forked from OSchip/llvm-project
224 lines
8.4 KiB
C++
224 lines
8.4 KiB
C++
//===- HexagonMCInstrInfo.cpp - Hexagon sub-class of MCInst ---------------===//
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//
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// The LLVM Compiler Infrastructure
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//
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// This file is distributed under the University of Illinois Open Source
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// License. See LICENSE.TXT for details.
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//
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//===----------------------------------------------------------------------===//
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//
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// This class extends MCInstrInfo to allow Hexagon specific MCInstr queries
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//
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//===----------------------------------------------------------------------===//
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#include "HexagonMCInstrInfo.h"
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#include "HexagonBaseInfo.h"
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namespace llvm {
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void HexagonMCInstrInfo::AppendImplicitOperands(MCInst &MCI) {
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MCI.addOperand(MCOperand::CreateImm(0));
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MCI.addOperand(MCOperand::CreateInst(nullptr));
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}
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unsigned HexagonMCInstrInfo::getBitCount(MCInstrInfo const &MCII,
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MCInst const &MCI) {
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uint64_t const F = HexagonMCInstrInfo::getDesc(MCII, MCI).TSFlags;
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return ((F >> HexagonII::ExtentBitsPos) & HexagonII::ExtentBitsMask);
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}
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// Return constant extended operand number.
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unsigned short HexagonMCInstrInfo::getCExtOpNum(MCInstrInfo const &MCII,
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MCInst const &MCI) {
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const uint64_t F = HexagonMCInstrInfo::getDesc(MCII, MCI).TSFlags;
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return ((F >> HexagonII::ExtendableOpPos) & HexagonII::ExtendableOpMask);
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}
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MCInstrDesc const &HexagonMCInstrInfo::getDesc(MCInstrInfo const &MCII,
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MCInst const &MCI) {
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return (MCII.get(MCI.getOpcode()));
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}
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std::bitset<16> HexagonMCInstrInfo::GetImplicitBits(MCInst const &MCI) {
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SanityCheckImplicitOperands(MCI);
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std::bitset<16> Bits(MCI.getOperand(MCI.getNumOperands() - 2).getImm());
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return Bits;
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}
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// Return the max value that a constant extendable operand can have
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// without being extended.
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int HexagonMCInstrInfo::getMaxValue(MCInstrInfo const &MCII,
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MCInst const &MCI) {
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uint64_t const F = HexagonMCInstrInfo::getDesc(MCII, MCI).TSFlags;
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unsigned isSigned =
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(F >> HexagonII::ExtentSignedPos) & HexagonII::ExtentSignedMask;
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unsigned bits = (F >> HexagonII::ExtentBitsPos) & HexagonII::ExtentBitsMask;
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if (isSigned) // if value is signed
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return ~(-1U << (bits - 1));
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else
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return ~(-1U << bits);
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}
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// Return the min value that a constant extendable operand can have
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// without being extended.
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int HexagonMCInstrInfo::getMinValue(MCInstrInfo const &MCII,
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MCInst const &MCI) {
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uint64_t const F = HexagonMCInstrInfo::getDesc(MCII, MCI).TSFlags;
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unsigned isSigned =
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(F >> HexagonII::ExtentSignedPos) & HexagonII::ExtentSignedMask;
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unsigned bits = (F >> HexagonII::ExtentBitsPos) & HexagonII::ExtentBitsMask;
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if (isSigned) // if value is signed
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return -1U << (bits - 1);
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else
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return 0;
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}
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// Return the operand that consumes or produces a new value.
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MCOperand const &HexagonMCInstrInfo::getNewValue(MCInstrInfo const &MCII,
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MCInst const &MCI) {
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uint64_t const F = HexagonMCInstrInfo::getDesc(MCII, MCI).TSFlags;
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unsigned const O =
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(F >> HexagonII::NewValueOpPos) & HexagonII::NewValueOpMask;
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MCOperand const &MCO = MCI.getOperand(O);
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assert((HexagonMCInstrInfo::isNewValue(MCII, MCI) ||
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HexagonMCInstrInfo::hasNewValue(MCII, MCI)) &&
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MCO.isReg());
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return (MCO);
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}
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// Return the Hexagon ISA class for the insn.
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unsigned HexagonMCInstrInfo::getType(MCInstrInfo const &MCII,
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MCInst const &MCI) {
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const uint64_t F = HexagonMCInstrInfo::getDesc(MCII, MCI).TSFlags;
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return ((F >> HexagonII::TypePos) & HexagonII::TypeMask);
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}
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// Return whether the instruction is a legal new-value producer.
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bool HexagonMCInstrInfo::hasNewValue(MCInstrInfo const &MCII,
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MCInst const &MCI) {
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const uint64_t F = HexagonMCInstrInfo::getDesc(MCII, MCI).TSFlags;
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return ((F >> HexagonII::hasNewValuePos) & HexagonII::hasNewValueMask);
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}
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// Return whether the insn is an actual insn.
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bool HexagonMCInstrInfo::isCanon(MCInstrInfo const &MCII, MCInst const &MCI) {
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return (!HexagonMCInstrInfo::getDesc(MCII, MCI).isPseudo() &&
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!HexagonMCInstrInfo::isPrefix(MCII, MCI) &&
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HexagonMCInstrInfo::getType(MCII, MCI) != HexagonII::TypeENDLOOP);
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}
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// Return whether the instruction needs to be constant extended.
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// 1) Always return true if the instruction has 'isExtended' flag set.
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//
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// isExtendable:
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// 2) For immediate extended operands, return true only if the value is
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// out-of-range.
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// 3) For global address, always return true.
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bool HexagonMCInstrInfo::isConstExtended(MCInstrInfo const &MCII,
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MCInst const &MCI) {
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if (HexagonMCInstrInfo::isExtended(MCII, MCI))
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return true;
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if (!HexagonMCInstrInfo::isExtendable(MCII, MCI))
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return false;
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short ExtOpNum = HexagonMCInstrInfo::getCExtOpNum(MCII, MCI);
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int MinValue = HexagonMCInstrInfo::getMinValue(MCII, MCI);
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int MaxValue = HexagonMCInstrInfo::getMaxValue(MCII, MCI);
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MCOperand const &MO = MCI.getOperand(ExtOpNum);
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// We could be using an instruction with an extendable immediate and shoehorn
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// a global address into it. If it is a global address it will be constant
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// extended. We do this for COMBINE.
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// We currently only handle isGlobal() because it is the only kind of
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// object we are going to end up with here for now.
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// In the future we probably should add isSymbol(), etc.
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if (MO.isExpr())
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return true;
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// If the extendable operand is not 'Immediate' type, the instruction should
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// have 'isExtended' flag set.
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assert(MO.isImm() && "Extendable operand must be Immediate type");
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int ImmValue = MO.getImm();
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return (ImmValue < MinValue || ImmValue > MaxValue);
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}
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// Return true if the instruction may be extended based on the operand value.
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bool HexagonMCInstrInfo::isExtendable(MCInstrInfo const &MCII,
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MCInst const &MCI) {
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uint64_t const F = HexagonMCInstrInfo::getDesc(MCII, MCI).TSFlags;
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return (F >> HexagonII::ExtendablePos) & HexagonII::ExtendableMask;
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}
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// Return whether the instruction must be always extended.
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bool HexagonMCInstrInfo::isExtended(MCInstrInfo const &MCII,
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MCInst const &MCI) {
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uint64_t const F = HexagonMCInstrInfo::getDesc(MCII, MCI).TSFlags;
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return (F >> HexagonII::ExtendedPos) & HexagonII::ExtendedMask;
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}
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// Return whether the insn is a new-value consumer.
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bool HexagonMCInstrInfo::isNewValue(MCInstrInfo const &MCII,
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MCInst const &MCI) {
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const uint64_t F = HexagonMCInstrInfo::getDesc(MCII, MCI).TSFlags;
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return ((F >> HexagonII::NewValuePos) & HexagonII::NewValueMask);
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}
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// Return whether the operand can be constant extended.
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bool HexagonMCInstrInfo::isOperandExtended(MCInstrInfo const &MCII,
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MCInst const &MCI,
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unsigned short OperandNum) {
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uint64_t const F = HexagonMCInstrInfo::getDesc(MCII, MCI).TSFlags;
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return ((F >> HexagonII::ExtendableOpPos) & HexagonII::ExtendableOpMask) ==
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OperandNum;
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}
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bool HexagonMCInstrInfo::isPacketBegin(MCInst const &MCI) {
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std::bitset<16> Bits(GetImplicitBits(MCI));
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return Bits.test(packetBeginIndex);
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}
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bool HexagonMCInstrInfo::isPacketEnd(MCInst const &MCI) {
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std::bitset<16> Bits(GetImplicitBits(MCI));
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return Bits.test(packetEndIndex);
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}
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// Return whether the insn is a prefix.
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bool HexagonMCInstrInfo::isPrefix(MCInstrInfo const &MCII, MCInst const &MCI) {
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return (HexagonMCInstrInfo::getType(MCII, MCI) == HexagonII::TypePREFIX);
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}
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// Return whether the insn is solo, i.e., cannot be in a packet.
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bool HexagonMCInstrInfo::isSolo(MCInstrInfo const &MCII, MCInst const &MCI) {
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const uint64_t F = HexagonMCInstrInfo::getDesc(MCII, MCI).TSFlags;
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return ((F >> HexagonII::SoloPos) & HexagonII::SoloMask);
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}
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void HexagonMCInstrInfo::resetPacket(MCInst &MCI) {
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setPacketBegin(MCI, false);
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setPacketEnd(MCI, false);
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}
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void HexagonMCInstrInfo::SetImplicitBits(MCInst &MCI, std::bitset<16> Bits) {
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SanityCheckImplicitOperands(MCI);
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MCI.getOperand(MCI.getNumOperands() - 2).setImm(Bits.to_ulong());
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}
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void HexagonMCInstrInfo::setPacketBegin(MCInst &MCI, bool f) {
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std::bitset<16> Bits(GetImplicitBits(MCI));
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Bits.set(packetBeginIndex, f);
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SetImplicitBits(MCI, Bits);
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}
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void HexagonMCInstrInfo::setPacketEnd(MCInst &MCI, bool f) {
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std::bitset<16> Bits(GetImplicitBits(MCI));
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Bits.set(packetEndIndex, f);
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SetImplicitBits(MCI, Bits);
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}
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}
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