forked from OSchip/llvm-project
476 lines
17 KiB
C++
476 lines
17 KiB
C++
//===- llvm/lib/Target/X86/X86CallLowering.cpp - Call lowering ------------===//
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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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/// \file
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/// This file implements the lowering of LLVM calls to machine code calls for
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/// GlobalISel.
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//
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//===----------------------------------------------------------------------===//
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#include "X86CallLowering.h"
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#include "X86CallingConv.h"
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#include "X86ISelLowering.h"
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#include "X86InstrInfo.h"
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#include "X86RegisterInfo.h"
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#include "X86Subtarget.h"
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#include "llvm/ADT/ArrayRef.h"
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#include "llvm/ADT/SmallVector.h"
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#include "llvm/CodeGen/Analysis.h"
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#include "llvm/CodeGen/CallingConvLower.h"
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#include "llvm/CodeGen/GlobalISel/MachineIRBuilder.h"
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#include "llvm/CodeGen/GlobalISel/Utils.h"
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#include "llvm/CodeGen/LowLevelType.h"
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#include "llvm/CodeGen/MachineBasicBlock.h"
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#include "llvm/CodeGen/MachineFrameInfo.h"
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#include "llvm/CodeGen/MachineFunction.h"
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#include "llvm/CodeGen/MachineInstrBuilder.h"
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#include "llvm/CodeGen/MachineMemOperand.h"
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#include "llvm/CodeGen/MachineOperand.h"
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#include "llvm/CodeGen/MachineRegisterInfo.h"
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#include "llvm/CodeGen/TargetInstrInfo.h"
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#include "llvm/CodeGen/TargetSubtargetInfo.h"
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#include "llvm/CodeGen/ValueTypes.h"
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#include "llvm/IR/Attributes.h"
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#include "llvm/IR/DataLayout.h"
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#include "llvm/IR/Function.h"
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#include "llvm/IR/Value.h"
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#include "llvm/MC/MCRegisterInfo.h"
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#include "llvm/Support/LowLevelTypeImpl.h"
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#include "llvm/Support/MachineValueType.h"
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#include <cassert>
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#include <cstdint>
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using namespace llvm;
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#include "X86GenCallingConv.inc"
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X86CallLowering::X86CallLowering(const X86TargetLowering &TLI)
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: CallLowering(&TLI) {}
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bool X86CallLowering::splitToValueTypes(const ArgInfo &OrigArg,
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SmallVectorImpl<ArgInfo> &SplitArgs,
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const DataLayout &DL,
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MachineRegisterInfo &MRI,
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SplitArgTy PerformArgSplit) const {
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const X86TargetLowering &TLI = *getTLI<X86TargetLowering>();
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LLVMContext &Context = OrigArg.Ty->getContext();
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SmallVector<EVT, 4> SplitVTs;
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SmallVector<uint64_t, 4> Offsets;
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ComputeValueVTs(TLI, DL, OrigArg.Ty, SplitVTs, &Offsets, 0);
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if (SplitVTs.size() != 1) {
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// TODO: support struct/array split
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return false;
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}
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EVT VT = SplitVTs[0];
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unsigned NumParts = TLI.getNumRegisters(Context, VT);
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if (NumParts == 1) {
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// replace the original type ( pointer -> GPR ).
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SplitArgs.emplace_back(OrigArg.Reg, VT.getTypeForEVT(Context),
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OrigArg.Flags, OrigArg.IsFixed);
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return true;
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}
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SmallVector<unsigned, 8> SplitRegs;
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EVT PartVT = TLI.getRegisterType(Context, VT);
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Type *PartTy = PartVT.getTypeForEVT(Context);
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for (unsigned i = 0; i < NumParts; ++i) {
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ArgInfo Info =
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ArgInfo{MRI.createGenericVirtualRegister(getLLTForType(*PartTy, DL)),
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PartTy, OrigArg.Flags};
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SplitArgs.push_back(Info);
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SplitRegs.push_back(Info.Reg);
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}
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PerformArgSplit(SplitRegs);
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return true;
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}
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namespace {
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struct OutgoingValueHandler : public CallLowering::ValueHandler {
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OutgoingValueHandler(MachineIRBuilder &MIRBuilder, MachineRegisterInfo &MRI,
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MachineInstrBuilder &MIB, CCAssignFn *AssignFn)
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: ValueHandler(MIRBuilder, MRI, AssignFn), MIB(MIB),
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DL(MIRBuilder.getMF().getDataLayout()),
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STI(MIRBuilder.getMF().getSubtarget<X86Subtarget>()) {}
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unsigned getStackAddress(uint64_t Size, int64_t Offset,
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MachinePointerInfo &MPO) override {
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LLT p0 = LLT::pointer(0, DL.getPointerSizeInBits(0));
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LLT SType = LLT::scalar(DL.getPointerSizeInBits(0));
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unsigned SPReg = MRI.createGenericVirtualRegister(p0);
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MIRBuilder.buildCopy(SPReg, STI.getRegisterInfo()->getStackRegister());
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unsigned OffsetReg = MRI.createGenericVirtualRegister(SType);
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MIRBuilder.buildConstant(OffsetReg, Offset);
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unsigned AddrReg = MRI.createGenericVirtualRegister(p0);
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MIRBuilder.buildGEP(AddrReg, SPReg, OffsetReg);
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MPO = MachinePointerInfo::getStack(MIRBuilder.getMF(), Offset);
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return AddrReg;
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}
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void assignValueToReg(unsigned ValVReg, unsigned PhysReg,
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CCValAssign &VA) override {
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MIB.addUse(PhysReg, RegState::Implicit);
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unsigned ExtReg;
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// If we are copying the value to a physical register with the
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// size larger than the size of the value itself - build AnyExt
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// to the size of the register first and only then do the copy.
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// The example of that would be copying from s32 to xmm0, for which
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// case ValVT == LocVT == MVT::f32. If LocSize and ValSize are not equal
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// we expect normal extendRegister mechanism to work.
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unsigned PhysRegSize =
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MRI.getTargetRegisterInfo()->getRegSizeInBits(PhysReg, MRI);
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unsigned ValSize = VA.getValVT().getSizeInBits();
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unsigned LocSize = VA.getLocVT().getSizeInBits();
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if (PhysRegSize > ValSize && LocSize == ValSize) {
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assert((PhysRegSize == 128 || PhysRegSize == 80) && "We expect that to be 128 bit");
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auto MIB = MIRBuilder.buildAnyExt(LLT::scalar(PhysRegSize), ValVReg);
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ExtReg = MIB->getOperand(0).getReg();
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} else
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ExtReg = extendRegister(ValVReg, VA);
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MIRBuilder.buildCopy(PhysReg, ExtReg);
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}
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void assignValueToAddress(unsigned ValVReg, unsigned Addr, uint64_t Size,
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MachinePointerInfo &MPO, CCValAssign &VA) override {
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unsigned ExtReg = extendRegister(ValVReg, VA);
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auto MMO = MIRBuilder.getMF().getMachineMemOperand(
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MPO, MachineMemOperand::MOStore, VA.getLocVT().getStoreSize(),
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/* Alignment */ 0);
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MIRBuilder.buildStore(ExtReg, Addr, *MMO);
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}
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bool assignArg(unsigned ValNo, MVT ValVT, MVT LocVT,
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CCValAssign::LocInfo LocInfo,
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const CallLowering::ArgInfo &Info, CCState &State) override {
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bool Res = AssignFn(ValNo, ValVT, LocVT, LocInfo, Info.Flags, State);
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StackSize = State.getNextStackOffset();
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static const MCPhysReg XMMArgRegs[] = {X86::XMM0, X86::XMM1, X86::XMM2,
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X86::XMM3, X86::XMM4, X86::XMM5,
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X86::XMM6, X86::XMM7};
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if (!Info.IsFixed)
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NumXMMRegs = State.getFirstUnallocated(XMMArgRegs);
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return Res;
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}
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uint64_t getStackSize() { return StackSize; }
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uint64_t getNumXmmRegs() { return NumXMMRegs; }
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protected:
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MachineInstrBuilder &MIB;
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uint64_t StackSize = 0;
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const DataLayout &DL;
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const X86Subtarget &STI;
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unsigned NumXMMRegs = 0;
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};
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} // end anonymous namespace
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bool X86CallLowering::lowerReturn(MachineIRBuilder &MIRBuilder,
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const Value *Val, unsigned VReg) const {
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assert(((Val && VReg) || (!Val && !VReg)) && "Return value without a vreg");
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auto MIB = MIRBuilder.buildInstrNoInsert(X86::RET).addImm(0);
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if (VReg) {
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MachineFunction &MF = MIRBuilder.getMF();
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MachineRegisterInfo &MRI = MF.getRegInfo();
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auto &DL = MF.getDataLayout();
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const Function &F = MF.getFunction();
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ArgInfo OrigArg{VReg, Val->getType()};
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setArgFlags(OrigArg, AttributeList::ReturnIndex, DL, F);
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SmallVector<ArgInfo, 8> SplitArgs;
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if (!splitToValueTypes(OrigArg, SplitArgs, DL, MRI,
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[&](ArrayRef<unsigned> Regs) {
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MIRBuilder.buildUnmerge(Regs, VReg);
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}))
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return false;
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OutgoingValueHandler Handler(MIRBuilder, MRI, MIB, RetCC_X86);
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if (!handleAssignments(MIRBuilder, SplitArgs, Handler))
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return false;
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}
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MIRBuilder.insertInstr(MIB);
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return true;
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}
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namespace {
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struct IncomingValueHandler : public CallLowering::ValueHandler {
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IncomingValueHandler(MachineIRBuilder &MIRBuilder, MachineRegisterInfo &MRI,
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CCAssignFn *AssignFn)
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: ValueHandler(MIRBuilder, MRI, AssignFn),
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DL(MIRBuilder.getMF().getDataLayout()) {}
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unsigned getStackAddress(uint64_t Size, int64_t Offset,
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MachinePointerInfo &MPO) override {
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auto &MFI = MIRBuilder.getMF().getFrameInfo();
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int FI = MFI.CreateFixedObject(Size, Offset, true);
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MPO = MachinePointerInfo::getFixedStack(MIRBuilder.getMF(), FI);
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unsigned AddrReg = MRI.createGenericVirtualRegister(
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LLT::pointer(0, DL.getPointerSizeInBits(0)));
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MIRBuilder.buildFrameIndex(AddrReg, FI);
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return AddrReg;
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}
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void assignValueToAddress(unsigned ValVReg, unsigned Addr, uint64_t Size,
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MachinePointerInfo &MPO, CCValAssign &VA) override {
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auto MMO = MIRBuilder.getMF().getMachineMemOperand(
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MPO, MachineMemOperand::MOLoad | MachineMemOperand::MOInvariant, Size,
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0);
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MIRBuilder.buildLoad(ValVReg, Addr, *MMO);
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}
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void assignValueToReg(unsigned ValVReg, unsigned PhysReg,
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CCValAssign &VA) override {
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markPhysRegUsed(PhysReg);
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switch (VA.getLocInfo()) {
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default: {
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// If we are copying the value from a physical register with the
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// size larger than the size of the value itself - build the copy
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// of the phys reg first and then build the truncation of that copy.
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// The example of that would be copying from xmm0 to s32, for which
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// case ValVT == LocVT == MVT::f32. If LocSize and ValSize are not equal
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// we expect this to be handled in SExt/ZExt/AExt case.
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unsigned PhysRegSize =
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MRI.getTargetRegisterInfo()->getRegSizeInBits(PhysReg, MRI);
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unsigned ValSize = VA.getValVT().getSizeInBits();
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unsigned LocSize = VA.getLocVT().getSizeInBits();
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if (PhysRegSize > ValSize && LocSize == ValSize) {
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auto Copy = MIRBuilder.buildCopy(LLT::scalar(PhysRegSize), PhysReg);
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MIRBuilder.buildTrunc(ValVReg, Copy);
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return;
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}
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MIRBuilder.buildCopy(ValVReg, PhysReg);
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break;
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}
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case CCValAssign::LocInfo::SExt:
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case CCValAssign::LocInfo::ZExt:
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case CCValAssign::LocInfo::AExt: {
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auto Copy = MIRBuilder.buildCopy(LLT{VA.getLocVT()}, PhysReg);
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MIRBuilder.buildTrunc(ValVReg, Copy);
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break;
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}
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}
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}
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/// How the physical register gets marked varies between formal
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/// parameters (it's a basic-block live-in), and a call instruction
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/// (it's an implicit-def of the BL).
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virtual void markPhysRegUsed(unsigned PhysReg) = 0;
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protected:
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const DataLayout &DL;
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};
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struct FormalArgHandler : public IncomingValueHandler {
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FormalArgHandler(MachineIRBuilder &MIRBuilder, MachineRegisterInfo &MRI,
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CCAssignFn *AssignFn)
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: IncomingValueHandler(MIRBuilder, MRI, AssignFn) {}
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void markPhysRegUsed(unsigned PhysReg) override {
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MIRBuilder.getMBB().addLiveIn(PhysReg);
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}
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};
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struct CallReturnHandler : public IncomingValueHandler {
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CallReturnHandler(MachineIRBuilder &MIRBuilder, MachineRegisterInfo &MRI,
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CCAssignFn *AssignFn, MachineInstrBuilder &MIB)
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: IncomingValueHandler(MIRBuilder, MRI, AssignFn), MIB(MIB) {}
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void markPhysRegUsed(unsigned PhysReg) override {
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MIB.addDef(PhysReg, RegState::Implicit);
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}
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protected:
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MachineInstrBuilder &MIB;
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};
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} // end anonymous namespace
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bool X86CallLowering::lowerFormalArguments(MachineIRBuilder &MIRBuilder,
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const Function &F,
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ArrayRef<unsigned> VRegs) const {
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if (F.arg_empty())
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return true;
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// TODO: handle variadic function
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if (F.isVarArg())
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return false;
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MachineFunction &MF = MIRBuilder.getMF();
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MachineRegisterInfo &MRI = MF.getRegInfo();
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auto DL = MF.getDataLayout();
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SmallVector<ArgInfo, 8> SplitArgs;
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unsigned Idx = 0;
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for (auto &Arg : F.args()) {
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// TODO: handle not simple cases.
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if (Arg.hasAttribute(Attribute::ByVal) ||
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Arg.hasAttribute(Attribute::InReg) ||
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Arg.hasAttribute(Attribute::StructRet) ||
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Arg.hasAttribute(Attribute::SwiftSelf) ||
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Arg.hasAttribute(Attribute::SwiftError) ||
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Arg.hasAttribute(Attribute::Nest))
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return false;
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ArgInfo OrigArg(VRegs[Idx], Arg.getType());
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setArgFlags(OrigArg, Idx + AttributeList::FirstArgIndex, DL, F);
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if (!splitToValueTypes(OrigArg, SplitArgs, DL, MRI,
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[&](ArrayRef<unsigned> Regs) {
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MIRBuilder.buildMerge(VRegs[Idx], Regs);
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}))
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return false;
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Idx++;
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}
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MachineBasicBlock &MBB = MIRBuilder.getMBB();
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if (!MBB.empty())
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MIRBuilder.setInstr(*MBB.begin());
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FormalArgHandler Handler(MIRBuilder, MRI, CC_X86);
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if (!handleAssignments(MIRBuilder, SplitArgs, Handler))
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return false;
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// Move back to the end of the basic block.
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MIRBuilder.setMBB(MBB);
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return true;
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}
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bool X86CallLowering::lowerCall(MachineIRBuilder &MIRBuilder,
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CallingConv::ID CallConv,
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const MachineOperand &Callee,
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const ArgInfo &OrigRet,
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ArrayRef<ArgInfo> OrigArgs) const {
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MachineFunction &MF = MIRBuilder.getMF();
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const Function &F = MF.getFunction();
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MachineRegisterInfo &MRI = MF.getRegInfo();
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auto &DL = F.getParent()->getDataLayout();
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const X86Subtarget &STI = MF.getSubtarget<X86Subtarget>();
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const TargetInstrInfo &TII = *STI.getInstrInfo();
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auto TRI = STI.getRegisterInfo();
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// Handle only Linux C, X86_64_SysV calling conventions for now.
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if (!STI.isTargetLinux() ||
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!(CallConv == CallingConv::C || CallConv == CallingConv::X86_64_SysV))
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return false;
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unsigned AdjStackDown = TII.getCallFrameSetupOpcode();
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auto CallSeqStart = MIRBuilder.buildInstr(AdjStackDown);
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// Create a temporarily-floating call instruction so we can add the implicit
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// uses of arg registers.
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bool Is64Bit = STI.is64Bit();
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unsigned CallOpc = Callee.isReg()
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? (Is64Bit ? X86::CALL64r : X86::CALL32r)
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: (Is64Bit ? X86::CALL64pcrel32 : X86::CALLpcrel32);
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auto MIB = MIRBuilder.buildInstrNoInsert(CallOpc).add(Callee).addRegMask(
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TRI->getCallPreservedMask(MF, CallConv));
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SmallVector<ArgInfo, 8> SplitArgs;
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for (const auto &OrigArg : OrigArgs) {
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// TODO: handle not simple cases.
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if (OrigArg.Flags.isByVal())
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return false;
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if (!splitToValueTypes(OrigArg, SplitArgs, DL, MRI,
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[&](ArrayRef<unsigned> Regs) {
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MIRBuilder.buildUnmerge(Regs, OrigArg.Reg);
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}))
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return false;
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}
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// Do the actual argument marshalling.
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OutgoingValueHandler Handler(MIRBuilder, MRI, MIB, CC_X86);
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if (!handleAssignments(MIRBuilder, SplitArgs, Handler))
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return false;
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bool IsFixed = OrigArgs.empty() ? true : OrigArgs.back().IsFixed;
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if (STI.is64Bit() && !IsFixed && !STI.isCallingConvWin64(CallConv)) {
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// From AMD64 ABI document:
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// For calls that may call functions that use varargs or stdargs
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// (prototype-less calls or calls to functions containing ellipsis (...) in
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// the declaration) %al is used as hidden argument to specify the number
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// of SSE registers used. The contents of %al do not need to match exactly
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// the number of registers, but must be an ubound on the number of SSE
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// registers used and is in the range 0 - 8 inclusive.
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MIRBuilder.buildInstr(X86::MOV8ri)
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.addDef(X86::AL)
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.addImm(Handler.getNumXmmRegs());
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MIB.addUse(X86::AL, RegState::Implicit);
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}
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// Now we can add the actual call instruction to the correct basic block.
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MIRBuilder.insertInstr(MIB);
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// If Callee is a reg, since it is used by a target specific
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// instruction, it must have a register class matching the
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// constraint of that instruction.
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if (Callee.isReg())
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MIB->getOperand(0).setReg(constrainOperandRegClass(
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MF, *TRI, MRI, *MF.getSubtarget().getInstrInfo(),
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*MF.getSubtarget().getRegBankInfo(), *MIB, MIB->getDesc(), Callee, 0));
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// Finally we can copy the returned value back into its virtual-register. In
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// symmetry with the arguments, the physical register must be an
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// implicit-define of the call instruction.
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if (OrigRet.Reg) {
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SplitArgs.clear();
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SmallVector<unsigned, 8> NewRegs;
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if (!splitToValueTypes(OrigRet, SplitArgs, DL, MRI,
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[&](ArrayRef<unsigned> Regs) {
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NewRegs.assign(Regs.begin(), Regs.end());
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}))
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return false;
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CallReturnHandler Handler(MIRBuilder, MRI, RetCC_X86, MIB);
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if (!handleAssignments(MIRBuilder, SplitArgs, Handler))
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return false;
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if (!NewRegs.empty())
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MIRBuilder.buildMerge(OrigRet.Reg, NewRegs);
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}
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CallSeqStart.addImm(Handler.getStackSize())
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.addImm(0 /* see getFrameTotalSize */)
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.addImm(0 /* see getFrameAdjustment */);
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unsigned AdjStackUp = TII.getCallFrameDestroyOpcode();
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MIRBuilder.buildInstr(AdjStackUp)
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.addImm(Handler.getStackSize())
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.addImm(0 /* NumBytesForCalleeToPop */);
|
|
|
|
return true;
|
|
}
|