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1680f8bb94
https://llvm.org/docs/CodingStandards.html#use-namespace-qualifiers-to-implement-previously-declared-functions
416 lines
12 KiB
C++
416 lines
12 KiB
C++
//===- AArch64MacroFusion.cpp - AArch64 Macro Fusion ----------------------===//
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//
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// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
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// See https://llvm.org/LICENSE.txt for license information.
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// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
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//
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//===----------------------------------------------------------------------===//
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//
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/// \file This file contains the AArch64 implementation of the DAG scheduling
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/// mutation to pair instructions back to back.
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//
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//===----------------------------------------------------------------------===//
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#include "AArch64MacroFusion.h"
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#include "AArch64Subtarget.h"
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#include "llvm/CodeGen/MacroFusion.h"
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#include "llvm/CodeGen/TargetInstrInfo.h"
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using namespace llvm;
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/// CMN, CMP, TST followed by Bcc
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static bool isArithmeticBccPair(const MachineInstr *FirstMI,
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const MachineInstr &SecondMI, bool CmpOnly) {
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if (SecondMI.getOpcode() != AArch64::Bcc)
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return false;
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// Assume the 1st instr to be a wildcard if it is unspecified.
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if (FirstMI == nullptr)
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return true;
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// If we're in CmpOnly mode, we only fuse arithmetic instructions that
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// discard their result.
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if (CmpOnly && !(FirstMI->getOperand(0).getReg() == AArch64::XZR ||
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FirstMI->getOperand(0).getReg() == AArch64::WZR)) {
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return false;
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}
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switch (FirstMI->getOpcode()) {
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case AArch64::ADDSWri:
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case AArch64::ADDSWrr:
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case AArch64::ADDSXri:
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case AArch64::ADDSXrr:
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case AArch64::ANDSWri:
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case AArch64::ANDSWrr:
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case AArch64::ANDSXri:
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case AArch64::ANDSXrr:
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case AArch64::SUBSWri:
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case AArch64::SUBSWrr:
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case AArch64::SUBSXri:
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case AArch64::SUBSXrr:
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case AArch64::BICSWrr:
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case AArch64::BICSXrr:
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return true;
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case AArch64::ADDSWrs:
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case AArch64::ADDSXrs:
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case AArch64::ANDSWrs:
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case AArch64::ANDSXrs:
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case AArch64::SUBSWrs:
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case AArch64::SUBSXrs:
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case AArch64::BICSWrs:
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case AArch64::BICSXrs:
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// Shift value can be 0 making these behave like the "rr" variant...
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return !AArch64InstrInfo::hasShiftedReg(*FirstMI);
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}
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return false;
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}
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/// ALU operations followed by CBZ/CBNZ.
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static bool isArithmeticCbzPair(const MachineInstr *FirstMI,
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const MachineInstr &SecondMI) {
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if (SecondMI.getOpcode() != AArch64::CBZW &&
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SecondMI.getOpcode() != AArch64::CBZX &&
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SecondMI.getOpcode() != AArch64::CBNZW &&
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SecondMI.getOpcode() != AArch64::CBNZX)
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return false;
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// Assume the 1st instr to be a wildcard if it is unspecified.
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if (FirstMI == nullptr)
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return true;
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switch (FirstMI->getOpcode()) {
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case AArch64::ADDWri:
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case AArch64::ADDWrr:
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case AArch64::ADDXri:
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case AArch64::ADDXrr:
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case AArch64::ANDWri:
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case AArch64::ANDWrr:
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case AArch64::ANDXri:
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case AArch64::ANDXrr:
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case AArch64::EORWri:
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case AArch64::EORWrr:
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case AArch64::EORXri:
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case AArch64::EORXrr:
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case AArch64::ORRWri:
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case AArch64::ORRWrr:
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case AArch64::ORRXri:
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case AArch64::ORRXrr:
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case AArch64::SUBWri:
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case AArch64::SUBWrr:
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case AArch64::SUBXri:
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case AArch64::SUBXrr:
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return true;
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case AArch64::ADDWrs:
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case AArch64::ADDXrs:
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case AArch64::ANDWrs:
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case AArch64::ANDXrs:
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case AArch64::SUBWrs:
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case AArch64::SUBXrs:
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case AArch64::BICWrs:
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case AArch64::BICXrs:
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// Shift value can be 0 making these behave like the "rr" variant...
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return !AArch64InstrInfo::hasShiftedReg(*FirstMI);
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}
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return false;
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}
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/// AES crypto encoding or decoding.
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static bool isAESPair(const MachineInstr *FirstMI,
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const MachineInstr &SecondMI) {
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// Assume the 1st instr to be a wildcard if it is unspecified.
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switch (SecondMI.getOpcode()) {
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// AES encode.
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case AArch64::AESMCrr:
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case AArch64::AESMCrrTied:
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return FirstMI == nullptr || FirstMI->getOpcode() == AArch64::AESErr;
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// AES decode.
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case AArch64::AESIMCrr:
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case AArch64::AESIMCrrTied:
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return FirstMI == nullptr || FirstMI->getOpcode() == AArch64::AESDrr;
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}
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return false;
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}
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/// AESE/AESD/PMULL + EOR.
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static bool isCryptoEORPair(const MachineInstr *FirstMI,
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const MachineInstr &SecondMI) {
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if (SecondMI.getOpcode() != AArch64::EORv16i8)
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return false;
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// Assume the 1st instr to be a wildcard if it is unspecified.
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if (FirstMI == nullptr)
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return true;
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switch (FirstMI->getOpcode()) {
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case AArch64::AESErr:
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case AArch64::AESDrr:
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case AArch64::PMULLv16i8:
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case AArch64::PMULLv8i8:
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case AArch64::PMULLv1i64:
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case AArch64::PMULLv2i64:
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return true;
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}
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return false;
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}
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/// Literal generation.
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static bool isLiteralsPair(const MachineInstr *FirstMI,
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const MachineInstr &SecondMI) {
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// Assume the 1st instr to be a wildcard if it is unspecified.
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// PC relative address.
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if ((FirstMI == nullptr || FirstMI->getOpcode() == AArch64::ADRP) &&
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SecondMI.getOpcode() == AArch64::ADDXri)
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return true;
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// 32 bit immediate.
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if ((FirstMI == nullptr || FirstMI->getOpcode() == AArch64::MOVZWi) &&
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(SecondMI.getOpcode() == AArch64::MOVKWi &&
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SecondMI.getOperand(3).getImm() == 16))
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return true;
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// Lower half of 64 bit immediate.
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if((FirstMI == nullptr || FirstMI->getOpcode() == AArch64::MOVZXi) &&
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(SecondMI.getOpcode() == AArch64::MOVKXi &&
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SecondMI.getOperand(3).getImm() == 16))
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return true;
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// Upper half of 64 bit immediate.
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if ((FirstMI == nullptr ||
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(FirstMI->getOpcode() == AArch64::MOVKXi &&
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FirstMI->getOperand(3).getImm() == 32)) &&
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(SecondMI.getOpcode() == AArch64::MOVKXi &&
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SecondMI.getOperand(3).getImm() == 48))
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return true;
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return false;
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}
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/// Fuse address generation and loads or stores.
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static bool isAddressLdStPair(const MachineInstr *FirstMI,
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const MachineInstr &SecondMI) {
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switch (SecondMI.getOpcode()) {
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case AArch64::STRBBui:
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case AArch64::STRBui:
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case AArch64::STRDui:
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case AArch64::STRHHui:
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case AArch64::STRHui:
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case AArch64::STRQui:
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case AArch64::STRSui:
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case AArch64::STRWui:
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case AArch64::STRXui:
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case AArch64::LDRBBui:
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case AArch64::LDRBui:
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case AArch64::LDRDui:
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case AArch64::LDRHHui:
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case AArch64::LDRHui:
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case AArch64::LDRQui:
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case AArch64::LDRSui:
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case AArch64::LDRWui:
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case AArch64::LDRXui:
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case AArch64::LDRSBWui:
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case AArch64::LDRSBXui:
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case AArch64::LDRSHWui:
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case AArch64::LDRSHXui:
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case AArch64::LDRSWui:
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// Assume the 1st instr to be a wildcard if it is unspecified.
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if (FirstMI == nullptr)
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return true;
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switch (FirstMI->getOpcode()) {
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case AArch64::ADR:
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return SecondMI.getOperand(2).getImm() == 0;
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case AArch64::ADRP:
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return true;
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}
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}
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return false;
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}
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/// Compare and conditional select.
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static bool isCCSelectPair(const MachineInstr *FirstMI,
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const MachineInstr &SecondMI) {
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// 32 bits
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if (SecondMI.getOpcode() == AArch64::CSELWr) {
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// Assume the 1st instr to be a wildcard if it is unspecified.
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if (FirstMI == nullptr)
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return true;
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if (FirstMI->definesRegister(AArch64::WZR))
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switch (FirstMI->getOpcode()) {
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case AArch64::SUBSWrs:
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return !AArch64InstrInfo::hasShiftedReg(*FirstMI);
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case AArch64::SUBSWrx:
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return !AArch64InstrInfo::hasExtendedReg(*FirstMI);
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case AArch64::SUBSWrr:
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case AArch64::SUBSWri:
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return true;
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}
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}
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// 64 bits
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if (SecondMI.getOpcode() == AArch64::CSELXr) {
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// Assume the 1st instr to be a wildcard if it is unspecified.
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if (FirstMI == nullptr)
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return true;
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if (FirstMI->definesRegister(AArch64::XZR))
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switch (FirstMI->getOpcode()) {
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case AArch64::SUBSXrs:
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return !AArch64InstrInfo::hasShiftedReg(*FirstMI);
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case AArch64::SUBSXrx:
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case AArch64::SUBSXrx64:
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return !AArch64InstrInfo::hasExtendedReg(*FirstMI);
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case AArch64::SUBSXrr:
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case AArch64::SUBSXri:
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return true;
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}
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}
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return false;
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}
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// Arithmetic and logic.
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static bool isArithmeticLogicPair(const MachineInstr *FirstMI,
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const MachineInstr &SecondMI) {
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if (AArch64InstrInfo::hasShiftedReg(SecondMI))
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return false;
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switch (SecondMI.getOpcode()) {
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// Arithmetic
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case AArch64::ADDWrr:
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case AArch64::ADDXrr:
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case AArch64::SUBWrr:
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case AArch64::SUBXrr:
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case AArch64::ADDWrs:
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case AArch64::ADDXrs:
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case AArch64::SUBWrs:
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case AArch64::SUBXrs:
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// Logic
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case AArch64::ANDWrr:
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case AArch64::ANDXrr:
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case AArch64::BICWrr:
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case AArch64::BICXrr:
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case AArch64::EONWrr:
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case AArch64::EONXrr:
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case AArch64::EORWrr:
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case AArch64::EORXrr:
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case AArch64::ORNWrr:
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case AArch64::ORNXrr:
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case AArch64::ORRWrr:
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case AArch64::ORRXrr:
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case AArch64::ANDWrs:
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case AArch64::ANDXrs:
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case AArch64::BICWrs:
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case AArch64::BICXrs:
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case AArch64::EONWrs:
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case AArch64::EONXrs:
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case AArch64::EORWrs:
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case AArch64::EORXrs:
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case AArch64::ORNWrs:
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case AArch64::ORNXrs:
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case AArch64::ORRWrs:
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case AArch64::ORRXrs:
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// Assume the 1st instr to be a wildcard if it is unspecified.
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if (FirstMI == nullptr)
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return true;
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// Arithmetic
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switch (FirstMI->getOpcode()) {
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case AArch64::ADDWrr:
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case AArch64::ADDXrr:
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case AArch64::ADDSWrr:
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case AArch64::ADDSXrr:
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case AArch64::SUBWrr:
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case AArch64::SUBXrr:
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case AArch64::SUBSWrr:
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case AArch64::SUBSXrr:
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return true;
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case AArch64::ADDWrs:
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case AArch64::ADDXrs:
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case AArch64::ADDSWrs:
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case AArch64::ADDSXrs:
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case AArch64::SUBWrs:
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case AArch64::SUBXrs:
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case AArch64::SUBSWrs:
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case AArch64::SUBSXrs:
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return !AArch64InstrInfo::hasShiftedReg(*FirstMI);
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}
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break;
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// Arithmetic, setting flags.
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case AArch64::ADDSWrr:
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case AArch64::ADDSXrr:
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case AArch64::SUBSWrr:
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case AArch64::SUBSXrr:
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case AArch64::ADDSWrs:
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case AArch64::ADDSXrs:
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case AArch64::SUBSWrs:
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case AArch64::SUBSXrs:
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// Assume the 1st instr to be a wildcard if it is unspecified.
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if (FirstMI == nullptr)
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return true;
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// Arithmetic, not setting flags.
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switch (FirstMI->getOpcode()) {
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case AArch64::ADDWrr:
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case AArch64::ADDXrr:
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case AArch64::SUBWrr:
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case AArch64::SUBXrr:
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return true;
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case AArch64::ADDWrs:
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case AArch64::ADDXrs:
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case AArch64::SUBWrs:
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case AArch64::SUBXrs:
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return !AArch64InstrInfo::hasShiftedReg(*FirstMI);
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}
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break;
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}
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return false;
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}
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/// \brief Check if the instr pair, FirstMI and SecondMI, should be fused
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/// together. Given SecondMI, when FirstMI is unspecified, then check if
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/// SecondMI may be part of a fused pair at all.
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static bool shouldScheduleAdjacent(const TargetInstrInfo &TII,
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const TargetSubtargetInfo &TSI,
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const MachineInstr *FirstMI,
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const MachineInstr &SecondMI) {
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const AArch64Subtarget &ST = static_cast<const AArch64Subtarget&>(TSI);
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// All checking functions assume that the 1st instr is a wildcard if it is
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// unspecified.
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if (ST.hasCmpBccFusion() || ST.hasArithmeticBccFusion()) {
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bool CmpOnly = !ST.hasArithmeticBccFusion();
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if (isArithmeticBccPair(FirstMI, SecondMI, CmpOnly))
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return true;
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}
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if (ST.hasArithmeticCbzFusion() && isArithmeticCbzPair(FirstMI, SecondMI))
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return true;
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if (ST.hasFuseAES() && isAESPair(FirstMI, SecondMI))
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return true;
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if (ST.hasFuseCryptoEOR() && isCryptoEORPair(FirstMI, SecondMI))
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return true;
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if (ST.hasFuseLiterals() && isLiteralsPair(FirstMI, SecondMI))
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return true;
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if (ST.hasFuseAddress() && isAddressLdStPair(FirstMI, SecondMI))
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return true;
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if (ST.hasFuseCCSelect() && isCCSelectPair(FirstMI, SecondMI))
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return true;
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if (ST.hasFuseArithmeticLogic() && isArithmeticLogicPair(FirstMI, SecondMI))
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return true;
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return false;
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}
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std::unique_ptr<ScheduleDAGMutation>
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llvm::createAArch64MacroFusionDAGMutation() {
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return createMacroFusionDAGMutation(shouldScheduleAdjacent);
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}
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