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f4462d7c17
The original commit was reverted in r283329 due to a miscompile in Chromium. That turned out to be the same issue as PR31257, which was fixed in r295262. llvm-svn: 295357
299 lines
10 KiB
C++
299 lines
10 KiB
C++
//===------- X86ExpandPseudo.cpp - Expand pseudo instructions -------------===//
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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 file contains a pass that expands pseudo instructions into target
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// instructions to allow proper scheduling, if-conversion, other late
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// optimizations, or simply the encoding of the instructions.
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//
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//===----------------------------------------------------------------------===//
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#include "X86.h"
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#include "X86FrameLowering.h"
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#include "X86InstrBuilder.h"
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#include "X86InstrInfo.h"
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#include "X86MachineFunctionInfo.h"
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#include "X86Subtarget.h"
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#include "llvm/Analysis/EHPersonalities.h"
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#include "llvm/CodeGen/MachineFunctionPass.h"
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#include "llvm/CodeGen/MachineInstrBuilder.h"
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#include "llvm/CodeGen/Passes.h" // For IDs of passes that are preserved.
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#include "llvm/IR/GlobalValue.h"
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using namespace llvm;
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#define DEBUG_TYPE "x86-pseudo"
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namespace {
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class X86ExpandPseudo : public MachineFunctionPass {
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public:
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static char ID;
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X86ExpandPseudo() : MachineFunctionPass(ID) {}
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void getAnalysisUsage(AnalysisUsage &AU) const override {
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AU.setPreservesCFG();
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AU.addPreservedID(MachineLoopInfoID);
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AU.addPreservedID(MachineDominatorsID);
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MachineFunctionPass::getAnalysisUsage(AU);
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}
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const X86Subtarget *STI;
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const X86InstrInfo *TII;
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const X86RegisterInfo *TRI;
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const X86MachineFunctionInfo *X86FI;
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const X86FrameLowering *X86FL;
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bool runOnMachineFunction(MachineFunction &Fn) override;
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MachineFunctionProperties getRequiredProperties() const override {
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return MachineFunctionProperties().set(
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MachineFunctionProperties::Property::NoVRegs);
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}
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StringRef getPassName() const override {
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return "X86 pseudo instruction expansion pass";
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}
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private:
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bool ExpandMI(MachineBasicBlock &MBB, MachineBasicBlock::iterator MBBI);
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bool ExpandMBB(MachineBasicBlock &MBB);
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};
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char X86ExpandPseudo::ID = 0;
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} // End anonymous namespace.
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/// If \p MBBI is a pseudo instruction, this method expands
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/// it to the corresponding (sequence of) actual instruction(s).
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/// \returns true if \p MBBI has been expanded.
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bool X86ExpandPseudo::ExpandMI(MachineBasicBlock &MBB,
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MachineBasicBlock::iterator MBBI) {
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MachineInstr &MI = *MBBI;
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unsigned Opcode = MI.getOpcode();
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DebugLoc DL = MBBI->getDebugLoc();
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switch (Opcode) {
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default:
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return false;
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case X86::TCRETURNdi:
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case X86::TCRETURNdicc:
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case X86::TCRETURNri:
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case X86::TCRETURNmi:
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case X86::TCRETURNdi64:
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case X86::TCRETURNdi64cc:
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case X86::TCRETURNri64:
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case X86::TCRETURNmi64: {
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bool isMem = Opcode == X86::TCRETURNmi || Opcode == X86::TCRETURNmi64;
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MachineOperand &JumpTarget = MBBI->getOperand(0);
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MachineOperand &StackAdjust = MBBI->getOperand(isMem ? 5 : 1);
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assert(StackAdjust.isImm() && "Expecting immediate value.");
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// Adjust stack pointer.
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int StackAdj = StackAdjust.getImm();
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int MaxTCDelta = X86FI->getTCReturnAddrDelta();
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int Offset = 0;
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assert(MaxTCDelta <= 0 && "MaxTCDelta should never be positive");
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// Incoporate the retaddr area.
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Offset = StackAdj - MaxTCDelta;
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assert(Offset >= 0 && "Offset should never be negative");
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if (Opcode == X86::TCRETURNdicc || Opcode == X86::TCRETURNdi64cc) {
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assert(Offset == 0 && "Conditional tail call cannot adjust the stack.");
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}
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if (Offset) {
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// Check for possible merge with preceding ADD instruction.
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Offset += X86FL->mergeSPUpdates(MBB, MBBI, true);
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X86FL->emitSPUpdate(MBB, MBBI, Offset, /*InEpilogue=*/true);
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}
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// Jump to label or value in register.
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bool IsWin64 = STI->isTargetWin64();
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if (Opcode == X86::TCRETURNdi || Opcode == X86::TCRETURNdicc ||
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Opcode == X86::TCRETURNdi64 || Opcode == X86::TCRETURNdi64cc) {
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unsigned Op;
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switch (Opcode) {
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case X86::TCRETURNdi:
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Op = X86::TAILJMPd;
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break;
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case X86::TCRETURNdicc:
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Op = X86::TAILJMPd_CC;
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break;
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case X86::TCRETURNdi64cc:
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assert(!MBB.getParent()->hasWinCFI() &&
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"Conditional tail calls confuse "
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"the Win64 unwinder.");
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Op = X86::TAILJMPd64_CC;
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break;
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default:
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// Note: Win64 uses REX prefixes indirect jumps out of functions, but
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// not direct ones.
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Op = X86::TAILJMPd64;
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break;
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}
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MachineInstrBuilder MIB = BuildMI(MBB, MBBI, DL, TII->get(Op));
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if (JumpTarget.isGlobal()) {
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MIB.addGlobalAddress(JumpTarget.getGlobal(), JumpTarget.getOffset(),
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JumpTarget.getTargetFlags());
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} else {
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assert(JumpTarget.isSymbol());
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MIB.addExternalSymbol(JumpTarget.getSymbolName(),
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JumpTarget.getTargetFlags());
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}
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if (Op == X86::TAILJMPd_CC || Op == X86::TAILJMPd64_CC) {
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MIB.addImm(MBBI->getOperand(2).getImm());
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}
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} else if (Opcode == X86::TCRETURNmi || Opcode == X86::TCRETURNmi64) {
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unsigned Op = (Opcode == X86::TCRETURNmi)
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? X86::TAILJMPm
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: (IsWin64 ? X86::TAILJMPm64_REX : X86::TAILJMPm64);
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MachineInstrBuilder MIB = BuildMI(MBB, MBBI, DL, TII->get(Op));
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for (unsigned i = 0; i != 5; ++i)
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MIB.add(MBBI->getOperand(i));
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} else if (Opcode == X86::TCRETURNri64) {
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BuildMI(MBB, MBBI, DL,
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TII->get(IsWin64 ? X86::TAILJMPr64_REX : X86::TAILJMPr64))
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.addReg(JumpTarget.getReg(), RegState::Kill);
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} else {
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BuildMI(MBB, MBBI, DL, TII->get(X86::TAILJMPr))
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.addReg(JumpTarget.getReg(), RegState::Kill);
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}
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MachineInstr &NewMI = *std::prev(MBBI);
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NewMI.copyImplicitOps(*MBBI->getParent()->getParent(), *MBBI);
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// Delete the pseudo instruction TCRETURN.
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MBB.erase(MBBI);
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return true;
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}
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case X86::EH_RETURN:
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case X86::EH_RETURN64: {
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MachineOperand &DestAddr = MBBI->getOperand(0);
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assert(DestAddr.isReg() && "Offset should be in register!");
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const bool Uses64BitFramePtr =
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STI->isTarget64BitLP64() || STI->isTargetNaCl64();
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unsigned StackPtr = TRI->getStackRegister();
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BuildMI(MBB, MBBI, DL,
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TII->get(Uses64BitFramePtr ? X86::MOV64rr : X86::MOV32rr), StackPtr)
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.addReg(DestAddr.getReg());
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// The EH_RETURN pseudo is really removed during the MC Lowering.
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return true;
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}
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case X86::IRET: {
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// Adjust stack to erase error code
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int64_t StackAdj = MBBI->getOperand(0).getImm();
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X86FL->emitSPUpdate(MBB, MBBI, StackAdj, true);
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// Replace pseudo with machine iret
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BuildMI(MBB, MBBI, DL,
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TII->get(STI->is64Bit() ? X86::IRET64 : X86::IRET32));
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MBB.erase(MBBI);
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return true;
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}
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case X86::RET: {
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// Adjust stack to erase error code
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int64_t StackAdj = MBBI->getOperand(0).getImm();
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MachineInstrBuilder MIB;
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if (StackAdj == 0) {
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MIB = BuildMI(MBB, MBBI, DL,
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TII->get(STI->is64Bit() ? X86::RETQ : X86::RETL));
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} else if (isUInt<16>(StackAdj)) {
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MIB = BuildMI(MBB, MBBI, DL,
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TII->get(STI->is64Bit() ? X86::RETIQ : X86::RETIL))
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.addImm(StackAdj);
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} else {
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assert(!STI->is64Bit() &&
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"shouldn't need to do this for x86_64 targets!");
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// A ret can only handle immediates as big as 2**16-1. If we need to pop
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// off bytes before the return address, we must do it manually.
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BuildMI(MBB, MBBI, DL, TII->get(X86::POP32r)).addReg(X86::ECX, RegState::Define);
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X86FL->emitSPUpdate(MBB, MBBI, StackAdj, /*InEpilogue=*/true);
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BuildMI(MBB, MBBI, DL, TII->get(X86::PUSH32r)).addReg(X86::ECX);
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MIB = BuildMI(MBB, MBBI, DL, TII->get(X86::RETL));
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}
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for (unsigned I = 1, E = MBBI->getNumOperands(); I != E; ++I)
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MIB.add(MBBI->getOperand(I));
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MBB.erase(MBBI);
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return true;
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}
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case X86::EH_RESTORE: {
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// Restore ESP and EBP, and optionally ESI if required.
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bool IsSEH = isAsynchronousEHPersonality(classifyEHPersonality(
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MBB.getParent()->getFunction()->getPersonalityFn()));
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X86FL->restoreWin32EHStackPointers(MBB, MBBI, DL, /*RestoreSP=*/IsSEH);
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MBBI->eraseFromParent();
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return true;
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}
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case X86::LCMPXCHG8B_SAVE_EBX:
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case X86::LCMPXCHG16B_SAVE_RBX: {
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// Perform the following transformation.
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// SaveRbx = pseudocmpxchg Addr, <4 opds for the address>, InArg, SaveRbx
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// =>
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// [E|R]BX = InArg
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// actualcmpxchg Addr
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// [E|R]BX = SaveRbx
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const MachineOperand &InArg = MBBI->getOperand(6);
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unsigned SaveRbx = MBBI->getOperand(7).getReg();
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unsigned ActualInArg =
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Opcode == X86::LCMPXCHG8B_SAVE_EBX ? X86::EBX : X86::RBX;
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// Copy the input argument of the pseudo into the argument of the
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// actual instruction.
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TII->copyPhysReg(MBB, MBBI, DL, ActualInArg, InArg.getReg(),
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InArg.isKill());
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// Create the actual instruction.
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unsigned ActualOpc =
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Opcode == X86::LCMPXCHG8B_SAVE_EBX ? X86::LCMPXCHG8B : X86::LCMPXCHG16B;
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MachineInstr *NewInstr = BuildMI(MBB, MBBI, DL, TII->get(ActualOpc));
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// Copy the operands related to the address.
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for (unsigned Idx = 1; Idx < 6; ++Idx)
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NewInstr->addOperand(MBBI->getOperand(Idx));
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// Finally, restore the value of RBX.
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TII->copyPhysReg(MBB, MBBI, DL, ActualInArg, SaveRbx,
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/*SrcIsKill*/ true);
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// Delete the pseudo.
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MBBI->eraseFromParent();
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return true;
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}
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}
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llvm_unreachable("Previous switch has a fallthrough?");
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}
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/// Expand all pseudo instructions contained in \p MBB.
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/// \returns true if any expansion occurred for \p MBB.
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bool X86ExpandPseudo::ExpandMBB(MachineBasicBlock &MBB) {
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bool Modified = false;
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// MBBI may be invalidated by the expansion.
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MachineBasicBlock::iterator MBBI = MBB.begin(), E = MBB.end();
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while (MBBI != E) {
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MachineBasicBlock::iterator NMBBI = std::next(MBBI);
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Modified |= ExpandMI(MBB, MBBI);
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MBBI = NMBBI;
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}
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return Modified;
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}
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bool X86ExpandPseudo::runOnMachineFunction(MachineFunction &MF) {
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STI = &static_cast<const X86Subtarget &>(MF.getSubtarget());
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TII = STI->getInstrInfo();
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TRI = STI->getRegisterInfo();
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X86FI = MF.getInfo<X86MachineFunctionInfo>();
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X86FL = STI->getFrameLowering();
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bool Modified = false;
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for (MachineBasicBlock &MBB : MF)
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Modified |= ExpandMBB(MBB);
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return Modified;
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}
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/// Returns an instance of the pseudo instruction expansion pass.
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FunctionPass *llvm::createX86ExpandPseudoPass() {
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return new X86ExpandPseudo();
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}
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