//===- AMDGPUGenRegisterBankInfo.def -----------------------------*- C++ -*-==//
//
// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
// See https://llvm.org/LICENSE.txt for license information.
// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
//
//===----------------------------------------------------------------------===//
/// \file
/// This file defines all the static objects used by AMDGPURegisterBankInfo.
/// \todo This should be generated by TableGen.
//===----------------------------------------------------------------------===//

namespace llvm {
namespace AMDGPU {

enum PartialMappingIdx {
  None = - 1,
  PM_SGPR1  = 1,
  PM_SGPR16 = 5,
  PM_SGPR32 = 6,
  PM_SGPR64 = 7,
  PM_SGPR128 = 8,
  PM_SGPR256 = 9,
  PM_SGPR512 = 10,
  PM_SGPR1024 = 11,
  PM_VGPR1  = 12,
  PM_VGPR16 = 16,
  PM_VGPR32 = 17,
  PM_VGPR64 = 18,
  PM_VGPR128 = 19,
  PM_VGPR256 = 20,
  PM_VGPR512 = 21,
  PM_VGPR1024 = 22,
  PM_SGPR96 = 23,
  PM_VGPR96 = 24,
  PM_AGPR96 = 25,
  PM_AGPR32 = 31,
  PM_AGPR64 = 32,
  PM_AGPR128 = 33,
  PM_AGPR256 = 34,
  PM_AGPR512 = 35,
  PM_AGPR1024 = 36
};

const RegisterBankInfo::PartialMapping PartMappings[] {
  // StartIdx, Length, RegBank
  {0, 1,  VCCRegBank},

  {0, 1,  SGPRRegBank}, // SGPR begin
  {0, 16, SGPRRegBank},
  {0, 32, SGPRRegBank},
  {0, 64, SGPRRegBank},
  {0, 128, SGPRRegBank},
  {0, 256, SGPRRegBank},
  {0, 512, SGPRRegBank},
  {0, 1024, SGPRRegBank},

  {0, 1,  VGPRRegBank}, // VGPR begin
  {0, 16, VGPRRegBank},
  {0, 32, VGPRRegBank},
  {0, 64, VGPRRegBank},
  {0, 128, VGPRRegBank},
  {0, 256, VGPRRegBank},
  {0, 512, VGPRRegBank},
  {0, 1024, VGPRRegBank},
  {0, 96, SGPRRegBank},
  {0, 96, VGPRRegBank},
  {0, 96, AGPRRegBank},

  {0, 32, AGPRRegBank}, // AGPR begin
  {0, 64, AGPRRegBank},
  {0, 128, AGPRRegBank},
  {0, 256, AGPRRegBank},
  {0, 512, AGPRRegBank},
  {0, 1024, AGPRRegBank}
};

const RegisterBankInfo::ValueMapping ValMappings[] {
  // VCC
  {&PartMappings[0], 1},

  // SGPRs
  {&PartMappings[1], 1}, // 1
  {nullptr, 0}, // Illegal power of 2 sizes
  {nullptr, 0},
  {nullptr, 0},
  {&PartMappings[2], 1}, // 16
  {&PartMappings[3], 1}, // 32
  {&PartMappings[4], 1}, // 64
  {&PartMappings[5], 1}, // 128
  {&PartMappings[6], 1}, // 256
  {&PartMappings[7], 1}, // 512
  {&PartMappings[8], 1}, // 1024

  // VGPRs
  {&PartMappings[9], 1}, // 1
  {nullptr, 0},
  {nullptr, 0},
  {nullptr, 0},
  {&PartMappings[10], 1}, // 16
  {&PartMappings[11], 1}, // 32
  {&PartMappings[12], 1}, // 64
  {&PartMappings[13], 1}, // 128
  {&PartMappings[14], 1}, // 256
  {&PartMappings[15], 1}, // 512
  {&PartMappings[16], 1}, // 1024
  {&PartMappings[17], 1},
  {&PartMappings[18], 1},
  {&PartMappings[19], 1},

  // AGPRs
  {nullptr, 0},
  {nullptr, 0},
  {nullptr, 0},
  {nullptr, 0},
  {nullptr, 0},
  {&PartMappings[20], 1}, // 32
  {&PartMappings[21], 1}, // 64
  {&PartMappings[22], 1}, // 128
  {&PartMappings[23], 1}, // 256
  {&PartMappings[24], 1}, // 512
  {&PartMappings[25], 1}  // 1024
};

const RegisterBankInfo::PartialMapping SGPROnly64BreakDown[] {
  {0, 32, SGPRRegBank}, // 32-bit op
  {0, 32, SGPRRegBank}, // 2x32-bit op
  {32, 32, SGPRRegBank},
  {0, 64, SGPRRegBank}, // <2x32-bit> op

  {0, 32, VGPRRegBank}, // 32-bit op
  {0, 32, VGPRRegBank}, // 2x32-bit op
  {32, 32, VGPRRegBank},
};


// For some instructions which can operate 64-bit only for the scalar
// version. Otherwise, these need to be split into 2 32-bit operations.
const RegisterBankInfo::ValueMapping ValMappingsSGPR64OnlyVGPR32[] {
  /*32-bit sgpr*/     {&SGPROnly64BreakDown[0], 1},
  /*2 x 32-bit sgpr*/ {&SGPROnly64BreakDown[1], 2},
  /*64-bit sgpr */    {&SGPROnly64BreakDown[3], 1},

  /*32-bit vgpr*/     {&SGPROnly64BreakDown[4], 1},
  /*2 x 32-bit vgpr*/ {&SGPROnly64BreakDown[5], 2}
};

enum ValueMappingIdx {
  SGPRStartIdx = 1,
  VGPRStartIdx = 12,
  AGPRStartIdx = 26
};

const RegisterBankInfo::ValueMapping *getValueMapping(unsigned BankID,
                                                      unsigned Size) {
  unsigned Idx;
  switch (Size) {
  case 1:
    if (BankID == AMDGPU::VCCRegBankID)
      return &ValMappings[0];

    Idx = BankID == AMDGPU::SGPRRegBankID ? PM_SGPR1 : PM_VGPR1;
    break;
  case 96:
    switch (BankID) {
      case AMDGPU::VGPRRegBankID:
        Idx = PM_VGPR96;
        break;
      case AMDGPU::SGPRRegBankID:
        Idx = PM_SGPR96;
        break;
      case AMDGPU::AGPRRegBankID:
        Idx = PM_AGPR96;
        break;
      default: llvm_unreachable("Invalid register bank");
    }
    break;
  default:
    switch (BankID) {
      case AMDGPU::VGPRRegBankID:
        Idx = VGPRStartIdx;
        break;
      case AMDGPU::SGPRRegBankID:
        Idx = SGPRStartIdx;
        break;
      case AMDGPU::AGPRRegBankID:
        Idx = AGPRStartIdx;
        break;
      default: llvm_unreachable("Invalid register bank");
    }
    Idx += Log2_32_Ceil(Size);
    break;
  }

  assert(Log2_32_Ceil(Size) == Log2_32_Ceil(ValMappings[Idx].BreakDown->Length));
  assert(BankID == ValMappings[Idx].BreakDown->RegBank->getID());

  return &ValMappings[Idx];
}

const RegisterBankInfo::ValueMapping *getValueMappingSGPR64Only(unsigned BankID,
                                                                unsigned Size) {
  if (Size != 64)
    return getValueMapping(BankID, Size);

  if (BankID == AMDGPU::VGPRRegBankID)
    return &ValMappingsSGPR64OnlyVGPR32[4];

  assert(BankID == AMDGPU::SGPRRegBankID);
  return &ValMappingsSGPR64OnlyVGPR32[2];
}

/// Split any 64-bit value into 2 32-bit pieces. Unlike
/// getValueMappingSGPR64Only, this splits both VGPRs and SGPRs.
const RegisterBankInfo::ValueMapping *getValueMappingSplit64(unsigned BankID,
                                                             unsigned Size) {
  assert(Size == 64);
  if (BankID == AMDGPU::VGPRRegBankID)
    return &ValMappingsSGPR64OnlyVGPR32[4];

  assert(BankID == AMDGPU::SGPRRegBankID);
  return &ValMappingsSGPR64OnlyVGPR32[1];
}


} // End AMDGPU namespace.
} // End llvm namespace.