Transforms/InstCombine/InstCombineSimplifyDemanded.cpp

*9880d681SAndroid Build Coastguard Worker//===- InstCombineSimplifyDemanded.cpp ------------------------------------===//
*9880d681SAndroid Build Coastguard Worker//
*9880d681SAndroid Build Coastguard Worker//                     The LLVM Compiler Infrastructure
*9880d681SAndroid Build Coastguard Worker//
*9880d681SAndroid Build Coastguard Worker// This file is distributed under the University of Illinois Open Source
*9880d681SAndroid Build Coastguard Worker// License. See LICENSE.TXT for details.
*9880d681SAndroid Build Coastguard Worker//
*9880d681SAndroid Build Coastguard Worker//===----------------------------------------------------------------------===//
*9880d681SAndroid Build Coastguard Worker//
*9880d681SAndroid Build Coastguard Worker// This file contains logic for simplifying instructions based on information
*9880d681SAndroid Build Coastguard Worker// about how they are used.
*9880d681SAndroid Build Coastguard Worker//
*9880d681SAndroid Build Coastguard Worker//===----------------------------------------------------------------------===//
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker#include "InstCombineInternal.h"
*9880d681SAndroid Build Coastguard Worker#include "llvm/Analysis/ValueTracking.h"
*9880d681SAndroid Build Coastguard Worker#include "llvm/IR/IntrinsicInst.h"
*9880d681SAndroid Build Coastguard Worker#include "llvm/IR/PatternMatch.h"
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Workerusing namespace llvm;
*9880d681SAndroid Build Coastguard Workerusing namespace llvm::PatternMatch;
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker#define DEBUG_TYPE "instcombine"
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker/// Check to see if the specified operand of the specified instruction is a
*9880d681SAndroid Build Coastguard Worker/// constant integer. If so, check to see if there are any bits set in the
*9880d681SAndroid Build Coastguard Worker/// constant that are not demanded. If so, shrink the constant and return true.
*9880d681SAndroid Build Coastguard Workerstatic bool ShrinkDemandedConstant(Instruction *I, unsigned OpNo,
*9880d681SAndroid Build Coastguard Worker                                   APInt Demanded) {
*9880d681SAndroid Build Coastguard Worker  assert(I && "No instruction?");
*9880d681SAndroid Build Coastguard Worker  assert(OpNo < I->getNumOperands() && "Operand index too large");
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker  // If the operand is not a constant integer, nothing to do.
*9880d681SAndroid Build Coastguard Worker  ConstantInt *OpC = dyn_cast<ConstantInt>(I->getOperand(OpNo));
*9880d681SAndroid Build Coastguard Worker  if (!OpC) return false;
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker  // If there are no bits set that aren't demanded, nothing to do.
*9880d681SAndroid Build Coastguard Worker  Demanded = Demanded.zextOrTrunc(OpC->getValue().getBitWidth());
*9880d681SAndroid Build Coastguard Worker  if ((~Demanded & OpC->getValue()) == 0)
*9880d681SAndroid Build Coastguard Worker    return false;
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker  // This instruction is producing bits that are not demanded. Shrink the RHS.
*9880d681SAndroid Build Coastguard Worker  Demanded &= OpC->getValue();
*9880d681SAndroid Build Coastguard Worker  I->setOperand(OpNo, ConstantInt::get(OpC->getType(), Demanded));
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker  return true;
*9880d681SAndroid Build Coastguard Worker}
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker/// Inst is an integer instruction that SimplifyDemandedBits knows about. See if
*9880d681SAndroid Build Coastguard Worker/// the instruction has any properties that allow us to simplify its operands.
*9880d681SAndroid Build Coastguard Workerbool InstCombiner::SimplifyDemandedInstructionBits(Instruction &Inst) {
*9880d681SAndroid Build Coastguard Worker  unsigned BitWidth = Inst.getType()->getScalarSizeInBits();
*9880d681SAndroid Build Coastguard Worker  APInt KnownZero(BitWidth, 0), KnownOne(BitWidth, 0);
*9880d681SAndroid Build Coastguard Worker  APInt DemandedMask(APInt::getAllOnesValue(BitWidth));
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker  Value *V = SimplifyDemandedUseBits(&Inst, DemandedMask, KnownZero, KnownOne,
*9880d681SAndroid Build Coastguard Worker                                     0, &Inst);
*9880d681SAndroid Build Coastguard Worker  if (!V) return false;
*9880d681SAndroid Build Coastguard Worker  if (V == &Inst) return true;
*9880d681SAndroid Build Coastguard Worker  replaceInstUsesWith(Inst, V);
*9880d681SAndroid Build Coastguard Worker  return true;
*9880d681SAndroid Build Coastguard Worker}
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker/// This form of SimplifyDemandedBits simplifies the specified instruction
*9880d681SAndroid Build Coastguard Worker/// operand if possible, updating it in place. It returns true if it made any
*9880d681SAndroid Build Coastguard Worker/// change and false otherwise.
*9880d681SAndroid Build Coastguard Workerbool InstCombiner::SimplifyDemandedBits(Use &U, const APInt &DemandedMask,
*9880d681SAndroid Build Coastguard Worker                                        APInt &KnownZero, APInt &KnownOne,
*9880d681SAndroid Build Coastguard Worker                                        unsigned Depth) {
*9880d681SAndroid Build Coastguard Worker  auto *UserI = dyn_cast<Instruction>(U.getUser());
*9880d681SAndroid Build Coastguard Worker  Value *NewVal = SimplifyDemandedUseBits(U.get(), DemandedMask, KnownZero,
*9880d681SAndroid Build Coastguard Worker                                          KnownOne, Depth, UserI);
*9880d681SAndroid Build Coastguard Worker  if (!NewVal) return false;
*9880d681SAndroid Build Coastguard Worker  U = NewVal;
*9880d681SAndroid Build Coastguard Worker  return true;
*9880d681SAndroid Build Coastguard Worker}
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker/// This function attempts to replace V with a simpler value based on the
*9880d681SAndroid Build Coastguard Worker/// demanded bits. When this function is called, it is known that only the bits
*9880d681SAndroid Build Coastguard Worker/// set in DemandedMask of the result of V are ever used downstream.
*9880d681SAndroid Build Coastguard Worker/// Consequently, depending on the mask and V, it may be possible to replace V
*9880d681SAndroid Build Coastguard Worker/// with a constant or one of its operands. In such cases, this function does
*9880d681SAndroid Build Coastguard Worker/// the replacement and returns true. In all other cases, it returns false after
*9880d681SAndroid Build Coastguard Worker/// analyzing the expression and setting KnownOne and known to be one in the
*9880d681SAndroid Build Coastguard Worker/// expression. KnownZero contains all the bits that are known to be zero in the
*9880d681SAndroid Build Coastguard Worker/// expression. These are provided to potentially allow the caller (which might
*9880d681SAndroid Build Coastguard Worker/// recursively be SimplifyDemandedBits itself) to simplify the expression.
*9880d681SAndroid Build Coastguard Worker/// KnownOne and KnownZero always follow the invariant that:
*9880d681SAndroid Build Coastguard Worker///   KnownOne & KnownZero == 0.
*9880d681SAndroid Build Coastguard Worker/// That is, a bit can't be both 1 and 0. Note that the bits in KnownOne and
*9880d681SAndroid Build Coastguard Worker/// KnownZero may only be accurate for those bits set in DemandedMask. Note also
*9880d681SAndroid Build Coastguard Worker/// that the bitwidth of V, DemandedMask, KnownZero and KnownOne must all be the
*9880d681SAndroid Build Coastguard Worker/// same.
*9880d681SAndroid Build Coastguard Worker///
*9880d681SAndroid Build Coastguard Worker/// This returns null if it did not change anything and it permits no
*9880d681SAndroid Build Coastguard Worker/// simplification.  This returns V itself if it did some simplification of V's
*9880d681SAndroid Build Coastguard Worker/// operands based on the information about what bits are demanded. This returns
*9880d681SAndroid Build Coastguard Worker/// some other non-null value if it found out that V is equal to another value
*9880d681SAndroid Build Coastguard Worker/// in the context where the specified bits are demanded, but not for all users.
*9880d681SAndroid Build Coastguard WorkerValue *InstCombiner::SimplifyDemandedUseBits(Value *V, APInt DemandedMask,
*9880d681SAndroid Build Coastguard Worker                                             APInt &KnownZero, APInt &KnownOne,
*9880d681SAndroid Build Coastguard Worker                                             unsigned Depth,
*9880d681SAndroid Build Coastguard Worker                                             Instruction *CxtI) {
*9880d681SAndroid Build Coastguard Worker  assert(V != nullptr && "Null pointer of Value???");
*9880d681SAndroid Build Coastguard Worker  assert(Depth <= 6 && "Limit Search Depth");
*9880d681SAndroid Build Coastguard Worker  uint32_t BitWidth = DemandedMask.getBitWidth();
*9880d681SAndroid Build Coastguard Worker  Type *VTy = V->getType();
*9880d681SAndroid Build Coastguard Worker  assert(
*9880d681SAndroid Build Coastguard Worker      (!VTy->isIntOrIntVectorTy() || VTy->getScalarSizeInBits() == BitWidth) &&
*9880d681SAndroid Build Coastguard Worker      KnownZero.getBitWidth() == BitWidth &&
*9880d681SAndroid Build Coastguard Worker      KnownOne.getBitWidth() == BitWidth &&
*9880d681SAndroid Build Coastguard Worker      "Value *V, DemandedMask, KnownZero and KnownOne "
*9880d681SAndroid Build Coastguard Worker      "must have same BitWidth");
*9880d681SAndroid Build Coastguard Worker  if (ConstantInt *CI = dyn_cast<ConstantInt>(V)) {
*9880d681SAndroid Build Coastguard Worker    // We know all of the bits for a constant!
*9880d681SAndroid Build Coastguard Worker    KnownOne = CI->getValue() & DemandedMask;
*9880d681SAndroid Build Coastguard Worker    KnownZero = ~KnownOne & DemandedMask;
*9880d681SAndroid Build Coastguard Worker    return nullptr;
*9880d681SAndroid Build Coastguard Worker  }
*9880d681SAndroid Build Coastguard Worker  if (isa<ConstantPointerNull>(V)) {
*9880d681SAndroid Build Coastguard Worker    // We know all of the bits for a constant!
*9880d681SAndroid Build Coastguard Worker    KnownOne.clearAllBits();
*9880d681SAndroid Build Coastguard Worker    KnownZero = DemandedMask;
*9880d681SAndroid Build Coastguard Worker    return nullptr;
*9880d681SAndroid Build Coastguard Worker  }
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker  KnownZero.clearAllBits();
*9880d681SAndroid Build Coastguard Worker  KnownOne.clearAllBits();
*9880d681SAndroid Build Coastguard Worker  if (DemandedMask == 0) {   // Not demanding any bits from V.
*9880d681SAndroid Build Coastguard Worker    if (isa<UndefValue>(V))
*9880d681SAndroid Build Coastguard Worker      return nullptr;
*9880d681SAndroid Build Coastguard Worker    return UndefValue::get(VTy);
*9880d681SAndroid Build Coastguard Worker  }
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker  if (Depth == 6)        // Limit search depth.
*9880d681SAndroid Build Coastguard Worker    return nullptr;
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker  APInt LHSKnownZero(BitWidth, 0), LHSKnownOne(BitWidth, 0);
*9880d681SAndroid Build Coastguard Worker  APInt RHSKnownZero(BitWidth, 0), RHSKnownOne(BitWidth, 0);
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker  Instruction *I = dyn_cast<Instruction>(V);
*9880d681SAndroid Build Coastguard Worker  if (!I) {
*9880d681SAndroid Build Coastguard Worker    computeKnownBits(V, KnownZero, KnownOne, Depth, CxtI);
*9880d681SAndroid Build Coastguard Worker    return nullptr;        // Only analyze instructions.
*9880d681SAndroid Build Coastguard Worker  }
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker  // If there are multiple uses of this value and we aren't at the root, then
*9880d681SAndroid Build Coastguard Worker  // we can't do any simplifications of the operands, because DemandedMask
*9880d681SAndroid Build Coastguard Worker  // only reflects the bits demanded by *one* of the users.
*9880d681SAndroid Build Coastguard Worker  if (Depth != 0 && !I->hasOneUse()) {
*9880d681SAndroid Build Coastguard Worker    // Despite the fact that we can't simplify this instruction in all User's
*9880d681SAndroid Build Coastguard Worker    // context, we can at least compute the knownzero/knownone bits, and we can
*9880d681SAndroid Build Coastguard Worker    // do simplifications that apply to *just* the one user if we know that
*9880d681SAndroid Build Coastguard Worker    // this instruction has a simpler value in that context.
*9880d681SAndroid Build Coastguard Worker    if (I->getOpcode() == Instruction::And) {
*9880d681SAndroid Build Coastguard Worker      // If either the LHS or the RHS are Zero, the result is zero.
*9880d681SAndroid Build Coastguard Worker      computeKnownBits(I->getOperand(1), RHSKnownZero, RHSKnownOne, Depth + 1,
*9880d681SAndroid Build Coastguard Worker                       CxtI);
*9880d681SAndroid Build Coastguard Worker      computeKnownBits(I->getOperand(0), LHSKnownZero, LHSKnownOne, Depth + 1,
*9880d681SAndroid Build Coastguard Worker                       CxtI);
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker      // If all of the demanded bits are known 1 on one side, return the other.
*9880d681SAndroid Build Coastguard Worker      // These bits cannot contribute to the result of the 'and' in this
*9880d681SAndroid Build Coastguard Worker      // context.
*9880d681SAndroid Build Coastguard Worker      if ((DemandedMask & ~LHSKnownZero & RHSKnownOne) ==
*9880d681SAndroid Build Coastguard Worker          (DemandedMask & ~LHSKnownZero))
*9880d681SAndroid Build Coastguard Worker        return I->getOperand(0);
*9880d681SAndroid Build Coastguard Worker      if ((DemandedMask & ~RHSKnownZero & LHSKnownOne) ==
*9880d681SAndroid Build Coastguard Worker          (DemandedMask & ~RHSKnownZero))
*9880d681SAndroid Build Coastguard Worker        return I->getOperand(1);
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker      // If all of the demanded bits in the inputs are known zeros, return zero.
*9880d681SAndroid Build Coastguard Worker      if ((DemandedMask & (RHSKnownZero|LHSKnownZero)) == DemandedMask)
*9880d681SAndroid Build Coastguard Worker        return Constant::getNullValue(VTy);
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker    } else if (I->getOpcode() == Instruction::Or) {
*9880d681SAndroid Build Coastguard Worker      // We can simplify (X|Y) -> X or Y in the user's context if we know that
*9880d681SAndroid Build Coastguard Worker      // only bits from X or Y are demanded.
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker      // If either the LHS or the RHS are One, the result is One.
*9880d681SAndroid Build Coastguard Worker      computeKnownBits(I->getOperand(1), RHSKnownZero, RHSKnownOne, Depth + 1,
*9880d681SAndroid Build Coastguard Worker                       CxtI);
*9880d681SAndroid Build Coastguard Worker      computeKnownBits(I->getOperand(0), LHSKnownZero, LHSKnownOne, Depth + 1,
*9880d681SAndroid Build Coastguard Worker                       CxtI);
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker      // If all of the demanded bits are known zero on one side, return the
*9880d681SAndroid Build Coastguard Worker      // other.  These bits cannot contribute to the result of the 'or' in this
*9880d681SAndroid Build Coastguard Worker      // context.
*9880d681SAndroid Build Coastguard Worker      if ((DemandedMask & ~LHSKnownOne & RHSKnownZero) ==
*9880d681SAndroid Build Coastguard Worker          (DemandedMask & ~LHSKnownOne))
*9880d681SAndroid Build Coastguard Worker        return I->getOperand(0);
*9880d681SAndroid Build Coastguard Worker      if ((DemandedMask & ~RHSKnownOne & LHSKnownZero) ==
*9880d681SAndroid Build Coastguard Worker          (DemandedMask & ~RHSKnownOne))
*9880d681SAndroid Build Coastguard Worker        return I->getOperand(1);
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker      // If all of the potentially set bits on one side are known to be set on
*9880d681SAndroid Build Coastguard Worker      // the other side, just use the 'other' side.
*9880d681SAndroid Build Coastguard Worker      if ((DemandedMask & (~RHSKnownZero) & LHSKnownOne) ==
*9880d681SAndroid Build Coastguard Worker          (DemandedMask & (~RHSKnownZero)))
*9880d681SAndroid Build Coastguard Worker        return I->getOperand(0);
*9880d681SAndroid Build Coastguard Worker      if ((DemandedMask & (~LHSKnownZero) & RHSKnownOne) ==
*9880d681SAndroid Build Coastguard Worker          (DemandedMask & (~LHSKnownZero)))
*9880d681SAndroid Build Coastguard Worker        return I->getOperand(1);
*9880d681SAndroid Build Coastguard Worker    } else if (I->getOpcode() == Instruction::Xor) {
*9880d681SAndroid Build Coastguard Worker      // We can simplify (X^Y) -> X or Y in the user's context if we know that
*9880d681SAndroid Build Coastguard Worker      // only bits from X or Y are demanded.
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker      computeKnownBits(I->getOperand(1), RHSKnownZero, RHSKnownOne, Depth + 1,
*9880d681SAndroid Build Coastguard Worker                       CxtI);
*9880d681SAndroid Build Coastguard Worker      computeKnownBits(I->getOperand(0), LHSKnownZero, LHSKnownOne, Depth + 1,
*9880d681SAndroid Build Coastguard Worker                       CxtI);
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker      // If all of the demanded bits are known zero on one side, return the
*9880d681SAndroid Build Coastguard Worker      // other.
*9880d681SAndroid Build Coastguard Worker      if ((DemandedMask & RHSKnownZero) == DemandedMask)
*9880d681SAndroid Build Coastguard Worker        return I->getOperand(0);
*9880d681SAndroid Build Coastguard Worker      if ((DemandedMask & LHSKnownZero) == DemandedMask)
*9880d681SAndroid Build Coastguard Worker        return I->getOperand(1);
*9880d681SAndroid Build Coastguard Worker    }
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker    // Compute the KnownZero/KnownOne bits to simplify things downstream.
*9880d681SAndroid Build Coastguard Worker    computeKnownBits(I, KnownZero, KnownOne, Depth, CxtI);
*9880d681SAndroid Build Coastguard Worker    return nullptr;
*9880d681SAndroid Build Coastguard Worker  }
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker  // If this is the root being simplified, allow it to have multiple uses,
*9880d681SAndroid Build Coastguard Worker  // just set the DemandedMask to all bits so that we can try to simplify the
*9880d681SAndroid Build Coastguard Worker  // operands.  This allows visitTruncInst (for example) to simplify the
*9880d681SAndroid Build Coastguard Worker  // operand of a trunc without duplicating all the logic below.
*9880d681SAndroid Build Coastguard Worker  if (Depth == 0 && !V->hasOneUse())
*9880d681SAndroid Build Coastguard Worker    DemandedMask = APInt::getAllOnesValue(BitWidth);
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker  switch (I->getOpcode()) {
*9880d681SAndroid Build Coastguard Worker  default:
*9880d681SAndroid Build Coastguard Worker    computeKnownBits(I, KnownZero, KnownOne, Depth, CxtI);
*9880d681SAndroid Build Coastguard Worker    break;
*9880d681SAndroid Build Coastguard Worker  case Instruction::And:
*9880d681SAndroid Build Coastguard Worker    // If either the LHS or the RHS are Zero, the result is zero.
*9880d681SAndroid Build Coastguard Worker    if (SimplifyDemandedBits(I->getOperandUse(1), DemandedMask, RHSKnownZero,
*9880d681SAndroid Build Coastguard Worker                             RHSKnownOne, Depth + 1) ||
*9880d681SAndroid Build Coastguard Worker        SimplifyDemandedBits(I->getOperandUse(0), DemandedMask & ~RHSKnownZero,
*9880d681SAndroid Build Coastguard Worker                             LHSKnownZero, LHSKnownOne, Depth + 1))
*9880d681SAndroid Build Coastguard Worker      return I;
*9880d681SAndroid Build Coastguard Worker    assert(!(RHSKnownZero & RHSKnownOne) && "Bits known to be one AND zero?");
*9880d681SAndroid Build Coastguard Worker    assert(!(LHSKnownZero & LHSKnownOne) && "Bits known to be one AND zero?");
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker    // If the client is only demanding bits that we know, return the known
*9880d681SAndroid Build Coastguard Worker    // constant.
*9880d681SAndroid Build Coastguard Worker    if ((DemandedMask & ((RHSKnownZero | LHSKnownZero)|
*9880d681SAndroid Build Coastguard Worker                         (RHSKnownOne & LHSKnownOne))) == DemandedMask)
*9880d681SAndroid Build Coastguard Worker      return Constant::getIntegerValue(VTy, RHSKnownOne & LHSKnownOne);
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker    // If all of the demanded bits are known 1 on one side, return the other.
*9880d681SAndroid Build Coastguard Worker    // These bits cannot contribute to the result of the 'and'.
*9880d681SAndroid Build Coastguard Worker    if ((DemandedMask & ~LHSKnownZero & RHSKnownOne) ==
*9880d681SAndroid Build Coastguard Worker        (DemandedMask & ~LHSKnownZero))
*9880d681SAndroid Build Coastguard Worker      return I->getOperand(0);
*9880d681SAndroid Build Coastguard Worker    if ((DemandedMask & ~RHSKnownZero & LHSKnownOne) ==
*9880d681SAndroid Build Coastguard Worker        (DemandedMask & ~RHSKnownZero))
*9880d681SAndroid Build Coastguard Worker      return I->getOperand(1);
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker    // If all of the demanded bits in the inputs are known zeros, return zero.
*9880d681SAndroid Build Coastguard Worker    if ((DemandedMask & (RHSKnownZero|LHSKnownZero)) == DemandedMask)
*9880d681SAndroid Build Coastguard Worker      return Constant::getNullValue(VTy);
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker    // If the RHS is a constant, see if we can simplify it.
*9880d681SAndroid Build Coastguard Worker    if (ShrinkDemandedConstant(I, 1, DemandedMask & ~LHSKnownZero))
*9880d681SAndroid Build Coastguard Worker      return I;
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker    // Output known-1 bits are only known if set in both the LHS & RHS.
*9880d681SAndroid Build Coastguard Worker    KnownOne = RHSKnownOne & LHSKnownOne;
*9880d681SAndroid Build Coastguard Worker    // Output known-0 are known to be clear if zero in either the LHS | RHS.
*9880d681SAndroid Build Coastguard Worker    KnownZero = RHSKnownZero | LHSKnownZero;
*9880d681SAndroid Build Coastguard Worker    break;
*9880d681SAndroid Build Coastguard Worker  case Instruction::Or:
*9880d681SAndroid Build Coastguard Worker    // If either the LHS or the RHS are One, the result is One.
*9880d681SAndroid Build Coastguard Worker    if (SimplifyDemandedBits(I->getOperandUse(1), DemandedMask, RHSKnownZero,
*9880d681SAndroid Build Coastguard Worker                             RHSKnownOne, Depth + 1) ||
*9880d681SAndroid Build Coastguard Worker        SimplifyDemandedBits(I->getOperandUse(0), DemandedMask & ~RHSKnownOne,
*9880d681SAndroid Build Coastguard Worker                             LHSKnownZero, LHSKnownOne, Depth + 1))
*9880d681SAndroid Build Coastguard Worker      return I;
*9880d681SAndroid Build Coastguard Worker    assert(!(RHSKnownZero & RHSKnownOne) && "Bits known to be one AND zero?");
*9880d681SAndroid Build Coastguard Worker    assert(!(LHSKnownZero & LHSKnownOne) && "Bits known to be one AND zero?");
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker    // If the client is only demanding bits that we know, return the known
*9880d681SAndroid Build Coastguard Worker    // constant.
*9880d681SAndroid Build Coastguard Worker    if ((DemandedMask & ((RHSKnownZero & LHSKnownZero)|
*9880d681SAndroid Build Coastguard Worker                         (RHSKnownOne | LHSKnownOne))) == DemandedMask)
*9880d681SAndroid Build Coastguard Worker      return Constant::getIntegerValue(VTy, RHSKnownOne | LHSKnownOne);
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker    // If all of the demanded bits are known zero on one side, return the other.
*9880d681SAndroid Build Coastguard Worker    // These bits cannot contribute to the result of the 'or'.
*9880d681SAndroid Build Coastguard Worker    if ((DemandedMask & ~LHSKnownOne & RHSKnownZero) ==
*9880d681SAndroid Build Coastguard Worker        (DemandedMask & ~LHSKnownOne))
*9880d681SAndroid Build Coastguard Worker      return I->getOperand(0);
*9880d681SAndroid Build Coastguard Worker    if ((DemandedMask & ~RHSKnownOne & LHSKnownZero) ==
*9880d681SAndroid Build Coastguard Worker        (DemandedMask & ~RHSKnownOne))
*9880d681SAndroid Build Coastguard Worker      return I->getOperand(1);
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker    // If all of the potentially set bits on one side are known to be set on
*9880d681SAndroid Build Coastguard Worker    // the other side, just use the 'other' side.
*9880d681SAndroid Build Coastguard Worker    if ((DemandedMask & (~RHSKnownZero) & LHSKnownOne) ==
*9880d681SAndroid Build Coastguard Worker        (DemandedMask & (~RHSKnownZero)))
*9880d681SAndroid Build Coastguard Worker      return I->getOperand(0);
*9880d681SAndroid Build Coastguard Worker    if ((DemandedMask & (~LHSKnownZero) & RHSKnownOne) ==
*9880d681SAndroid Build Coastguard Worker        (DemandedMask & (~LHSKnownZero)))
*9880d681SAndroid Build Coastguard Worker      return I->getOperand(1);
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker    // If the RHS is a constant, see if we can simplify it.
*9880d681SAndroid Build Coastguard Worker    if (ShrinkDemandedConstant(I, 1, DemandedMask))
*9880d681SAndroid Build Coastguard Worker      return I;
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker    // Output known-0 bits are only known if clear in both the LHS & RHS.
*9880d681SAndroid Build Coastguard Worker    KnownZero = RHSKnownZero & LHSKnownZero;
*9880d681SAndroid Build Coastguard Worker    // Output known-1 are known to be set if set in either the LHS | RHS.
*9880d681SAndroid Build Coastguard Worker    KnownOne = RHSKnownOne | LHSKnownOne;
*9880d681SAndroid Build Coastguard Worker    break;
*9880d681SAndroid Build Coastguard Worker  case Instruction::Xor: {
*9880d681SAndroid Build Coastguard Worker    if (SimplifyDemandedBits(I->getOperandUse(1), DemandedMask, RHSKnownZero,
*9880d681SAndroid Build Coastguard Worker                             RHSKnownOne, Depth + 1) ||
*9880d681SAndroid Build Coastguard Worker        SimplifyDemandedBits(I->getOperandUse(0), DemandedMask, LHSKnownZero,
*9880d681SAndroid Build Coastguard Worker                             LHSKnownOne, Depth + 1))
*9880d681SAndroid Build Coastguard Worker      return I;
*9880d681SAndroid Build Coastguard Worker    assert(!(RHSKnownZero & RHSKnownOne) && "Bits known to be one AND zero?");
*9880d681SAndroid Build Coastguard Worker    assert(!(LHSKnownZero & LHSKnownOne) && "Bits known to be one AND zero?");
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker    // Output known-0 bits are known if clear or set in both the LHS & RHS.
*9880d681SAndroid Build Coastguard Worker    APInt IKnownZero = (RHSKnownZero & LHSKnownZero) |
*9880d681SAndroid Build Coastguard Worker                       (RHSKnownOne & LHSKnownOne);
*9880d681SAndroid Build Coastguard Worker    // Output known-1 are known to be set if set in only one of the LHS, RHS.
*9880d681SAndroid Build Coastguard Worker    APInt IKnownOne =  (RHSKnownZero & LHSKnownOne) |
*9880d681SAndroid Build Coastguard Worker                       (RHSKnownOne & LHSKnownZero);
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker    // If the client is only demanding bits that we know, return the known
*9880d681SAndroid Build Coastguard Worker    // constant.
*9880d681SAndroid Build Coastguard Worker    if ((DemandedMask & (IKnownZero|IKnownOne)) == DemandedMask)
*9880d681SAndroid Build Coastguard Worker      return Constant::getIntegerValue(VTy, IKnownOne);
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker    // If all of the demanded bits are known zero on one side, return the other.
*9880d681SAndroid Build Coastguard Worker    // These bits cannot contribute to the result of the 'xor'.
*9880d681SAndroid Build Coastguard Worker    if ((DemandedMask & RHSKnownZero) == DemandedMask)
*9880d681SAndroid Build Coastguard Worker      return I->getOperand(0);
*9880d681SAndroid Build Coastguard Worker    if ((DemandedMask & LHSKnownZero) == DemandedMask)
*9880d681SAndroid Build Coastguard Worker      return I->getOperand(1);
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker    // If all of the demanded bits are known to be zero on one side or the
*9880d681SAndroid Build Coastguard Worker    // other, turn this into an *inclusive* or.
*9880d681SAndroid Build Coastguard Worker    //    e.g. (A & C1)^(B & C2) -> (A & C1)|(B & C2) iff C1&C2 == 0
*9880d681SAndroid Build Coastguard Worker    if ((DemandedMask & ~RHSKnownZero & ~LHSKnownZero) == 0) {
*9880d681SAndroid Build Coastguard Worker      Instruction *Or =
*9880d681SAndroid Build Coastguard Worker        BinaryOperator::CreateOr(I->getOperand(0), I->getOperand(1),
*9880d681SAndroid Build Coastguard Worker                                 I->getName());
*9880d681SAndroid Build Coastguard Worker      return InsertNewInstWith(Or, *I);
*9880d681SAndroid Build Coastguard Worker    }
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker    // If all of the demanded bits on one side are known, and all of the set
*9880d681SAndroid Build Coastguard Worker    // bits on that side are also known to be set on the other side, turn this
*9880d681SAndroid Build Coastguard Worker    // into an AND, as we know the bits will be cleared.
*9880d681SAndroid Build Coastguard Worker    //    e.g. (X | C1) ^ C2 --> (X | C1) & ~C2 iff (C1&C2) == C2
*9880d681SAndroid Build Coastguard Worker    if ((DemandedMask & (RHSKnownZero|RHSKnownOne)) == DemandedMask) {
*9880d681SAndroid Build Coastguard Worker      // all known
*9880d681SAndroid Build Coastguard Worker      if ((RHSKnownOne & LHSKnownOne) == RHSKnownOne) {
*9880d681SAndroid Build Coastguard Worker        Constant *AndC = Constant::getIntegerValue(VTy,
*9880d681SAndroid Build Coastguard Worker                                                   ~RHSKnownOne & DemandedMask);
*9880d681SAndroid Build Coastguard Worker        Instruction *And = BinaryOperator::CreateAnd(I->getOperand(0), AndC);
*9880d681SAndroid Build Coastguard Worker        return InsertNewInstWith(And, *I);
*9880d681SAndroid Build Coastguard Worker      }
*9880d681SAndroid Build Coastguard Worker    }
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker    // If the RHS is a constant, see if we can simplify it.
*9880d681SAndroid Build Coastguard Worker    // FIXME: for XOR, we prefer to force bits to 1 if they will make a -1.
*9880d681SAndroid Build Coastguard Worker    if (ShrinkDemandedConstant(I, 1, DemandedMask))
*9880d681SAndroid Build Coastguard Worker      return I;
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker    // If our LHS is an 'and' and if it has one use, and if any of the bits we
*9880d681SAndroid Build Coastguard Worker    // are flipping are known to be set, then the xor is just resetting those
*9880d681SAndroid Build Coastguard Worker    // bits to zero.  We can just knock out bits from the 'and' and the 'xor',
*9880d681SAndroid Build Coastguard Worker    // simplifying both of them.
*9880d681SAndroid Build Coastguard Worker    if (Instruction *LHSInst = dyn_cast<Instruction>(I->getOperand(0)))
*9880d681SAndroid Build Coastguard Worker      if (LHSInst->getOpcode() == Instruction::And && LHSInst->hasOneUse() &&
*9880d681SAndroid Build Coastguard Worker          isa<ConstantInt>(I->getOperand(1)) &&
*9880d681SAndroid Build Coastguard Worker          isa<ConstantInt>(LHSInst->getOperand(1)) &&
*9880d681SAndroid Build Coastguard Worker          (LHSKnownOne & RHSKnownOne & DemandedMask) != 0) {
*9880d681SAndroid Build Coastguard Worker        ConstantInt *AndRHS = cast<ConstantInt>(LHSInst->getOperand(1));
*9880d681SAndroid Build Coastguard Worker        ConstantInt *XorRHS = cast<ConstantInt>(I->getOperand(1));
*9880d681SAndroid Build Coastguard Worker        APInt NewMask = ~(LHSKnownOne & RHSKnownOne & DemandedMask);
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker        Constant *AndC =
*9880d681SAndroid Build Coastguard Worker          ConstantInt::get(I->getType(), NewMask & AndRHS->getValue());
*9880d681SAndroid Build Coastguard Worker        Instruction *NewAnd = BinaryOperator::CreateAnd(I->getOperand(0), AndC);
*9880d681SAndroid Build Coastguard Worker        InsertNewInstWith(NewAnd, *I);
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker        Constant *XorC =
*9880d681SAndroid Build Coastguard Worker          ConstantInt::get(I->getType(), NewMask & XorRHS->getValue());
*9880d681SAndroid Build Coastguard Worker        Instruction *NewXor = BinaryOperator::CreateXor(NewAnd, XorC);
*9880d681SAndroid Build Coastguard Worker        return InsertNewInstWith(NewXor, *I);
*9880d681SAndroid Build Coastguard Worker      }
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker    // Output known-0 bits are known if clear or set in both the LHS & RHS.
*9880d681SAndroid Build Coastguard Worker    KnownZero= (RHSKnownZero & LHSKnownZero) | (RHSKnownOne & LHSKnownOne);
*9880d681SAndroid Build Coastguard Worker    // Output known-1 are known to be set if set in only one of the LHS, RHS.
*9880d681SAndroid Build Coastguard Worker    KnownOne = (RHSKnownZero & LHSKnownOne) | (RHSKnownOne & LHSKnownZero);
*9880d681SAndroid Build Coastguard Worker    break;
*9880d681SAndroid Build Coastguard Worker  }
*9880d681SAndroid Build Coastguard Worker  case Instruction::Select:
*9880d681SAndroid Build Coastguard Worker    // If this is a select as part of a min/max pattern, don't simplify any
*9880d681SAndroid Build Coastguard Worker    // further in case we break the structure.
*9880d681SAndroid Build Coastguard Worker    Value *LHS, *RHS;
*9880d681SAndroid Build Coastguard Worker    if (matchSelectPattern(I, LHS, RHS).Flavor != SPF_UNKNOWN)
*9880d681SAndroid Build Coastguard Worker      return nullptr;
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker    if (SimplifyDemandedBits(I->getOperandUse(2), DemandedMask, RHSKnownZero,
*9880d681SAndroid Build Coastguard Worker                             RHSKnownOne, Depth + 1) ||
*9880d681SAndroid Build Coastguard Worker        SimplifyDemandedBits(I->getOperandUse(1), DemandedMask, LHSKnownZero,
*9880d681SAndroid Build Coastguard Worker                             LHSKnownOne, Depth + 1))
*9880d681SAndroid Build Coastguard Worker      return I;
*9880d681SAndroid Build Coastguard Worker    assert(!(RHSKnownZero & RHSKnownOne) && "Bits known to be one AND zero?");
*9880d681SAndroid Build Coastguard Worker    assert(!(LHSKnownZero & LHSKnownOne) && "Bits known to be one AND zero?");
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker    // If the operands are constants, see if we can simplify them.
*9880d681SAndroid Build Coastguard Worker    if (ShrinkDemandedConstant(I, 1, DemandedMask) ||
*9880d681SAndroid Build Coastguard Worker        ShrinkDemandedConstant(I, 2, DemandedMask))
*9880d681SAndroid Build Coastguard Worker      return I;
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker    // Only known if known in both the LHS and RHS.
*9880d681SAndroid Build Coastguard Worker    KnownOne = RHSKnownOne & LHSKnownOne;
*9880d681SAndroid Build Coastguard Worker    KnownZero = RHSKnownZero & LHSKnownZero;
*9880d681SAndroid Build Coastguard Worker    break;
*9880d681SAndroid Build Coastguard Worker  case Instruction::Trunc: {
*9880d681SAndroid Build Coastguard Worker    unsigned truncBf = I->getOperand(0)->getType()->getScalarSizeInBits();
*9880d681SAndroid Build Coastguard Worker    DemandedMask = DemandedMask.zext(truncBf);
*9880d681SAndroid Build Coastguard Worker    KnownZero = KnownZero.zext(truncBf);
*9880d681SAndroid Build Coastguard Worker    KnownOne = KnownOne.zext(truncBf);
*9880d681SAndroid Build Coastguard Worker    if (SimplifyDemandedBits(I->getOperandUse(0), DemandedMask, KnownZero,
*9880d681SAndroid Build Coastguard Worker                             KnownOne, Depth + 1))
*9880d681SAndroid Build Coastguard Worker      return I;
*9880d681SAndroid Build Coastguard Worker    DemandedMask = DemandedMask.trunc(BitWidth);
*9880d681SAndroid Build Coastguard Worker    KnownZero = KnownZero.trunc(BitWidth);
*9880d681SAndroid Build Coastguard Worker    KnownOne = KnownOne.trunc(BitWidth);
*9880d681SAndroid Build Coastguard Worker    assert(!(KnownZero & KnownOne) && "Bits known to be one AND zero?");
*9880d681SAndroid Build Coastguard Worker    break;
*9880d681SAndroid Build Coastguard Worker  }
*9880d681SAndroid Build Coastguard Worker  case Instruction::BitCast:
*9880d681SAndroid Build Coastguard Worker    if (!I->getOperand(0)->getType()->isIntOrIntVectorTy())
*9880d681SAndroid Build Coastguard Worker      return nullptr;  // vector->int or fp->int?
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker    if (VectorType *DstVTy = dyn_cast<VectorType>(I->getType())) {
*9880d681SAndroid Build Coastguard Worker      if (VectorType *SrcVTy =
*9880d681SAndroid Build Coastguard Worker            dyn_cast<VectorType>(I->getOperand(0)->getType())) {
*9880d681SAndroid Build Coastguard Worker        if (DstVTy->getNumElements() != SrcVTy->getNumElements())
*9880d681SAndroid Build Coastguard Worker          // Don't touch a bitcast between vectors of different element counts.
*9880d681SAndroid Build Coastguard Worker          return nullptr;
*9880d681SAndroid Build Coastguard Worker      } else
*9880d681SAndroid Build Coastguard Worker        // Don't touch a scalar-to-vector bitcast.
*9880d681SAndroid Build Coastguard Worker        return nullptr;
*9880d681SAndroid Build Coastguard Worker    } else if (I->getOperand(0)->getType()->isVectorTy())
*9880d681SAndroid Build Coastguard Worker      // Don't touch a vector-to-scalar bitcast.
*9880d681SAndroid Build Coastguard Worker      return nullptr;
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker    if (SimplifyDemandedBits(I->getOperandUse(0), DemandedMask, KnownZero,
*9880d681SAndroid Build Coastguard Worker                             KnownOne, Depth + 1))
*9880d681SAndroid Build Coastguard Worker      return I;
*9880d681SAndroid Build Coastguard Worker    assert(!(KnownZero & KnownOne) && "Bits known to be one AND zero?");
*9880d681SAndroid Build Coastguard Worker    break;
*9880d681SAndroid Build Coastguard Worker  case Instruction::ZExt: {
*9880d681SAndroid Build Coastguard Worker    // Compute the bits in the result that are not present in the input.
*9880d681SAndroid Build Coastguard Worker    unsigned SrcBitWidth =I->getOperand(0)->getType()->getScalarSizeInBits();
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker    DemandedMask = DemandedMask.trunc(SrcBitWidth);
*9880d681SAndroid Build Coastguard Worker    KnownZero = KnownZero.trunc(SrcBitWidth);
*9880d681SAndroid Build Coastguard Worker    KnownOne = KnownOne.trunc(SrcBitWidth);
*9880d681SAndroid Build Coastguard Worker    if (SimplifyDemandedBits(I->getOperandUse(0), DemandedMask, KnownZero,
*9880d681SAndroid Build Coastguard Worker                             KnownOne, Depth + 1))
*9880d681SAndroid Build Coastguard Worker      return I;
*9880d681SAndroid Build Coastguard Worker    DemandedMask = DemandedMask.zext(BitWidth);
*9880d681SAndroid Build Coastguard Worker    KnownZero = KnownZero.zext(BitWidth);
*9880d681SAndroid Build Coastguard Worker    KnownOne = KnownOne.zext(BitWidth);
*9880d681SAndroid Build Coastguard Worker    assert(!(KnownZero & KnownOne) && "Bits known to be one AND zero?");
*9880d681SAndroid Build Coastguard Worker    // The top bits are known to be zero.
*9880d681SAndroid Build Coastguard Worker    KnownZero |= APInt::getHighBitsSet(BitWidth, BitWidth - SrcBitWidth);
*9880d681SAndroid Build Coastguard Worker    break;
*9880d681SAndroid Build Coastguard Worker  }
*9880d681SAndroid Build Coastguard Worker  case Instruction::SExt: {
*9880d681SAndroid Build Coastguard Worker    // Compute the bits in the result that are not present in the input.
*9880d681SAndroid Build Coastguard Worker    unsigned SrcBitWidth =I->getOperand(0)->getType()->getScalarSizeInBits();
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker    APInt InputDemandedBits = DemandedMask &
*9880d681SAndroid Build Coastguard Worker                              APInt::getLowBitsSet(BitWidth, SrcBitWidth);
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker    APInt NewBits(APInt::getHighBitsSet(BitWidth, BitWidth - SrcBitWidth));
*9880d681SAndroid Build Coastguard Worker    // If any of the sign extended bits are demanded, we know that the sign
*9880d681SAndroid Build Coastguard Worker    // bit is demanded.
*9880d681SAndroid Build Coastguard Worker    if ((NewBits & DemandedMask) != 0)
*9880d681SAndroid Build Coastguard Worker      InputDemandedBits.setBit(SrcBitWidth-1);
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker    InputDemandedBits = InputDemandedBits.trunc(SrcBitWidth);
*9880d681SAndroid Build Coastguard Worker    KnownZero = KnownZero.trunc(SrcBitWidth);
*9880d681SAndroid Build Coastguard Worker    KnownOne = KnownOne.trunc(SrcBitWidth);
*9880d681SAndroid Build Coastguard Worker    if (SimplifyDemandedBits(I->getOperandUse(0), InputDemandedBits, KnownZero,
*9880d681SAndroid Build Coastguard Worker                             KnownOne, Depth + 1))
*9880d681SAndroid Build Coastguard Worker      return I;
*9880d681SAndroid Build Coastguard Worker    InputDemandedBits = InputDemandedBits.zext(BitWidth);
*9880d681SAndroid Build Coastguard Worker    KnownZero = KnownZero.zext(BitWidth);
*9880d681SAndroid Build Coastguard Worker    KnownOne = KnownOne.zext(BitWidth);
*9880d681SAndroid Build Coastguard Worker    assert(!(KnownZero & KnownOne) && "Bits known to be one AND zero?");
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker    // If the sign bit of the input is known set or clear, then we know the
*9880d681SAndroid Build Coastguard Worker    // top bits of the result.
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker    // If the input sign bit is known zero, or if the NewBits are not demanded
*9880d681SAndroid Build Coastguard Worker    // convert this into a zero extension.
*9880d681SAndroid Build Coastguard Worker    if (KnownZero[SrcBitWidth-1] || (NewBits & ~DemandedMask) == NewBits) {
*9880d681SAndroid Build Coastguard Worker      // Convert to ZExt cast
*9880d681SAndroid Build Coastguard Worker      CastInst *NewCast = new ZExtInst(I->getOperand(0), VTy, I->getName());
*9880d681SAndroid Build Coastguard Worker      return InsertNewInstWith(NewCast, *I);
*9880d681SAndroid Build Coastguard Worker    } else if (KnownOne[SrcBitWidth-1]) {    // Input sign bit known set
*9880d681SAndroid Build Coastguard Worker      KnownOne |= NewBits;
*9880d681SAndroid Build Coastguard Worker    }
*9880d681SAndroid Build Coastguard Worker    break;
*9880d681SAndroid Build Coastguard Worker  }
*9880d681SAndroid Build Coastguard Worker  case Instruction::Add:
*9880d681SAndroid Build Coastguard Worker  case Instruction::Sub: {
*9880d681SAndroid Build Coastguard Worker    /// If the high-bits of an ADD/SUB are not demanded, then we do not care
*9880d681SAndroid Build Coastguard Worker    /// about the high bits of the operands.
*9880d681SAndroid Build Coastguard Worker    unsigned NLZ = DemandedMask.countLeadingZeros();
*9880d681SAndroid Build Coastguard Worker    if (NLZ > 0) {
*9880d681SAndroid Build Coastguard Worker      // Right fill the mask of bits for this ADD/SUB to demand the most
*9880d681SAndroid Build Coastguard Worker      // significant bit and all those below it.
*9880d681SAndroid Build Coastguard Worker      APInt DemandedFromOps(APInt::getLowBitsSet(BitWidth, BitWidth-NLZ));
*9880d681SAndroid Build Coastguard Worker      if (SimplifyDemandedBits(I->getOperandUse(0), DemandedFromOps,
*9880d681SAndroid Build Coastguard Worker                               LHSKnownZero, LHSKnownOne, Depth + 1) ||
*9880d681SAndroid Build Coastguard Worker          ShrinkDemandedConstant(I, 1, DemandedFromOps) ||
*9880d681SAndroid Build Coastguard Worker          SimplifyDemandedBits(I->getOperandUse(1), DemandedFromOps,
*9880d681SAndroid Build Coastguard Worker                               LHSKnownZero, LHSKnownOne, Depth + 1)) {
*9880d681SAndroid Build Coastguard Worker        // Disable the nsw and nuw flags here: We can no longer guarantee that
*9880d681SAndroid Build Coastguard Worker        // we won't wrap after simplification. Removing the nsw/nuw flags is
*9880d681SAndroid Build Coastguard Worker        // legal here because the top bit is not demanded.
*9880d681SAndroid Build Coastguard Worker        BinaryOperator &BinOP = *cast<BinaryOperator>(I);
*9880d681SAndroid Build Coastguard Worker        BinOP.setHasNoSignedWrap(false);
*9880d681SAndroid Build Coastguard Worker        BinOP.setHasNoUnsignedWrap(false);
*9880d681SAndroid Build Coastguard Worker        return I;
*9880d681SAndroid Build Coastguard Worker      }
*9880d681SAndroid Build Coastguard Worker    }
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker    // Otherwise just hand the add/sub off to computeKnownBits to fill in
*9880d681SAndroid Build Coastguard Worker    // the known zeros and ones.
*9880d681SAndroid Build Coastguard Worker    computeKnownBits(V, KnownZero, KnownOne, Depth, CxtI);
*9880d681SAndroid Build Coastguard Worker    break;
*9880d681SAndroid Build Coastguard Worker  }
*9880d681SAndroid Build Coastguard Worker  case Instruction::Shl:
*9880d681SAndroid Build Coastguard Worker    if (ConstantInt *SA = dyn_cast<ConstantInt>(I->getOperand(1))) {
*9880d681SAndroid Build Coastguard Worker      {
*9880d681SAndroid Build Coastguard Worker        Value *VarX; ConstantInt *C1;
*9880d681SAndroid Build Coastguard Worker        if (match(I->getOperand(0), m_Shr(m_Value(VarX), m_ConstantInt(C1)))) {
*9880d681SAndroid Build Coastguard Worker          Instruction *Shr = cast<Instruction>(I->getOperand(0));
*9880d681SAndroid Build Coastguard Worker          Value *R = SimplifyShrShlDemandedBits(Shr, I, DemandedMask,
*9880d681SAndroid Build Coastguard Worker                                                KnownZero, KnownOne);
*9880d681SAndroid Build Coastguard Worker          if (R)
*9880d681SAndroid Build Coastguard Worker            return R;
*9880d681SAndroid Build Coastguard Worker        }
*9880d681SAndroid Build Coastguard Worker      }
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker      uint64_t ShiftAmt = SA->getLimitedValue(BitWidth-1);
*9880d681SAndroid Build Coastguard Worker      APInt DemandedMaskIn(DemandedMask.lshr(ShiftAmt));
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker      // If the shift is NUW/NSW, then it does demand the high bits.
*9880d681SAndroid Build Coastguard Worker      ShlOperator *IOp = cast<ShlOperator>(I);
*9880d681SAndroid Build Coastguard Worker      if (IOp->hasNoSignedWrap())
*9880d681SAndroid Build Coastguard Worker        DemandedMaskIn |= APInt::getHighBitsSet(BitWidth, ShiftAmt+1);
*9880d681SAndroid Build Coastguard Worker      else if (IOp->hasNoUnsignedWrap())
*9880d681SAndroid Build Coastguard Worker        DemandedMaskIn |= APInt::getHighBitsSet(BitWidth, ShiftAmt);
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker      if (SimplifyDemandedBits(I->getOperandUse(0), DemandedMaskIn, KnownZero,
*9880d681SAndroid Build Coastguard Worker                               KnownOne, Depth + 1))
*9880d681SAndroid Build Coastguard Worker        return I;
*9880d681SAndroid Build Coastguard Worker      assert(!(KnownZero & KnownOne) && "Bits known to be one AND zero?");
*9880d681SAndroid Build Coastguard Worker      KnownZero <<= ShiftAmt;
*9880d681SAndroid Build Coastguard Worker      KnownOne  <<= ShiftAmt;
*9880d681SAndroid Build Coastguard Worker      // low bits known zero.
*9880d681SAndroid Build Coastguard Worker      if (ShiftAmt)
*9880d681SAndroid Build Coastguard Worker        KnownZero |= APInt::getLowBitsSet(BitWidth, ShiftAmt);
*9880d681SAndroid Build Coastguard Worker    }
*9880d681SAndroid Build Coastguard Worker    break;
*9880d681SAndroid Build Coastguard Worker  case Instruction::LShr:
*9880d681SAndroid Build Coastguard Worker    // For a logical shift right
*9880d681SAndroid Build Coastguard Worker    if (ConstantInt *SA = dyn_cast<ConstantInt>(I->getOperand(1))) {
*9880d681SAndroid Build Coastguard Worker      uint64_t ShiftAmt = SA->getLimitedValue(BitWidth-1);
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker      // Unsigned shift right.
*9880d681SAndroid Build Coastguard Worker      APInt DemandedMaskIn(DemandedMask.shl(ShiftAmt));
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker      // If the shift is exact, then it does demand the low bits (and knows that
*9880d681SAndroid Build Coastguard Worker      // they are zero).
*9880d681SAndroid Build Coastguard Worker      if (cast<LShrOperator>(I)->isExact())
*9880d681SAndroid Build Coastguard Worker        DemandedMaskIn |= APInt::getLowBitsSet(BitWidth, ShiftAmt);
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker      if (SimplifyDemandedBits(I->getOperandUse(0), DemandedMaskIn, KnownZero,
*9880d681SAndroid Build Coastguard Worker                               KnownOne, Depth + 1))
*9880d681SAndroid Build Coastguard Worker        return I;
*9880d681SAndroid Build Coastguard Worker      assert(!(KnownZero & KnownOne) && "Bits known to be one AND zero?");
*9880d681SAndroid Build Coastguard Worker      KnownZero = APIntOps::lshr(KnownZero, ShiftAmt);
*9880d681SAndroid Build Coastguard Worker      KnownOne  = APIntOps::lshr(KnownOne, ShiftAmt);
*9880d681SAndroid Build Coastguard Worker      if (ShiftAmt) {
*9880d681SAndroid Build Coastguard Worker        // Compute the new bits that are at the top now.
*9880d681SAndroid Build Coastguard Worker        APInt HighBits(APInt::getHighBitsSet(BitWidth, ShiftAmt));
*9880d681SAndroid Build Coastguard Worker        KnownZero |= HighBits;  // high bits known zero.
*9880d681SAndroid Build Coastguard Worker      }
*9880d681SAndroid Build Coastguard Worker    }
*9880d681SAndroid Build Coastguard Worker    break;
*9880d681SAndroid Build Coastguard Worker  case Instruction::AShr:
*9880d681SAndroid Build Coastguard Worker    // If this is an arithmetic shift right and only the low-bit is set, we can
*9880d681SAndroid Build Coastguard Worker    // always convert this into a logical shr, even if the shift amount is
*9880d681SAndroid Build Coastguard Worker    // variable.  The low bit of the shift cannot be an input sign bit unless
*9880d681SAndroid Build Coastguard Worker    // the shift amount is >= the size of the datatype, which is undefined.
*9880d681SAndroid Build Coastguard Worker    if (DemandedMask == 1) {
*9880d681SAndroid Build Coastguard Worker      // Perform the logical shift right.
*9880d681SAndroid Build Coastguard Worker      Instruction *NewVal = BinaryOperator::CreateLShr(
*9880d681SAndroid Build Coastguard Worker                        I->getOperand(0), I->getOperand(1), I->getName());
*9880d681SAndroid Build Coastguard Worker      return InsertNewInstWith(NewVal, *I);
*9880d681SAndroid Build Coastguard Worker    }
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker    // If the sign bit is the only bit demanded by this ashr, then there is no
*9880d681SAndroid Build Coastguard Worker    // need to do it, the shift doesn't change the high bit.
*9880d681SAndroid Build Coastguard Worker    if (DemandedMask.isSignBit())
*9880d681SAndroid Build Coastguard Worker      return I->getOperand(0);
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker    if (ConstantInt *SA = dyn_cast<ConstantInt>(I->getOperand(1))) {
*9880d681SAndroid Build Coastguard Worker      uint32_t ShiftAmt = SA->getLimitedValue(BitWidth-1);
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker      // Signed shift right.
*9880d681SAndroid Build Coastguard Worker      APInt DemandedMaskIn(DemandedMask.shl(ShiftAmt));
*9880d681SAndroid Build Coastguard Worker      // If any of the "high bits" are demanded, we should set the sign bit as
*9880d681SAndroid Build Coastguard Worker      // demanded.
*9880d681SAndroid Build Coastguard Worker      if (DemandedMask.countLeadingZeros() <= ShiftAmt)
*9880d681SAndroid Build Coastguard Worker        DemandedMaskIn.setBit(BitWidth-1);
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker      // If the shift is exact, then it does demand the low bits (and knows that
*9880d681SAndroid Build Coastguard Worker      // they are zero).
*9880d681SAndroid Build Coastguard Worker      if (cast<AShrOperator>(I)->isExact())
*9880d681SAndroid Build Coastguard Worker        DemandedMaskIn |= APInt::getLowBitsSet(BitWidth, ShiftAmt);
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker      if (SimplifyDemandedBits(I->getOperandUse(0), DemandedMaskIn, KnownZero,
*9880d681SAndroid Build Coastguard Worker                               KnownOne, Depth + 1))
*9880d681SAndroid Build Coastguard Worker        return I;
*9880d681SAndroid Build Coastguard Worker      assert(!(KnownZero & KnownOne) && "Bits known to be one AND zero?");
*9880d681SAndroid Build Coastguard Worker      // Compute the new bits that are at the top now.
*9880d681SAndroid Build Coastguard Worker      APInt HighBits(APInt::getHighBitsSet(BitWidth, ShiftAmt));
*9880d681SAndroid Build Coastguard Worker      KnownZero = APIntOps::lshr(KnownZero, ShiftAmt);
*9880d681SAndroid Build Coastguard Worker      KnownOne  = APIntOps::lshr(KnownOne, ShiftAmt);
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker      // Handle the sign bits.
*9880d681SAndroid Build Coastguard Worker      APInt SignBit(APInt::getSignBit(BitWidth));
*9880d681SAndroid Build Coastguard Worker      // Adjust to where it is now in the mask.
*9880d681SAndroid Build Coastguard Worker      SignBit = APIntOps::lshr(SignBit, ShiftAmt);
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker      // If the input sign bit is known to be zero, or if none of the top bits
*9880d681SAndroid Build Coastguard Worker      // are demanded, turn this into an unsigned shift right.
*9880d681SAndroid Build Coastguard Worker      if (BitWidth <= ShiftAmt || KnownZero[BitWidth-ShiftAmt-1] ||
*9880d681SAndroid Build Coastguard Worker          (HighBits & ~DemandedMask) == HighBits) {
*9880d681SAndroid Build Coastguard Worker        // Perform the logical shift right.
*9880d681SAndroid Build Coastguard Worker        BinaryOperator *NewVal = BinaryOperator::CreateLShr(I->getOperand(0),
*9880d681SAndroid Build Coastguard Worker                                                            SA, I->getName());
*9880d681SAndroid Build Coastguard Worker        NewVal->setIsExact(cast<BinaryOperator>(I)->isExact());
*9880d681SAndroid Build Coastguard Worker        return InsertNewInstWith(NewVal, *I);
*9880d681SAndroid Build Coastguard Worker      } else if ((KnownOne & SignBit) != 0) { // New bits are known one.
*9880d681SAndroid Build Coastguard Worker        KnownOne |= HighBits;
*9880d681SAndroid Build Coastguard Worker      }
*9880d681SAndroid Build Coastguard Worker    }
*9880d681SAndroid Build Coastguard Worker    break;
*9880d681SAndroid Build Coastguard Worker  case Instruction::SRem:
*9880d681SAndroid Build Coastguard Worker    if (ConstantInt *Rem = dyn_cast<ConstantInt>(I->getOperand(1))) {
*9880d681SAndroid Build Coastguard Worker      // X % -1 demands all the bits because we don't want to introduce
*9880d681SAndroid Build Coastguard Worker      // INT_MIN % -1 (== undef) by accident.
*9880d681SAndroid Build Coastguard Worker      if (Rem->isAllOnesValue())
*9880d681SAndroid Build Coastguard Worker        break;
*9880d681SAndroid Build Coastguard Worker      APInt RA = Rem->getValue().abs();
*9880d681SAndroid Build Coastguard Worker      if (RA.isPowerOf2()) {
*9880d681SAndroid Build Coastguard Worker        if (DemandedMask.ult(RA))    // srem won't affect demanded bits
*9880d681SAndroid Build Coastguard Worker          return I->getOperand(0);
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker        APInt LowBits = RA - 1;
*9880d681SAndroid Build Coastguard Worker        APInt Mask2 = LowBits | APInt::getSignBit(BitWidth);
*9880d681SAndroid Build Coastguard Worker        if (SimplifyDemandedBits(I->getOperandUse(0), Mask2, LHSKnownZero,
*9880d681SAndroid Build Coastguard Worker                                 LHSKnownOne, Depth + 1))
*9880d681SAndroid Build Coastguard Worker          return I;
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker        // The low bits of LHS are unchanged by the srem.
*9880d681SAndroid Build Coastguard Worker        KnownZero = LHSKnownZero & LowBits;
*9880d681SAndroid Build Coastguard Worker        KnownOne = LHSKnownOne & LowBits;
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker        // If LHS is non-negative or has all low bits zero, then the upper bits
*9880d681SAndroid Build Coastguard Worker        // are all zero.
*9880d681SAndroid Build Coastguard Worker        if (LHSKnownZero[BitWidth-1] || ((LHSKnownZero & LowBits) == LowBits))
*9880d681SAndroid Build Coastguard Worker          KnownZero |= ~LowBits;
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker        // If LHS is negative and not all low bits are zero, then the upper bits
*9880d681SAndroid Build Coastguard Worker        // are all one.
*9880d681SAndroid Build Coastguard Worker        if (LHSKnownOne[BitWidth-1] && ((LHSKnownOne & LowBits) != 0))
*9880d681SAndroid Build Coastguard Worker          KnownOne |= ~LowBits;
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker        assert(!(KnownZero & KnownOne) && "Bits known to be one AND zero?");
*9880d681SAndroid Build Coastguard Worker      }
*9880d681SAndroid Build Coastguard Worker    }
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker    // The sign bit is the LHS's sign bit, except when the result of the
*9880d681SAndroid Build Coastguard Worker    // remainder is zero.
*9880d681SAndroid Build Coastguard Worker    if (DemandedMask.isNegative() && KnownZero.isNonNegative()) {
*9880d681SAndroid Build Coastguard Worker      APInt LHSKnownZero(BitWidth, 0), LHSKnownOne(BitWidth, 0);
*9880d681SAndroid Build Coastguard Worker      computeKnownBits(I->getOperand(0), LHSKnownZero, LHSKnownOne, Depth + 1,
*9880d681SAndroid Build Coastguard Worker                       CxtI);
*9880d681SAndroid Build Coastguard Worker      // If it's known zero, our sign bit is also zero.
*9880d681SAndroid Build Coastguard Worker      if (LHSKnownZero.isNegative())
*9880d681SAndroid Build Coastguard Worker        KnownZero.setBit(KnownZero.getBitWidth() - 1);
*9880d681SAndroid Build Coastguard Worker    }
*9880d681SAndroid Build Coastguard Worker    break;
*9880d681SAndroid Build Coastguard Worker  case Instruction::URem: {
*9880d681SAndroid Build Coastguard Worker    APInt KnownZero2(BitWidth, 0), KnownOne2(BitWidth, 0);
*9880d681SAndroid Build Coastguard Worker    APInt AllOnes = APInt::getAllOnesValue(BitWidth);
*9880d681SAndroid Build Coastguard Worker    if (SimplifyDemandedBits(I->getOperandUse(0), AllOnes, KnownZero2,
*9880d681SAndroid Build Coastguard Worker                             KnownOne2, Depth + 1) ||
*9880d681SAndroid Build Coastguard Worker        SimplifyDemandedBits(I->getOperandUse(1), AllOnes, KnownZero2,
*9880d681SAndroid Build Coastguard Worker                             KnownOne2, Depth + 1))
*9880d681SAndroid Build Coastguard Worker      return I;
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker    unsigned Leaders = KnownZero2.countLeadingOnes();
*9880d681SAndroid Build Coastguard Worker    Leaders = std::max(Leaders,
*9880d681SAndroid Build Coastguard Worker                       KnownZero2.countLeadingOnes());
*9880d681SAndroid Build Coastguard Worker    KnownZero = APInt::getHighBitsSet(BitWidth, Leaders) & DemandedMask;
*9880d681SAndroid Build Coastguard Worker    break;
*9880d681SAndroid Build Coastguard Worker  }
*9880d681SAndroid Build Coastguard Worker  case Instruction::Call:
*9880d681SAndroid Build Coastguard Worker    if (IntrinsicInst *II = dyn_cast<IntrinsicInst>(I)) {
*9880d681SAndroid Build Coastguard Worker      switch (II->getIntrinsicID()) {
*9880d681SAndroid Build Coastguard Worker      default: break;
*9880d681SAndroid Build Coastguard Worker      case Intrinsic::bswap: {
*9880d681SAndroid Build Coastguard Worker        // If the only bits demanded come from one byte of the bswap result,
*9880d681SAndroid Build Coastguard Worker        // just shift the input byte into position to eliminate the bswap.
*9880d681SAndroid Build Coastguard Worker        unsigned NLZ = DemandedMask.countLeadingZeros();
*9880d681SAndroid Build Coastguard Worker        unsigned NTZ = DemandedMask.countTrailingZeros();
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker        // Round NTZ down to the next byte.  If we have 11 trailing zeros, then
*9880d681SAndroid Build Coastguard Worker        // we need all the bits down to bit 8.  Likewise, round NLZ.  If we
*9880d681SAndroid Build Coastguard Worker        // have 14 leading zeros, round to 8.
*9880d681SAndroid Build Coastguard Worker        NLZ &= ~7;
*9880d681SAndroid Build Coastguard Worker        NTZ &= ~7;
*9880d681SAndroid Build Coastguard Worker        // If we need exactly one byte, we can do this transformation.
*9880d681SAndroid Build Coastguard Worker        if (BitWidth-NLZ-NTZ == 8) {
*9880d681SAndroid Build Coastguard Worker          unsigned ResultBit = NTZ;
*9880d681SAndroid Build Coastguard Worker          unsigned InputBit = BitWidth-NTZ-8;
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker          // Replace this with either a left or right shift to get the byte into
*9880d681SAndroid Build Coastguard Worker          // the right place.
*9880d681SAndroid Build Coastguard Worker          Instruction *NewVal;
*9880d681SAndroid Build Coastguard Worker          if (InputBit > ResultBit)
*9880d681SAndroid Build Coastguard Worker            NewVal = BinaryOperator::CreateLShr(II->getArgOperand(0),
*9880d681SAndroid Build Coastguard Worker                    ConstantInt::get(I->getType(), InputBit-ResultBit));
*9880d681SAndroid Build Coastguard Worker          else
*9880d681SAndroid Build Coastguard Worker            NewVal = BinaryOperator::CreateShl(II->getArgOperand(0),
*9880d681SAndroid Build Coastguard Worker                    ConstantInt::get(I->getType(), ResultBit-InputBit));
*9880d681SAndroid Build Coastguard Worker          NewVal->takeName(I);
*9880d681SAndroid Build Coastguard Worker          return InsertNewInstWith(NewVal, *I);
*9880d681SAndroid Build Coastguard Worker        }
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker        // TODO: Could compute known zero/one bits based on the input.
*9880d681SAndroid Build Coastguard Worker        break;
*9880d681SAndroid Build Coastguard Worker      }
*9880d681SAndroid Build Coastguard Worker      case Intrinsic::x86_mmx_pmovmskb:
*9880d681SAndroid Build Coastguard Worker      case Intrinsic::x86_sse_movmsk_ps:
*9880d681SAndroid Build Coastguard Worker      case Intrinsic::x86_sse2_movmsk_pd:
*9880d681SAndroid Build Coastguard Worker      case Intrinsic::x86_sse2_pmovmskb_128:
*9880d681SAndroid Build Coastguard Worker      case Intrinsic::x86_avx_movmsk_ps_256:
*9880d681SAndroid Build Coastguard Worker      case Intrinsic::x86_avx_movmsk_pd_256:
*9880d681SAndroid Build Coastguard Worker      case Intrinsic::x86_avx2_pmovmskb: {
*9880d681SAndroid Build Coastguard Worker        // MOVMSK copies the vector elements' sign bits to the low bits
*9880d681SAndroid Build Coastguard Worker        // and zeros the high bits.
*9880d681SAndroid Build Coastguard Worker        unsigned ArgWidth;
*9880d681SAndroid Build Coastguard Worker        if (II->getIntrinsicID() == Intrinsic::x86_mmx_pmovmskb) {
*9880d681SAndroid Build Coastguard Worker          ArgWidth = 8; // Arg is x86_mmx, but treated as <8 x i8>.
*9880d681SAndroid Build Coastguard Worker        } else {
*9880d681SAndroid Build Coastguard Worker          auto Arg = II->getArgOperand(0);
*9880d681SAndroid Build Coastguard Worker          auto ArgType = cast<VectorType>(Arg->getType());
*9880d681SAndroid Build Coastguard Worker          ArgWidth = ArgType->getNumElements();
*9880d681SAndroid Build Coastguard Worker        }
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker        // If we don't need any of low bits then return zero,
*9880d681SAndroid Build Coastguard Worker        // we know that DemandedMask is non-zero already.
*9880d681SAndroid Build Coastguard Worker        APInt DemandedElts = DemandedMask.zextOrTrunc(ArgWidth);
*9880d681SAndroid Build Coastguard Worker        if (DemandedElts == 0)
*9880d681SAndroid Build Coastguard Worker          return ConstantInt::getNullValue(VTy);
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker        // We know that the upper bits are set to zero.
*9880d681SAndroid Build Coastguard Worker        KnownZero = APInt::getHighBitsSet(BitWidth, BitWidth - ArgWidth);
*9880d681SAndroid Build Coastguard Worker        return nullptr;
*9880d681SAndroid Build Coastguard Worker      }
*9880d681SAndroid Build Coastguard Worker      case Intrinsic::x86_sse42_crc32_64_64:
*9880d681SAndroid Build Coastguard Worker        KnownZero = APInt::getHighBitsSet(64, 32);
*9880d681SAndroid Build Coastguard Worker        return nullptr;
*9880d681SAndroid Build Coastguard Worker      }
*9880d681SAndroid Build Coastguard Worker    }
*9880d681SAndroid Build Coastguard Worker    computeKnownBits(V, KnownZero, KnownOne, Depth, CxtI);
*9880d681SAndroid Build Coastguard Worker    break;
*9880d681SAndroid Build Coastguard Worker  }
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker  // If the client is only demanding bits that we know, return the known
*9880d681SAndroid Build Coastguard Worker  // constant.
*9880d681SAndroid Build Coastguard Worker  if ((DemandedMask & (KnownZero|KnownOne)) == DemandedMask)
*9880d681SAndroid Build Coastguard Worker    return Constant::getIntegerValue(VTy, KnownOne);
*9880d681SAndroid Build Coastguard Worker  return nullptr;
*9880d681SAndroid Build Coastguard Worker}
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker/// Helper routine of SimplifyDemandedUseBits. It tries to simplify
*9880d681SAndroid Build Coastguard Worker/// "E1 = (X lsr C1) << C2", where the C1 and C2 are constant, into
*9880d681SAndroid Build Coastguard Worker/// "E2 = X << (C2 - C1)" or "E2 = X >> (C1 - C2)", depending on the sign
*9880d681SAndroid Build Coastguard Worker/// of "C2-C1".
*9880d681SAndroid Build Coastguard Worker///
*9880d681SAndroid Build Coastguard Worker/// Suppose E1 and E2 are generally different in bits S={bm, bm+1,
*9880d681SAndroid Build Coastguard Worker/// ..., bn}, without considering the specific value X is holding.
*9880d681SAndroid Build Coastguard Worker/// This transformation is legal iff one of following conditions is hold:
*9880d681SAndroid Build Coastguard Worker///  1) All the bit in S are 0, in this case E1 == E2.
*9880d681SAndroid Build Coastguard Worker///  2) We don't care those bits in S, per the input DemandedMask.
*9880d681SAndroid Build Coastguard Worker///  3) Combination of 1) and 2). Some bits in S are 0, and we don't care the
*9880d681SAndroid Build Coastguard Worker///     rest bits.
*9880d681SAndroid Build Coastguard Worker///
*9880d681SAndroid Build Coastguard Worker/// Currently we only test condition 2).
*9880d681SAndroid Build Coastguard Worker///
*9880d681SAndroid Build Coastguard Worker/// As with SimplifyDemandedUseBits, it returns NULL if the simplification was
*9880d681SAndroid Build Coastguard Worker/// not successful.
*9880d681SAndroid Build Coastguard WorkerValue *InstCombiner::SimplifyShrShlDemandedBits(Instruction *Shr,
*9880d681SAndroid Build Coastguard Worker                                                Instruction *Shl,
*9880d681SAndroid Build Coastguard Worker                                                const APInt &DemandedMask,
*9880d681SAndroid Build Coastguard Worker                                                APInt &KnownZero,
*9880d681SAndroid Build Coastguard Worker                                                APInt &KnownOne) {
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker  const APInt &ShlOp1 = cast<ConstantInt>(Shl->getOperand(1))->getValue();
*9880d681SAndroid Build Coastguard Worker  const APInt &ShrOp1 = cast<ConstantInt>(Shr->getOperand(1))->getValue();
*9880d681SAndroid Build Coastguard Worker  if (!ShlOp1 || !ShrOp1)
*9880d681SAndroid Build Coastguard Worker      return nullptr; // Noop.
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker  Value *VarX = Shr->getOperand(0);
*9880d681SAndroid Build Coastguard Worker  Type *Ty = VarX->getType();
*9880d681SAndroid Build Coastguard Worker  unsigned BitWidth = Ty->getIntegerBitWidth();
*9880d681SAndroid Build Coastguard Worker  if (ShlOp1.uge(BitWidth) || ShrOp1.uge(BitWidth))
*9880d681SAndroid Build Coastguard Worker    return nullptr; // Undef.
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker  unsigned ShlAmt = ShlOp1.getZExtValue();
*9880d681SAndroid Build Coastguard Worker  unsigned ShrAmt = ShrOp1.getZExtValue();
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker  KnownOne.clearAllBits();
*9880d681SAndroid Build Coastguard Worker  KnownZero = APInt::getBitsSet(KnownZero.getBitWidth(), 0, ShlAmt-1);
*9880d681SAndroid Build Coastguard Worker  KnownZero &= DemandedMask;
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker  APInt BitMask1(APInt::getAllOnesValue(BitWidth));
*9880d681SAndroid Build Coastguard Worker  APInt BitMask2(APInt::getAllOnesValue(BitWidth));
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker  bool isLshr = (Shr->getOpcode() == Instruction::LShr);
*9880d681SAndroid Build Coastguard Worker  BitMask1 = isLshr ? (BitMask1.lshr(ShrAmt) << ShlAmt) :
*9880d681SAndroid Build Coastguard Worker                      (BitMask1.ashr(ShrAmt) << ShlAmt);
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker  if (ShrAmt <= ShlAmt) {
*9880d681SAndroid Build Coastguard Worker    BitMask2 <<= (ShlAmt - ShrAmt);
*9880d681SAndroid Build Coastguard Worker  } else {
*9880d681SAndroid Build Coastguard Worker    BitMask2 = isLshr ? BitMask2.lshr(ShrAmt - ShlAmt):
*9880d681SAndroid Build Coastguard Worker                        BitMask2.ashr(ShrAmt - ShlAmt);
*9880d681SAndroid Build Coastguard Worker  }
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker  // Check if condition-2 (see the comment to this function) is satified.
*9880d681SAndroid Build Coastguard Worker  if ((BitMask1 & DemandedMask) == (BitMask2 & DemandedMask)) {
*9880d681SAndroid Build Coastguard Worker    if (ShrAmt == ShlAmt)
*9880d681SAndroid Build Coastguard Worker      return VarX;
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker    if (!Shr->hasOneUse())
*9880d681SAndroid Build Coastguard Worker      return nullptr;
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker    BinaryOperator *New;
*9880d681SAndroid Build Coastguard Worker    if (ShrAmt < ShlAmt) {
*9880d681SAndroid Build Coastguard Worker      Constant *Amt = ConstantInt::get(VarX->getType(), ShlAmt - ShrAmt);
*9880d681SAndroid Build Coastguard Worker      New = BinaryOperator::CreateShl(VarX, Amt);
*9880d681SAndroid Build Coastguard Worker      BinaryOperator *Orig = cast<BinaryOperator>(Shl);
*9880d681SAndroid Build Coastguard Worker      New->setHasNoSignedWrap(Orig->hasNoSignedWrap());
*9880d681SAndroid Build Coastguard Worker      New->setHasNoUnsignedWrap(Orig->hasNoUnsignedWrap());
*9880d681SAndroid Build Coastguard Worker    } else {
*9880d681SAndroid Build Coastguard Worker      Constant *Amt = ConstantInt::get(VarX->getType(), ShrAmt - ShlAmt);
*9880d681SAndroid Build Coastguard Worker      New = isLshr ? BinaryOperator::CreateLShr(VarX, Amt) :
*9880d681SAndroid Build Coastguard Worker                     BinaryOperator::CreateAShr(VarX, Amt);
*9880d681SAndroid Build Coastguard Worker      if (cast<BinaryOperator>(Shr)->isExact())
*9880d681SAndroid Build Coastguard Worker        New->setIsExact(true);
*9880d681SAndroid Build Coastguard Worker    }
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker    return InsertNewInstWith(New, *Shl);
*9880d681SAndroid Build Coastguard Worker  }
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker  return nullptr;
*9880d681SAndroid Build Coastguard Worker}
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker/// The specified value produces a vector with any number of elements.
*9880d681SAndroid Build Coastguard Worker/// DemandedElts contains the set of elements that are actually used by the
*9880d681SAndroid Build Coastguard Worker/// caller. This method analyzes which elements of the operand are undef and
*9880d681SAndroid Build Coastguard Worker/// returns that information in UndefElts.
*9880d681SAndroid Build Coastguard Worker///
*9880d681SAndroid Build Coastguard Worker/// If the information about demanded elements can be used to simplify the
*9880d681SAndroid Build Coastguard Worker/// operation, the operation is simplified, then the resultant value is
*9880d681SAndroid Build Coastguard Worker/// returned.  This returns null if no change was made.
*9880d681SAndroid Build Coastguard WorkerValue *InstCombiner::SimplifyDemandedVectorElts(Value *V, APInt DemandedElts,
*9880d681SAndroid Build Coastguard Worker                                                APInt &UndefElts,
*9880d681SAndroid Build Coastguard Worker                                                unsigned Depth) {
*9880d681SAndroid Build Coastguard Worker  unsigned VWidth = V->getType()->getVectorNumElements();
*9880d681SAndroid Build Coastguard Worker  APInt EltMask(APInt::getAllOnesValue(VWidth));
*9880d681SAndroid Build Coastguard Worker  assert((DemandedElts & ~EltMask) == 0 && "Invalid DemandedElts!");
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker  if (isa<UndefValue>(V)) {
*9880d681SAndroid Build Coastguard Worker    // If the entire vector is undefined, just return this info.
*9880d681SAndroid Build Coastguard Worker    UndefElts = EltMask;
*9880d681SAndroid Build Coastguard Worker    return nullptr;
*9880d681SAndroid Build Coastguard Worker  }
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker  if (DemandedElts == 0) { // If nothing is demanded, provide undef.
*9880d681SAndroid Build Coastguard Worker    UndefElts = EltMask;
*9880d681SAndroid Build Coastguard Worker    return UndefValue::get(V->getType());
*9880d681SAndroid Build Coastguard Worker  }
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker  UndefElts = 0;
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker  // Handle ConstantAggregateZero, ConstantVector, ConstantDataSequential.
*9880d681SAndroid Build Coastguard Worker  if (Constant *C = dyn_cast<Constant>(V)) {
*9880d681SAndroid Build Coastguard Worker    // Check if this is identity. If so, return 0 since we are not simplifying
*9880d681SAndroid Build Coastguard Worker    // anything.
*9880d681SAndroid Build Coastguard Worker    if (DemandedElts.isAllOnesValue())
*9880d681SAndroid Build Coastguard Worker      return nullptr;
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker    Type *EltTy = cast<VectorType>(V->getType())->getElementType();
*9880d681SAndroid Build Coastguard Worker    Constant *Undef = UndefValue::get(EltTy);
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker    SmallVector<Constant*, 16> Elts;
*9880d681SAndroid Build Coastguard Worker    for (unsigned i = 0; i != VWidth; ++i) {
*9880d681SAndroid Build Coastguard Worker      if (!DemandedElts[i]) {   // If not demanded, set to undef.
*9880d681SAndroid Build Coastguard Worker        Elts.push_back(Undef);
*9880d681SAndroid Build Coastguard Worker        UndefElts.setBit(i);
*9880d681SAndroid Build Coastguard Worker        continue;
*9880d681SAndroid Build Coastguard Worker      }
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker      Constant *Elt = C->getAggregateElement(i);
*9880d681SAndroid Build Coastguard Worker      if (!Elt) return nullptr;
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker      if (isa<UndefValue>(Elt)) {   // Already undef.
*9880d681SAndroid Build Coastguard Worker        Elts.push_back(Undef);
*9880d681SAndroid Build Coastguard Worker        UndefElts.setBit(i);
*9880d681SAndroid Build Coastguard Worker      } else {                               // Otherwise, defined.
*9880d681SAndroid Build Coastguard Worker        Elts.push_back(Elt);
*9880d681SAndroid Build Coastguard Worker      }
*9880d681SAndroid Build Coastguard Worker    }
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker    // If we changed the constant, return it.
*9880d681SAndroid Build Coastguard Worker    Constant *NewCV = ConstantVector::get(Elts);
*9880d681SAndroid Build Coastguard Worker    return NewCV != C ? NewCV : nullptr;
*9880d681SAndroid Build Coastguard Worker  }
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker  // Limit search depth.
*9880d681SAndroid Build Coastguard Worker  if (Depth == 10)
*9880d681SAndroid Build Coastguard Worker    return nullptr;
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker  // If multiple users are using the root value, proceed with
*9880d681SAndroid Build Coastguard Worker  // simplification conservatively assuming that all elements
*9880d681SAndroid Build Coastguard Worker  // are needed.
*9880d681SAndroid Build Coastguard Worker  if (!V->hasOneUse()) {
*9880d681SAndroid Build Coastguard Worker    // Quit if we find multiple users of a non-root value though.
*9880d681SAndroid Build Coastguard Worker    // They'll be handled when it's their turn to be visited by
*9880d681SAndroid Build Coastguard Worker    // the main instcombine process.
*9880d681SAndroid Build Coastguard Worker    if (Depth != 0)
*9880d681SAndroid Build Coastguard Worker      // TODO: Just compute the UndefElts information recursively.
*9880d681SAndroid Build Coastguard Worker      return nullptr;
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker    // Conservatively assume that all elements are needed.
*9880d681SAndroid Build Coastguard Worker    DemandedElts = EltMask;
*9880d681SAndroid Build Coastguard Worker  }
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker  Instruction *I = dyn_cast<Instruction>(V);
*9880d681SAndroid Build Coastguard Worker  if (!I) return nullptr;        // Only analyze instructions.
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker  bool MadeChange = false;
*9880d681SAndroid Build Coastguard Worker  APInt UndefElts2(VWidth, 0);
*9880d681SAndroid Build Coastguard Worker  Value *TmpV;
*9880d681SAndroid Build Coastguard Worker  switch (I->getOpcode()) {
*9880d681SAndroid Build Coastguard Worker  default: break;
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker  case Instruction::InsertElement: {
*9880d681SAndroid Build Coastguard Worker    // If this is a variable index, we don't know which element it overwrites.
*9880d681SAndroid Build Coastguard Worker    // demand exactly the same input as we produce.
*9880d681SAndroid Build Coastguard Worker    ConstantInt *Idx = dyn_cast<ConstantInt>(I->getOperand(2));
*9880d681SAndroid Build Coastguard Worker    if (!Idx) {
*9880d681SAndroid Build Coastguard Worker      // Note that we can't propagate undef elt info, because we don't know
*9880d681SAndroid Build Coastguard Worker      // which elt is getting updated.
*9880d681SAndroid Build Coastguard Worker      TmpV = SimplifyDemandedVectorElts(I->getOperand(0), DemandedElts,
*9880d681SAndroid Build Coastguard Worker                                        UndefElts2, Depth + 1);
*9880d681SAndroid Build Coastguard Worker      if (TmpV) { I->setOperand(0, TmpV); MadeChange = true; }
*9880d681SAndroid Build Coastguard Worker      break;
*9880d681SAndroid Build Coastguard Worker    }
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker    // If this is inserting an element that isn't demanded, remove this
*9880d681SAndroid Build Coastguard Worker    // insertelement.
*9880d681SAndroid Build Coastguard Worker    unsigned IdxNo = Idx->getZExtValue();
*9880d681SAndroid Build Coastguard Worker    if (IdxNo >= VWidth || !DemandedElts[IdxNo]) {
*9880d681SAndroid Build Coastguard Worker      Worklist.Add(I);
*9880d681SAndroid Build Coastguard Worker      return I->getOperand(0);
*9880d681SAndroid Build Coastguard Worker    }
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker    // Otherwise, the element inserted overwrites whatever was there, so the
*9880d681SAndroid Build Coastguard Worker    // input demanded set is simpler than the output set.
*9880d681SAndroid Build Coastguard Worker    APInt DemandedElts2 = DemandedElts;
*9880d681SAndroid Build Coastguard Worker    DemandedElts2.clearBit(IdxNo);
*9880d681SAndroid Build Coastguard Worker    TmpV = SimplifyDemandedVectorElts(I->getOperand(0), DemandedElts2,
*9880d681SAndroid Build Coastguard Worker                                      UndefElts, Depth + 1);
*9880d681SAndroid Build Coastguard Worker    if (TmpV) { I->setOperand(0, TmpV); MadeChange = true; }
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker    // The inserted element is defined.
*9880d681SAndroid Build Coastguard Worker    UndefElts.clearBit(IdxNo);
*9880d681SAndroid Build Coastguard Worker    break;
*9880d681SAndroid Build Coastguard Worker  }
*9880d681SAndroid Build Coastguard Worker  case Instruction::ShuffleVector: {
*9880d681SAndroid Build Coastguard Worker    ShuffleVectorInst *Shuffle = cast<ShuffleVectorInst>(I);
*9880d681SAndroid Build Coastguard Worker    uint64_t LHSVWidth =
*9880d681SAndroid Build Coastguard Worker      cast<VectorType>(Shuffle->getOperand(0)->getType())->getNumElements();
*9880d681SAndroid Build Coastguard Worker    APInt LeftDemanded(LHSVWidth, 0), RightDemanded(LHSVWidth, 0);
*9880d681SAndroid Build Coastguard Worker    for (unsigned i = 0; i < VWidth; i++) {
*9880d681SAndroid Build Coastguard Worker      if (DemandedElts[i]) {
*9880d681SAndroid Build Coastguard Worker        unsigned MaskVal = Shuffle->getMaskValue(i);
*9880d681SAndroid Build Coastguard Worker        if (MaskVal != -1u) {
*9880d681SAndroid Build Coastguard Worker          assert(MaskVal < LHSVWidth * 2 &&
*9880d681SAndroid Build Coastguard Worker                 "shufflevector mask index out of range!");
*9880d681SAndroid Build Coastguard Worker          if (MaskVal < LHSVWidth)
*9880d681SAndroid Build Coastguard Worker            LeftDemanded.setBit(MaskVal);
*9880d681SAndroid Build Coastguard Worker          else
*9880d681SAndroid Build Coastguard Worker            RightDemanded.setBit(MaskVal - LHSVWidth);
*9880d681SAndroid Build Coastguard Worker        }
*9880d681SAndroid Build Coastguard Worker      }
*9880d681SAndroid Build Coastguard Worker    }
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker    APInt UndefElts4(LHSVWidth, 0);
*9880d681SAndroid Build Coastguard Worker    TmpV = SimplifyDemandedVectorElts(I->getOperand(0), LeftDemanded,
*9880d681SAndroid Build Coastguard Worker                                      UndefElts4, Depth + 1);
*9880d681SAndroid Build Coastguard Worker    if (TmpV) { I->setOperand(0, TmpV); MadeChange = true; }
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker    APInt UndefElts3(LHSVWidth, 0);
*9880d681SAndroid Build Coastguard Worker    TmpV = SimplifyDemandedVectorElts(I->getOperand(1), RightDemanded,
*9880d681SAndroid Build Coastguard Worker                                      UndefElts3, Depth + 1);
*9880d681SAndroid Build Coastguard Worker    if (TmpV) { I->setOperand(1, TmpV); MadeChange = true; }
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker    bool NewUndefElts = false;
*9880d681SAndroid Build Coastguard Worker    for (unsigned i = 0; i < VWidth; i++) {
*9880d681SAndroid Build Coastguard Worker      unsigned MaskVal = Shuffle->getMaskValue(i);
*9880d681SAndroid Build Coastguard Worker      if (MaskVal == -1u) {
*9880d681SAndroid Build Coastguard Worker        UndefElts.setBit(i);
*9880d681SAndroid Build Coastguard Worker      } else if (!DemandedElts[i]) {
*9880d681SAndroid Build Coastguard Worker        NewUndefElts = true;
*9880d681SAndroid Build Coastguard Worker        UndefElts.setBit(i);
*9880d681SAndroid Build Coastguard Worker      } else if (MaskVal < LHSVWidth) {
*9880d681SAndroid Build Coastguard Worker        if (UndefElts4[MaskVal]) {
*9880d681SAndroid Build Coastguard Worker          NewUndefElts = true;
*9880d681SAndroid Build Coastguard Worker          UndefElts.setBit(i);
*9880d681SAndroid Build Coastguard Worker        }
*9880d681SAndroid Build Coastguard Worker      } else {
*9880d681SAndroid Build Coastguard Worker        if (UndefElts3[MaskVal - LHSVWidth]) {
*9880d681SAndroid Build Coastguard Worker          NewUndefElts = true;
*9880d681SAndroid Build Coastguard Worker          UndefElts.setBit(i);
*9880d681SAndroid Build Coastguard Worker        }
*9880d681SAndroid Build Coastguard Worker      }
*9880d681SAndroid Build Coastguard Worker    }
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker    if (NewUndefElts) {
*9880d681SAndroid Build Coastguard Worker      // Add additional discovered undefs.
*9880d681SAndroid Build Coastguard Worker      SmallVector<Constant*, 16> Elts;
*9880d681SAndroid Build Coastguard Worker      for (unsigned i = 0; i < VWidth; ++i) {
*9880d681SAndroid Build Coastguard Worker        if (UndefElts[i])
*9880d681SAndroid Build Coastguard Worker          Elts.push_back(UndefValue::get(Type::getInt32Ty(I->getContext())));
*9880d681SAndroid Build Coastguard Worker        else
*9880d681SAndroid Build Coastguard Worker          Elts.push_back(ConstantInt::get(Type::getInt32Ty(I->getContext()),
*9880d681SAndroid Build Coastguard Worker                                          Shuffle->getMaskValue(i)));
*9880d681SAndroid Build Coastguard Worker      }
*9880d681SAndroid Build Coastguard Worker      I->setOperand(2, ConstantVector::get(Elts));
*9880d681SAndroid Build Coastguard Worker      MadeChange = true;
*9880d681SAndroid Build Coastguard Worker    }
*9880d681SAndroid Build Coastguard Worker    break;
*9880d681SAndroid Build Coastguard Worker  }
*9880d681SAndroid Build Coastguard Worker  case Instruction::Select: {
*9880d681SAndroid Build Coastguard Worker    APInt LeftDemanded(DemandedElts), RightDemanded(DemandedElts);
*9880d681SAndroid Build Coastguard Worker    if (ConstantVector* CV = dyn_cast<ConstantVector>(I->getOperand(0))) {
*9880d681SAndroid Build Coastguard Worker      for (unsigned i = 0; i < VWidth; i++) {
*9880d681SAndroid Build Coastguard Worker        Constant *CElt = CV->getAggregateElement(i);
*9880d681SAndroid Build Coastguard Worker        // Method isNullValue always returns false when called on a
*9880d681SAndroid Build Coastguard Worker        // ConstantExpr. If CElt is a ConstantExpr then skip it in order to
*9880d681SAndroid Build Coastguard Worker        // to avoid propagating incorrect information.
*9880d681SAndroid Build Coastguard Worker        if (isa<ConstantExpr>(CElt))
*9880d681SAndroid Build Coastguard Worker          continue;
*9880d681SAndroid Build Coastguard Worker        if (CElt->isNullValue())
*9880d681SAndroid Build Coastguard Worker          LeftDemanded.clearBit(i);
*9880d681SAndroid Build Coastguard Worker        else
*9880d681SAndroid Build Coastguard Worker          RightDemanded.clearBit(i);
*9880d681SAndroid Build Coastguard Worker      }
*9880d681SAndroid Build Coastguard Worker    }
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker    TmpV = SimplifyDemandedVectorElts(I->getOperand(1), LeftDemanded, UndefElts,
*9880d681SAndroid Build Coastguard Worker                                      Depth + 1);
*9880d681SAndroid Build Coastguard Worker    if (TmpV) { I->setOperand(1, TmpV); MadeChange = true; }
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker    TmpV = SimplifyDemandedVectorElts(I->getOperand(2), RightDemanded,
*9880d681SAndroid Build Coastguard Worker                                      UndefElts2, Depth + 1);
*9880d681SAndroid Build Coastguard Worker    if (TmpV) { I->setOperand(2, TmpV); MadeChange = true; }
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker    // Output elements are undefined if both are undefined.
*9880d681SAndroid Build Coastguard Worker    UndefElts &= UndefElts2;
*9880d681SAndroid Build Coastguard Worker    break;
*9880d681SAndroid Build Coastguard Worker  }
*9880d681SAndroid Build Coastguard Worker  case Instruction::BitCast: {
*9880d681SAndroid Build Coastguard Worker    // Vector->vector casts only.
*9880d681SAndroid Build Coastguard Worker    VectorType *VTy = dyn_cast<VectorType>(I->getOperand(0)->getType());
*9880d681SAndroid Build Coastguard Worker    if (!VTy) break;
*9880d681SAndroid Build Coastguard Worker    unsigned InVWidth = VTy->getNumElements();
*9880d681SAndroid Build Coastguard Worker    APInt InputDemandedElts(InVWidth, 0);
*9880d681SAndroid Build Coastguard Worker    UndefElts2 = APInt(InVWidth, 0);
*9880d681SAndroid Build Coastguard Worker    unsigned Ratio;
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker    if (VWidth == InVWidth) {
*9880d681SAndroid Build Coastguard Worker      // If we are converting from <4 x i32> -> <4 x f32>, we demand the same
*9880d681SAndroid Build Coastguard Worker      // elements as are demanded of us.
*9880d681SAndroid Build Coastguard Worker      Ratio = 1;
*9880d681SAndroid Build Coastguard Worker      InputDemandedElts = DemandedElts;
*9880d681SAndroid Build Coastguard Worker    } else if ((VWidth % InVWidth) == 0) {
*9880d681SAndroid Build Coastguard Worker      // If the number of elements in the output is a multiple of the number of
*9880d681SAndroid Build Coastguard Worker      // elements in the input then an input element is live if any of the
*9880d681SAndroid Build Coastguard Worker      // corresponding output elements are live.
*9880d681SAndroid Build Coastguard Worker      Ratio = VWidth / InVWidth;
*9880d681SAndroid Build Coastguard Worker      for (unsigned OutIdx = 0; OutIdx != VWidth; ++OutIdx)
*9880d681SAndroid Build Coastguard Worker        if (DemandedElts[OutIdx])
*9880d681SAndroid Build Coastguard Worker          InputDemandedElts.setBit(OutIdx / Ratio);
*9880d681SAndroid Build Coastguard Worker    } else if ((InVWidth % VWidth) == 0) {
*9880d681SAndroid Build Coastguard Worker      // If the number of elements in the input is a multiple of the number of
*9880d681SAndroid Build Coastguard Worker      // elements in the output then an input element is live if the
*9880d681SAndroid Build Coastguard Worker      // corresponding output element is live.
*9880d681SAndroid Build Coastguard Worker      Ratio = InVWidth / VWidth;
*9880d681SAndroid Build Coastguard Worker      for (unsigned InIdx = 0; InIdx != InVWidth; ++InIdx)
*9880d681SAndroid Build Coastguard Worker        if (DemandedElts[InIdx / Ratio])
*9880d681SAndroid Build Coastguard Worker          InputDemandedElts.setBit(InIdx);
*9880d681SAndroid Build Coastguard Worker    } else {
*9880d681SAndroid Build Coastguard Worker      // Unsupported so far.
*9880d681SAndroid Build Coastguard Worker      break;
*9880d681SAndroid Build Coastguard Worker    }
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker    // div/rem demand all inputs, because they don't want divide by zero.
*9880d681SAndroid Build Coastguard Worker    TmpV = SimplifyDemandedVectorElts(I->getOperand(0), InputDemandedElts,
*9880d681SAndroid Build Coastguard Worker                                      UndefElts2, Depth + 1);
*9880d681SAndroid Build Coastguard Worker    if (TmpV) {
*9880d681SAndroid Build Coastguard Worker      I->setOperand(0, TmpV);
*9880d681SAndroid Build Coastguard Worker      MadeChange = true;
*9880d681SAndroid Build Coastguard Worker    }
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker    if (VWidth == InVWidth) {
*9880d681SAndroid Build Coastguard Worker      UndefElts = UndefElts2;
*9880d681SAndroid Build Coastguard Worker    } else if ((VWidth % InVWidth) == 0) {
*9880d681SAndroid Build Coastguard Worker      // If the number of elements in the output is a multiple of the number of
*9880d681SAndroid Build Coastguard Worker      // elements in the input then an output element is undef if the
*9880d681SAndroid Build Coastguard Worker      // corresponding input element is undef.
*9880d681SAndroid Build Coastguard Worker      for (unsigned OutIdx = 0; OutIdx != VWidth; ++OutIdx)
*9880d681SAndroid Build Coastguard Worker        if (UndefElts2[OutIdx / Ratio])
*9880d681SAndroid Build Coastguard Worker          UndefElts.setBit(OutIdx);
*9880d681SAndroid Build Coastguard Worker    } else if ((InVWidth % VWidth) == 0) {
*9880d681SAndroid Build Coastguard Worker      // If the number of elements in the input is a multiple of the number of
*9880d681SAndroid Build Coastguard Worker      // elements in the output then an output element is undef if all of the
*9880d681SAndroid Build Coastguard Worker      // corresponding input elements are undef.
*9880d681SAndroid Build Coastguard Worker      for (unsigned OutIdx = 0; OutIdx != VWidth; ++OutIdx) {
*9880d681SAndroid Build Coastguard Worker        APInt SubUndef = UndefElts2.lshr(OutIdx * Ratio).zextOrTrunc(Ratio);
*9880d681SAndroid Build Coastguard Worker        if (SubUndef.countPopulation() == Ratio)
*9880d681SAndroid Build Coastguard Worker          UndefElts.setBit(OutIdx);
*9880d681SAndroid Build Coastguard Worker      }
*9880d681SAndroid Build Coastguard Worker    } else {
*9880d681SAndroid Build Coastguard Worker      llvm_unreachable("Unimp");
*9880d681SAndroid Build Coastguard Worker    }
*9880d681SAndroid Build Coastguard Worker    break;
*9880d681SAndroid Build Coastguard Worker  }
*9880d681SAndroid Build Coastguard Worker  case Instruction::And:
*9880d681SAndroid Build Coastguard Worker  case Instruction::Or:
*9880d681SAndroid Build Coastguard Worker  case Instruction::Xor:
*9880d681SAndroid Build Coastguard Worker  case Instruction::Add:
*9880d681SAndroid Build Coastguard Worker  case Instruction::Sub:
*9880d681SAndroid Build Coastguard Worker  case Instruction::Mul:
*9880d681SAndroid Build Coastguard Worker    // div/rem demand all inputs, because they don't want divide by zero.
*9880d681SAndroid Build Coastguard Worker    TmpV = SimplifyDemandedVectorElts(I->getOperand(0), DemandedElts, UndefElts,
*9880d681SAndroid Build Coastguard Worker                                      Depth + 1);
*9880d681SAndroid Build Coastguard Worker    if (TmpV) { I->setOperand(0, TmpV); MadeChange = true; }
*9880d681SAndroid Build Coastguard Worker    TmpV = SimplifyDemandedVectorElts(I->getOperand(1), DemandedElts,
*9880d681SAndroid Build Coastguard Worker                                      UndefElts2, Depth + 1);
*9880d681SAndroid Build Coastguard Worker    if (TmpV) { I->setOperand(1, TmpV); MadeChange = true; }
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker    // Output elements are undefined if both are undefined.  Consider things
*9880d681SAndroid Build Coastguard Worker    // like undef&0.  The result is known zero, not undef.
*9880d681SAndroid Build Coastguard Worker    UndefElts &= UndefElts2;
*9880d681SAndroid Build Coastguard Worker    break;
*9880d681SAndroid Build Coastguard Worker  case Instruction::FPTrunc:
*9880d681SAndroid Build Coastguard Worker  case Instruction::FPExt:
*9880d681SAndroid Build Coastguard Worker    TmpV = SimplifyDemandedVectorElts(I->getOperand(0), DemandedElts, UndefElts,
*9880d681SAndroid Build Coastguard Worker                                      Depth + 1);
*9880d681SAndroid Build Coastguard Worker    if (TmpV) { I->setOperand(0, TmpV); MadeChange = true; }
*9880d681SAndroid Build Coastguard Worker    break;
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker  case Instruction::Call: {
*9880d681SAndroid Build Coastguard Worker    IntrinsicInst *II = dyn_cast<IntrinsicInst>(I);
*9880d681SAndroid Build Coastguard Worker    if (!II) break;
*9880d681SAndroid Build Coastguard Worker    switch (II->getIntrinsicID()) {
*9880d681SAndroid Build Coastguard Worker    default: break;
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker    // Unary scalar-as-vector operations that work column-wise.
*9880d681SAndroid Build Coastguard Worker    case Intrinsic::x86_sse_rcp_ss:
*9880d681SAndroid Build Coastguard Worker    case Intrinsic::x86_sse_rsqrt_ss:
*9880d681SAndroid Build Coastguard Worker    case Intrinsic::x86_sse_sqrt_ss:
*9880d681SAndroid Build Coastguard Worker    case Intrinsic::x86_sse2_sqrt_sd:
*9880d681SAndroid Build Coastguard Worker    case Intrinsic::x86_xop_vfrcz_ss:
*9880d681SAndroid Build Coastguard Worker    case Intrinsic::x86_xop_vfrcz_sd:
*9880d681SAndroid Build Coastguard Worker      TmpV = SimplifyDemandedVectorElts(II->getArgOperand(0), DemandedElts,
*9880d681SAndroid Build Coastguard Worker                                        UndefElts, Depth + 1);
*9880d681SAndroid Build Coastguard Worker      if (TmpV) { II->setArgOperand(0, TmpV); MadeChange = true; }
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker      // If lowest element of a scalar op isn't used then use Arg0.
*9880d681SAndroid Build Coastguard Worker      if (DemandedElts.getLoBits(1) != 1)
*9880d681SAndroid Build Coastguard Worker        return II->getArgOperand(0);
*9880d681SAndroid Build Coastguard Worker      // TODO: If only low elt lower SQRT to FSQRT (with rounding/exceptions
*9880d681SAndroid Build Coastguard Worker      // checks).
*9880d681SAndroid Build Coastguard Worker      break;
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker    // Binary scalar-as-vector operations that work column-wise.  A dest element
*9880d681SAndroid Build Coastguard Worker    // is a function of the corresponding input elements from the two inputs.
*9880d681SAndroid Build Coastguard Worker    case Intrinsic::x86_sse_add_ss:
*9880d681SAndroid Build Coastguard Worker    case Intrinsic::x86_sse_sub_ss:
*9880d681SAndroid Build Coastguard Worker    case Intrinsic::x86_sse_mul_ss:
*9880d681SAndroid Build Coastguard Worker    case Intrinsic::x86_sse_div_ss:
*9880d681SAndroid Build Coastguard Worker    case Intrinsic::x86_sse_min_ss:
*9880d681SAndroid Build Coastguard Worker    case Intrinsic::x86_sse_max_ss:
*9880d681SAndroid Build Coastguard Worker    case Intrinsic::x86_sse_cmp_ss:
*9880d681SAndroid Build Coastguard Worker    case Intrinsic::x86_sse2_add_sd:
*9880d681SAndroid Build Coastguard Worker    case Intrinsic::x86_sse2_sub_sd:
*9880d681SAndroid Build Coastguard Worker    case Intrinsic::x86_sse2_mul_sd:
*9880d681SAndroid Build Coastguard Worker    case Intrinsic::x86_sse2_div_sd:
*9880d681SAndroid Build Coastguard Worker    case Intrinsic::x86_sse2_min_sd:
*9880d681SAndroid Build Coastguard Worker    case Intrinsic::x86_sse2_max_sd:
*9880d681SAndroid Build Coastguard Worker    case Intrinsic::x86_sse2_cmp_sd:
*9880d681SAndroid Build Coastguard Worker    case Intrinsic::x86_sse41_round_ss:
*9880d681SAndroid Build Coastguard Worker    case Intrinsic::x86_sse41_round_sd:
*9880d681SAndroid Build Coastguard Worker      TmpV = SimplifyDemandedVectorElts(II->getArgOperand(0), DemandedElts,
*9880d681SAndroid Build Coastguard Worker                                        UndefElts, Depth + 1);
*9880d681SAndroid Build Coastguard Worker      if (TmpV) { II->setArgOperand(0, TmpV); MadeChange = true; }
*9880d681SAndroid Build Coastguard Worker      TmpV = SimplifyDemandedVectorElts(II->getArgOperand(1), DemandedElts,
*9880d681SAndroid Build Coastguard Worker                                        UndefElts2, Depth + 1);
*9880d681SAndroid Build Coastguard Worker      if (TmpV) { II->setArgOperand(1, TmpV); MadeChange = true; }
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker      // If only the low elt is demanded and this is a scalarizable intrinsic,
*9880d681SAndroid Build Coastguard Worker      // scalarize it now.
*9880d681SAndroid Build Coastguard Worker      if (DemandedElts == 1) {
*9880d681SAndroid Build Coastguard Worker        switch (II->getIntrinsicID()) {
*9880d681SAndroid Build Coastguard Worker        default: break;
*9880d681SAndroid Build Coastguard Worker        case Intrinsic::x86_sse_add_ss:
*9880d681SAndroid Build Coastguard Worker        case Intrinsic::x86_sse_sub_ss:
*9880d681SAndroid Build Coastguard Worker        case Intrinsic::x86_sse_mul_ss:
*9880d681SAndroid Build Coastguard Worker        case Intrinsic::x86_sse_div_ss:
*9880d681SAndroid Build Coastguard Worker        case Intrinsic::x86_sse2_add_sd:
*9880d681SAndroid Build Coastguard Worker        case Intrinsic::x86_sse2_sub_sd:
*9880d681SAndroid Build Coastguard Worker        case Intrinsic::x86_sse2_mul_sd:
*9880d681SAndroid Build Coastguard Worker        case Intrinsic::x86_sse2_div_sd:
*9880d681SAndroid Build Coastguard Worker          // TODO: Lower MIN/MAX/etc.
*9880d681SAndroid Build Coastguard Worker          Value *LHS = II->getArgOperand(0);
*9880d681SAndroid Build Coastguard Worker          Value *RHS = II->getArgOperand(1);
*9880d681SAndroid Build Coastguard Worker          // Extract the element as scalars.
*9880d681SAndroid Build Coastguard Worker          LHS = InsertNewInstWith(ExtractElementInst::Create(LHS,
*9880d681SAndroid Build Coastguard Worker            ConstantInt::get(Type::getInt32Ty(I->getContext()), 0U)), *II);
*9880d681SAndroid Build Coastguard Worker          RHS = InsertNewInstWith(ExtractElementInst::Create(RHS,
*9880d681SAndroid Build Coastguard Worker            ConstantInt::get(Type::getInt32Ty(I->getContext()), 0U)), *II);
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker          switch (II->getIntrinsicID()) {
*9880d681SAndroid Build Coastguard Worker          default: llvm_unreachable("Case stmts out of sync!");
*9880d681SAndroid Build Coastguard Worker          case Intrinsic::x86_sse_add_ss:
*9880d681SAndroid Build Coastguard Worker          case Intrinsic::x86_sse2_add_sd:
*9880d681SAndroid Build Coastguard Worker            TmpV = InsertNewInstWith(BinaryOperator::CreateFAdd(LHS, RHS,
*9880d681SAndroid Build Coastguard Worker                                                        II->getName()), *II);
*9880d681SAndroid Build Coastguard Worker            break;
*9880d681SAndroid Build Coastguard Worker          case Intrinsic::x86_sse_sub_ss:
*9880d681SAndroid Build Coastguard Worker          case Intrinsic::x86_sse2_sub_sd:
*9880d681SAndroid Build Coastguard Worker            TmpV = InsertNewInstWith(BinaryOperator::CreateFSub(LHS, RHS,
*9880d681SAndroid Build Coastguard Worker                                                        II->getName()), *II);
*9880d681SAndroid Build Coastguard Worker            break;
*9880d681SAndroid Build Coastguard Worker          case Intrinsic::x86_sse_mul_ss:
*9880d681SAndroid Build Coastguard Worker          case Intrinsic::x86_sse2_mul_sd:
*9880d681SAndroid Build Coastguard Worker            TmpV = InsertNewInstWith(BinaryOperator::CreateFMul(LHS, RHS,
*9880d681SAndroid Build Coastguard Worker                                                         II->getName()), *II);
*9880d681SAndroid Build Coastguard Worker            break;
*9880d681SAndroid Build Coastguard Worker          case Intrinsic::x86_sse_div_ss:
*9880d681SAndroid Build Coastguard Worker          case Intrinsic::x86_sse2_div_sd:
*9880d681SAndroid Build Coastguard Worker            TmpV = InsertNewInstWith(BinaryOperator::CreateFDiv(LHS, RHS,
*9880d681SAndroid Build Coastguard Worker                                                         II->getName()), *II);
*9880d681SAndroid Build Coastguard Worker            break;
*9880d681SAndroid Build Coastguard Worker          }
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker          Instruction *New =
*9880d681SAndroid Build Coastguard Worker            InsertElementInst::Create(
*9880d681SAndroid Build Coastguard Worker              UndefValue::get(II->getType()), TmpV,
*9880d681SAndroid Build Coastguard Worker              ConstantInt::get(Type::getInt32Ty(I->getContext()), 0U, false),
*9880d681SAndroid Build Coastguard Worker                                      II->getName());
*9880d681SAndroid Build Coastguard Worker          InsertNewInstWith(New, *II);
*9880d681SAndroid Build Coastguard Worker          return New;
*9880d681SAndroid Build Coastguard Worker        }
*9880d681SAndroid Build Coastguard Worker      }
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker      // If lowest element of a scalar op isn't used then use Arg0.
*9880d681SAndroid Build Coastguard Worker      if (DemandedElts.getLoBits(1) != 1)
*9880d681SAndroid Build Coastguard Worker        return II->getArgOperand(0);
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker      // Output elements are undefined if both are undefined.  Consider things
*9880d681SAndroid Build Coastguard Worker      // like undef&0.  The result is known zero, not undef.
*9880d681SAndroid Build Coastguard Worker      UndefElts &= UndefElts2;
*9880d681SAndroid Build Coastguard Worker      break;
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker    // SSE4A instructions leave the upper 64-bits of the 128-bit result
*9880d681SAndroid Build Coastguard Worker    // in an undefined state.
*9880d681SAndroid Build Coastguard Worker    case Intrinsic::x86_sse4a_extrq:
*9880d681SAndroid Build Coastguard Worker    case Intrinsic::x86_sse4a_extrqi:
*9880d681SAndroid Build Coastguard Worker    case Intrinsic::x86_sse4a_insertq:
*9880d681SAndroid Build Coastguard Worker    case Intrinsic::x86_sse4a_insertqi:
*9880d681SAndroid Build Coastguard Worker      UndefElts |= APInt::getHighBitsSet(VWidth, VWidth / 2);
*9880d681SAndroid Build Coastguard Worker      break;
*9880d681SAndroid Build Coastguard Worker    }
*9880d681SAndroid Build Coastguard Worker    break;
*9880d681SAndroid Build Coastguard Worker  }
*9880d681SAndroid Build Coastguard Worker  }
*9880d681SAndroid Build Coastguard Worker  return MadeChange ? I : nullptr;
*9880d681SAndroid Build Coastguard Worker}