andric      break;
*0b57cec5SDimitry Andric    case MVT::i128:
*0b57cec5SDimitry Andric      Results.push_back(ExpandLibCall(RTLIB::CTLZ_I128, Node, false));
*0b57cec5SDimitry Andric      break;
*0b57cec5SDimitry Andric    }
*0b57cec5SDimitry Andric    break;
*0b57cec5SDimitry Andric  }
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric  // Replace the original node with the legalized result.
*0b57cec5SDimitry Andric  if (!Results.empty()) {
*0b57cec5SDimitry Andric    LLVM_DEBUG(dbgs() << "Successfully converted node to libcall\n");
*0b57cec5SDimitry Andric    ReplaceNode(Node, Results.data());
*0b57cec5SDimitry Andric  } else
*0b57cec5SDimitry Andric    LLVM_DEBUG(dbgs() << "Could not convert node to libcall\n");
*0b57cec5SDimitry Andric}
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric// Determine the vector type to use in place of an original scalar element when
*0b57cec5SDimitry Andric// promoting equally sized vectors.
*0b57cec5SDimitry Andricstatic MVT getPromotedVectorElementType(const TargetLowering &TLI,
*0b57cec5SDimitry Andric                                        MVT EltVT, MVT NewEltVT) {
*0b57cec5SDimitry Andric  unsigned OldEltsPerNewElt = EltVT.getSizeInBits() / NewEltVT.getSizeInBits();
*0b57cec5SDimitry Andric  MVT MidVT = MVT::getVectorVT(NewEltVT, OldEltsPerNewElt);
*0b57cec5SDimitry Andric  assert(TLI.isTypeLegal(MidVT) && "unexpected");
*0b57cec5SDimitry Andric  return MidVT;
*0b57cec5SDimitry Andric}
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andricvoid SelectionDAGLegalize::PromoteNode(SDNode *Node) {
*0b57cec5SDimitry Andric  LLVM_DEBUG(dbgs() << "Trying to promote node\n");
*0b57cec5SDimitry Andric  SmallVector<SDValue, 8> Results;
*0b57cec5SDimitry Andric  MVT OVT = Node->getSimpleValueType(0);
*0b57cec5SDimitry Andric  if (Node->getOpcode() == ISD::UINT_TO_FP ||
*0b57cec5SDimitry Andric      Node->getOpcode() == ISD::SINT_TO_FP ||
*0b57cec5SDimitry Andric      Node->getOpcode() == ISD::SETCC ||
*0b57cec5SDimitry Andric      Node->getOpcode() == ISD::EXTRACT_VECTOR_ELT ||
*0b57cec5SDimitry Andric      Node->getOpcode() == ISD::INSERT_VECTOR_ELT) {
*0b57cec5SDimitry Andric    OVT = Node->getOperand(0).getSimpleValueType();
*0b57cec5SDimitry Andric  }
*0b57cec5SDimitry Andric  if (Node->getOpcode() == ISD::BR_CC)
*0b57cec5SDimitry Andric    OVT = Node->getOperand(2).getSimpleValueType();
*0b57cec5SDimitry Andric  MVT NVT = TLI.getTypeToPromoteTo(Node->getOpcode(), OVT);
*0b57cec5SDimitry Andric  SDLoc dl(Node);
*0b57cec5SDimitry Andric  SDValue Tmp1, Tmp2, Tmp3;
*0b57cec5SDimitry Andric  switch (Node->getOpcode()) {
*0b57cec5SDimitry Andric  case ISD::CTTZ:
*0b57cec5SDimitry Andric  case ISD::CTTZ_ZERO_UNDEF:
*0b57cec5SDimitry Andric  case ISD::CTLZ:
*0b57cec5SDimitry Andric  case ISD::CTLZ_ZERO_UNDEF:
*0b57cec5SDimitry Andric  case ISD::CTPOP:
*0b57cec5SDimitry Andric    // Zero extend the argument.
*0b57cec5SDimitry Andric    Tmp1 = DAG.getNode(ISD::ZERO_EXTEND, dl, NVT, Node->getOperand(0));
*0b57cec5SDimitry Andric    if (Node->getOpcode() == ISD::CTTZ) {
*0b57cec5SDimitry Andric      // The count is the same in the promoted type except if the original
*0b57cec5SDimitry Andric      // value was zero.  This can be handled by setting the bit just off
*0b57cec5SDimitry Andric      // the top of the original type.
*0b57cec5SDimitry Andric      auto TopBit = APInt::getOneBitSet(NVT.getSizeInBits(),
*0b57cec5SDimitry Andric                                        OVT.getSizeInBits());
*0b57cec5SDimitry Andric      Tmp1 = DAG.getNode(ISD::OR, dl, NVT, Tmp1,
*0b57cec5SDimitry Andric                         DAG.getConstant(TopBit, dl, NVT));
*0b57cec5SDimitry Andric    }
*0b57cec5SDimitry Andric    // Perform the larger operation. For CTPOP and CTTZ_ZERO_UNDEF, this is
*0b57cec5SDimitry Andric    // already the correct result.
*0b57cec5SDimitry Andric    Tmp1 = DAG.getNode(Node->getOpcode(), dl, NVT, Tmp1);
*0b57cec5SDimitry Andric    if (Node->getOpcode() == ISD::CTLZ ||
*0b57cec5SDimitry Andric        Node->getOpcode() == ISD::CTLZ_ZERO_UNDEF) {
*0b57cec5SDimitry Andric      // Tmp1 = Tmp1 - (sizeinbits(NVT) - sizeinbits(Old VT))
*0b57cec5SDimitry Andric      Tmp1 = DAG.getNode(ISD::SUB, dl, NVT, Tmp1,
*0b57cec5SDimitry Andric                          DAG.getConstant(NVT.getSizeInBits() -
*0b57cec5SDimitry Andric                                          OVT.getSizeInBits(), dl, NVT));
*0b57cec5SDimitry Andric    }
*0b57cec5SDimitry Andric    Results.push_back(DAG.getNode(ISD::TRUNCATE, dl, OVT, Tmp1));
*0b57cec5SDimitry Andric    break;
*0b57cec5SDimitry Andric  case ISD::BITREVERSE:
*0b57cec5SDimitry Andric  case ISD::BSWAP: {
*0b57cec5SDimitry Andric    unsigned DiffBits = NVT.getSizeInBits() - OVT.getSizeInBits();
*0b57cec5SDimitry Andric    Tmp1 = DAG.getNode(ISD::ZERO_EXTEND, dl, NVT, Node->getOperand(0));
*0b57cec5SDimitry Andric    Tmp1 = DAG.getNode(Node->getOpcode(), dl, NVT, Tmp1);
*0b57cec5SDimitry Andric    Tmp1 = DAG.getNode(
*0b57cec5SDimitry Andric        ISD::SRL, dl, NVT, Tmp1,
*0b57cec5SDimitry Andric        DAG.getConstant(DiffBits, dl,
*0b57cec5SDimitry Andric                        TLI.getShiftAmountTy(NVT, DAG.getDataLayout())));
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric    Results.push_back(DAG.getNode(ISD::TRUNCATE, dl, OVT, Tmp1));
*0b57cec5SDimitry Andric    break;
*0b57cec5SDimitry Andric  }
*0b57cec5SDimitry Andric  case ISD::FP_TO_UINT:
*0b57cec5SDimitry Andric  case ISD::FP_TO_SINT:
*0b57cec5SDimitry Andric    Tmp1 = PromoteLegalFP_TO_INT(Node->getOperand(0), Node->getValueType(0),
*0b57cec5SDimitry Andric                                 Node->getOpcode() == ISD::FP_TO_SINT, dl);
*0b57cec5SDimitry Andric    Results.push_back(Tmp1);
*0b57cec5SDimitry Andric    break;
*0b57cec5SDimitry Andric  case ISD::UINT_TO_FP:
*0b57cec5SDimitry Andric  case ISD::SINT_TO_FP:
*0b57cec5SDimitry Andric    Tmp1 = PromoteLegalINT_TO_FP(Node->getOperand(0), Node->getValueType(0),
*0b57cec5SDimitry Andric                                 Node->getOpcode() == ISD::SINT_TO_FP, dl);
*0b57cec5SDimitry Andric    Results.push_back(Tmp1);
*0b57cec5SDimitry Andric    break;
*0b57cec5SDimitry Andric  case ISD::VAARG: {
*0b57cec5SDimitry Andric    SDValue Chain = Node->getOperand(0); // Get the chain.
*0b57cec5SDimitry Andric    SDValue Ptr = Node->getOperand(1); // Get the pointer.
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric    unsigned TruncOp;
*0b57cec5SDimitry Andric    if (OVT.isVector()) {
*0b57cec5SDimitry Andric      TruncOp = ISD::BITCAST;
*0b57cec5SDimitry Andric    } else {
*0b57cec5SDimitry Andric      assert(OVT.isInteger()
*0b57cec5SDimitry Andric        && "VAARG promotion is supported only for vectors or integer types");
*0b57cec5SDimitry Andric      TruncOp = ISD::TRUNCATE;
*0b57cec5SDimitry Andric    }
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric    // Perform the larger operation, then convert back
*0b57cec5SDimitry Andric    Tmp1 = DAG.getVAArg(NVT, dl, Chain, Ptr, Node->getOperand(2),
*0b57cec5SDimitry Andric             Node->getConstantOperandVal(3));
*0b57cec5SDimitry Andric    Chain = Tmp1.getValue(1);
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric    Tmp2 = DAG.getNode(TruncOp, dl, OVT, Tmp1);
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric    // Modified the chain result - switch anything that used the old chain to
*0b57cec5SDimitry Andric    // use the new one.
*0b57cec5SDimitry Andric    DAG.ReplaceAllUsesOfValueWith(SDValue(Node, 0), Tmp2);
*0b57cec5SDimitry Andric    DAG.ReplaceAllUsesOfValueWith(SDValue(Node, 1), Chain);
*0b57cec5SDimitry Andric    if (UpdatedNodes) {
*0b57cec5SDimitry Andric      UpdatedNodes->insert(Tmp2.getNode());
*0b57cec5SDimitry Andric      UpdatedNodes->insert(Chain.getNode());
*0b57cec5SDimitry Andric    }
*0b57cec5SDimitry Andric    ReplacedNode(Node);
*0b57cec5SDimitry Andric    break;
*0b57cec5SDimitry Andric  }
*0b57cec5SDimitry Andric  case ISD::MUL:
*0b57cec5SDimitry Andric  case ISD::SDIV:
*0b57cec5SDimitry Andric  case ISD::SREM:
*0b57cec5SDimitry Andric  case ISD::UDIV:
*0b57cec5SDimitry Andric  case ISD::UREM:
*0b57cec5SDimitry Andric  case ISD::AND:
*0b57cec5SDimitry Andric  case ISD::OR:
*0b57cec5SDimitry Andric  case ISD::XOR: {
*0b57cec5SDimitry Andric    unsigned ExtOp, TruncOp;
*0b57cec5SDimitry Andric    if (OVT.isVector()) {
*0b57cec5SDimitry Andric      ExtOp   = ISD::BITCAST;
*0b57cec5SDimitry Andric      TruncOp = ISD::BITCAST;
*0b57cec5SDimitry Andric    } else {
*0b57cec5SDimitry Andric      assert(OVT.isInteger() && "Cannot promote logic operation");
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric      switch (Node->getOpcode()) {
*0b57cec5SDimitry Andric      default:
*0b57cec5SDimitry Andric        ExtOp = ISD::ANY_EXTEND;
*0b57cec5SDimitry Andric        break;
*0b57cec5SDimitry Andric      case ISD::SDIV:
*0b57cec5SDimitry Andric      case ISD::SREM:
*0b57cec5SDimitry Andric        ExtOp = ISD::SIGN_EXTEND;
*0b57cec5SDimitry Andric        break;
*0b57cec5SDimitry Andric      case ISD::UDIV:
*0b57cec5SDimitry Andric      case ISD::UREM:
*0b57cec5SDimitry Andric        ExtOp = ISD::ZERO_EXTEND;
*0b57cec5SDimitry Andric        break;
*0b57cec5SDimitry Andric      }
*0b57cec5SDimitry Andric      TruncOp = ISD::TRUNCATE;
*0b57cec5SDimitry Andric    }
*0b57cec5SDimitry Andric    // Promote each of the values to the new type.
*0b57cec5SDimitry Andric    Tmp1 = DAG.getNode(ExtOp, dl, NVT, Node->getOperand(0));
*0b57cec5SDimitry Andric    Tmp2 = DAG.getNode(ExtOp, dl, NVT, Node->getOperand(1));
*0b57cec5SDimitry Andric    // Perform the larger operation, then convert back
*0b57cec5SDimitry Andric    Tmp1 = DAG.getNode(Node->getOpcode(), dl, NVT, Tmp1, Tmp2);
*0b57cec5SDimitry Andric    Results.push_back(DAG.getNode(TruncOp, dl, OVT, Tmp1));
*0b57cec5SDimitry Andric    break;
*0b57cec5SDimitry Andric  }
*0b57cec5SDimitry Andric  case ISD::UMUL_LOHI:
*0b57cec5SDimitry Andric  case ISD::SMUL_LOHI: {
*0b57cec5SDimitry Andric    // Promote to a multiply in a wider integer type.
*0b57cec5SDimitry Andric    unsigned ExtOp = Node->getOpcode() == ISD::UMUL_LOHI ? ISD::ZERO_EXTEND
*0b57cec5SDimitry Andric                                                         : ISD::SIGN_EXTEND;
*0b57cec5SDimitry Andric    Tmp1 = DAG.getNode(ExtOp, dl, NVT, Node->getOperand(0));
*0b57cec5SDimitry Andric    Tmp2 = DAG.getNode(ExtOp, dl, NVT, Node->getOperand(1));
*0b57cec5SDimitry Andric    Tmp1 = DAG.getNode(ISD::MUL, dl, NVT, Tmp1, Tmp2);
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric    auto &DL = DAG.getDataLayout();
*0b57cec5SDimitry Andric    unsigned OriginalSize = OVT.getScalarSizeInBits();
*0b57cec5SDimitry Andric    Tmp2 = DAG.getNode(
*0b57cec5SDimitry Andric        ISD::SRL, dl, NVT, Tmp1,
*0b57cec5SDimitry Andric        DAG.getConstant(OriginalSize, dl, TLI.getScalarShiftAmountTy(DL, NVT)));
*0b57cec5SDimitry Andric    Results.push_back(DAG.getNode(ISD::TRUNCATE, dl, OVT, Tmp1));
*0b57cec5SDimitry Andric    Results.push_back(DAG.getNode(ISD::TRUNCATE, dl, OVT, Tmp2));
*0b57cec5SDimitry Andric    break;
*0b57cec5SDimitry Andric  }
*0b57cec5SDimitry Andric  case ISD::SELECT: {
*0b57cec5SDimitry Andric    unsigned ExtOp, TruncOp;
*0b57cec5SDimitry Andric    if (Node->getValueType(0).isVector() ||
*0b57cec5SDimitry Andric        Node->getValueType(0).getSizeInBits() == NVT.getSizeInBits()) {
*0b57cec5SDimitry Andric      ExtOp   = ISD::BITCAST;
*0b57cec5SDimitry Andric      TruncOp = ISD::BITCAST;
*0b57cec5SDimitry Andric    } else if (Node->getValueType(0).isInteger()) {
*0b57cec5SDimitry Andric      ExtOp   = ISD::ANY_EXTEND;
*0b57cec5SDimitry Andric      TruncOp = ISD::TRUNCATE;
*0b57cec5SDimitry Andric    } else {
*0b57cec5SDimitry Andric      ExtOp   = ISD::FP_EXTEND;
*0b57cec5SDimitry Andric      TruncOp = ISD::FP_ROUND;
*0b57cec5SDimitry Andric    }
*0b57cec5SDimitry Andric    Tmp1 = Node->getOperand(0);
*0b57cec5SDimitry Andric    // Promote each of the values to the new type.
*0b57cec5SDimitry Andric    Tmp2 = DAG.getNode(ExtOp, dl, NVT, Node->getOperand(1));
*0b57cec5SDimitry Andric    Tmp3 = DAG.getNode(ExtOp, dl, NVT, Node->getOperand(2));
*0b57cec5SDimitry Andric    // Perform the larger operation, then round down.
*0b57cec5SDimitry Andric    Tmp1 = DAG.getSelect(dl, NVT, Tmp1, Tmp2, Tmp3);
*0b57cec5SDimitry Andric    Tmp1->setFlags(Node->getFlags());
*0b57cec5SDimitry Andric    if (TruncOp != ISD::FP_ROUND)
*0b57cec5SDimitry Andric      Tmp1 = DAG.getNode(TruncOp, dl, Node->getValueType(0), Tmp1);
*0b57cec5SDimitry Andric    else
*0b57cec5SDimitry Andric      Tmp1 = DAG.getNode(TruncOp, dl, Node->getValueType(0), Tmp1,
*0b57cec5SDimitry Andric                         DAG.getIntPtrConstant(0, dl));
*0b57cec5SDimitry Andric    Results.push_back(Tmp1);
*0b57cec5SDimitry Andric    break;
*0b57cec5SDimitry Andric  }
*0b57cec5SDimitry Andric  case ISD::VECTOR_SHUFFLE: {
*0b57cec5SDimitry Andric    ArrayRef<int> Mask = cast<ShuffleVectorSDNode>(Node)->getMask();
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric    // Cast the two input vectors.
*0b57cec5SDimitry Andric    Tmp1 = DAG.getNode(ISD::BITCAST, dl, NVT, Node->getOperand(0));
*0b57cec5SDimitry Andric    Tmp2 = DAG.getNode(ISD::BITCAST, dl, NVT, Node->getOperand(1));
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric    // Convert the shuffle mask to the right # elements.
*0b57cec5SDimitry Andric    Tmp1 = ShuffleWithNarrowerEltType(NVT, OVT, dl, Tmp1, Tmp2, Mask);
*0b57cec5SDimitry Andric    Tmp1 = DAG.getNode(ISD::BITCAST, dl, OVT, Tmp1);
*0b57cec5SDimitry Andric    Results.push_back(Tmp1);
*0b57cec5SDimitry Andric    break;
*0b57cec5SDimitry Andric  }
*0b57cec5SDimitry Andric  case ISD::SETCC: {
*0b57cec5SDimitry Andric    unsigned ExtOp = ISD::FP_EXTEND;
*0b57cec5SDimitry Andric    if (NVT.isInteger()) {
*0b57cec5SDimitry Andric      ISD::CondCode CCCode =
*0b57cec5SDimitry Andric        cast<CondCodeSDNode>(Node->getOperand(2))->get();
*0b57cec5SDimitry Andric      ExtOp = isSignedIntSetCC(CCCode) ? ISD::SIGN_EXTEND : ISD::ZERO_EXTEND;
*0b57cec5SDimitry Andric    }
*0b57cec5SDimitry Andric    Tmp1 = DAG.getNode(ExtOp, dl, NVT, Node->getOperand(0));
*0b57cec5SDimitry Andric    Tmp2 = DAG.getNode(ExtOp, dl, NVT, Node->getOperand(1));
*0b57cec5SDimitry Andric    Results.push_back(DAG.getNode(ISD::SETCC, dl, Node->getValueType(0), Tmp1,
*0b57cec5SDimitry Andric                                  Tmp2, Node->getOperand(2), Node->getFlags()));
*0b57cec5SDimitry Andric    break;
*0b57cec5SDimitry Andric  }
*0b57cec5SDimitry Andric  case ISD::BR_CC: {
*0b57cec5SDimitry Andric    unsigned ExtOp = ISD::FP_EXTEND;
*0b57cec5SDimitry Andric    if (NVT.isInteger()) {
*0b57cec5SDimitry Andric      ISD::CondCode CCCode =
*0b57cec5SDimitry Andric        cast<CondCodeSDNode>(Node->getOperand(1))->get();
*0b57cec5SDimitry Andric      ExtOp = isSignedIntSetCC(CCCode) ? ISD::SIGN_EXTEND : ISD::ZERO_EXTEND;
*0b57cec5SDimitry Andric    }
*0b57cec5SDimitry Andric    Tmp1 = DAG.getNode(ExtOp, dl, NVT, Node->getOperand(2));
*0b57cec5SDimitry Andric    Tmp2 = DAG.getNode(ExtOp, dl, NVT, Node->getOperand(3));
*0b57cec5SDimitry Andric    Results.push_back(DAG.getNode(ISD::BR_CC, dl, Node->getValueType(0),
*0b57cec5SDimitry Andric                                  Node->getOperand(0), Node->getOperand(1),
*0b57cec5SDimitry Andric                                  Tmp1, Tmp2, Node->getOperand(4)));
*0b57cec5SDimitry Andric    break;
*0b57cec5SDimitry Andric  }
*0b57cec5SDimitry Andric  case ISD::FADD:
*0b57cec5SDimitry Andric  case ISD::FSUB:
*0b57cec5SDimitry Andric  case ISD::FMUL:
*0b57cec5SDimitry Andric  case ISD::FDIV:
*0b57cec5SDimitry Andric  case ISD::FREM:
*0b57cec5SDimitry Andric  case ISD::FMINNUM:
*0b57cec5SDimitry Andric  case ISD::FMAXNUM:
*0b57cec5SDimitry Andric  case ISD::FPOW:
*0b57cec5SDimitry Andric    Tmp1 = DAG.getNode(ISD::FP_EXTEND, dl, NVT, Node->getOperand(0));
*0b57cec5SDimitry Andric    Tmp2 = DAG.getNode(ISD::FP_EXTEND, dl, NVT, Node->getOperand(1));
*0b57cec5SDimitry Andric    Tmp3 = DAG.getNode(Node->getOpcode(), dl, NVT, Tmp1, Tmp2,
*0b57cec5SDimitry Andric                       Node->getFlags());
*0b57cec5SDimitry Andric    Results.push_back(DAG.getNode(ISD::FP_ROUND, dl, OVT,
*0b57cec5SDimitry Andric                                  Tmp3, DAG.getIntPtrConstant(0, dl)));
*0b57cec5SDimitry Andric    break;
*0b57cec5SDimitry Andric  case ISD::FMA:
*0b57cec5SDimitry Andric    Tmp1 = DAG.getNode(ISD::FP_EXTEND, dl, NVT, Node->getOperand(0));
*0b57cec5SDimitry Andric    Tmp2 = DAG.getNode(ISD::FP_EXTEND, dl, NVT, Node->getOperand(1));
*0b57cec5SDimitry Andric    Tmp3 = DAG.getNode(ISD::FP_EXTEND, dl, NVT, Node->getOperand(2));
*0b57cec5SDimitry Andric    Results.push_back(
*0b57cec5SDimitry Andric        DAG.getNode(ISD::FP_ROUND, dl, OVT,
*0b57cec5SDimitry Andric                    DAG.getNode(Node->getOpcode(), dl, NVT, Tmp1, Tmp2, Tmp3),
*0b57cec5SDimitry Andric                    DAG.getIntPtrConstant(0, dl)));
*0b57cec5SDimitry Andric    break;
*0b57cec5SDimitry Andric  case ISD::FCOPYSIGN:
*0b57cec5SDimitry Andric  case ISD::FPOWI: {
*0b57cec5SDimitry Andric    Tmp1 = DAG.getNode(ISD::FP_EXTEND, dl, NVT, Node->getOperand(0));
*0b57cec5SDimitry Andric    Tmp2 = Node->getOperand(1);
*0b57cec5SDimitry Andric    Tmp3 = DAG.getNode(Node->getOpcode(), dl, NVT, Tmp1, Tmp2);
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric    // fcopysign doesn't change anything but the sign bit, so
*0b57cec5SDimitry Andric    //   (fp_round (fcopysign (fpext a), b))
*0b57cec5SDimitry Andric    // is as precise as
*0b57cec5SDimitry Andric    //   (fp_round (fpext a))
*0b57cec5SDimitry Andric    // which is a no-op. Mark it as a TRUNCating FP_ROUND.
*0b57cec5SDimitry Andric    const bool isTrunc = (Node->getOpcode() == ISD::FCOPYSIGN);
*0b57cec5SDimitry Andric    Results.push_back(DAG.getNode(ISD::FP_ROUND, dl, OVT,
*0b57cec5SDimitry Andric                                  Tmp3, DAG.getIntPtrConstant(isTrunc, dl)));
*0b57cec5SDimitry Andric    break;
*0b57cec5SDimitry Andric  }
*0b57cec5SDimitry Andric  case ISD::FFLOOR:
*0b57cec5SDimitry Andric  case ISD::FCEIL:
*0b57cec5SDimitry Andric  case ISD::FRINT:
*0b57cec5SDimitry Andric  case ISD::FNEARBYINT:
*0b57cec5SDimitry Andric  case ISD::FROUND:
*0b57cec5SDimitry Andric  case ISD::FTRUNC:
*0b57cec5SDimitry Andric  case ISD::FNEG:
*0b57cec5SDimitry Andric  case ISD::FSQRT:
*0b57cec5SDimitry Andric  case ISD::FSIN:
*0b57cec5SDimitry Andric  case ISD::FCOS:
*0b57cec5SDimitry Andric  case ISD::FLOG:
*0b57cec5SDimitry Andric  case ISD::FLOG2:
*0b57cec5SDimitry Andric  case ISD::FLOG10:
*0b57cec5SDimitry Andric  case ISD::FABS:
*0b57cec5SDimitry Andric  case ISD::FEXP:
*0b57cec5SDimitry Andric  case ISD::FEXP2:
*0b57cec5SDimitry Andric    Tmp1 = DAG.getNode(ISD::FP_EXTEND, dl, NVT, Node->getOperand(0));
*0b57cec5SDimitry Andric    Tmp2 = DAG.getNode(Node->getOpcode(), dl, NVT, Tmp1);
*0b57cec5SDimitry Andric    Results.push_back(DAG.getNode(ISD::FP_ROUND, dl, OVT,
*0b57cec5SDimitry Andric                                  Tmp2, DAG.getIntPtrConstant(0, dl)));
*0b57cec5SDimitry Andric    break;
*0b57cec5SDimitry Andric  case ISD::BUILD_VECTOR: {
*0b57cec5SDimitry Andric    MVT EltVT = OVT.getVectorElementType();
*0b57cec5SDimitry Andric    MVT NewEltVT = NVT.getVectorElementType();
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric    // Handle bitcasts to a different vector type with the same total bit size
*0b57cec5SDimitry Andric    //
*0b57cec5SDimitry Andric    // e.g. v2i64 = build_vector i64:x, i64:y => v4i32
*0b57cec5SDimitry Andric    //  =>
*0b57cec5SDimitry Andric    //  v4i32 = concat_vectors (v2i32 (bitcast i64:x)), (v2i32 (bitcast i64:y))
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric    assert(NVT.isVector() && OVT.getSizeInBits() == NVT.getSizeInBits() &&
*0b57cec5SDimitry Andric           "Invalid promote type for build_vector");
*0b57cec5SDimitry Andric    assert(NewEltVT.bitsLT(EltVT) && "not handled");
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric    MVT MidVT = getPromotedVectorElementType(TLI, EltVT, NewEltVT);
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric    SmallVector<SDValue, 8> NewOps;
*0b57cec5SDimitry Andric    for (unsigned I = 0, E = Node->getNumOperands(); I != E; ++I) {
*0b57cec5SDimitry Andric      SDValue Op = Node->getOperand(I);
*0b57cec5SDimitry Andric      NewOps.push_back(DAG.getNode(ISD::BITCAST, SDLoc(Op), MidVT, Op));
*0b57cec5SDimitry Andric    }
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric    SDLoc SL(Node);
*0b57cec5SDimitry Andric    SDValue Concat = DAG.getNode(ISD::CONCAT_VECTORS, SL, NVT, NewOps);
*0b57cec5SDimitry Andric    SDValue CvtVec = DAG.getNode(ISD::BITCAST, SL, OVT, Concat);
*0b57cec5SDimitry Andric    Results.push_back(CvtVec);
*0b57cec5SDimitry Andric    break;
*0b57cec5SDimitry Andric  }
*0b57cec5SDimitry Andric  case ISD::EXTRACT_VECTOR_ELT: {
*0b57cec5SDimitry Andric    MVT EltVT = OVT.getVectorElementType();
*0b57cec5SDimitry Andric    MVT NewEltVT = NVT.getVectorElementType();
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric    // Handle bitcasts to a different vector type with the same total bit size.
*0b57cec5SDimitry Andric    //
*0b57cec5SDimitry Andric    // e.g. v2i64 = extract_vector_elt x:v2i64, y:i32
*0b57cec5SDimitry Andric    //  =>
*0b57cec5SDimitry Andric    //  v4i32:castx = bitcast x:v2i64
*0b57cec5SDimitry Andric    //
*0b57cec5SDimitry Andric    // i64 = bitcast
*0b57cec5SDimitry Andric    //   (v2i32 build_vector (i32 (extract_vector_elt castx, (2 * y))),
*0b57cec5SDimitry Andric    //                       (i32 (extract_vector_elt castx, (2 * y + 1)))
*0b57cec5SDimitry Andric    //
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric    assert(NVT.isVector() && OVT.getSizeInBits() == NVT.getSizeInBits() &&
*0b57cec5SDimitry Andric           "Invalid promote type for extract_vector_elt");
*0b57cec5SDimitry Andric    assert(NewEltVT.bitsLT(EltVT) && "not handled");
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric    MVT MidVT = getPromotedVectorElementType(TLI, EltVT, NewEltVT);
*0b57cec5SDimitry Andric    unsigned NewEltsPerOldElt = MidVT.getVectorNumElements();
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric    SDValue Idx = Node->getOperand(1);
*0b57cec5SDimitry Andric    EVT IdxVT = Idx.getValueType();
*0b57cec5SDimitry Andric    SDLoc SL(Node);
*0b57cec5SDimitry Andric    SDValue Factor = DAG.getConstant(NewEltsPerOldElt, SL, IdxVT);
*0b57cec5SDimitry Andric    SDValue NewBaseIdx = DAG.getNode(ISD::MUL, SL, IdxVT, Idx, Factor);
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric    SDValue CastVec = DAG.getNode(ISD::BITCAST, SL, NVT, Node->getOperand(0));
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric    SmallVector<SDValue, 8> NewOps;
*0b57cec5SDimitry Andric    for (unsigned I = 0; I < NewEltsPerOldElt; ++I) {
*0b57cec5SDimitry Andric      SDValue IdxOffset = DAG.getConstant(I, SL, IdxVT);
*0b57cec5SDimitry Andric      SDValue TmpIdx = DAG.getNode(ISD::ADD, SL, IdxVT, NewBaseIdx, IdxOffset);
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric      SDValue Elt = DAG.getNode(ISD::EXTRACT_VECTOR_ELT, SL, NewEltVT,
*0b57cec5SDimitry Andric                                CastVec, TmpIdx);
*0b57cec5SDimitry Andric      NewOps.push_back(Elt);
*0b57cec5SDimitry Andric    }
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric    SDValue NewVec = DAG.getBuildVector(MidVT, SL, NewOps);
*0b57cec5SDimitry Andric    Results.push_back(DAG.getNode(ISD::BITCAST, SL, EltVT, NewVec));
*0b57cec5SDimitry Andric    break;
*0b57cec5SDimitry Andric  }
*0b57cec5SDimitry Andric  case ISD::INSERT_VECTOR_ELT: {
*0b57cec5SDimitry Andric    MVT EltVT = OVT.getVectorElementType();
*0b57cec5SDimitry Andric    MVT NewEltVT = NVT.getVectorElementType();
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric    // Handle bitcasts to a different vector type with the same total bit size
*0b57cec5SDimitry Andric    //
*0b57cec5SDimitry Andric    // e.g. v2i64 = insert_vector_elt x:v2i64, y:i64, z:i32
*0b57cec5SDimitry Andric    //  =>
*0b57cec5SDimitry Andric    //  v4i32:castx = bitcast x:v2i64
*0b57cec5SDimitry Andric    //  v2i32:casty = bitcast y:i64
*0b57cec5SDimitry Andric    //
*0b57cec5SDimitry Andric    // v2i64 = bitcast
*0b57cec5SDimitry Andric    //   (v4i32 insert_vector_elt
*0b57cec5SDimitry Andric    //       (v4i32 insert_vector_elt v4i32:castx,
*0b57cec5SDimitry Andric    //                                (extract_vector_elt casty, 0), 2 * z),
*0b57cec5SDimitry Andric    //        (extract_vector_elt casty, 1), (2 * z + 1))
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric    assert(NVT.isVector() && OVT.getSizeInBits() == NVT.getSizeInBits() &&
*0b57cec5SDimitry Andric           "Invalid promote type for insert_vector_elt");
*0b57cec5SDimitry Andric    assert(NewEltVT.bitsLT(EltVT) && "not handled");
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric    MVT MidVT = getPromotedVectorElementType(TLI, EltVT, NewEltVT);
*0b57cec5SDimitry Andric    unsigned NewEltsPerOldElt = MidVT.getVectorNumElements();
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric    SDValue Val = Node->getOperand(1);
*0b57cec5SDimitry Andric    SDValue Idx = Node->getOperand(2);
*0b57cec5SDimitry Andric    EVT IdxVT = Idx.getValueType();
*0b57cec5SDimitry Andric    SDLoc SL(Node);
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric    SDValue Factor = DAG.getConstant(NewEltsPerOldElt, SDLoc(), IdxVT);
*0b57cec5SDimitry Andric    SDValue NewBaseIdx = DAG.getNode(ISD::MUL, SL, IdxVT, Idx, Factor);
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric    SDValue CastVec = DAG.getNode(ISD::BITCAST, SL, NVT, Node->getOperand(0));
*0b57cec5SDimitry Andric    SDValue CastVal = DAG.getNode(ISD::BITCAST, SL, MidVT, Val);
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric    SDValue NewVec = CastVec;
*0b57cec5SDimitry Andric    for (unsigned I = 0; I < NewEltsPerOldElt; ++I) {
*0b57cec5SDimitry Andric      SDValue IdxOffset = DAG.getConstant(I, SL, IdxVT);
*0b57cec5SDimitry Andric      SDValue InEltIdx = DAG.getNode(ISD::ADD, SL, IdxVT, NewBaseIdx, IdxOffset);
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric      SDValue Elt = DAG.getNode(ISD::EXTRACT_VECTOR_ELT, SL, NewEltVT,
*0b57cec5SDimitry Andric                                CastVal, IdxOffset);
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric      NewVec = DAG.getNode(ISD::INSERT_VECTOR_ELT, SL, NVT,
*0b57cec5SDimitry Andric                           NewVec, Elt, InEltIdx);
*0b57cec5SDimitry Andric    }
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric    Results.push_back(DAG.getNode(ISD::BITCAST, SL, OVT, NewVec));
*0b57cec5SDimitry Andric    break;
*0b57cec5SDimitry Andric  }
*0b57cec5SDimitry Andric  case ISD::SCALAR_TO_VECTOR: {
*0b57cec5SDimitry Andric    MVT EltVT = OVT.getVectorElementType();
*0b57cec5SDimitry Andric    MVT NewEltVT = NVT.getVectorElementType();
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric    // Handle bitcasts to different vector type with the same total bit size.
*0b57cec5SDimitry Andric    //
*0b57cec5SDimitry Andric    // e.g. v2i64 = scalar_to_vector x:i64
*0b57cec5SDimitry Andric    //   =>
*0b57cec5SDimitry Andric    //  concat_vectors (v2i32 bitcast x:i64), (v2i32 undef)
*0b57cec5SDimitry Andric    //
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric    MVT MidVT = getPromotedVectorElementType(TLI, EltVT, NewEltVT);
*0b57cec5SDimitry Andric    SDValue Val = Node->getOperand(0);
*0b57cec5SDimitry Andric    SDLoc SL(Node);
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric    SDValue CastVal = DAG.getNode(ISD::BITCAST, SL, MidVT, Val);
*0b57cec5SDimitry Andric    SDValue Undef = DAG.getUNDEF(MidVT);
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric    SmallVector<SDValue, 8> NewElts;
*0b57cec5SDimitry Andric    NewElts.push_back(CastVal);
*0b57cec5SDimitry Andric    for (unsigned I = 1, NElts = OVT.getVectorNumElements(); I != NElts; ++I)
*0b57cec5SDimitry Andric      NewElts.push_back(Undef);
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric    SDValue Concat = DAG.getNode(ISD::CONCAT_VECTORS, SL, NVT, NewElts);
*0b57cec5SDimitry Andric    SDValue CvtVec = DAG.getNode(ISD::BITCAST, SL, OVT, Concat);
*0b57cec5SDimitry Andric    Results.push_back(CvtVec);
*0b57cec5SDimitry Andric    break;
*0b57cec5SDimitry Andric  }
*0b57cec5SDimitry Andric  case ISD::ATOMIC_SWAP: {
*0b57cec5SDimitry Andric    AtomicSDNode *AM = cast<AtomicSDNode>(Node);
*0b57cec5SDimitry Andric    SDLoc SL(Node);
*0b57cec5SDimitry Andric    SDValue CastVal = DAG.getNode(ISD::BITCAST, SL, NVT, AM->getVal());
*0b57cec5SDimitry Andric    assert(NVT.getSizeInBits() == OVT.getSizeInBits() &&
*0b57cec5SDimitry Andric           "unexpected promotion type");
*0b57cec5SDimitry Andric    assert(AM->getMemoryVT().getSizeInBits() == NVT.getSizeInBits() &&
*0b57cec5SDimitry Andric           "unexpected atomic_swap with illegal type");
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric    SDValue NewAtomic
*0b57cec5SDimitry Andric      = DAG.getAtomic(ISD::ATOMIC_SWAP, SL, NVT,
*0b57cec5SDimitry Andric                      DAG.getVTList(NVT, MVT::Other),
*0b57cec5SDimitry Andric                      { AM->getChain(), AM->getBasePtr(), CastVal },
*0b57cec5SDimitry Andric                      AM->getMemOperand());
*0b57cec5SDimitry Andric    Results.push_back(DAG.getNode(ISD::BITCAST, SL, OVT, NewAtomic));
*0b57cec5SDimitry Andric    Results.push_back(NewAtomic.getValue(1));
*0b57cec5SDimitry Andric    break;
*0b57cec5SDimitry Andric  }
*0b57cec5SDimitry Andric  }
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric  // Replace the original node with the legalized result.
*0b57cec5SDimitry Andric  if (!Results.empty()) {
*0b57cec5SDimitry Andric    LLVM_DEBUG(dbgs() << "Successfully promoted node\n");
*0b57cec5SDimitry Andric    ReplaceNode(Node, Results.data());
*0b57cec5SDimitry Andric  } else
*0b57cec5SDimitry Andric    LLVM_DEBUG(dbgs() << "Could not promote node\n");
*0b57cec5SDimitry Andric}
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric/// This is the entry point for the file.
*0b57cec5SDimitry Andricvoid SelectionDAG::Legalize() {
*0b57cec5SDimitry Andric  AssignTopologicalOrder();
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric  SmallPtrSet<SDNode *, 16> LegalizedNodes;
*0b57cec5SDimitry Andric  // Use a delete listener to remove nodes which were deleted during
*0b57cec5SDimitry Andric  // legalization from LegalizeNodes. This is needed to handle the situation
*0b57cec5SDimitry Andric  // where a new node is allocated by the object pool to the same address of a
*0b57cec5SDimitry Andric  // previously deleted node.
*0b57cec5SDimitry Andric  DAGNodeDeletedListener DeleteListener(
*0b57cec5SDimitry Andric      *this,
*0b57cec5SDimitry Andric      [&LegalizedNodes](SDNode *N, SDNode *E) { LegalizedNodes.erase(N); });
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric  SelectionDAGLegalize Legalizer(*this, LegalizedNodes);
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric  // Visit all the nodes. We start in topological order, so that we see
*0b57cec5SDimitry Andric  // nodes with their original operands intact. Legalization can produce
*0b57cec5SDimitry Andric  // new nodes which may themselves need to be legalized. Iterate until all
*0b57cec5SDimitry Andric  // nodes have been legalized.
*0b57cec5SDimitry Andric  while (true) {
*0b57cec5SDimitry Andric    bool AnyLegalized = false;
*0b57cec5SDimitry Andric    for (auto NI = allnodes_end(); NI != allnodes_begin();) {
*0b57cec5SDimitry Andric      --NI;
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric      SDNode *N = &*NI;
*0b57cec5SDimitry Andric      if (N->use_empty() && N != getRoot().getNode()) {
*0b57cec5SDimitry Andric        ++NI;
*0b57cec5SDimitry Andric        DeleteNode(N);
*0b57cec5SDimitry Andric        continue;
*0b57cec5SDimitry Andric      }
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric      if (LegalizedNodes.insert(N).second) {
*0b57cec5SDimitry Andric        AnyLegalized = true;
*0b57cec5SDimitry Andric        Legalizer.LegalizeOp(N);
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric        if (N->use_empty() && N != getRoot().getNode()) {
*0b57cec5SDimitry Andric          ++NI;
*0b57cec5SDimitry Andric          DeleteNode(N);
*0b57cec5SDimitry Andric        }
*0b57cec5SDimitry Andric      }
*0b57cec5SDimitry Andric    }
*0b57cec5SDimitry Andric    if (!AnyLegalized)
*0b57cec5SDimitry Andric      break;
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric  }
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric  // Remove dead nodes now.
*0b57cec5SDimitry Andric  RemoveDeadNodes();
*0b57cec5SDimitry Andric}
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andricbool SelectionDAG::LegalizeOp(SDNode *N,
*0b57cec5SDimitry Andric                              SmallSetVector<SDNode *, 16> &UpdatedNodes) {
*0b57cec5SDimitry Andric  SmallPtrSet<SDNode *, 16> LegalizedNodes;
*0b57cec5SDimitry Andric  SelectionDAGLegalize Legalizer(*this, LegalizedNodes, &UpdatedNodes);
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric  // Directly insert the node in question, and legalize it. This will recurse
*0b57cec5SDimitry Andric  // as needed through operands.
*0b57cec5SDimitry Andric  LegalizedNodes.insert(N);
*0b57cec5SDimitry Andric  Legalizer.LegalizeOp(N);
*0b57cec5SDimitry Andric
*0b57cec5SDimitry Andric  return LegalizedNodes.count(N);
*0b57cec5SDimitry Andric}