mirror of
https://github.com/c64scene-ar/llvm-6502.git
synced 2024-12-14 11:32:34 +00:00
d04a8d4b33
Sooooo many of these had incorrect or strange main module includes. I have manually inspected all of these, and fixed the main module include to be the nearest plausible thing I could find. If you own or care about any of these source files, I encourage you to take some time and check that these edits were sensible. I can't have broken anything (I strictly added headers, and reordered them, never removed), but they may not be the headers you'd really like to identify as containing the API being implemented. Many forward declarations and missing includes were added to a header files to allow them to parse cleanly when included first. The main module rule does in fact have its merits. =] git-svn-id: https://llvm.org/svn/llvm-project/llvm/trunk@169131 91177308-0d34-0410-b5e6-96231b3b80d8
400 lines
12 KiB
C++
400 lines
12 KiB
C++
//===-- MLxExpansionPass.cpp - Expand MLx instrs to avoid hazards ---------===//
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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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// Expand VFP / NEON floating point MLA / MLS instructions (each to a pair of
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// multiple and add / sub instructions) when special VMLx hazards are detected.
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//
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//===----------------------------------------------------------------------===//
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#define DEBUG_TYPE "mlx-expansion"
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#include "ARM.h"
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#include "ARMBaseInstrInfo.h"
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#include "ARMSubtarget.h"
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#include "llvm/ADT/SmallPtrSet.h"
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#include "llvm/ADT/Statistic.h"
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#include "llvm/CodeGen/MachineFunctionPass.h"
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#include "llvm/CodeGen/MachineInstr.h"
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#include "llvm/CodeGen/MachineInstrBuilder.h"
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#include "llvm/CodeGen/MachineRegisterInfo.h"
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#include "llvm/Support/CommandLine.h"
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#include "llvm/Support/Debug.h"
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#include "llvm/Support/raw_ostream.h"
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#include "llvm/Target/TargetRegisterInfo.h"
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using namespace llvm;
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static cl::opt<bool>
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ForceExapnd("expand-all-fp-mlx", cl::init(false), cl::Hidden);
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static cl::opt<unsigned>
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ExpandLimit("expand-limit", cl::init(~0U), cl::Hidden);
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STATISTIC(NumExpand, "Number of fp MLA / MLS instructions expanded");
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namespace {
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struct MLxExpansion : public MachineFunctionPass {
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static char ID;
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MLxExpansion() : MachineFunctionPass(ID) {}
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virtual bool runOnMachineFunction(MachineFunction &Fn);
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virtual const char *getPassName() const {
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return "ARM MLA / MLS expansion pass";
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}
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private:
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const ARMBaseInstrInfo *TII;
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const TargetRegisterInfo *TRI;
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MachineRegisterInfo *MRI;
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bool isLikeA9;
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bool isSwift;
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unsigned MIIdx;
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MachineInstr* LastMIs[4];
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SmallPtrSet<MachineInstr*, 4> IgnoreStall;
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void clearStack();
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void pushStack(MachineInstr *MI);
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MachineInstr *getAccDefMI(MachineInstr *MI) const;
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unsigned getDefReg(MachineInstr *MI) const;
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bool hasLoopHazard(MachineInstr *MI) const;
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bool hasRAWHazard(unsigned Reg, MachineInstr *MI) const;
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bool FindMLxHazard(MachineInstr *MI);
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void ExpandFPMLxInstruction(MachineBasicBlock &MBB, MachineInstr *MI,
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unsigned MulOpc, unsigned AddSubOpc,
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bool NegAcc, bool HasLane);
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bool ExpandFPMLxInstructions(MachineBasicBlock &MBB);
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};
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char MLxExpansion::ID = 0;
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}
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void MLxExpansion::clearStack() {
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std::fill(LastMIs, LastMIs + 4, (MachineInstr*)0);
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MIIdx = 0;
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}
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void MLxExpansion::pushStack(MachineInstr *MI) {
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LastMIs[MIIdx] = MI;
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if (++MIIdx == 4)
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MIIdx = 0;
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}
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MachineInstr *MLxExpansion::getAccDefMI(MachineInstr *MI) const {
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// Look past COPY and INSERT_SUBREG instructions to find the
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// real definition MI. This is important for _sfp instructions.
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unsigned Reg = MI->getOperand(1).getReg();
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if (TargetRegisterInfo::isPhysicalRegister(Reg))
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return 0;
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MachineBasicBlock *MBB = MI->getParent();
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MachineInstr *DefMI = MRI->getVRegDef(Reg);
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while (true) {
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if (DefMI->getParent() != MBB)
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break;
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if (DefMI->isCopyLike()) {
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Reg = DefMI->getOperand(1).getReg();
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if (TargetRegisterInfo::isVirtualRegister(Reg)) {
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DefMI = MRI->getVRegDef(Reg);
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continue;
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}
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} else if (DefMI->isInsertSubreg()) {
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Reg = DefMI->getOperand(2).getReg();
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if (TargetRegisterInfo::isVirtualRegister(Reg)) {
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DefMI = MRI->getVRegDef(Reg);
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continue;
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}
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}
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break;
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}
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return DefMI;
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}
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unsigned MLxExpansion::getDefReg(MachineInstr *MI) const {
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unsigned Reg = MI->getOperand(0).getReg();
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if (TargetRegisterInfo::isPhysicalRegister(Reg) ||
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!MRI->hasOneNonDBGUse(Reg))
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return Reg;
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MachineBasicBlock *MBB = MI->getParent();
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MachineInstr *UseMI = &*MRI->use_nodbg_begin(Reg);
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if (UseMI->getParent() != MBB)
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return Reg;
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while (UseMI->isCopy() || UseMI->isInsertSubreg()) {
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Reg = UseMI->getOperand(0).getReg();
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if (TargetRegisterInfo::isPhysicalRegister(Reg) ||
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!MRI->hasOneNonDBGUse(Reg))
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return Reg;
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UseMI = &*MRI->use_nodbg_begin(Reg);
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if (UseMI->getParent() != MBB)
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return Reg;
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}
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return Reg;
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}
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/// hasLoopHazard - Check whether an MLx instruction is chained to itself across
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/// a single-MBB loop.
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bool MLxExpansion::hasLoopHazard(MachineInstr *MI) const {
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unsigned Reg = MI->getOperand(1).getReg();
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if (TargetRegisterInfo::isPhysicalRegister(Reg))
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return false;
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MachineBasicBlock *MBB = MI->getParent();
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MachineInstr *DefMI = MRI->getVRegDef(Reg);
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while (true) {
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outer_continue:
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if (DefMI->getParent() != MBB)
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break;
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if (DefMI->isPHI()) {
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for (unsigned i = 1, e = DefMI->getNumOperands(); i < e; i += 2) {
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if (DefMI->getOperand(i + 1).getMBB() == MBB) {
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unsigned SrcReg = DefMI->getOperand(i).getReg();
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if (TargetRegisterInfo::isVirtualRegister(SrcReg)) {
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DefMI = MRI->getVRegDef(SrcReg);
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goto outer_continue;
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}
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}
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}
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} else if (DefMI->isCopyLike()) {
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Reg = DefMI->getOperand(1).getReg();
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if (TargetRegisterInfo::isVirtualRegister(Reg)) {
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DefMI = MRI->getVRegDef(Reg);
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continue;
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}
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} else if (DefMI->isInsertSubreg()) {
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Reg = DefMI->getOperand(2).getReg();
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if (TargetRegisterInfo::isVirtualRegister(Reg)) {
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DefMI = MRI->getVRegDef(Reg);
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continue;
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}
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}
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break;
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}
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return DefMI == MI;
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}
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bool MLxExpansion::hasRAWHazard(unsigned Reg, MachineInstr *MI) const {
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// FIXME: Detect integer instructions properly.
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const MCInstrDesc &MCID = MI->getDesc();
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unsigned Domain = MCID.TSFlags & ARMII::DomainMask;
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if (MI->mayStore())
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return false;
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unsigned Opcode = MCID.getOpcode();
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if (Opcode == ARM::VMOVRS || Opcode == ARM::VMOVRRD)
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return false;
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if ((Domain & ARMII::DomainVFP) || (Domain & ARMII::DomainNEON))
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return MI->readsRegister(Reg, TRI);
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return false;
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}
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static bool isFpMulInstruction(unsigned Opcode) {
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switch (Opcode) {
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case ARM::VMULS:
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case ARM::VMULfd:
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case ARM::VMULfq:
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case ARM::VMULD:
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case ARM::VMULslfd:
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case ARM::VMULslfq:
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return true;
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default:
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return false;
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}
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}
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bool MLxExpansion::FindMLxHazard(MachineInstr *MI) {
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if (NumExpand >= ExpandLimit)
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return false;
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if (ForceExapnd)
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return true;
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MachineInstr *DefMI = getAccDefMI(MI);
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if (TII->isFpMLxInstruction(DefMI->getOpcode())) {
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// r0 = vmla
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// r3 = vmla r0, r1, r2
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// takes 16 - 17 cycles
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//
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// r0 = vmla
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// r4 = vmul r1, r2
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// r3 = vadd r0, r4
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// takes about 14 - 15 cycles even with vmul stalling for 4 cycles.
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IgnoreStall.insert(DefMI);
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return true;
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}
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// On Swift, we mostly care about hazards from multiplication instructions
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// writing the accumulator and the pipelining of loop iterations by out-of-
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// order execution.
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if (isSwift)
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return isFpMulInstruction(DefMI->getOpcode()) || hasLoopHazard(MI);
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if (IgnoreStall.count(MI))
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return false;
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// If a VMLA.F is followed by an VADD.F or VMUL.F with no RAW hazard, the
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// VADD.F or VMUL.F will stall 4 cycles before issue. The 4 cycle stall
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// preserves the in-order retirement of the instructions.
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// Look at the next few instructions, if *most* of them can cause hazards,
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// then the scheduler can't *fix* this, we'd better break up the VMLA.
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unsigned Limit1 = isLikeA9 ? 1 : 4;
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unsigned Limit2 = isLikeA9 ? 1 : 4;
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for (unsigned i = 1; i <= 4; ++i) {
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int Idx = ((int)MIIdx - i + 4) % 4;
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MachineInstr *NextMI = LastMIs[Idx];
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if (!NextMI)
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continue;
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if (TII->canCauseFpMLxStall(NextMI->getOpcode())) {
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if (i <= Limit1)
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return true;
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}
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// Look for VMLx RAW hazard.
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if (i <= Limit2 && hasRAWHazard(getDefReg(MI), NextMI))
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return true;
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}
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return false;
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}
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/// ExpandFPMLxInstructions - Expand a MLA / MLS instruction into a pair
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/// of MUL + ADD / SUB instructions.
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void
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MLxExpansion::ExpandFPMLxInstruction(MachineBasicBlock &MBB, MachineInstr *MI,
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unsigned MulOpc, unsigned AddSubOpc,
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bool NegAcc, bool HasLane) {
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unsigned DstReg = MI->getOperand(0).getReg();
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bool DstDead = MI->getOperand(0).isDead();
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unsigned AccReg = MI->getOperand(1).getReg();
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unsigned Src1Reg = MI->getOperand(2).getReg();
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unsigned Src2Reg = MI->getOperand(3).getReg();
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bool Src1Kill = MI->getOperand(2).isKill();
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bool Src2Kill = MI->getOperand(3).isKill();
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unsigned LaneImm = HasLane ? MI->getOperand(4).getImm() : 0;
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unsigned NextOp = HasLane ? 5 : 4;
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ARMCC::CondCodes Pred = (ARMCC::CondCodes)MI->getOperand(NextOp).getImm();
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unsigned PredReg = MI->getOperand(++NextOp).getReg();
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const MCInstrDesc &MCID1 = TII->get(MulOpc);
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const MCInstrDesc &MCID2 = TII->get(AddSubOpc);
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const MachineFunction &MF = *MI->getParent()->getParent();
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unsigned TmpReg = MRI->createVirtualRegister(
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TII->getRegClass(MCID1, 0, TRI, MF));
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MachineInstrBuilder MIB = BuildMI(MBB, MI, MI->getDebugLoc(), MCID1, TmpReg)
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.addReg(Src1Reg, getKillRegState(Src1Kill))
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.addReg(Src2Reg, getKillRegState(Src2Kill));
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if (HasLane)
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MIB.addImm(LaneImm);
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MIB.addImm(Pred).addReg(PredReg);
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MIB = BuildMI(MBB, MI, MI->getDebugLoc(), MCID2)
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.addReg(DstReg, getDefRegState(true) | getDeadRegState(DstDead));
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if (NegAcc) {
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bool AccKill = MRI->hasOneNonDBGUse(AccReg);
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MIB.addReg(TmpReg, getKillRegState(true))
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.addReg(AccReg, getKillRegState(AccKill));
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} else {
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MIB.addReg(AccReg).addReg(TmpReg, getKillRegState(true));
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}
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MIB.addImm(Pred).addReg(PredReg);
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DEBUG({
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dbgs() << "Expanding: " << *MI;
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dbgs() << " to:\n";
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MachineBasicBlock::iterator MII = MI;
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MII = llvm::prior(MII);
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MachineInstr &MI2 = *MII;
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MII = llvm::prior(MII);
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MachineInstr &MI1 = *MII;
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dbgs() << " " << MI1;
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dbgs() << " " << MI2;
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});
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MI->eraseFromParent();
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++NumExpand;
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}
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bool MLxExpansion::ExpandFPMLxInstructions(MachineBasicBlock &MBB) {
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bool Changed = false;
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clearStack();
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IgnoreStall.clear();
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unsigned Skip = 0;
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MachineBasicBlock::reverse_iterator MII = MBB.rbegin(), E = MBB.rend();
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while (MII != E) {
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MachineInstr *MI = &*MII;
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if (MI->isLabel() || MI->isImplicitDef() || MI->isCopy()) {
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++MII;
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continue;
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}
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const MCInstrDesc &MCID = MI->getDesc();
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if (MI->isBarrier()) {
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clearStack();
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Skip = 0;
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++MII;
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continue;
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}
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unsigned Domain = MCID.TSFlags & ARMII::DomainMask;
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if (Domain == ARMII::DomainGeneral) {
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if (++Skip == 2)
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// Assume dual issues of non-VFP / NEON instructions.
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pushStack(0);
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} else {
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Skip = 0;
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unsigned MulOpc, AddSubOpc;
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bool NegAcc, HasLane;
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if (!TII->isFpMLxInstruction(MCID.getOpcode(),
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MulOpc, AddSubOpc, NegAcc, HasLane) ||
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!FindMLxHazard(MI))
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pushStack(MI);
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else {
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ExpandFPMLxInstruction(MBB, MI, MulOpc, AddSubOpc, NegAcc, HasLane);
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E = MBB.rend(); // May have changed if MI was the 1st instruction.
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Changed = true;
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continue;
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}
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}
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++MII;
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}
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return Changed;
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}
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bool MLxExpansion::runOnMachineFunction(MachineFunction &Fn) {
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TII = static_cast<const ARMBaseInstrInfo*>(Fn.getTarget().getInstrInfo());
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TRI = Fn.getTarget().getRegisterInfo();
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MRI = &Fn.getRegInfo();
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const ARMSubtarget *STI = &Fn.getTarget().getSubtarget<ARMSubtarget>();
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isLikeA9 = STI->isLikeA9() || STI->isSwift();
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isSwift = STI->isSwift();
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bool Modified = false;
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for (MachineFunction::iterator MFI = Fn.begin(), E = Fn.end(); MFI != E;
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++MFI) {
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MachineBasicBlock &MBB = *MFI;
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Modified |= ExpandFPMLxInstructions(MBB);
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}
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return Modified;
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}
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FunctionPass *llvm::createMLxExpansionPass() {
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return new MLxExpansion();
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}
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