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//=== ARMCallingConv.h - ARM Custom Calling Convention Routines -*- C++ -*-===//
//
//                     The LLVM Compiler Infrastructure
//
// This file is distributed under the University of Illinois Open Source
// License. See LICENSE.TXT for details.
//
//===----------------------------------------------------------------------===//
//
// This file contains the custom routines for the ARM Calling Convention that
// aren't done by tablegen.
//
//===----------------------------------------------------------------------===//

#ifndef ARMCALLINGCONV_H
#define ARMCALLINGCONV_H

#include "ARM.h"
#include "ARMBaseInstrInfo.h"
#include "ARMSubtarget.h"
#include "llvm/CodeGen/CallingConvLower.h"
#include "llvm/IR/CallingConv.h"
#include "llvm/Target/TargetInstrInfo.h"

namespace llvm {

// APCS f64 is in register pairs, possibly split to stack
static bool f64AssignAPCS(unsigned &ValNo, MVT &ValVT, MVT &LocVT,
                          CCValAssign::LocInfo &LocInfo,
                          CCState &State, bool CanFail) {
  static const uint16_t RegList[] = { ARM::R0, ARM::R1, ARM::R2, ARM::R3 };

  // Try to get the first register.
  if (unsigned Reg = State.AllocateReg(RegList, 4))
    State.addLoc(CCValAssign::getCustomReg(ValNo, ValVT, Reg, LocVT, LocInfo));
  else {
    // For the 2nd half of a v2f64, do not fail.
    if (CanFail)
      return false;

    // Put the whole thing on the stack.
    State.addLoc(CCValAssign::getCustomMem(ValNo, ValVT,
                                           State.AllocateStack(8, 4),
                                           LocVT, LocInfo));
    return true;
  }

  // Try to get the second register.
  if (unsigned Reg = State.AllocateReg(RegList, 4))
    State.addLoc(CCValAssign::getCustomReg(ValNo, ValVT, Reg, LocVT, LocInfo));
  else
    State.addLoc(CCValAssign::getCustomMem(ValNo, ValVT,
                                           State.AllocateStack(4, 4),
                                           LocVT, LocInfo));
  return true;
}

static bool CC_ARM_APCS_Custom_f64(unsigned &ValNo, MVT &ValVT, MVT &LocVT,
                                   CCValAssign::LocInfo &LocInfo,
                                   ISD::ArgFlagsTy &ArgFlags,
                                   CCState &State) {
  if (!f64AssignAPCS(ValNo, ValVT, LocVT, LocInfo, State, true))
    return false;
  if (LocVT == MVT::v2f64 &&
      !f64AssignAPCS(ValNo, ValVT, LocVT, LocInfo, State, false))
    return false;
  return true;  // we handled it
}

// AAPCS f64 is in aligned register pairs
static bool f64AssignAAPCS(unsigned &ValNo, MVT &ValVT, MVT &LocVT,
                           CCValAssign::LocInfo &LocInfo,
                           CCState &State, bool CanFail) {
  static const uint16_t HiRegList[] = { ARM::R0, ARM::R2 };
  static const uint16_t LoRegList[] = { ARM::R1, ARM::R3 };
  static const uint16_t ShadowRegList[] = { ARM::R0, ARM::R1 };
  static const uint16_t GPRArgRegs[] = { ARM::R0, ARM::R1, ARM::R2, ARM::R3 };

  unsigned Reg = State.AllocateReg(HiRegList, ShadowRegList, 2);
  if (Reg == 0) {

    // If we had R3 unallocated only, now we still must to waste it.
    Reg = State.AllocateReg(GPRArgRegs, 4);
    assert((!Reg || Reg == ARM::R3) && "Wrong GPRs usage for f64");

    // For the 2nd half of a v2f64, do not just fail.
    if (CanFail)
      return false;

    // Put the whole thing on the stack.
    State.addLoc(CCValAssign::getCustomMem(ValNo, ValVT,
                                           State.AllocateStack(8, 8),
                                           LocVT, LocInfo));
    return true;
  }

  unsigned i;
  for (i = 0; i < 2; ++i)
    if (HiRegList[i] == Reg)
      break;

  unsigned T = State.AllocateReg(LoRegList[i]);
  (void)T;
  assert(T == LoRegList[i] && "Could not allocate register");

  State.addLoc(CCValAssign::getCustomReg(ValNo, ValVT, Reg, LocVT, LocInfo));
  State.addLoc(CCValAssign::getCustomReg(ValNo, ValVT, LoRegList[i],
                                         LocVT, LocInfo));
  return true;
}

static bool CC_ARM_AAPCS_Custom_f64(unsigned &ValNo, MVT &ValVT, MVT &LocVT,
                                    CCValAssign::LocInfo &LocInfo,
                                    ISD::ArgFlagsTy &ArgFlags,
                                    CCState &State) {
  if (!f64AssignAAPCS(ValNo, ValVT, LocVT, LocInfo, State, true))
    return false;
  if (LocVT == MVT::v2f64 &&
      !f64AssignAAPCS(ValNo, ValVT, LocVT, LocInfo, State, false))
    return false;
  return true;  // we handled it
}

static bool f64RetAssign(unsigned &ValNo, MVT &ValVT, MVT &LocVT,
                         CCValAssign::LocInfo &LocInfo, CCState &State) {
  static const uint16_t HiRegList[] = { ARM::R0, ARM::R2 };
  static const uint16_t LoRegList[] = { ARM::R1, ARM::R3 };

  unsigned Reg = State.AllocateReg(HiRegList, LoRegList, 2);
  if (Reg == 0)
    return false; // we didn't handle it

  unsigned i;
  for (i = 0; i < 2; ++i)
    if (HiRegList[i] == Reg)
      break;

  State.addLoc(CCValAssign::getCustomReg(ValNo, ValVT, Reg, LocVT, LocInfo));
  State.addLoc(CCValAssign::getCustomReg(ValNo, ValVT, LoRegList[i],
                                         LocVT, LocInfo));
  return true;
}

static bool RetCC_ARM_APCS_Custom_f64(unsigned &ValNo, MVT &ValVT, MVT &LocVT,
                                      CCValAssign::LocInfo &LocInfo,
                                      ISD::ArgFlagsTy &ArgFlags,
                                      CCState &State) {
  if (!f64RetAssign(ValNo, ValVT, LocVT, LocInfo, State))
    return false;
  if (LocVT == MVT::v2f64 && !f64RetAssign(ValNo, ValVT, LocVT, LocInfo, State))
    return false;
  return true;  // we handled it
}

static bool RetCC_ARM_AAPCS_Custom_f64(unsigned &ValNo, MVT &ValVT, MVT &LocVT,
                                       CCValAssign::LocInfo &LocInfo,
                                       ISD::ArgFlagsTy &ArgFlags,
                                       CCState &State) {
  return RetCC_ARM_APCS_Custom_f64(ValNo, ValVT, LocVT, LocInfo, ArgFlags,
                                   State);
}

} // End llvm namespace

#endif