doxygen/AMDGPUBaseInfo_8cpp_source.html

 //===- AMDGPUBaseInfo.cpp - AMDGPU Base encoding information --------------===//
 //
 // 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
 //
 //===----------------------------------------------------------------------===//

 #include "AMDGPUBaseInfo.h"
 #include "AMDGPUTargetTransformInfo.h"
 #include "AMDGPU.h"
 #include "SIDefines.h"
 #include "AMDGPUAsmUtils.h"
 #include "llvm/ADT/StringRef.h"
 #include "llvm/ADT/Triple.h"
 #include "llvm/BinaryFormat/ELF.h"
 #include "llvm/CodeGen/MachineMemOperand.h"
 #include "llvm/IR/Attributes.h"
 #include "llvm/IR/Constants.h"
 #include "llvm/IR/Function.h"
 #include "llvm/IR/GlobalValue.h"
 #include "llvm/IR/Instruction.h"
 #include "llvm/IR/LLVMContext.h"
 #include "llvm/IR/Module.h"
 #include "llvm/MC/MCContext.h"
 #include "llvm/MC/MCInstrDesc.h"
 #include "llvm/MC/MCInstrInfo.h"
 #include "llvm/MC/MCRegisterInfo.h"
 #include "llvm/MC/MCSectionELF.h"
 #include "llvm/MC/MCSubtargetInfo.h"
 #include "llvm/MC/SubtargetFeature.h"
 #include "llvm/Support/Casting.h"
 #include "llvm/Support/ErrorHandling.h"
 #include "llvm/Support/MathExtras.h"
 #include <algorithm>
 #include <cassert>
 #include <cstdint>
 #include <cstring>
 #include <utility>

 #include "MCTargetDesc/AMDGPUMCTargetDesc.h"

 #define GET_INSTRINFO_NAMED_OPS
 #define GET_INSTRMAP_INFO
 #include "AMDGPUGenInstrInfo.inc"
 #undef GET_INSTRMAP_INFO
 #undef GET_INSTRINFO_NAMED_OPS

 namespace {

 /// \returns Bit mask for given bit \p Shift and bit \p Width.
 unsigned getBitMask(unsigned Shift, unsigned Width) {
   return ((1 << Width) - 1) << Shift;
 }

 /// Packs \p Src into \p Dst for given bit \p Shift and bit \p Width.
 ///
 /// \returns Packed \p Dst.
 unsigned packBits(unsigned Src, unsigned Dst, unsigned Shift, unsigned Width) {
   Dst &= ~(1 << Shift) & ~getBitMask(Shift, Width);
   Dst |= (Src << Shift) & getBitMask(Shift, Width);
   return Dst;
 }

 /// Unpacks bits from \p Src for given bit \p Shift and bit \p Width.
 ///
 /// \returns Unpacked bits.
 unsigned unpackBits(unsigned Src, unsigned Shift, unsigned Width) {
   return (Src & getBitMask(Shift, Width)) >> Shift;
 }

 /// \returns Vmcnt bit shift (lower bits).
 unsigned getVmcntBitShiftLo() { return 0; }

 /// \returns Vmcnt bit width (lower bits).
 unsigned getVmcntBitWidthLo() { return 4; }

 /// \returns Expcnt bit shift.
 unsigned getExpcntBitShift() { return 4; }

 /// \returns Expcnt bit width.
 unsigned getExpcntBitWidth() { return 3; }

 /// \returns Lgkmcnt bit shift.
 unsigned getLgkmcntBitShift() { return 8; }

 /// \returns Lgkmcnt bit width.
 unsigned getLgkmcntBitWidth(unsigned VersionMajor) {
   return (VersionMajor >= 10) ? 6 : 4;
 }

 /// \returns Vmcnt bit shift (higher bits).
 unsigned getVmcntBitShiftHi() { return 14; }

 /// \returns Vmcnt bit width (higher bits).
 unsigned getVmcntBitWidthHi() { return 2; }

 } // end namespace anonymous

 namespace llvm {

 namespace AMDGPU {

 #define GET_MIMGBaseOpcodesTable_IMPL
 #define GET_MIMGDimInfoTable_IMPL
 #define GET_MIMGInfoTable_IMPL
 #define GET_MIMGLZMappingTable_IMPL
 #define GET_MIMGMIPMappingTable_IMPL
 #include "AMDGPUGenSearchableTables.inc"

 int getMIMGOpcode(unsigned BaseOpcode, unsigned MIMGEncoding,
                   unsigned VDataDwords, unsigned VAddrDwords) {
   const MIMGInfo *Info = getMIMGOpcodeHelper(BaseOpcode, MIMGEncoding,
                                              VDataDwords, VAddrDwords);
   return Info ? Info->Opcode : -1;
 }

 const MIMGBaseOpcodeInfo *getMIMGBaseOpcode(unsigned Opc) {
   const MIMGInfo *Info = getMIMGInfo(Opc);
   return Info ? getMIMGBaseOpcodeInfo(Info->BaseOpcode) : nullptr;
 }

 int getMaskedMIMGOp(unsigned Opc, unsigned NewChannels) {
   const MIMGInfo *OrigInfo = getMIMGInfo(Opc);
   const MIMGInfo *NewInfo =
       getMIMGOpcodeHelper(OrigInfo->BaseOpcode, OrigInfo->MIMGEncoding,
                           NewChannels, OrigInfo->VAddrDwords);
   return NewInfo ? NewInfo->Opcode : -1;
 }

 struct MUBUFInfo {
   uint16_t Opcode;
   uint16_t BaseOpcode;
   uint8_t elements;
   bool has_vaddr;
   bool has_srsrc;
   bool has_soffset;
 };

 struct MTBUFInfo {
   uint16_t Opcode;
   uint16_t BaseOpcode;
   uint8_t elements;
   bool has_vaddr;
   bool has_srsrc;
   bool has_soffset;
 };

 #define GET_MTBUFInfoTable_DECL
 #define GET_MTBUFInfoTable_IMPL
 #define GET_MUBUFInfoTable_DECL
 #define GET_MUBUFInfoTable_IMPL
 #include "AMDGPUGenSearchableTables.inc"

 int getMTBUFBaseOpcode(unsigned Opc) {
   const MTBUFInfo *Info = getMTBUFInfoFromOpcode(Opc);
   return Info ? Info->BaseOpcode : -1;
 }

 int getMTBUFOpcode(unsigned BaseOpc, unsigned Elements) {
   const MTBUFInfo *Info = getMTBUFInfoFromBaseOpcodeAndElements(BaseOpc, Elements);
   return Info ? Info->Opcode : -1;
 }

 int getMTBUFElements(unsigned Opc) {
   const MTBUFInfo *Info = getMTBUFOpcodeHelper(Opc);
   return Info ? Info->elements : 0;
 }

 bool getMTBUFHasVAddr(unsigned Opc) {
   const MTBUFInfo *Info = getMTBUFOpcodeHelper(Opc);
   return Info ? Info->has_vaddr : false;
 }

 bool getMTBUFHasSrsrc(unsigned Opc) {
   const MTBUFInfo *Info = getMTBUFOpcodeHelper(Opc);
   return Info ? Info->has_srsrc : false;
 }

 bool getMTBUFHasSoffset(unsigned Opc) {
   const MTBUFInfo *Info = getMTBUFOpcodeHelper(Opc);
   return Info ? Info->has_soffset : false;
 }

 int getMUBUFBaseOpcode(unsigned Opc) {
   const MUBUFInfo *Info = getMUBUFInfoFromOpcode(Opc);
   return Info ? Info->BaseOpcode : -1;
 }

 int getMUBUFOpcode(unsigned BaseOpc, unsigned Elements) {
   const MUBUFInfo *Info = getMUBUFInfoFromBaseOpcodeAndElements(BaseOpc, Elements);
   return Info ? Info->Opcode : -1;
 }

 int getMUBUFElements(unsigned Opc) {
   const MUBUFInfo *Info = getMUBUFOpcodeHelper(Opc);
   return Info ? Info->elements : 0;
 }

 bool getMUBUFHasVAddr(unsigned Opc) {
   const MUBUFInfo *Info = getMUBUFOpcodeHelper(Opc);
   return Info ? Info->has_vaddr : false;
 }

 bool getMUBUFHasSrsrc(unsigned Opc) {
   const MUBUFInfo *Info = getMUBUFOpcodeHelper(Opc);
   return Info ? Info->has_srsrc : false;
 }

 bool getMUBUFHasSoffset(unsigned Opc) {
   const MUBUFInfo *Info = getMUBUFOpcodeHelper(Opc);
   return Info ? Info->has_soffset : false;
 }

 // Wrapper for Tablegen'd function.  enum Subtarget is not defined in any
 // header files, so we need to wrap it in a function that takes unsigned
 // instead.
 int getMCOpcode(uint16_t Opcode, unsigned Gen) {
   return getMCOpcodeGen(Opcode, static_cast<Subtarget>(Gen));
 }

 namespace IsaInfo {

 void streamIsaVersion(const MCSubtargetInfo *STI, raw_ostream &Stream) {
   auto TargetTriple = STI->getTargetTriple();
   auto Version = getIsaVersion(STI->getCPU());

   Stream << TargetTriple.getArchName() << '-'
          << TargetTriple.getVendorName() << '-'
          << TargetTriple.getOSName() << '-'
          << TargetTriple.getEnvironmentName() << '-'
          << "gfx"
          << Version.Major
          << Version.Minor
          << Version.Stepping;

   if (hasXNACK(*STI))
     Stream << "+xnack";
   if (hasSRAMECC(*STI))
     Stream << "+sram-ecc";

   Stream.flush();
 }

 bool hasCodeObjectV3(const MCSubtargetInfo *STI) {
   return STI->getTargetTriple().getOS() == Triple::AMDHSA &&
              STI->getFeatureBits().test(FeatureCodeObjectV3);
 }

 unsigned getWavefrontSize(const MCSubtargetInfo *STI) {
   if (STI->getFeatureBits().test(FeatureWavefrontSize16))
     return 16;
   if (STI->getFeatureBits().test(FeatureWavefrontSize32))
     return 32;

   return 64;
 }

 unsigned getLocalMemorySize(const MCSubtargetInfo *STI) {
   if (STI->getFeatureBits().test(FeatureLocalMemorySize32768))
     return 32768;
   if (STI->getFeatureBits().test(FeatureLocalMemorySize65536))
     return 65536;

   return 0;
 }

 unsigned getEUsPerCU(const MCSubtargetInfo *STI) {
   return 4;
 }

 unsigned getMaxWorkGroupsPerCU(const MCSubtargetInfo *STI,
                                unsigned FlatWorkGroupSize) {
   assert(FlatWorkGroupSize != 0);
   if (STI->getTargetTriple().getArch() != Triple::amdgcn)
     return 8;
   unsigned N = getWavesPerWorkGroup(STI, FlatWorkGroupSize);
   if (N == 1)
     return 40;
   N = 40 / N;
   return std::min(N, 16u);
 }

 unsigned getMaxWavesPerCU(const MCSubtargetInfo *STI) {
   return getMaxWavesPerEU(STI) * getEUsPerCU(STI);
 }

 unsigned getMaxWavesPerCU(const MCSubtargetInfo *STI,
                           unsigned FlatWorkGroupSize) {
   return getWavesPerWorkGroup(STI, FlatWorkGroupSize);
 }

 unsigned getMinWavesPerEU(const MCSubtargetInfo *STI) {
   return 1;
 }

 unsigned getMaxWavesPerEU(const MCSubtargetInfo *STI) {
   // FIXME: Need to take scratch memory into account.
   if (!isGFX10(*STI))
     return 10;
   return 20;
 }

 unsigned getMaxWavesPerEU(const MCSubtargetInfo *STI,
                           unsigned FlatWorkGroupSize) {
   return alignTo(getMaxWavesPerCU(STI, FlatWorkGroupSize),
                  getEUsPerCU(STI)) / getEUsPerCU(STI);
 }

 unsigned getMinFlatWorkGroupSize(const MCSubtargetInfo *STI) {
   return 1;
 }

 unsigned getMaxFlatWorkGroupSize(const MCSubtargetInfo *STI) {
   return 2048;
 }

 unsigned getWavesPerWorkGroup(const MCSubtargetInfo *STI,
                               unsigned FlatWorkGroupSize) {
   return alignTo(FlatWorkGroupSize, getWavefrontSize(STI)) /
                  getWavefrontSize(STI);
 }

 unsigned getSGPRAllocGranule(const MCSubtargetInfo *STI) {
   IsaVersion Version = getIsaVersion(STI->getCPU());
   if (Version.Major >= 10)
     return getAddressableNumSGPRs(STI);
   if (Version.Major >= 8)
     return 16;
   return 8;
 }

 unsigned getSGPREncodingGranule(const MCSubtargetInfo *STI) {
   return 8;
 }

 unsigned getTotalNumSGPRs(const MCSubtargetInfo *STI) {
   IsaVersion Version = getIsaVersion(STI->getCPU());
   if (Version.Major >= 8)
     return 800;
   return 512;
 }

 unsigned getAddressableNumSGPRs(const MCSubtargetInfo *STI) {
   if (STI->getFeatureBits().test(FeatureSGPRInitBug))
     return FIXED_NUM_SGPRS_FOR_INIT_BUG;

   IsaVersion Version = getIsaVersion(STI->getCPU());
   if (Version.Major >= 10)
     return 106;
   if (Version.Major >= 8)
     return 102;
   return 104;
 }

 unsigned getMinNumSGPRs(const MCSubtargetInfo *STI, unsigned WavesPerEU) {
   assert(WavesPerEU != 0);

   IsaVersion Version = getIsaVersion(STI->getCPU());
   if (Version.Major >= 10)
     return 0;

   if (WavesPerEU >= getMaxWavesPerEU(STI))
     return 0;

   unsigned MinNumSGPRs = getTotalNumSGPRs(STI) / (WavesPerEU + 1);
   if (STI->getFeatureBits().test(FeatureTrapHandler))
     MinNumSGPRs -= std::min(MinNumSGPRs, (unsigned)TRAP_NUM_SGPRS);
   MinNumSGPRs = alignDown(MinNumSGPRs, getSGPRAllocGranule(STI)) + 1;
   return std::min(MinNumSGPRs, getAddressableNumSGPRs(STI));
 }

 unsigned getMaxNumSGPRs(const MCSubtargetInfo *STI, unsigned WavesPerEU,
                         bool Addressable) {
   assert(WavesPerEU != 0);

   unsigned AddressableNumSGPRs = getAddressableNumSGPRs(STI);
   IsaVersion Version = getIsaVersion(STI->getCPU());
   if (Version.Major >= 10)
     return Addressable ? AddressableNumSGPRs : 108;
   if (Version.Major >= 8 && !Addressable)
     AddressableNumSGPRs = 112;
   unsigned MaxNumSGPRs = getTotalNumSGPRs(STI) / WavesPerEU;
   if (STI->getFeatureBits().test(FeatureTrapHandler))
     MaxNumSGPRs -= std::min(MaxNumSGPRs, (unsigned)TRAP_NUM_SGPRS);
   MaxNumSGPRs = alignDown(MaxNumSGPRs, getSGPRAllocGranule(STI));
   return std::min(MaxNumSGPRs, AddressableNumSGPRs);
 }

 unsigned getNumExtraSGPRs(const MCSubtargetInfo *STI, bool VCCUsed,
                           bool FlatScrUsed, bool XNACKUsed) {
   unsigned ExtraSGPRs = 0;
   if (VCCUsed)
     ExtraSGPRs = 2;

   IsaVersion Version = getIsaVersion(STI->getCPU());
   if (Version.Major >= 10)
     return ExtraSGPRs;

   if (Version.Major < 8) {
     if (FlatScrUsed)
       ExtraSGPRs = 4;
   } else {
     if (XNACKUsed)
       ExtraSGPRs = 4;

     if (FlatScrUsed)
       ExtraSGPRs = 6;
   }

   return ExtraSGPRs;
 }

 unsigned getNumExtraSGPRs(const MCSubtargetInfo *STI, bool VCCUsed,
                           bool FlatScrUsed) {
   return getNumExtraSGPRs(STI, VCCUsed, FlatScrUsed,
                           STI->getFeatureBits().test(AMDGPU::FeatureXNACK));
 }

 unsigned getNumSGPRBlocks(const MCSubtargetInfo *STI, unsigned NumSGPRs) {
   NumSGPRs = alignTo(std::max(1u, NumSGPRs), getSGPREncodingGranule(STI));
   // SGPRBlocks is actual number of SGPR blocks minus 1.
   return NumSGPRs / getSGPREncodingGranule(STI) - 1;
 }

 unsigned getVGPRAllocGranule(const MCSubtargetInfo *STI,
                              Optional<bool> EnableWavefrontSize32) {
   bool IsWave32 = EnableWavefrontSize32 ?
       *EnableWavefrontSize32 :
       STI->getFeatureBits().test(FeatureWavefrontSize32);
   return IsWave32 ? 8 : 4;
 }

 unsigned getVGPREncodingGranule(const MCSubtargetInfo *STI,
                                 Optional<bool> EnableWavefrontSize32) {
   return getVGPRAllocGranule(STI, EnableWavefrontSize32);
 }

 unsigned getTotalNumVGPRs(const MCSubtargetInfo *STI) {
   if (!isGFX10(*STI))
     return 256;
   return STI->getFeatureBits().test(FeatureWavefrontSize32) ? 1024 : 512;
 }

 unsigned getAddressableNumVGPRs(const MCSubtargetInfo *STI) {
   return 256;
 }

 unsigned getMinNumVGPRs(const MCSubtargetInfo *STI, unsigned WavesPerEU) {
   assert(WavesPerEU != 0);

   if (WavesPerEU >= getMaxWavesPerEU(STI))
     return 0;
   unsigned MinNumVGPRs =
       alignDown(getTotalNumVGPRs(STI) / (WavesPerEU + 1),
                 getVGPRAllocGranule(STI)) + 1;
   return std::min(MinNumVGPRs, getAddressableNumVGPRs(STI));
 }

 unsigned getMaxNumVGPRs(const MCSubtargetInfo *STI, unsigned WavesPerEU) {
   assert(WavesPerEU != 0);

   unsigned MaxNumVGPRs = alignDown(getTotalNumVGPRs(STI) / WavesPerEU,
                                    getVGPRAllocGranule(STI));
   unsigned AddressableNumVGPRs = getAddressableNumVGPRs(STI);
   return std::min(MaxNumVGPRs, AddressableNumVGPRs);
 }

 unsigned getNumVGPRBlocks(const MCSubtargetInfo *STI, unsigned NumVGPRs,
                           Optional<bool> EnableWavefrontSize32) {
   NumVGPRs = alignTo(std::max(1u, NumVGPRs),
                      getVGPREncodingGranule(STI, EnableWavefrontSize32));
   // VGPRBlocks is actual number of VGPR blocks minus 1.
   return NumVGPRs / getVGPREncodingGranule(STI, EnableWavefrontSize32) - 1;
 }

 } // end namespace IsaInfo

 void initDefaultAMDKernelCodeT(amd_kernel_code_t &Header,
                                const MCSubtargetInfo *STI) {
   IsaVersion Version = getIsaVersion(STI->getCPU());

   memset(&Header, 0, sizeof(Header));

   Header.amd_kernel_code_version_major = 1;
   Header.amd_kernel_code_version_minor = 2;
   Header.amd_machine_kind = 1; // AMD_MACHINE_KIND_AMDGPU
   Header.amd_machine_version_major = Version.Major;
   Header.amd_machine_version_minor = Version.Minor;
   Header.amd_machine_version_stepping = Version.Stepping;
   Header.kernel_code_entry_byte_offset = sizeof(Header);
   Header.wavefront_size = 6;

   // If the code object does not support indirect functions, then the value must
   // be 0xffffffff.
   Header.call_convention = -1;

   // These alignment values are specified in powers of two, so alignment =
   // 2^n.  The minimum alignment is 2^4 = 16.
   Header.kernarg_segment_alignment = 4;
   Header.group_segment_alignment = 4;
   Header.private_segment_alignment = 4;

   if (Version.Major >= 10) {
     if (STI->getFeatureBits().test(FeatureWavefrontSize32)) {
       Header.wavefront_size = 5;
       Header.code_properties |= AMD_CODE_PROPERTY_ENABLE_WAVEFRONT_SIZE32;
     }
     Header.compute_pgm_resource_registers |=
       S_00B848_WGP_MODE(STI->getFeatureBits().test(FeatureCuMode) ? 0 : 1) |
       S_00B848_MEM_ORDERED(1);
   }
 }

 amdhsa::kernel_descriptor_t getDefaultAmdhsaKernelDescriptor(
     const MCSubtargetInfo *STI) {
   IsaVersion Version = getIsaVersion(STI->getCPU());

   amdhsa::kernel_descriptor_t KD;
   memset(&KD, 0, sizeof(KD));

   AMDHSA_BITS_SET(KD.compute_pgm_rsrc1,
                   amdhsa::COMPUTE_PGM_RSRC1_FLOAT_DENORM_MODE_16_64,
                   amdhsa::FLOAT_DENORM_MODE_FLUSH_NONE);
   AMDHSA_BITS_SET(KD.compute_pgm_rsrc1,
                   amdhsa::COMPUTE_PGM_RSRC1_ENABLE_DX10_CLAMP, 1);
   AMDHSA_BITS_SET(KD.compute_pgm_rsrc1,
                   amdhsa::COMPUTE_PGM_RSRC1_ENABLE_IEEE_MODE, 1);
   AMDHSA_BITS_SET(KD.compute_pgm_rsrc2,
                   amdhsa::COMPUTE_PGM_RSRC2_ENABLE_SGPR_WORKGROUP_ID_X, 1);
   if (Version.Major >= 10) {
     AMDHSA_BITS_SET(KD.kernel_code_properties,
                     amdhsa::KERNEL_CODE_PROPERTY_ENABLE_WAVEFRONT_SIZE32,
                     STI->getFeatureBits().test(FeatureWavefrontSize32) ? 1 : 0);
     AMDHSA_BITS_SET(KD.compute_pgm_rsrc1,
                     amdhsa::COMPUTE_PGM_RSRC1_WGP_MODE,
                     STI->getFeatureBits().test(FeatureCuMode) ? 0 : 1);
     AMDHSA_BITS_SET(KD.compute_pgm_rsrc1,
                     amdhsa::COMPUTE_PGM_RSRC1_MEM_ORDERED, 1);
   }
   return KD;
 }

 bool isGroupSegment(const GlobalValue *GV) {
   return GV->getType()->getAddressSpace() == AMDGPUAS::LOCAL_ADDRESS;
 }

 bool isGlobalSegment(const GlobalValue *GV) {
   return GV->getType()->getAddressSpace() == AMDGPUAS::GLOBAL_ADDRESS;
 }

 bool isReadOnlySegment(const GlobalValue *GV) {
   return GV->getType()->getAddressSpace() == AMDGPUAS::CONSTANT_ADDRESS ||
          GV->getType()->getAddressSpace() == AMDGPUAS::CONSTANT_ADDRESS_32BIT;
 }

 bool shouldEmitConstantsToTextSection(const Triple &TT) {
   return TT.getOS() == Triple::AMDPAL;
 }

 int getIntegerAttribute(const Function &F, StringRef Name, int Default) {
   Attribute A = F.getFnAttribute(Name);
   int Result = Default;

   if (A.isStringAttribute()) {
     StringRef Str = A.getValueAsString();
     if (Str.getAsInteger(0, Result)) {
       LLVMContext &Ctx = F.getContext();
       Ctx.emitError("can't parse integer attribute " + Name);
     }
   }

   return Result;
 }

 std::pair<int, int> getIntegerPairAttribute(const Function &F,
                                             StringRef Name,
                                             std::pair<int, int> Default,
                                             bool OnlyFirstRequired) {
   Attribute A = F.getFnAttribute(Name);
   if (!A.isStringAttribute())
     return Default;

   LLVMContext &Ctx = F.getContext();
   std::pair<int, int> Ints = Default;
   std::pair<StringRef, StringRef> Strs = A.getValueAsString().split(',');
   if (Strs.first.trim().getAsInteger(0, Ints.first)) {
     Ctx.emitError("can't parse first integer attribute " + Name);
     return Default;
   }
   if (Strs.second.trim().getAsInteger(0, Ints.second)) {
     if (!OnlyFirstRequired || !Strs.second.trim().empty()) {
       Ctx.emitError("can't parse second integer attribute " + Name);
       return Default;
     }
   }

   return Ints;
 }

 unsigned getVmcntBitMask(const IsaVersion &Version) {
   unsigned VmcntLo = (1 << getVmcntBitWidthLo()) - 1;
   if (Version.Major < 9)
     return VmcntLo;

   unsigned VmcntHi = ((1 << getVmcntBitWidthHi()) - 1) << getVmcntBitWidthLo();
   return VmcntLo | VmcntHi;
 }

 unsigned getExpcntBitMask(const IsaVersion &Version) {
   return (1 << getExpcntBitWidth()) - 1;
 }

 unsigned getLgkmcntBitMask(const IsaVersion &Version) {
   return (1 << getLgkmcntBitWidth(Version.Major)) - 1;
 }

 unsigned getWaitcntBitMask(const IsaVersion &Version) {
   unsigned VmcntLo = getBitMask(getVmcntBitShiftLo(), getVmcntBitWidthLo());
   unsigned Expcnt = getBitMask(getExpcntBitShift(), getExpcntBitWidth());
   unsigned Lgkmcnt = getBitMask(getLgkmcntBitShift(),
                                 getLgkmcntBitWidth(Version.Major));
   unsigned Waitcnt = VmcntLo | Expcnt | Lgkmcnt;
   if (Version.Major < 9)
     return Waitcnt;

   unsigned VmcntHi = getBitMask(getVmcntBitShiftHi(), getVmcntBitWidthHi());
   return Waitcnt | VmcntHi;
 }

 unsigned decodeVmcnt(const IsaVersion &Version, unsigned Waitcnt) {
   unsigned VmcntLo =
       unpackBits(Waitcnt, getVmcntBitShiftLo(), getVmcntBitWidthLo());
   if (Version.Major < 9)
     return VmcntLo;

   unsigned VmcntHi =
       unpackBits(Waitcnt, getVmcntBitShiftHi(), getVmcntBitWidthHi());
   VmcntHi <<= getVmcntBitWidthLo();
   return VmcntLo | VmcntHi;
 }

 unsigned decodeExpcnt(const IsaVersion &Version, unsigned Waitcnt) {
   return unpackBits(Waitcnt, getExpcntBitShift(), getExpcntBitWidth());
 }

 unsigned decodeLgkmcnt(const IsaVersion &Version, unsigned Waitcnt) {
   return unpackBits(Waitcnt, getLgkmcntBitShift(),
                     getLgkmcntBitWidth(Version.Major));
 }

 void decodeWaitcnt(const IsaVersion &Version, unsigned Waitcnt,
                    unsigned &Vmcnt, unsigned &Expcnt, unsigned &Lgkmcnt) {
   Vmcnt = decodeVmcnt(Version, Waitcnt);
   Expcnt = decodeExpcnt(Version, Waitcnt);
   Lgkmcnt = decodeLgkmcnt(Version, Waitcnt);
 }

 Waitcnt decodeWaitcnt(const IsaVersion &Version, unsigned Encoded) {
   Waitcnt Decoded;
   Decoded.VmCnt = decodeVmcnt(Version, Encoded);
   Decoded.ExpCnt = decodeExpcnt(Version, Encoded);
   Decoded.LgkmCnt = decodeLgkmcnt(Version, Encoded);
   return Decoded;
 }

 unsigned encodeVmcnt(const IsaVersion &Version, unsigned Waitcnt,
                      unsigned Vmcnt) {
   Waitcnt =
       packBits(Vmcnt, Waitcnt, getVmcntBitShiftLo(), getVmcntBitWidthLo());
   if (Version.Major < 9)
     return Waitcnt;

   Vmcnt >>= getVmcntBitWidthLo();
   return packBits(Vmcnt, Waitcnt, getVmcntBitShiftHi(), getVmcntBitWidthHi());
 }

 unsigned encodeExpcnt(const IsaVersion &Version, unsigned Waitcnt,
                       unsigned Expcnt) {
   return packBits(Expcnt, Waitcnt, getExpcntBitShift(), getExpcntBitWidth());
 }

 unsigned encodeLgkmcnt(const IsaVersion &Version, unsigned Waitcnt,
                        unsigned Lgkmcnt) {
   return packBits(Lgkmcnt, Waitcnt, getLgkmcntBitShift(),
                                     getLgkmcntBitWidth(Version.Major));
 }

 unsigned encodeWaitcnt(const IsaVersion &Version,
                        unsigned Vmcnt, unsigned Expcnt, unsigned Lgkmcnt) {
   unsigned Waitcnt = getWaitcntBitMask(Version);
   Waitcnt = encodeVmcnt(Version, Waitcnt, Vmcnt);
   Waitcnt = encodeExpcnt(Version, Waitcnt, Expcnt);
   Waitcnt = encodeLgkmcnt(Version, Waitcnt, Lgkmcnt);
   return Waitcnt;
 }

 unsigned encodeWaitcnt(const IsaVersion &Version, const Waitcnt &Decoded) {
   return encodeWaitcnt(Version, Decoded.VmCnt, Decoded.ExpCnt, Decoded.LgkmCnt);
 }

 //===----------------------------------------------------------------------===//
 // hwreg
 //===----------------------------------------------------------------------===//

 namespace Hwreg {

 int64_t getHwregId(const StringRef Name) {
   for (int Id = ID_SYMBOLIC_FIRST_; Id < ID_SYMBOLIC_LAST_; ++Id) {
     if (IdSymbolic[Id] && Name == IdSymbolic[Id])
       return Id;
   }
   return ID_UNKNOWN_;
 }

 static unsigned getLastSymbolicHwreg(const MCSubtargetInfo &STI) {
   if (isSI(STI) || isCI(STI) || isVI(STI))
     return ID_SYMBOLIC_FIRST_GFX9_;
   else if (isGFX9(STI))
     return ID_SYMBOLIC_FIRST_GFX10_;
   else
     return ID_SYMBOLIC_LAST_;
 }

 bool isValidHwreg(int64_t Id, const MCSubtargetInfo &STI) {
   return ID_SYMBOLIC_FIRST_ <= Id && Id < getLastSymbolicHwreg(STI) &&
          IdSymbolic[Id];
 }

 bool isValidHwreg(int64_t Id) {
   return 0 <= Id && isUInt<ID_WIDTH_>(Id);
 }

 bool isValidHwregOffset(int64_t Offset) {
   return 0 <= Offset && isUInt<OFFSET_WIDTH_>(Offset);
 }

 bool isValidHwregWidth(int64_t Width) {
   return 0 <= (Width - 1) && isUInt<WIDTH_M1_WIDTH_>(Width - 1);
 }

 uint64_t encodeHwreg(uint64_t Id, uint64_t Offset, uint64_t Width) {
   return (Id << ID_SHIFT_) |
          (Offset << OFFSET_SHIFT_) |
          ((Width - 1) << WIDTH_M1_SHIFT_);
 }

 StringRef getHwreg(unsigned Id, const MCSubtargetInfo &STI) {
   return isValidHwreg(Id, STI) ? IdSymbolic[Id] : "";
 }

 void decodeHwreg(unsigned Val, unsigned &Id, unsigned &Offset, unsigned &Width) {
   Id = (Val & ID_MASK_) >> ID_SHIFT_;
   Offset = (Val & OFFSET_MASK_) >> OFFSET_SHIFT_;
   Width = ((Val & WIDTH_M1_MASK_) >> WIDTH_M1_SHIFT_) + 1;
 }

 } // namespace Hwreg

 //===----------------------------------------------------------------------===//
 // SendMsg
 //===----------------------------------------------------------------------===//

 namespace SendMsg {

 int64_t getMsgId(const StringRef Name) {
   for (int i = ID_GAPS_FIRST_; i < ID_GAPS_LAST_; ++i) {
     if (IdSymbolic[i] && Name == IdSymbolic[i])
       return i;
   }
   return ID_UNKNOWN_;
 }

 static bool isValidMsgId(int64_t MsgId) {
   return (ID_GAPS_FIRST_ <= MsgId && MsgId < ID_GAPS_LAST_) && IdSymbolic[MsgId];
 }

 bool isValidMsgId(int64_t MsgId, const MCSubtargetInfo &STI, bool Strict) {
   if (Strict) {
     if (MsgId == ID_GS_ALLOC_REQ || MsgId == ID_GET_DOORBELL)
       return isGFX9(STI) || isGFX10(STI);
     else
       return isValidMsgId(MsgId);
   } else {
     return 0 <= MsgId && isUInt<ID_WIDTH_>(MsgId);
   }
 }

 StringRef getMsgName(int64_t MsgId) {
   return isValidMsgId(MsgId)? IdSymbolic[MsgId] : "";
 }

 int64_t getMsgOpId(int64_t MsgId, const StringRef Name) {
   const char* const *S = (MsgId == ID_SYSMSG) ? OpSysSymbolic : OpGsSymbolic;
   const int F = (MsgId == ID_SYSMSG) ? OP_SYS_FIRST_ : OP_GS_FIRST_;
   const int L = (MsgId == ID_SYSMSG) ? OP_SYS_LAST_ : OP_GS_LAST_;
   for (int i = F; i < L; ++i) {
     if (Name == S[i]) {
       return i;
     }
   }
   return OP_UNKNOWN_;
 }

 bool isValidMsgOp(int64_t MsgId, int64_t OpId, bool Strict) {

   if (!Strict)
     return 0 <= OpId && isUInt<OP_WIDTH_>(OpId);

   switch(MsgId)
   {
   case ID_GS:
     return (OP_GS_FIRST_ <= OpId && OpId < OP_GS_LAST_) && OpId != OP_GS_NOP;
   case ID_GS_DONE:
     return OP_GS_FIRST_ <= OpId && OpId < OP_GS_LAST_;
   case ID_SYSMSG:
     return OP_SYS_FIRST_ <= OpId && OpId < OP_SYS_LAST_;
   default:
     return OpId == OP_NONE_;
   }
 }

 StringRef getMsgOpName(int64_t MsgId, int64_t OpId) {
   assert(msgRequiresOp(MsgId));
   return (MsgId == ID_SYSMSG)? OpSysSymbolic[OpId] : OpGsSymbolic[OpId];
 }

 bool isValidMsgStream(int64_t MsgId, int64_t OpId, int64_t StreamId, bool Strict) {

   if (!Strict)
     return 0 <= StreamId && isUInt<STREAM_ID_WIDTH_>(StreamId);

   switch(MsgId)
   {
   case ID_GS:
     return STREAM_ID_FIRST_ <= StreamId && StreamId < STREAM_ID_LAST_;
   case ID_GS_DONE:
     return (OpId == OP_GS_NOP)?
            (StreamId == STREAM_ID_NONE_) :
            (STREAM_ID_FIRST_ <= StreamId && StreamId < STREAM_ID_LAST_);
   default:
     return StreamId == STREAM_ID_NONE_;
   }
 }

 bool msgRequiresOp(int64_t MsgId) {
   return MsgId == ID_GS || MsgId == ID_GS_DONE || MsgId == ID_SYSMSG;
 }

 bool msgSupportsStream(int64_t MsgId, int64_t OpId) {
   return (MsgId == ID_GS || MsgId == ID_GS_DONE) && OpId != OP_GS_NOP;
 }

 void decodeMsg(unsigned Val,
                uint16_t &MsgId,
                uint16_t &OpId,
                uint16_t &StreamId) {
   MsgId = Val & ID_MASK_;
   OpId = (Val & OP_MASK_) >> OP_SHIFT_;
   StreamId = (Val & STREAM_ID_MASK_) >> STREAM_ID_SHIFT_;
 }

 uint64_t encodeMsg(uint64_t MsgId,
                    uint64_t OpId,
                    uint64_t StreamId) {
   return (MsgId << ID_SHIFT_) |
          (OpId << OP_SHIFT_) |
          (StreamId << STREAM_ID_SHIFT_);
 }

 } // namespace SendMsg

 //===----------------------------------------------------------------------===//
 //
 //===----------------------------------------------------------------------===//

 unsigned getInitialPSInputAddr(const Function &F) {
   return getIntegerAttribute(F, "InitialPSInputAddr", 0);
 }

 bool isShader(CallingConv::ID cc) {
   switch(cc) {
     case CallingConv::AMDGPU_VS:
     case CallingConv::AMDGPU_LS:
     case CallingConv::AMDGPU_HS:
     case CallingConv::AMDGPU_ES:
     case CallingConv::AMDGPU_GS:
     case CallingConv::AMDGPU_PS:
     case CallingConv::AMDGPU_CS:
       return true;
     default:
       return false;
   }
 }

 bool isCompute(CallingConv::ID cc) {
   return !isShader(cc) || cc == CallingConv::AMDGPU_CS;
 }

 bool isEntryFunctionCC(CallingConv::ID CC) {
   switch (CC) {
   case CallingConv::AMDGPU_KERNEL:
   case CallingConv::SPIR_KERNEL:
   case CallingConv::AMDGPU_VS:
   case CallingConv::AMDGPU_GS:
   case CallingConv::AMDGPU_PS:
   case CallingConv::AMDGPU_CS:
   case CallingConv::AMDGPU_ES:
   case CallingConv::AMDGPU_HS:
   case CallingConv::AMDGPU_LS:
     return true;
   default:
     return false;
   }
 }

 bool hasXNACK(const MCSubtargetInfo &STI) {
   return STI.getFeatureBits()[AMDGPU::FeatureXNACK];
 }

 bool hasSRAMECC(const MCSubtargetInfo &STI) {
   return STI.getFeatureBits()[AMDGPU::FeatureSRAMECC];
 }

 bool hasMIMG_R128(const MCSubtargetInfo &STI) {
   return STI.getFeatureBits()[AMDGPU::FeatureMIMG_R128];
 }

 bool hasPackedD16(const MCSubtargetInfo &STI) {
   return !STI.getFeatureBits()[AMDGPU::FeatureUnpackedD16VMem];
 }

 bool isSI(const MCSubtargetInfo &STI) {
   return STI.getFeatureBits()[AMDGPU::FeatureSouthernIslands];
 }

 bool isCI(const MCSubtargetInfo &STI) {
   return STI.getFeatureBits()[AMDGPU::FeatureSeaIslands];
 }

 bool isVI(const MCSubtargetInfo &STI) {
   return STI.getFeatureBits()[AMDGPU::FeatureVolcanicIslands];
 }

 bool isGFX9(const MCSubtargetInfo &STI) {
   return STI.getFeatureBits()[AMDGPU::FeatureGFX9];
 }

 bool isGFX10(const MCSubtargetInfo &STI) {
   return STI.getFeatureBits()[AMDGPU::FeatureGFX10];
 }

 bool isGCN3Encoding(const MCSubtargetInfo &STI) {
   return STI.getFeatureBits()[AMDGPU::FeatureGCN3Encoding];
 }

 bool isSGPR(unsigned Reg, const MCRegisterInfo* TRI) {
   const MCRegisterClass SGPRClass = TRI->getRegClass(AMDGPU::SReg_32RegClassID);
   const unsigned FirstSubReg = TRI->getSubReg(Reg, 1);
   return SGPRClass.contains(FirstSubReg != 0 ? FirstSubReg : Reg) ||
     Reg == AMDGPU::SCC;
 }

 bool isRegIntersect(unsigned Reg0, unsigned Reg1, const MCRegisterInfo* TRI) {
   for (MCRegAliasIterator R(Reg0, TRI, true); R.isValid(); ++R) {
     if (*R == Reg1) return true;
   }
   return false;
 }

 #define MAP_REG2REG \
   using namespace AMDGPU; \
   switch(Reg) { \
   default: return Reg; \
   CASE_CI_VI(FLAT_SCR) \
   CASE_CI_VI(FLAT_SCR_LO) \
   CASE_CI_VI(FLAT_SCR_HI) \
   CASE_VI_GFX9_GFX10(TTMP0) \
   CASE_VI_GFX9_GFX10(TTMP1) \
   CASE_VI_GFX9_GFX10(TTMP2) \
   CASE_VI_GFX9_GFX10(TTMP3) \
   CASE_VI_GFX9_GFX10(TTMP4) \
   CASE_VI_GFX9_GFX10(TTMP5) \
   CASE_VI_GFX9_GFX10(TTMP6) \
   CASE_VI_GFX9_GFX10(TTMP7) \
   CASE_VI_GFX9_GFX10(TTMP8) \
   CASE_VI_GFX9_GFX10(TTMP9) \
   CASE_VI_GFX9_GFX10(TTMP10) \
   CASE_VI_GFX9_GFX10(TTMP11) \
   CASE_VI_GFX9_GFX10(TTMP12) \
   CASE_VI_GFX9_GFX10(TTMP13) \
   CASE_VI_GFX9_GFX10(TTMP14) \
   CASE_VI_GFX9_GFX10(TTMP15) \
   CASE_VI_GFX9_GFX10(TTMP0_TTMP1) \
   CASE_VI_GFX9_GFX10(TTMP2_TTMP3) \
   CASE_VI_GFX9_GFX10(TTMP4_TTMP5) \
   CASE_VI_GFX9_GFX10(TTMP6_TTMP7) \
   CASE_VI_GFX9_GFX10(TTMP8_TTMP9) \
   CASE_VI_GFX9_GFX10(TTMP10_TTMP11) \
   CASE_VI_GFX9_GFX10(TTMP12_TTMP13) \
   CASE_VI_GFX9_GFX10(TTMP14_TTMP15) \
   CASE_VI_GFX9_GFX10(TTMP0_TTMP1_TTMP2_TTMP3) \
   CASE_VI_GFX9_GFX10(TTMP4_TTMP5_TTMP6_TTMP7) \
   CASE_VI_GFX9_GFX10(TTMP8_TTMP9_TTMP10_TTMP11) \
   CASE_VI_GFX9_GFX10(TTMP12_TTMP13_TTMP14_TTMP15) \
   CASE_VI_GFX9_GFX10(TTMP0_TTMP1_TTMP2_TTMP3_TTMP4_TTMP5_TTMP6_TTMP7) \
   CASE_VI_GFX9_GFX10(TTMP4_TTMP5_TTMP6_TTMP7_TTMP8_TTMP9_TTMP10_TTMP11) \
   CASE_VI_GFX9_GFX10(TTMP8_TTMP9_TTMP10_TTMP11_TTMP12_TTMP13_TTMP14_TTMP15) \
   CASE_VI_GFX9_GFX10(TTMP0_TTMP1_TTMP2_TTMP3_TTMP4_TTMP5_TTMP6_TTMP7_TTMP8_TTMP9_TTMP10_TTMP11_TTMP12_TTMP13_TTMP14_TTMP15) \
   }

 #define CASE_CI_VI(node) \
   assert(!isSI(STI)); \
   case node: return isCI(STI) ? node##_ci : node##_vi;

 #define CASE_VI_GFX9_GFX10(node) \
   case node: return (isGFX9(STI) || isGFX10(STI)) ? node##_gfx9_gfx10 : node##_vi;

 unsigned getMCReg(unsigned Reg, const MCSubtargetInfo &STI) {
   if (STI.getTargetTriple().getArch() == Triple::r600)
     return Reg;
   MAP_REG2REG
 }

 #undef CASE_CI_VI
 #undef CASE_VI_GFX9_GFX10

 #define CASE_CI_VI(node)   case node##_ci: case node##_vi:   return node;
 #define CASE_VI_GFX9_GFX10(node) case node##_vi: case node##_gfx9_gfx10: return node;

 unsigned mc2PseudoReg(unsigned Reg) {
   MAP_REG2REG
 }

 #undef CASE_CI_VI
 #undef CASE_VI_GFX9_GFX10
 #undef MAP_REG2REG

 bool isSISrcOperand(const MCInstrDesc &Desc, unsigned OpNo) {
   assert(OpNo < Desc.NumOperands);
   unsigned OpType = Desc.OpInfo[OpNo].OperandType;
   return OpType >= AMDGPU::OPERAND_SRC_FIRST &&
          OpType <= AMDGPU::OPERAND_SRC_LAST;
 }

 bool isSISrcFPOperand(const MCInstrDesc &Desc, unsigned OpNo) {
   assert(OpNo < Desc.NumOperands);
   unsigned OpType = Desc.OpInfo[OpNo].OperandType;
   switch (OpType) {
   case AMDGPU::OPERAND_REG_IMM_FP32:
   case AMDGPU::OPERAND_REG_IMM_FP64:
   case AMDGPU::OPERAND_REG_IMM_FP16:
   case AMDGPU::OPERAND_REG_IMM_V2FP16:
   case AMDGPU::OPERAND_REG_IMM_V2INT16:
   case AMDGPU::OPERAND_REG_INLINE_C_FP32:
   case AMDGPU::OPERAND_REG_INLINE_C_FP64:
   case AMDGPU::OPERAND_REG_INLINE_C_FP16:
   case AMDGPU::OPERAND_REG_INLINE_C_V2FP16:
   case AMDGPU::OPERAND_REG_INLINE_C_V2INT16:
   case AMDGPU::OPERAND_REG_INLINE_AC_FP32:
   case AMDGPU::OPERAND_REG_INLINE_AC_FP16:
   case AMDGPU::OPERAND_REG_INLINE_AC_V2FP16:
   case AMDGPU::OPERAND_REG_INLINE_AC_V2INT16:
     return true;
   default:
     return false;
   }
 }

 bool isSISrcInlinableOperand(const MCInstrDesc &Desc, unsigned OpNo) {
   assert(OpNo < Desc.NumOperands);
   unsigned OpType = Desc.OpInfo[OpNo].OperandType;
   return OpType >= AMDGPU::OPERAND_REG_INLINE_C_FIRST &&
          OpType <= AMDGPU::OPERAND_REG_INLINE_C_LAST;
 }

 // Avoid using MCRegisterClass::getSize, since that function will go away
 // (move from MC* level to Target* level). Return size in bits.
 unsigned getRegBitWidth(unsigned RCID) {
   switch (RCID) {
   case AMDGPU::SGPR_32RegClassID:
   case AMDGPU::VGPR_32RegClassID:
   case AMDGPU::VRegOrLds_32RegClassID:
   case AMDGPU::AGPR_32RegClassID:
   case AMDGPU::VS_32RegClassID:
   case AMDGPU::AV_32RegClassID:
   case AMDGPU::SReg_32RegClassID:
   case AMDGPU::SReg_32_XM0RegClassID:
   case AMDGPU::SRegOrLds_32RegClassID:
     return 32;
   case AMDGPU::SGPR_64RegClassID:
   case AMDGPU::VS_64RegClassID:
   case AMDGPU::AV_64RegClassID:
   case AMDGPU::SReg_64RegClassID:
   case AMDGPU::VReg_64RegClassID:
   case AMDGPU::AReg_64RegClassID:
   case AMDGPU::SReg_64_XEXECRegClassID:
     return 64;
   case AMDGPU::SGPR_96RegClassID:
   case AMDGPU::SReg_96RegClassID:
   case AMDGPU::VReg_96RegClassID:
     return 96;
   case AMDGPU::SGPR_128RegClassID:
   case AMDGPU::SReg_128RegClassID:
   case AMDGPU::VReg_128RegClassID:
   case AMDGPU::AReg_128RegClassID:
     return 128;
   case AMDGPU::SGPR_160RegClassID:
   case AMDGPU::SReg_160RegClassID:
   case AMDGPU::VReg_160RegClassID:
     return 160;
   case AMDGPU::SReg_256RegClassID:
   case AMDGPU::VReg_256RegClassID:
     return 256;
   case AMDGPU::SReg_512RegClassID:
   case AMDGPU::VReg_512RegClassID:
   case AMDGPU::AReg_512RegClassID:
     return 512;
   case AMDGPU::SReg_1024RegClassID:
   case AMDGPU::VReg_1024RegClassID:
   case AMDGPU::AReg_1024RegClassID:
     return 1024;
   default:
     llvm_unreachable("Unexpected register class");
   }
 }

 unsigned getRegBitWidth(const MCRegisterClass &RC) {
   return getRegBitWidth(RC.getID());
 }

 unsigned getRegOperandSize(const MCRegisterInfo *MRI, const MCInstrDesc &Desc,
                            unsigned OpNo) {
   assert(OpNo < Desc.NumOperands);
   unsigned RCID = Desc.OpInfo[OpNo].RegClass;
   return getRegBitWidth(MRI->getRegClass(RCID)) / 8;
 }

 bool isInlinableLiteral64(int64_t Literal, bool HasInv2Pi) {
   if (Literal >= -16 && Literal <= 64)
     return true;

   uint64_t Val = static_cast<uint64_t>(Literal);
   return (Val == DoubleToBits(0.0)) ||
          (Val == DoubleToBits(1.0)) ||
          (Val == DoubleToBits(-1.0)) ||
          (Val == DoubleToBits(0.5)) ||
          (Val == DoubleToBits(-0.5)) ||
          (Val == DoubleToBits(2.0)) ||
          (Val == DoubleToBits(-2.0)) ||
          (Val == DoubleToBits(4.0)) ||
          (Val == DoubleToBits(-4.0)) ||
          (Val == 0x3fc45f306dc9c882 && HasInv2Pi);
 }

 bool isInlinableLiteral32(int32_t Literal, bool HasInv2Pi) {
   if (Literal >= -16 && Literal <= 64)
     return true;

   // The actual type of the operand does not seem to matter as long
   // as the bits match one of the inline immediate values.  For example:
   //
   // -nan has the hexadecimal encoding of 0xfffffffe which is -2 in decimal,
   // so it is a legal inline immediate.
   //
   // 1065353216 has the hexadecimal encoding 0x3f800000 which is 1.0f in
   // floating-point, so it is a legal inline immediate.

   uint32_t Val = static_cast<uint32_t>(Literal);
   return (Val == FloatToBits(0.0f)) ||
          (Val == FloatToBits(1.0f)) ||
          (Val == FloatToBits(-1.0f)) ||
          (Val == FloatToBits(0.5f)) ||
          (Val == FloatToBits(-0.5f)) ||
          (Val == FloatToBits(2.0f)) ||
          (Val == FloatToBits(-2.0f)) ||
          (Val == FloatToBits(4.0f)) ||
          (Val == FloatToBits(-4.0f)) ||
          (Val == 0x3e22f983 && HasInv2Pi);
 }

 bool isInlinableLiteral16(int16_t Literal, bool HasInv2Pi) {
   if (!HasInv2Pi)
     return false;

   if (Literal >= -16 && Literal <= 64)
     return true;

   uint16_t Val = static_cast<uint16_t>(Literal);
   return Val == 0x3C00 || // 1.0
          Val == 0xBC00 || // -1.0
          Val == 0x3800 || // 0.5
          Val == 0xB800 || // -0.5
          Val == 0x4000 || // 2.0
          Val == 0xC000 || // -2.0
          Val == 0x4400 || // 4.0
          Val == 0xC400 || // -4.0
          Val == 0x3118;   // 1/2pi
 }

 bool isInlinableLiteralV216(int32_t Literal, bool HasInv2Pi) {
   assert(HasInv2Pi);

   if (isInt<16>(Literal) || isUInt<16>(Literal)) {
     int16_t Trunc = static_cast<int16_t>(Literal);
     return AMDGPU::isInlinableLiteral16(Trunc, HasInv2Pi);
   }
   if (!(Literal & 0xffff))
     return AMDGPU::isInlinableLiteral16(Literal >> 16, HasInv2Pi);

   int16_t Lo16 = static_cast<int16_t>(Literal);
   int16_t Hi16 = static_cast<int16_t>(Literal >> 16);
   return Lo16 == Hi16 && isInlinableLiteral16(Lo16, HasInv2Pi);
 }

 bool isArgPassedInSGPR(const Argument *A) {
   const Function *F = A->getParent();

   // Arguments to compute shaders are never a source of divergence.
   CallingConv::ID CC = F->getCallingConv();
   switch (CC) {
   case CallingConv::AMDGPU_KERNEL:
   case CallingConv::SPIR_KERNEL:
     return true;
   case CallingConv::AMDGPU_VS:
   case CallingConv::AMDGPU_LS:
   case CallingConv::AMDGPU_HS:
   case CallingConv::AMDGPU_ES:
   case CallingConv::AMDGPU_GS:
   case CallingConv::AMDGPU_PS:
   case CallingConv::AMDGPU_CS:
     // For non-compute shaders, SGPR inputs are marked with either inreg or byval.
     // Everything else is in VGPRs.
     return F->getAttributes().hasParamAttribute(A->getArgNo(), Attribute::InReg) ||
            F->getAttributes().hasParamAttribute(A->getArgNo(), Attribute::ByVal);
   default:
     // TODO: Should calls support inreg for SGPR inputs?
     return false;
   }
 }

 static bool hasSMEMByteOffset(const MCSubtargetInfo &ST) {
   return isGCN3Encoding(ST) || isGFX10(ST);
 }

 int64_t getSMRDEncodedOffset(const MCSubtargetInfo &ST, int64_t ByteOffset) {
   if (hasSMEMByteOffset(ST))
     return ByteOffset;
   return ByteOffset >> 2;
 }

 bool isLegalSMRDImmOffset(const MCSubtargetInfo &ST, int64_t ByteOffset) {
   int64_t EncodedOffset = getSMRDEncodedOffset(ST, ByteOffset);
   return (hasSMEMByteOffset(ST)) ?
     isUInt<20>(EncodedOffset) : isUInt<8>(EncodedOffset);
 }

 // Given Imm, split it into the values to put into the SOffset and ImmOffset
 // fields in an MUBUF instruction. Return false if it is not possible (due to a
 // hardware bug needing a workaround).
 //
 // The required alignment ensures that individual address components remain
 // aligned if they are aligned to begin with. It also ensures that additional
 // offsets within the given alignment can be added to the resulting ImmOffset.
 bool splitMUBUFOffset(uint32_t Imm, uint32_t &SOffset, uint32_t &ImmOffset,
                       const GCNSubtarget *Subtarget, uint32_t Align) {
   const uint32_t MaxImm = alignDown(4095, Align);
   uint32_t Overflow = 0;

   if (Imm > MaxImm) {
     if (Imm <= MaxImm + 64) {
       // Use an SOffset inline constant for 4..64
       Overflow = Imm - MaxImm;
       Imm = MaxImm;
     } else {
       // Try to keep the same value in SOffset for adjacent loads, so that
       // the corresponding register contents can be re-used.
       //
       // Load values with all low-bits (except for alignment bits) set into
       // SOffset, so that a larger range of values can be covered using
       // s_movk_i32.
       //
       // Atomic operations fail to work correctly when individual address
       // components are unaligned, even if their sum is aligned.
       uint32_t High = (Imm + Align) & ~4095;
       uint32_t Low = (Imm + Align) & 4095;
       Imm = Low;
       Overflow = High - Align;
     }
   }

   // There is a hardware bug in SI and CI which prevents address clamping in
   // MUBUF instructions from working correctly with SOffsets. The immediate
   // offset is unaffected.
   if (Overflow > 0 &&
       Subtarget->getGeneration() <= AMDGPUSubtarget::SEA_ISLANDS)
     return false;

   ImmOffset = Imm;
   SOffset = Overflow;
   return true;
 }

 SIModeRegisterDefaults::SIModeRegisterDefaults(const Function &F) {
   *this = getDefaultForCallingConv(F.getCallingConv());

   StringRef IEEEAttr = F.getFnAttribute("amdgpu-ieee").getValueAsString();
   if (!IEEEAttr.empty())
     IEEE = IEEEAttr == "true";

   StringRef DX10ClampAttr
     = F.getFnAttribute("amdgpu-dx10-clamp").getValueAsString();
   if (!DX10ClampAttr.empty())
     DX10Clamp = DX10ClampAttr == "true";
 }

 namespace {

 struct SourceOfDivergence {
   unsigned Intr;
 };
 const SourceOfDivergence *lookupSourceOfDivergence(unsigned Intr);

 #define GET_SourcesOfDivergence_IMPL
 #include "AMDGPUGenSearchableTables.inc"

 } // end anonymous namespace

 bool isIntrinsicSourceOfDivergence(unsigned IntrID) {
   return lookupSourceOfDivergence(IntrID);
 }

 } // namespace AMDGPU
 } // namespace llvm
llvm::AMDGPU::SendMsg::OP_SYS_FIRST_
Definition: SIDefines.h:298

llvm::AMDGPU::SendMsg::isValidMsgId
bool isValidMsgId(int64_t MsgId, const MCSubtargetInfo &STI, bool Strict)
Definition: AMDGPUBaseInfo.cpp:778

MCSubtargetInfo.h

MachineMemOperand.h

llvm::AMDGPU::IsaInfo::FIXED_NUM_SGPRS_FOR_INIT_BUG
Definition: AMDGPUBaseInfo.h:56

Instruction.h

llvm::AMDGPU::HSAMD::Kernel::Arg::Key::Align
constexpr char Align[]
Key for Kernel::Arg::Metadata::mAlign.
Definition: AMDGPUMetadata.h:163

llvm::AMDGPU::mc2PseudoReg
unsigned mc2PseudoReg(unsigned Reg)
Convert hardware register Reg to a pseudo register.
Definition: AMDGPUBaseInfo.cpp:1031

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Definition: SIDefines.h:158

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AMDGPUTargetTransformInfo.h
This file a TargetTransformInfo::Concept conforming object specific to the AMDGPU target machine...

llvm::AMDGPU::hasPackedD16
bool hasPackedD16(const MCSubtargetInfo &STI)
Definition: AMDGPUBaseInfo.cpp:929

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int64_t getHwregId(const StringRef Name)
Definition: AMDGPUBaseInfo.cpp:708

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uint64_t encodeHwreg(uint64_t Id, uint64_t Offset, uint64_t Width)
Definition: AMDGPUBaseInfo.cpp:742

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This class represents an incoming formal argument to a Function.
Definition: Argument.h:29

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bool getMUBUFHasSrsrc(unsigned Opc)
Definition: AMDGPUBaseInfo.cpp:205

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LLVM_READONLY const MIMGInfo * getMIMGInfo(unsigned Opc)

llvm::AMDGPU::SendMsg::STREAM_ID_SHIFT_
Definition: SIDefines.h:306

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static unsigned getLastSymbolicHwreg(const MCSubtargetInfo &STI)
Definition: AMDGPUBaseInfo.cpp:716

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Definition: SIDefines.h:141

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This class represents lattice values for constants.
Definition: AllocatorList.h:23

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bool isValidHwregWidth(int64_t Width)
Definition: AMDGPUBaseInfo.cpp:738

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bool has_vaddr
Definition: AMDGPUBaseInfo.cpp:144

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Calling convention used for Mesa/AMDPAL pixel shaders.
Definition: CallingConv.h:199

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unsigned getMaxWorkGroupsPerCU(const MCSubtargetInfo *STI, unsigned FlatWorkGroupSize)
Definition: AMDGPUBaseInfo.cpp:272

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unsigned getExpcntBitMask(const IsaVersion &Version)
Definition: AMDGPUBaseInfo.cpp:610

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Definition: SIDefines.h:279

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Definition: ARMBaseInfo.h:73

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amdgpu Simplify well known AMD library false FunctionCallee Value const Twine & Name
Definition: AMDGPULibCalls.cpp:224

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OSType getOS() const
getOS - Get the parsed operating system type of this triple.
Definition: Triple.h:305

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Definition: SIDefines.h:346

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Address space for 32-bit constant memory.
Definition: AMDGPU.h:277

llvm::AMDGPU::Waitcnt
Represents the counter values to wait for in an s_waitcnt instruction.
Definition: AMDGPUBaseInfo.h:345

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Definition: SIDefines.h:356

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unsigned getVGPRAllocGranule(const MCSubtargetInfo *STI, Optional< bool > EnableWavefrontSize32)
Definition: AMDGPUBaseInfo.cpp:426

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unsigned Stepping
Definition: TargetParser.h:139

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Describe properties that are true of each instruction in the target description file.
Definition: MCInstrDesc.h:179

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Offset
Definition: SIDefines.h:342

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unsigned Reg
Definition: MachineSink.cpp:975

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llvm::AMDGPU::OPERAND_REG_INLINE_C_FIRST
Definition: SIDefines.h:157

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uint64_t encodeMsg(uint64_t MsgId, uint64_t OpId, uint64_t StreamId)
Definition: AMDGPUBaseInfo.cpp:863

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unsigned getRegBitWidth(unsigned RCID)
Get the size in bits of a register from the register class RC.
Definition: AMDGPUBaseInfo.cpp:1079

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unsigned getMaxWavesPerCU(const MCSubtargetInfo *STI, unsigned FlatWorkGroupSize)
Definition: AMDGPUBaseInfo.cpp:288

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Instruction set architecture version.
Definition: TargetParser.h:136

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unsigned decodeVmcnt(const IsaVersion &Version, unsigned Waitcnt)
Definition: AMDGPUBaseInfo.cpp:631

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uint8_t MIMGEncoding
Definition: AMDGPUBaseInfo.h:258

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#define S_00B848_WGP_MODE(x)
Definition: SIDefines.h:576

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constexpr bool isInt< 16 >(int64_t x)
Definition: MathExtras.h:342

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unsigned const TargetRegisterInfo * TRI
Definition: MachineSink.cpp:976

F
F(f)

llvm::Function
Definition: Function.h:59

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bool isInlinableLiteralV216(int32_t Literal, bool HasInv2Pi)
Definition: AMDGPUBaseInfo.cpp:1201

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Definition: SIDefines.h:134

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int32_t call_convention
Definition: AMDKernelCodeT.h:649

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Definition: Triple.h:67

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unsigned encodeVmcnt(const IsaVersion &Version, unsigned Waitcnt, unsigned Vmcnt)
Definition: AMDGPUBaseInfo.cpp:667

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Definition: SIDefines.h:131

llvm::AMDGPU::SendMsg::STREAM_ID_MASK_
Definition: SIDefines.h:308

llvm::AMDGPU::SendMsg::isValidMsgOp
bool isValidMsgOp(int64_t MsgId, int64_t OpId, bool Strict)
Definition: AMDGPUBaseInfo.cpp:805

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unsigned decodeExpcnt(const IsaVersion &Version, unsigned Waitcnt)
Definition: AMDGPUBaseInfo.cpp:643

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uint64_t High
Definition: NVVMIntrRange.cpp:66

llvm::AMDGPU::SendMsg::OP_GS_NOP
Definition: SIDefines.h:286

llvm::AMDGPU::IsaInfo::getSGPREncodingGranule
unsigned getSGPREncodingGranule(const MCSubtargetInfo *STI)
Definition: AMDGPUBaseInfo.cpp:333

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std::pair< int, int > getIntegerPairAttribute(const Function &F, StringRef Name, std::pair< int, int > Default, bool OnlyFirstRequired)
Definition: AMDGPUBaseInfo.cpp:576

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const Triple & getTargetTriple() const
Definition: MCSubtargetInfo.h:104

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Definition: SIDefines.h:304

llvm::AMDGPU::isGlobalSegment
bool isGlobalSegment(const GlobalValue *GV)
Definition: AMDGPUBaseInfo.cpp:548

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bool isInlinableLiteral16(int16_t Literal, bool HasInv2Pi)
Definition: AMDGPUBaseInfo.cpp:1182

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unsigned getID() const
getID() - Return the register class ID number.
Definition: MCRegisterInfo.h:45

llvm::AMDGPU::Waitcnt::VmCnt
unsigned VmCnt
Definition: AMDGPUBaseInfo.h:346

llvm::Optional< bool >

AMDGPUAS::GLOBAL_ADDRESS
Address space for global memory (RAT0, VTX0).
Definition: AMDGPU.h:270

S_00B848_MEM_ORDERED
#define S_00B848_MEM_ORDERED(x)
Definition: SIDefines.h:579

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uint32_t amd_kernel_code_version_major
Definition: AMDKernelCodeT.h:531

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bool has_srsrc
Definition: AMDGPUBaseInfo.cpp:136

llvm::AMDGPU::SendMsg::ID_GS
Definition: SIDefines.h:266

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uint64_t alignDown(uint64_t Value, uint64_t Align, uint64_t Skew=0)
Returns the largest uint64_t less than or equal to Value and is Skew mod Align.
Definition: MathExtras.h:737

amd_kernel_code_s::code_properties
uint32_t code_properties
Code properties.
Definition: AMDKernelCodeT.h:566

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Definition: SIDefines.h:140

llvm::AMDGPU::IsaInfo::getWavesPerWorkGroup
unsigned getWavesPerWorkGroup(const MCSubtargetInfo *STI, unsigned FlatWorkGroupSize)
Definition: AMDGPUBaseInfo.cpp:318

llvm::AMDGPU::OPERAND_REG_INLINE_AC_FP16
Definition: SIDefines.h:149

llvm::AMDGPU::isRegIntersect
bool isRegIntersect(unsigned Reg0, unsigned Reg1, const MCRegisterInfo *TRI)
Is there any intersection between registers.
Definition: AMDGPUBaseInfo.cpp:964

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bool isStringAttribute() const
Return true if the attribute is a string (target-dependent) attribute.
Definition: Attributes.cpp:191

llvm::MCSubtargetInfo::getFeatureBits
const FeatureBitset & getFeatureBits() const
Definition: MCSubtargetInfo.h:107

llvm::AMDGPU::SendMsg::getMsgId
int64_t getMsgId(const StringRef Name)
Definition: AMDGPUBaseInfo.cpp:766

MCSectionELF.h

amd_kernel_code_s
AMD Kernel Code Object (amd_kernel_code_t).
Definition: AMDKernelCodeT.h:530

llvm::AMDGPU::IsaInfo::getLocalMemorySize
unsigned getLocalMemorySize(const MCSubtargetInfo *STI)
Definition: AMDGPUBaseInfo.cpp:259

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Calling convention used for Mesa vertex shaders, or AMDPAL last shader stage before rasterization (ve...
Definition: CallingConv.h:193

llvm::AMDGPU::OPERAND_SRC_FIRST
Definition: SIDefines.h:163

llvm::AMDGPU::getRegOperandSize
unsigned getRegOperandSize(const MCRegisterInfo *MRI, const MCInstrDesc &Desc, unsigned OpNo)
Get size of register operand.
Definition: AMDGPUBaseInfo.cpp:1132

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uint16_t amd_machine_version_major
Definition: AMDKernelCodeT.h:534

Attributes.h
This file contains the simple types necessary to represent the attributes associated with functions a...

Intr
unsigned Intr
Definition: AMDGPUBaseInfo.cpp:1320

llvm::AMDGPU::getMUBUFElements
int getMUBUFElements(unsigned Opc)
Definition: AMDGPUBaseInfo.cpp:195

llvm::AMDGPU::getMTBUFOpcode
int getMTBUFOpcode(unsigned BaseOpc, unsigned Elements)
Definition: AMDGPUBaseInfo.cpp:160

llvm::AMDGPU::SendMsg::getMsgOpName
StringRef getMsgOpName(int64_t MsgId, int64_t OpId)
Definition: AMDGPUBaseInfo.cpp:823

llvm::AMDGPU::SendMsg::ID_UNKNOWN_
Definition: SIDefines.h:264

llvm::AMDGPU::MTBUFInfo::elements
uint8_t elements
Definition: AMDGPUBaseInfo.cpp:143

llvm::AMDGPU::getMaskedMIMGOp
int getMaskedMIMGOp(unsigned Opc, unsigned NewChannels)
Definition: AMDGPUBaseInfo.cpp:123

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LLVM_NODISCARD bool empty() const
empty - Check if the string is empty.
Definition: StringRef.h:140

llvm::AMDGPU::IsaInfo::getMaxNumSGPRs
unsigned getMaxNumSGPRs(const MCSubtargetInfo *STI, unsigned WavesPerEU, bool Addressable)
Definition: AMDGPUBaseInfo.cpp:373

llvm::AMDGPU::IsaInfo::hasCodeObjectV3
bool hasCodeObjectV3(const MCSubtargetInfo *STI)
Definition: AMDGPUBaseInfo.cpp:245

llvm::AMDGPU::IsaInfo::getTotalNumVGPRs
unsigned getTotalNumVGPRs(const MCSubtargetInfo *STI)
Definition: AMDGPUBaseInfo.cpp:439

llvm::AMDGPU::getMCOpcode
int getMCOpcode(uint16_t Opcode, unsigned Gen)
Definition: AMDGPUBaseInfo.cpp:218

llvm::LLVMContext::emitError
void emitError(unsigned LocCookie, const Twine &ErrorStr)
emitError - Emit an error message to the currently installed error handler with optional location inf...
Definition: LLVMContext.cpp:233

llvm::MCOperandInfo::OperandType
uint8_t OperandType
Information about the type of the operand.
Definition: MCInstrDesc.h:82

llvm::AMDGPU::IsaInfo::getMinWavesPerEU
unsigned getMinWavesPerEU(const MCSubtargetInfo *STI)
Definition: AMDGPUBaseInfo.cpp:293

llvm::AMDGPU::OPERAND_REG_IMM_V2FP16
Definition: SIDefines.h:133

amd_kernel_code_s::kernarg_segment_alignment
uint8_t kernarg_segment_alignment
The maximum byte alignment of variables used by the kernel in the specified memory segment...
Definition: AMDKernelCodeT.h:638

llvm::AMDGPU::MTBUFInfo::Opcode
uint16_t Opcode
Definition: AMDGPUBaseInfo.cpp:141

llvm::AMDGPU::MUBUFInfo::has_vaddr
bool has_vaddr
Definition: AMDGPUBaseInfo.cpp:135

llvm::FeatureBitset::test
constexpr bool test(unsigned I) const
Definition: SubtargetFeature.h:90

llvm::AMDGPU::IsaInfo::getMinFlatWorkGroupSize
unsigned getMinFlatWorkGroupSize(const MCSubtargetInfo *STI)
Definition: AMDGPUBaseInfo.cpp:310

llvm::AMDGPU::splitMUBUFOffset
bool splitMUBUFOffset(uint32_t Imm, uint32_t &SOffset, uint32_t &ImmOffset, const GCNSubtarget *Subtarget, uint32_t Align)
Definition: AMDGPUBaseInfo.cpp:1265

llvm::Triple::r600
Definition: Triple.h:66

llvm::Triple::getArch
ArchType getArch() const
getArch - Get the parsed architecture type of this triple.
Definition: Triple.h:296

amd_kernel_code_s::group_segment_alignment
uint8_t group_segment_alignment
Definition: AMDKernelCodeT.h:639

llvm::AMDGPU::isGroupSegment
bool isGroupSegment(const GlobalValue *GV)
Definition: AMDGPUBaseInfo.cpp:544

llvm::MCRegisterClass::contains
bool contains(MCRegister Reg) const
contains - Return true if the specified register is included in this register class.
Definition: MCRegisterInfo.h:65

llvm::AMDGPU::encodeWaitcnt
unsigned encodeWaitcnt(const IsaVersion &Version, unsigned Vmcnt, unsigned Expcnt, unsigned Lgkmcnt)
Encodes Vmcnt, Expcnt and Lgkmcnt into Waitcnt for given isa Version.
Definition: AMDGPUBaseInfo.cpp:689

llvm::AMDGPU::IsaInfo::getMaxNumVGPRs
unsigned getMaxNumVGPRs(const MCSubtargetInfo *STI, unsigned WavesPerEU)
Definition: AMDGPUBaseInfo.cpp:460

llvm::AMDGPU::isReadOnlySegment
bool isReadOnlySegment(const GlobalValue *GV)
Definition: AMDGPUBaseInfo.cpp:552

llvm::AMDGPU::encodeExpcnt
unsigned encodeExpcnt(const IsaVersion &Version, unsigned Waitcnt, unsigned Expcnt)
Definition: AMDGPUBaseInfo.cpp:678

llvm::AMDGPU::SendMsg::StreamId
StreamId
Definition: SIDefines.h:301

llvm::AMDGPU::getMIMGBaseOpcodeInfo
LLVM_READONLY const MIMGBaseOpcodeInfo * getMIMGBaseOpcodeInfo(unsigned BaseOpcode)

llvm::Function::getAttributes
AttributeList getAttributes() const
Return the attribute list for this Function.
Definition: Function.h:223

llvm::CallingConv::AMDGPU_GS
Calling convention used for Mesa/AMDPAL geometry shaders.
Definition: CallingConv.h:196

amd_kernel_code_s::amd_machine_version_minor
uint16_t amd_machine_version_minor
Definition: AMDKernelCodeT.h:535

llvm::CallingConv::AMDGPU_LS
Calling convention used for AMDPAL vertex shader if tessellation is in use.
Definition: CallingConv.h:220

AMDGPUAsmUtils.h

llvm::AMDGPU::decodeLgkmcnt
unsigned decodeLgkmcnt(const IsaVersion &Version, unsigned Waitcnt)
Definition: AMDGPUBaseInfo.cpp:647

llvm::CallingConv::ID
unsigned ID
LLVM IR allows to use arbitrary numbers as calling convention identifiers.
Definition: CallingConv.h:24

amd_kernel_code_s::amd_kernel_code_version_minor
uint32_t amd_kernel_code_version_minor
Definition: AMDKernelCodeT.h:532

MathExtras.h

llvm::AMDGPU::Hwreg::ID_SYMBOLIC_FIRST_GFX9_
Definition: SIDefines.h:326

llvm::MCRegisterClass
MCRegisterClass - Base class of TargetRegisterClass.
Definition: MCRegisterInfo.h:29

llvm::AMDGPU::SendMsg::ID_GS_DONE
Definition: SIDefines.h:267

amd_kernel_code_s::compute_pgm_resource_registers
uint64_t compute_pgm_resource_registers
Shader program settings for CS.
Definition: AMDKernelCodeT.h:562

llvm::AMDGPU::IsaVersion::Minor
unsigned Minor
Definition: TargetParser.h:138

Info
Analysis containing CSE Info
Definition: CSEInfo.cpp:20

MCInstrInfo.h

llvm::MCInstrDesc::NumOperands
unsigned short NumOperands
Definition: MCInstrDesc.h:182

llvm::FloatToBits
uint32_t FloatToBits(float Float)
This function takes a float and returns the bit equivalent 32-bit integer.
Definition: MathExtras.h:652

llvm::MCRegisterInfo
MCRegisterInfo base class - We assume that the target defines a static array of MCRegisterDesc object...
Definition: MCRegisterInfo.h:126

llvm::AMDGPU::Hwreg::WIDTH_M1_MASK_
Definition: SIDefines.h:358

llvm::AMDGPU::IsaVersion::Major
unsigned Major
Definition: TargetParser.h:137

llvm::AMDGPU::isSISrcFPOperand
bool isSISrcFPOperand(const MCInstrDesc &Desc, unsigned OpNo)
Is this floating-point operand?
Definition: AMDGPUBaseInfo.cpp:1046

llvm::AMDGPU::hasSMEMByteOffset
static bool hasSMEMByteOffset(const MCSubtargetInfo &ST)
Definition: AMDGPUBaseInfo.cpp:1242

llvm::AMDGPU::Hwreg::Width
Width
Definition: SIDefines.h:365

llvm::AMDGPU::Hwreg::decodeHwreg
void decodeHwreg(unsigned Val, unsigned &Id, unsigned &Offset, unsigned &Width)
Definition: AMDGPUBaseInfo.cpp:752

llvm::AMDGPU::hasSRAMECC
bool hasSRAMECC(const MCSubtargetInfo &STI)
Definition: AMDGPUBaseInfo.cpp:921

llvm::AMDGPU::getMTBUFHasVAddr
bool getMTBUFHasVAddr(unsigned Opc)
Definition: AMDGPUBaseInfo.cpp:170

llvm::AMDGPU::getSMRDEncodedOffset
int64_t getSMRDEncodedOffset(const MCSubtargetInfo &ST, int64_t ByteOffset)
Definition: AMDGPUBaseInfo.cpp:1246

llvm::AMDGPU::isCompute
bool isCompute(CallingConv::ID cc)
Definition: AMDGPUBaseInfo.cpp:896

llvm::AMDGPU::isInlinableLiteral64
bool isInlinableLiteral64(int64_t Literal, bool HasInv2Pi)
Is this literal inlinable.
Definition: AMDGPUBaseInfo.cpp:1139

llvm::AMDGPU::isSI
bool isSI(const MCSubtargetInfo &STI)
Definition: AMDGPUBaseInfo.cpp:933

llvm::AMDGPU::IsaInfo::getMinNumSGPRs
unsigned getMinNumSGPRs(const MCSubtargetInfo *STI, unsigned WavesPerEU)
Definition: AMDGPUBaseInfo.cpp:356

llvm::isUInt< 8 >
constexpr bool isUInt< 8 >(uint64_t x)
Definition: MathExtras.h:379

MRI
unsigned const MachineRegisterInfo * MRI
Definition: AArch64AdvSIMDScalarPass.cpp:105

llvm::AMDGPU::Waitcnt::LgkmCnt
unsigned LgkmCnt
Definition: AMDGPUBaseInfo.h:348

llvm::AMDGPU::getMUBUFHasSoffset
bool getMUBUFHasSoffset(unsigned Opc)
Definition: AMDGPUBaseInfo.cpp:210

GlobalValue.h

llvm::AMDGPU::IsaInfo::getEUsPerCU
unsigned getEUsPerCU(const MCSubtargetInfo *STI)
Definition: AMDGPUBaseInfo.cpp:268

llvm::AMDGPU::isGFX10
bool isGFX10(const MCSubtargetInfo &STI)
Definition: AMDGPUBaseInfo.cpp:949

AMD_CODE_PROPERTY_ENABLE_WAVEFRONT_SIZE32
Definition: AMDKernelCodeT.h:131

llvm::AMDGPU::Hwreg::getHwreg
StringRef getHwreg(unsigned Id, const MCSubtargetInfo &STI)
Definition: AMDGPUBaseInfo.cpp:748

llvm::LLVMContext
This is an important class for using LLVM in a threaded context.
Definition: LLVMContext.h:64

llvm::AMDGPU::hasMIMG_R128
bool hasMIMG_R128(const MCSubtargetInfo &STI)
Definition: AMDGPUBaseInfo.cpp:925

AMDGPUAS::LOCAL_ADDRESS
Address space for local memory.
Definition: AMDGPU.h:274

llvm::AMDGPU::SendMsg::IdSymbolic
const char *const IdSymbolic[]
Definition: AMDGPUAsmUtils.cpp:15

Constants.h
This file contains the declarations for the subclasses of Constant, which represent the different fla...

llvm::AMDGPU::isEntryFunctionCC
bool isEntryFunctionCC(CallingConv::ID CC)
Definition: AMDGPUBaseInfo.cpp:900

llvm::AMDGPU::getMUBUFBaseOpcode
int getMUBUFBaseOpcode(unsigned Opc)
Definition: AMDGPUBaseInfo.cpp:185

llvm::amdhsa::FLOAT_DENORM_MODE_FLUSH_NONE
Definition: AMDHSAKernelDescriptor.h:63

amd_kernel_code_s::private_segment_alignment
uint8_t private_segment_alignment
Definition: AMDKernelCodeT.h:640

llvm::AMDGPU::isIntrinsicSourceOfDivergence
bool isIntrinsicSourceOfDivergence(unsigned IntrID)
Definition: AMDGPUBaseInfo.cpp:1329

llvm::AMDGPU::MUBUFInfo
Definition: AMDGPUBaseInfo.cpp:131

llvm::AMDGPU::Hwreg::isValidHwreg
bool isValidHwreg(int64_t Id)
Definition: AMDGPUBaseInfo.cpp:730

llvm::Triple::AMDHSA
Definition: Triple.h:180

llvm::AMDGPU::OPERAND_SRC_LAST
Definition: SIDefines.h:164

llvm::MCRegAliasIterator
MCRegAliasIterator enumerates all registers aliasing Reg.
Definition: MCRegisterInfo.h:662

llvm::AMDGPU::getMUBUFOpcode
int getMUBUFOpcode(unsigned BaseOpc, unsigned Elements)
Definition: AMDGPUBaseInfo.cpp:190

llvm::AMDGPU::getMTBUFElements
int getMTBUFElements(unsigned Opc)
Definition: AMDGPUBaseInfo.cpp:165

llvm::GCNSubtarget::getGeneration
Generation getGeneration() const
Definition: AMDGPUSubtarget.h:447

llvm::AMDGPU::SendMsg::ID_GAPS_LAST_
Definition: SIDefines.h:271

llvm::PointerType::getAddressSpace
unsigned getAddressSpace() const
Return the address space of the Pointer type.
Definition: DerivedTypes.h:603

llvm::AMDGPU::Hwreg::isValidHwregOffset
bool isValidHwregOffset(int64_t Offset)
Definition: AMDGPUBaseInfo.cpp:734

llvm::AMDGPU::Hwreg::ID_SYMBOLIC_LAST_
Definition: SIDefines.h:336

llvm::MCRegisterInfo::getSubReg
MCRegister getSubReg(MCRegister Reg, unsigned Idx) const
Returns the physical register number of sub-register "Index" for physical register RegNo...
Definition: MCRegisterInfo.cpp:32

llvm::Function::getContext
LLVMContext & getContext() const
getContext - Return a reference to the LLVMContext associated with this function. ...
Definition: Function.cpp:205

llvm::AMDGPU::isLegalSMRDImmOffset
bool isLegalSMRDImmOffset(const MCSubtargetInfo &ST, int64_t ByteOffset)
Definition: AMDGPUBaseInfo.cpp:1252

llvm::FPDenormal::IEEE
Definition: TargetOptions.h:59

llvm::AMDGPU::isSISrcInlinableOperand
bool isSISrcInlinableOperand(const MCInstrDesc &Desc, unsigned OpNo)
Does this opearnd support only inlinable literals?
Definition: AMDGPUBaseInfo.cpp:1070

llvm::AMDGPU::SIModeRegisterDefaults::SIModeRegisterDefaults
SIModeRegisterDefaults()
Definition: AMDGPUBaseInfo.h:664

AMDHSA_BITS_SET
#define AMDHSA_BITS_SET(DST, MSK, VAL)
Definition: AMDHSAKernelDescriptor.h:42

llvm::AMDGPU::OPERAND_REG_INLINE_C_FP64
Definition: SIDefines.h:142

llvm_unreachable
#define llvm_unreachable(msg)
Marks that the current location is not supposed to be reachable.
Definition: ErrorHandling.h:135

llvm::AMDGPU::HSAMD::Kernel::CodeProps::Key::NumSGPRs
constexpr char NumSGPRs[]
Key for Kernel::CodeProps::Metadata::mNumSGPRs.
Definition: AMDGPUMetadata.h:242

llvm::Align
This struct is a compact representation of a valid (non-zero power of two) alignment.
Definition: Alignment.h:40

llvm::AMDGPU::OPERAND_REG_INLINE_C_V2INT16
Definition: SIDefines.h:144

llvm::GCNSubtarget
Definition: AMDGPUSubtarget.h:247

llvm::Triple
Triple - Helper class for working with autoconf configuration names.
Definition: Triple.h:43

llvm::AMDGPU::getMIMGOpcode
int getMIMGOpcode(unsigned BaseOpcode, unsigned MIMGEncoding, unsigned VDataDwords, unsigned VAddrDwords)
Definition: AMDGPUBaseInfo.cpp:111

llvm::AMDGPU::SendMsg::OP_GS_FIRST_
Definition: SIDefines.h:291

llvm::StringRef::getAsInteger
std::enable_if< std::numeric_limits< T >::is_signed, bool >::type getAsInteger(unsigned Radix, T &Result) const
Parse the current string as an integer of the specified radix.
Definition: StringRef.h:492

llvm::Attribute
Definition: Attributes.h:51

llvm::AMDGPU::getIsaVersion
IsaVersion getIsaVersion(StringRef GPU)
Definition: TargetParser.cpp:175

MCRegisterInfo.h

llvm::AMDGPU::SendMsg::STREAM_ID_NONE_
Definition: SIDefines.h:302

llvm::AMDGPU::MUBUFInfo::Opcode
uint16_t Opcode
Definition: AMDGPUBaseInfo.cpp:132

llvm::GlobalValue
Definition: GlobalValue.h:44

uint32_t

llvm::AMDGPU::SendMsg::OP_GS_LAST_
Definition: SIDefines.h:290

llvm::AMDGPU::IsaInfo::getVGPREncodingGranule
unsigned getVGPREncodingGranule(const MCSubtargetInfo *STI, Optional< bool > EnableWavefrontSize32)
Definition: AMDGPUBaseInfo.cpp:434

llvm::AttributeList::hasParamAttribute
bool hasParamAttribute(unsigned ArgNo, Attribute::AttrKind Kind) const
Equivalent to hasAttribute(ArgNo + FirstArgIndex, Kind).
Definition: Attributes.cpp:1320

llvm::AMDGPU::Waitcnt::ExpCnt
unsigned ExpCnt
Definition: AMDGPUBaseInfo.h:347

llvm::AMDGPU::IsaInfo::getWavefrontSize
unsigned getWavefrontSize(const MCSubtargetInfo *STI)
Definition: AMDGPUBaseInfo.cpp:250

StringRef.h

llvm::max
Align max(MaybeAlign Lhs, Align Rhs)
Definition: Alignment.h:390

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Definition: AMDGPUBaseInfo.cpp:337

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getCallingConv()/setCallingConv(CC) - These method get and set the calling convention of this functio...
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Definition: AMDGPUBaseInfo.cpp:344

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Module.h This file contains the declarations for the Module class.

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Definition: AMDGPUBaseInfo.cpp:180

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Split into two substrings around the first occurrence of a separator character.
Definition: StringRef.h:710

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Definition: SIDefines.h:344

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Definition: SIDefines.h:284

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Definition: AMDKernelCodeT.h:536

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Definition: SIDefines.h:273

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Definition: SIDefines.h:305

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Calling convention used for Mesa/AMDPAL compute shaders.
Definition: CallingConv.h:202

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Definition: SIDefines.h:130

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Wavefront size expressed as a power of two.
Definition: AMDKernelCodeT.h:647

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Definition: AMDGPUBaseInfo.cpp:1216

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Definition: AMDGPUBaseInfo.cpp:793

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This function takes a double and returns the bit equivalent 64-bit integer.
Definition: MathExtras.h:642

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Definition: AMDGPUBaseInfo.cpp:414

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Definition: MCSubtargetInfo.h:105

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Definition: AMDGPUBaseInfo.cpp:850

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Definition: AMDGPUBaseInfo.h:57

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Return the index of this formal argument in its containing function.
Definition: Argument.h:47

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Definition: AMDGPU.h:273

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Definition: AMDGPUBaseInfo.h:260

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Definition: AMDGPUBaseInfo.cpp:314

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Definition: AMDGPUBaseInfo.cpp:846

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Key for Kernel::CodeProps::Metadata::mNumVGPRs.
Definition: AMDGPUMetadata.h:244

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Definition: SIDefines.h:281

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Definition: AMDGPUBaseInfo.cpp:953

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Calling convention used for AMDPAL shader stage before geometry shader if geometry is in use...
Definition: CallingConv.h:225

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Definition: AMDGPUBaseInfo.cpp:971

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Definition: raw_ostream.h:153

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Definition: AMDHSAKernelDescriptor.h:152

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Definition: AMDGPUBaseInfo.cpp:937

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Definition: AMDGPUBaseInfo.cpp:155

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Definition: MVEVPTBlockPass.cpp:67

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Definition: AMDGPUBaseInfo.cpp:445

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Definition: AMDGPUBaseInfo.h:257

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Definition: AMDGPUBaseInfo.cpp:877

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Definition: SIDefines.h:315

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Definition: AMDGPUAsmUtils.cpp:43

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Provides AMDGPU specific target descriptions.

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Definition: SIDefines.h:317

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Returns a multiple of A needed to store Size bytes.
Definition: Alignment.h:163

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Definition: AMDGPUBaseInfo.h:256

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Definition: Argument.h:41

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Definition: AMDGPUBaseInfo.cpp:146

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Definition: AMDGPUSubtarget.h:56

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Return the attribute&#39;s value as a string.
Definition: Attributes.cpp:220

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unsigned getNumSGPRBlocks(const MCSubtargetInfo *STI, unsigned NumSGPRs)
Definition: AMDGPUBaseInfo.cpp:420

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This specifies the register class enumeration of the operand if the operand is a register.
Definition: MCInstrDesc.h:76

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Definition: AMDGPUBaseInfo.cpp:917

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Definition: AMDGPUBaseInfo.cpp:142

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Definition: AMDGPUBaseInfo.cpp:561

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#define N

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Definition: SIDefines.h:275

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Generic base class for all target subtargets.
Definition: MCSubtargetInfo.h:74

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Definition: TargetOptions.h:35

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Definition: SIDefines.h:151

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unsigned getWaitcntBitMask(const IsaVersion &Version)
Definition: AMDGPUBaseInfo.cpp:618

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bool shouldEmitConstantsToTextSection(const Triple &TT)
Definition: AMDGPUBaseInfo.cpp:557

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Definition: SIDefines.h:132

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constexpr bool isUInt< 16 >(uint64_t x)
Definition: MathExtras.h:382

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Definition: Triple.h:187

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Definition: SIDefines.h:150

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int64_t kernel_code_entry_byte_offset
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Definition: AMDKernelCodeT.h:548

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bool isSISrcOperand(const MCInstrDesc &Desc, unsigned OpNo)
Can this operand also contain immediate values?
Definition: AMDGPUBaseInfo.cpp:1039

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Definition: AMDGPUBaseInfo.h:255

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Definition: SIDefines.h:204

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Definition: AMDGPUBaseInfo.cpp:854

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Calling convention used for Mesa/AMDPAL hull shaders (= tessellation control shaders).
Definition: CallingConv.h:212

SIDefines.h

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bool isInlinableLiteral32(int32_t Literal, bool HasInv2Pi)
Definition: AMDGPUBaseInfo.cpp:1156

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Definition: SIDefines.h:152

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const MCOperandInfo * OpInfo
Definition: MCInstrDesc.h:190

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Attribute getFnAttribute(Attribute::AttrKind Kind) const
Return the attribute for the given attribute kind.
Definition: Function.h:333

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If Reg is a pseudo reg, return the correct hardware register given STI otherwise return Reg...
Definition: AMDGPUBaseInfo.cpp:1019

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Definition: raw_ostream.h:45

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Definition: SIDefines.h:270

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Definition: AMDKernelCodeT.h:533

Casting.h

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Definition: AMDGPUBaseInfo.cpp:449

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Definition: SIDefines.h:280

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StringRef - Represent a constant reference to a string, i.e.
Definition: StringRef.h:48

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unsigned getLgkmcntBitMask(const IsaVersion &Version)
Definition: AMDGPUBaseInfo.cpp:614

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Definition: AMDGPUBaseInfo.cpp:200

MCInstrDesc.h

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const MIMGBaseOpcodeInfo * getMIMGBaseOpcode(unsigned Opc)
Definition: AMDGPUBaseInfo.cpp:118

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bool isSGPR(unsigned Reg, const MCRegisterInfo *TRI)
Is Reg - scalar register.
Definition: AMDGPUBaseInfo.cpp:957

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Definition: SIDefines.h:268

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Definition: AMDGPUBaseInfo.cpp:145

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Definition: SIDefines.h:269

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Definition: AMDGPUBaseInfo.cpp:134

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unsigned getMaxWavesPerEU(const MCSubtargetInfo *STI, unsigned FlatWorkGroupSize)
Definition: AMDGPUBaseInfo.cpp:304

SubtargetFeature.h

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Definition: SIDefines.h:143

llvm::AMDGPU::SendMsg::ID_GAPS_FIRST_
Definition: SIDefines.h:272

llvm::AMDGPU::SendMsg::OP_SYS_LAST_
Definition: SIDefines.h:297

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Definition: AMDGPUBaseInfo.cpp:479

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Definition: AMDGPUBaseInfo.cpp:137

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Calling convention for AMDGPU code object kernels.
Definition: CallingConv.h:205

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const uint64_t Version
Definition: InstrProf.h:980

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Definition: AMDGPUBaseInfo.cpp:789

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Definition: AMDGPUBaseInfo.cpp:140

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Definition: SIDefines.h:328

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Definition: AMDGPUBaseInfo.cpp:324

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unsigned encodeLgkmcnt(const IsaVersion &Version, unsigned Waitcnt, unsigned Lgkmcnt)
Definition: AMDGPUBaseInfo.cpp:683

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Definition: AMDGPUPTNote.h:19

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PointerType * getType() const
Global values are always pointers.
Definition: GlobalValue.h:277

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constexpr uint32_t VersionMajor
HSA metadata major version.
Definition: AMDGPUMetadata.h:32

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void streamIsaVersion(const MCSubtargetInfo *STI, raw_ostream &Stream)
Streams isa version string for given subtarget STI into Stream.
Definition: AMDGPUBaseInfo.cpp:224

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const MCRegisterClass & getRegClass(unsigned i) const
Returns the register class associated with the enumeration value.
Definition: MCRegisterInfo.h:426

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Definition: AMDGPUBaseInfo.cpp:601

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void decodeWaitcnt(const IsaVersion &Version, unsigned Waitcnt, unsigned &Vmcnt, unsigned &Expcnt, unsigned &Lgkmcnt)
Decodes Vmcnt, Expcnt and Lgkmcnt from given Waitcnt for given isa Version, and writes decoded values...
Definition: AMDGPUBaseInfo.cpp:652

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Definition: AMDGPUBaseInfo.h:196