21#include "llvm/IR/IntrinsicsAMDGPU.h"
22#include "llvm/IR/IntrinsicsR600.h"
31#define GET_INSTRINFO_NAMED_OPS
32#define GET_INSTRMAP_INFO
33#include "AMDGPUGenInstrInfo.inc"
38 llvm::cl::desc(
"Set default AMDHSA Code Object Version (module flag "
39 "or asm directive still take priority if present)"));
44unsigned getBitMask(
unsigned Shift,
unsigned Width) {
45 return ((1 << Width) - 1) << Shift;
51unsigned packBits(
unsigned Src,
unsigned Dst,
unsigned Shift,
unsigned Width) {
52 unsigned Mask = getBitMask(Shift, Width);
53 return ((Src << Shift) & Mask) | (Dst & ~Mask);
59unsigned unpackBits(
unsigned Src,
unsigned Shift,
unsigned Width) {
60 return (Src & getBitMask(Shift, Width)) >> Shift;
64unsigned getVmcntBitShiftLo(
unsigned VersionMajor) {
69unsigned getVmcntBitWidthLo(
unsigned VersionMajor) {
74unsigned getExpcntBitShift(
unsigned VersionMajor) {
79unsigned getExpcntBitWidth(
unsigned VersionMajor) {
return 3; }
82unsigned getLgkmcntBitShift(
unsigned VersionMajor) {
87unsigned getLgkmcntBitWidth(
unsigned VersionMajor) {
92unsigned getVmcntBitShiftHi(
unsigned VersionMajor) {
return 14; }
95unsigned getVmcntBitWidthHi(
unsigned VersionMajor) {
96 return (VersionMajor == 9 || VersionMajor == 10) ? 2 : 0;
100unsigned getLoadcntBitWidth(
unsigned VersionMajor) {
105unsigned getSamplecntBitWidth(
unsigned VersionMajor) {
110unsigned getBvhcntBitWidth(
unsigned VersionMajor) {
115unsigned getDscntBitWidth(
unsigned VersionMajor) {
120unsigned getDscntBitShift(
unsigned VersionMajor) {
return 0; }
123unsigned getStorecntBitWidth(
unsigned VersionMajor) {
128unsigned getKmcntBitWidth(
unsigned VersionMajor) {
133unsigned getLoadcntStorecntBitShift(
unsigned VersionMajor) {
138inline unsigned getVmVsrcBitWidth() {
return 3; }
141inline unsigned getVmVsrcBitShift() {
return 2; }
144inline unsigned getVaVdstBitWidth() {
return 4; }
147inline unsigned getVaVdstBitShift() {
return 12; }
150inline unsigned getSaSdstBitWidth() {
return 1; }
153inline unsigned getSaSdstBitShift() {
return 0; }
173 if (
auto *Ver = mdconst::extract_or_null<ConstantInt>(
174 M.getModuleFlag(
"amdhsa_code_object_version"))) {
175 return (
unsigned)Ver->getZExtValue() / 100;
186 switch (ABIVersion) {
202 switch (CodeObjectVersion) {
211 Twine(CodeObjectVersion));
216 switch (CodeObjectVersion) {
230 switch (CodeObjectVersion) {
241 switch (CodeObjectVersion) {
252 switch (CodeObjectVersion) {
262#define GET_MIMGBaseOpcodesTable_IMPL
263#define GET_MIMGDimInfoTable_IMPL
264#define GET_MIMGInfoTable_IMPL
265#define GET_MIMGLZMappingTable_IMPL
266#define GET_MIMGMIPMappingTable_IMPL
267#define GET_MIMGBiasMappingTable_IMPL
268#define GET_MIMGOffsetMappingTable_IMPL
269#define GET_MIMGG16MappingTable_IMPL
270#define GET_MAIInstInfoTable_IMPL
271#include "AMDGPUGenSearchableTables.inc"
274 unsigned VDataDwords,
unsigned VAddrDwords) {
275 const MIMGInfo *
Info = getMIMGOpcodeHelper(BaseOpcode, MIMGEncoding,
276 VDataDwords, VAddrDwords);
290 return NewInfo ? NewInfo->
Opcode : -1;
295 bool IsG16Supported) {
302 AddrWords += AddrComponents;
310 if ((IsA16 && !IsG16Supported) || BaseOpcode->
G16)
381#define GET_FP4FP8DstByteSelTable_DECL
382#define GET_FP4FP8DstByteSelTable_IMPL
395#define GET_MTBUFInfoTable_DECL
396#define GET_MTBUFInfoTable_IMPL
397#define GET_MUBUFInfoTable_DECL
398#define GET_MUBUFInfoTable_IMPL
399#define GET_SMInfoTable_DECL
400#define GET_SMInfoTable_IMPL
401#define GET_VOP1InfoTable_DECL
402#define GET_VOP1InfoTable_IMPL
403#define GET_VOP2InfoTable_DECL
404#define GET_VOP2InfoTable_IMPL
405#define GET_VOP3InfoTable_DECL
406#define GET_VOP3InfoTable_IMPL
407#define GET_VOPC64DPPTable_DECL
408#define GET_VOPC64DPPTable_IMPL
409#define GET_VOPC64DPP8Table_DECL
410#define GET_VOPC64DPP8Table_IMPL
411#define GET_VOPCAsmOnlyInfoTable_DECL
412#define GET_VOPCAsmOnlyInfoTable_IMPL
413#define GET_VOP3CAsmOnlyInfoTable_DECL
414#define GET_VOP3CAsmOnlyInfoTable_IMPL
415#define GET_VOPDComponentTable_DECL
416#define GET_VOPDComponentTable_IMPL
417#define GET_VOPDPairs_DECL
418#define GET_VOPDPairs_IMPL
419#define GET_VOPTrue16Table_DECL
420#define GET_VOPTrue16Table_IMPL
421#define GET_WMMAOpcode2AddrMappingTable_DECL
422#define GET_WMMAOpcode2AddrMappingTable_IMPL
423#define GET_WMMAOpcode3AddrMappingTable_DECL
424#define GET_WMMAOpcode3AddrMappingTable_IMPL
425#define GET_getMFMA_F8F6F4_WithSize_DECL
426#define GET_getMFMA_F8F6F4_WithSize_IMPL
427#define GET_isMFMA_F8F6F4Table_IMPL
428#define GET_isCvtScaleF32_F32F16ToF8F4Table_IMPL
430#include "AMDGPUGenSearchableTables.inc"
434 return Info ?
Info->BaseOpcode : -1;
438 const MTBUFInfo *
Info = getMTBUFInfoFromBaseOpcodeAndElements(BaseOpc, Elements);
449 return Info ?
Info->has_vaddr :
false;
454 return Info ?
Info->has_srsrc :
false;
459 return Info ?
Info->has_soffset :
false;
464 return Info ?
Info->BaseOpcode : -1;
468 const MUBUFInfo *
Info = getMUBUFInfoFromBaseOpcodeAndElements(BaseOpc, Elements);
479 return Info ?
Info->has_vaddr :
false;
484 return Info ?
Info->has_srsrc :
false;
489 return Info ?
Info->has_soffset :
false;
494 return Info ?
Info->IsBufferInv :
false;
503 const SMInfo *
Info = getSMEMOpcodeHelper(Opc);
504 return Info ?
Info->IsBuffer :
false;
509 return Info ?
Info->IsSingle :
true;
514 return Info ?
Info->IsSingle :
true;
519 return Info ?
Info->IsSingle :
true;
523 return isVOPC64DPPOpcodeHelper(Opc) || isVOPC64DPP8OpcodeHelper(Opc);
530 return Info ?
Info->is_dgemm :
false;
535 return Info ?
Info->is_gfx940_xdl :
false;
539 switch (EncodingVal) {
556 unsigned F8F8Opcode) {
559 return getMFMA_F8F6F4_InstWithNumRegs(SrcANumRegs, SrcBNumRegs, F8F8Opcode);
563 if (ST.hasFeature(AMDGPU::FeatureGFX12Insts))
565 if (ST.hasFeature(AMDGPU::FeatureGFX11Insts))
573 return {
Info->CanBeVOPDX,
true};
574 return {
false,
false};
587 return Opc == AMDGPU::V_MAC_F32_e64_gfx6_gfx7 ||
588 Opc == AMDGPU::V_MAC_F32_e64_gfx10 ||
589 Opc == AMDGPU::V_MAC_F32_e64_vi ||
590 Opc == AMDGPU::V_MAC_LEGACY_F32_e64_gfx6_gfx7 ||
591 Opc == AMDGPU::V_MAC_LEGACY_F32_e64_gfx10 ||
592 Opc == AMDGPU::V_MAC_F16_e64_vi ||
593 Opc == AMDGPU::V_FMAC_F64_e64_gfx90a ||
594 Opc == AMDGPU::V_FMAC_F32_e64_gfx10 ||
595 Opc == AMDGPU::V_FMAC_F32_e64_gfx11 ||
596 Opc == AMDGPU::V_FMAC_F32_e64_gfx12 ||
597 Opc == AMDGPU::V_FMAC_F32_e64_vi ||
598 Opc == AMDGPU::V_FMAC_LEGACY_F32_e64_gfx10 ||
599 Opc == AMDGPU::V_FMAC_DX9_ZERO_F32_e64_gfx11 ||
600 Opc == AMDGPU::V_FMAC_F16_e64_gfx10 ||
601 Opc == AMDGPU::V_FMAC_F16_fake16_e64_gfx11 ||
602 Opc == AMDGPU::V_FMAC_F16_fake16_e64_gfx12 ||
603 Opc == AMDGPU::V_DOT2C_F32_F16_e64_vi ||
604 Opc == AMDGPU::V_DOT2C_F32_BF16_e64_vi ||
605 Opc == AMDGPU::V_DOT2C_I32_I16_e64_vi ||
606 Opc == AMDGPU::V_DOT4C_I32_I8_e64_vi ||
607 Opc == AMDGPU::V_DOT8C_I32_I4_e64_vi;
611 return Opc == AMDGPU::V_PERMLANE16_B32_gfx10 ||
612 Opc == AMDGPU::V_PERMLANEX16_B32_gfx10 ||
613 Opc == AMDGPU::V_PERMLANE16_B32_e64_gfx11 ||
614 Opc == AMDGPU::V_PERMLANEX16_B32_e64_gfx11 ||
615 Opc == AMDGPU::V_PERMLANE16_B32_e64_gfx12 ||
616 Opc == AMDGPU::V_PERMLANEX16_B32_e64_gfx12 ||
617 Opc == AMDGPU::V_PERMLANE16_VAR_B32_e64_gfx12 ||
618 Opc == AMDGPU::V_PERMLANEX16_VAR_B32_e64_gfx12;
622 return Opc == AMDGPU::V_CVT_F32_BF8_e64_gfx12 ||
623 Opc == AMDGPU::V_CVT_F32_FP8_e64_gfx12 ||
624 Opc == AMDGPU::V_CVT_F32_BF8_e64_dpp_gfx12 ||
625 Opc == AMDGPU::V_CVT_F32_FP8_e64_dpp_gfx12 ||
626 Opc == AMDGPU::V_CVT_F32_BF8_e64_dpp8_gfx12 ||
627 Opc == AMDGPU::V_CVT_F32_FP8_e64_dpp8_gfx12 ||
628 Opc == AMDGPU::V_CVT_PK_F32_BF8_fake16_e64_gfx12 ||
629 Opc == AMDGPU::V_CVT_PK_F32_FP8_fake16_e64_gfx12 ||
630 Opc == AMDGPU::V_CVT_PK_F32_BF8_t16_e64_gfx12 ||
631 Opc == AMDGPU::V_CVT_PK_F32_FP8_t16_e64_gfx12;
635 return Opc == AMDGPU::G_AMDGPU_BUFFER_ATOMIC_SWAP ||
636 Opc == AMDGPU::G_AMDGPU_BUFFER_ATOMIC_ADD ||
637 Opc == AMDGPU::G_AMDGPU_BUFFER_ATOMIC_SUB ||
638 Opc == AMDGPU::G_AMDGPU_BUFFER_ATOMIC_SMIN ||
639 Opc == AMDGPU::G_AMDGPU_BUFFER_ATOMIC_UMIN ||
640 Opc == AMDGPU::G_AMDGPU_BUFFER_ATOMIC_SMAX ||
641 Opc == AMDGPU::G_AMDGPU_BUFFER_ATOMIC_UMAX ||
642 Opc == AMDGPU::G_AMDGPU_BUFFER_ATOMIC_AND ||
643 Opc == AMDGPU::G_AMDGPU_BUFFER_ATOMIC_OR ||
644 Opc == AMDGPU::G_AMDGPU_BUFFER_ATOMIC_XOR ||
645 Opc == AMDGPU::G_AMDGPU_BUFFER_ATOMIC_INC ||
646 Opc == AMDGPU::G_AMDGPU_BUFFER_ATOMIC_DEC ||
647 Opc == AMDGPU::G_AMDGPU_BUFFER_ATOMIC_FADD ||
648 Opc == AMDGPU::G_AMDGPU_BUFFER_ATOMIC_FMIN ||
649 Opc == AMDGPU::G_AMDGPU_BUFFER_ATOMIC_FMAX ||
650 Opc == AMDGPU::G_AMDGPU_BUFFER_ATOMIC_CMPSWAP ||
651 Opc == AMDGPU::G_AMDGPU_ATOMIC_CMPXCHG;
656 return Info ?
Info->IsTrue16 :
false;
663 if (
Info->HasFP8DstByteSel)
665 if (
Info->HasFP4DstByteSel)
673 return Info ?
Info->Opcode3Addr : ~0u;
678 return Info ?
Info->Opcode2Addr : ~0u;
685 return getMCOpcodeGen(Opcode,
static_cast<Subtarget
>(Gen));
688int getVOPDFull(
unsigned OpX,
unsigned OpY,
unsigned EncodingFamily) {
690 getVOPDInfoFromComponentOpcodes(OpX, OpY, EncodingFamily);
697 const auto *OpX = getVOPDBaseFromComponent(
Info->OpX);
698 const auto *OpY = getVOPDBaseFromComponent(
Info->OpY);
700 return {OpX->BaseVOP, OpY->BaseVOP};
712 HasSrc2Acc = TiedIdx != -1;
719 for (CompOprIdx =
Component::SRC1; CompOprIdx < OperandsNum; ++CompOprIdx) {
721 MandatoryLiteralIdx = CompOprIdx;
742 std::function<
unsigned(
unsigned,
unsigned)> GetRegIdx,
bool SkipSrc)
const {
747 const unsigned CompOprNum =
750 for (CompOprIdx = 0; CompOprIdx < CompOprNum; ++CompOprIdx) {
752 if (OpXRegs[CompOprIdx] && OpYRegs[CompOprIdx] &&
753 ((OpXRegs[CompOprIdx] & BanksMasks) ==
754 (OpYRegs[CompOprIdx] & BanksMasks)))
770 std::function<
unsigned(
unsigned,
unsigned)> GetRegIdx)
const {
773 const auto &Comp = CompInfo[CompIdx];
776 RegIndices[
DST] = GetRegIdx(CompIdx, Comp.getIndexOfDstInMCOperands());
779 unsigned CompSrcIdx = CompOprIdx -
DST_NUM;
781 Comp.hasRegSrcOperand(CompSrcIdx)
782 ? GetRegIdx(CompIdx, Comp.getIndexOfSrcInMCOperands(CompSrcIdx))
797 const auto &OpXDesc = InstrInfo->
get(OpX);
798 const auto &OpYDesc = InstrInfo->
get(OpY);
820 std::optional<bool> XnackRequested;
821 std::optional<bool> SramEccRequested;
823 for (
const std::string &Feature : Features.
getFeatures()) {
824 if (Feature ==
"+xnack")
825 XnackRequested =
true;
826 else if (Feature ==
"-xnack")
827 XnackRequested =
false;
828 else if (Feature ==
"+sramecc")
829 SramEccRequested =
true;
830 else if (Feature ==
"-sramecc")
831 SramEccRequested =
false;
837 if (XnackRequested) {
838 if (XnackSupported) {
844 if (*XnackRequested) {
845 errs() <<
"warning: xnack 'On' was requested for a processor that does "
848 errs() <<
"warning: xnack 'Off' was requested for a processor that "
849 "does not support it!\n";
854 if (SramEccRequested) {
855 if (SramEccSupported) {
862 if (*SramEccRequested) {
863 errs() <<
"warning: sramecc 'On' was requested for a processor that "
864 "does not support it!\n";
866 errs() <<
"warning: sramecc 'Off' was requested for a processor that "
867 "does not support it!\n";
885 TargetID.
split(TargetIDSplit,
':');
887 for (
const auto &FeatureString : TargetIDSplit) {
888 if (FeatureString.starts_with(
"xnack"))
890 if (FeatureString.starts_with(
"sramecc"))
896 std::string StringRep;
902 StreamRep << TargetTriple.getArchName() <<
'-'
903 << TargetTriple.getVendorName() <<
'-'
904 << TargetTriple.getOSName() <<
'-'
905 << TargetTriple.getEnvironmentName() <<
'-';
907 std::string Processor;
918 std::string Features;
922 Features +=
":sramecc-";
924 Features +=
":sramecc+";
927 Features +=
":xnack-";
929 Features +=
":xnack+";
932 StreamRep << Processor << Features;
980 unsigned FlatWorkGroupSize) {
981 assert(FlatWorkGroupSize != 0);
991 unsigned MaxBarriers = 16;
995 return std::min(MaxWaves /
N, MaxBarriers);
1012 unsigned FlatWorkGroupSize) {
1027 unsigned FlatWorkGroupSize) {
1087 return Addressable ? AddressableNumSGPRs : 108;
1088 if (
Version.Major >= 8 && !Addressable)
1089 AddressableNumSGPRs = 112;
1094 return std::min(MaxNumSGPRs, AddressableNumSGPRs);
1098 bool FlatScrUsed,
bool XNACKUsed) {
1099 unsigned ExtraSGPRs = 0;
1130 return divideCeil(std::max(1u, NumRegs), Granule);
1140 std::optional<bool> EnableWavefrontSize32) {
1144 bool IsWave32 = EnableWavefrontSize32 ?
1145 *EnableWavefrontSize32 :
1149 return IsWave32 ? 24 : 12;
1152 return IsWave32 ? 16 : 8;
1154 return IsWave32 ? 8 : 4;
1158 std::optional<bool> EnableWavefrontSize32) {
1162 bool IsWave32 = EnableWavefrontSize32 ?
1163 *EnableWavefrontSize32 :
1166 return IsWave32 ? 8 : 4;
1176 return IsWave32 ? 1536 : 768;
1177 return IsWave32 ? 1024 : 512;
1189 unsigned NumVGPRs) {
1197 unsigned TotalNumVGPRs) {
1198 if (NumVGPRs < Granule)
1200 unsigned RoundedRegs =
alignTo(NumVGPRs, Granule);
1201 return std::min(std::max(TotalNumVGPRs / RoundedRegs, 1u), MaxWaves);
1235 if (WavesPerEU >= MaxWavesPerEU)
1241 unsigned MaxNumVGPRs =
alignDown(TotNumVGPRs / WavesPerEU, Granule);
1243 if (MaxNumVGPRs ==
alignDown(TotNumVGPRs / MaxWavesPerEU, Granule))
1247 if (WavesPerEU < MinWavesPerEU)
1250 unsigned MaxNumVGPRsNext =
alignDown(TotNumVGPRs / (WavesPerEU + 1), Granule);
1251 unsigned MinNumVGPRs = 1 + std::min(MaxNumVGPRs - Granule, MaxNumVGPRsNext);
1252 return std::min(MinNumVGPRs, AddrsableNumVGPRs);
1261 return std::min(MaxNumVGPRs, AddressableNumVGPRs);
1265 std::optional<bool> EnableWavefrontSize32) {
1273 std::optional<bool> EnableWavefrontSize32) {
1331std::pair<unsigned, unsigned>
1333 std::pair<unsigned, unsigned>
Default,
1334 bool OnlyFirstRequired) {
1336 return {Attr->first, Attr->second ? *(Attr->second) :
Default.second};
1340std::optional<std::pair<unsigned, std::optional<unsigned>>>
1342 bool OnlyFirstRequired) {
1344 if (!
A.isStringAttribute())
1345 return std::nullopt;
1348 std::pair<unsigned, std::optional<unsigned>> Ints;
1349 std::pair<StringRef, StringRef> Strs =
A.getValueAsString().split(
',');
1350 if (Strs.first.trim().getAsInteger(0, Ints.first)) {
1351 Ctx.
emitError(
"can't parse first integer attribute " +
Name);
1352 return std::nullopt;
1354 unsigned Second = 0;
1355 if (Strs.second.trim().getAsInteger(0, Second)) {
1356 if (!OnlyFirstRequired || !Strs.second.trim().empty()) {
1357 Ctx.
emitError(
"can't parse second integer attribute " +
Name);
1358 return std::nullopt;
1361 Ints.second = Second;
1374 if (!
A.isStringAttribute())
1384 std::pair<StringRef, StringRef> Strs = S.
split(
',');
1386 if (Strs.first.trim().getAsInteger(0, IntVal)) {
1387 Ctx.
emitError(
"can't parse integer attribute " + Strs.first +
" in " +
1397 " has incorrect number of integers; expected " +
1398 llvm::utostr(
Size));
1405 return (1 << (getVmcntBitWidthLo(
Version.Major) +
1406 getVmcntBitWidthHi(
Version.Major))) -
1411 return (1 << getLoadcntBitWidth(
Version.Major)) - 1;
1415 return (1 << getSamplecntBitWidth(
Version.Major)) - 1;
1419 return (1 << getBvhcntBitWidth(
Version.Major)) - 1;
1423 return (1 << getExpcntBitWidth(
Version.Major)) - 1;
1427 return (1 << getLgkmcntBitWidth(
Version.Major)) - 1;
1431 return (1 << getDscntBitWidth(
Version.Major)) - 1;
1435 return (1 << getKmcntBitWidth(
Version.Major)) - 1;
1439 return (1 << getStorecntBitWidth(
Version.Major)) - 1;
1443 unsigned VmcntLo = getBitMask(getVmcntBitShiftLo(
Version.Major),
1444 getVmcntBitWidthLo(
Version.Major));
1445 unsigned Expcnt = getBitMask(getExpcntBitShift(
Version.Major),
1446 getExpcntBitWidth(
Version.Major));
1447 unsigned Lgkmcnt = getBitMask(getLgkmcntBitShift(
Version.Major),
1448 getLgkmcntBitWidth(
Version.Major));
1449 unsigned VmcntHi = getBitMask(getVmcntBitShiftHi(
Version.Major),
1450 getVmcntBitWidthHi(
Version.Major));
1451 return VmcntLo | Expcnt | Lgkmcnt | VmcntHi;
1455 unsigned VmcntLo = unpackBits(
Waitcnt, getVmcntBitShiftLo(
Version.Major),
1456 getVmcntBitWidthLo(
Version.Major));
1457 unsigned VmcntHi = unpackBits(
Waitcnt, getVmcntBitShiftHi(
Version.Major),
1458 getVmcntBitWidthHi(
Version.Major));
1459 return VmcntLo | VmcntHi << getVmcntBitWidthLo(
Version.Major);
1464 getExpcntBitWidth(
Version.Major));
1469 getLgkmcntBitWidth(
Version.Major));
1473 unsigned &Vmcnt,
unsigned &Expcnt,
unsigned &Lgkmcnt) {
1490 getVmcntBitWidthLo(
Version.Major));
1491 return packBits(Vmcnt >> getVmcntBitWidthLo(
Version.Major),
Waitcnt,
1492 getVmcntBitShiftHi(
Version.Major),
1493 getVmcntBitWidthHi(
Version.Major));
1498 return packBits(Expcnt,
Waitcnt, getExpcntBitShift(
Version.Major),
1499 getExpcntBitWidth(
Version.Major));
1504 return packBits(Lgkmcnt,
Waitcnt, getLgkmcntBitShift(
Version.Major),
1505 getLgkmcntBitWidth(
Version.Major));
1509 unsigned Vmcnt,
unsigned Expcnt,
unsigned Lgkmcnt) {
1523 unsigned Dscnt = getBitMask(getDscntBitShift(
Version.Major),
1524 getDscntBitWidth(
Version.Major));
1526 unsigned Storecnt = getBitMask(getLoadcntStorecntBitShift(
Version.Major),
1527 getStorecntBitWidth(
Version.Major));
1528 return Dscnt | Storecnt;
1530 unsigned Loadcnt = getBitMask(getLoadcntStorecntBitShift(
Version.Major),
1531 getLoadcntBitWidth(
Version.Major));
1532 return Dscnt | Loadcnt;
1538 unpackBits(LoadcntDscnt, getLoadcntStorecntBitShift(
Version.Major),
1539 getLoadcntBitWidth(
Version.Major));
1540 Decoded.
DsCnt = unpackBits(LoadcntDscnt, getDscntBitShift(
Version.Major),
1541 getDscntBitWidth(
Version.Major));
1548 unpackBits(StorecntDscnt, getLoadcntStorecntBitShift(
Version.Major),
1549 getStorecntBitWidth(
Version.Major));
1550 Decoded.
DsCnt = unpackBits(StorecntDscnt, getDscntBitShift(
Version.Major),
1551 getDscntBitWidth(
Version.Major));
1557 return packBits(Loadcnt,
Waitcnt, getLoadcntStorecntBitShift(
Version.Major),
1558 getLoadcntBitWidth(
Version.Major));
1562 unsigned Storecnt) {
1563 return packBits(Storecnt,
Waitcnt, getLoadcntStorecntBitShift(
Version.Major),
1564 getStorecntBitWidth(
Version.Major));
1570 getDscntBitWidth(
Version.Major));
1586 unsigned Storecnt,
unsigned Dscnt) {
1607 const auto &
Op = Opr[
Idx];
1608 if (
Op.isSupported(STI))
1609 Enc |=
Op.encode(
Op.Default);
1615 int Size,
unsigned Code,
1616 bool &HasNonDefaultVal,
1618 unsigned UsedOprMask = 0;
1619 HasNonDefaultVal =
false;
1621 const auto &
Op = Opr[
Idx];
1622 if (!
Op.isSupported(STI))
1624 UsedOprMask |=
Op.getMask();
1625 unsigned Val =
Op.decode(Code);
1626 if (!
Op.isValid(Val))
1628 HasNonDefaultVal |= (Val !=
Op.Default);
1630 return (Code & ~UsedOprMask) == 0;
1635 unsigned &Val,
bool &IsDefault,
1638 const auto &
Op = Opr[
Idx++];
1639 if (
Op.isSupported(STI)) {
1641 Val =
Op.decode(Code);
1642 IsDefault = (Val ==
Op.Default);
1652 if (InputVal < 0 || InputVal >
Op.Max)
1654 return Op.encode(InputVal);
1659 unsigned &UsedOprMask,
1663 const auto &
Op = Opr[
Idx];
1665 if (!
Op.isSupported(STI)) {
1669 auto OprMask =
Op.getMask();
1670 if (OprMask & UsedOprMask)
1672 UsedOprMask |= OprMask;
1695 HasNonDefaultVal, STI);
1711 return unpackBits(Encoded, getVmVsrcBitShift(), getVmVsrcBitWidth());
1715 return unpackBits(Encoded, getVaVdstBitShift(), getVaVdstBitWidth());
1719 return unpackBits(Encoded, getSaSdstBitShift(), getSaSdstBitWidth());
1723 return packBits(VmVsrc, Encoded, getVmVsrcBitShift(), getVmVsrcBitWidth());
1731 return packBits(VaVdst, Encoded, getVaVdstBitShift(), getVaVdstBitWidth());
1739 return packBits(SaSdst, Encoded, getSaSdstBitShift(), getSaSdstBitWidth());
1772 if (Val.Tgt <= Id && Id <= Val.Tgt + Val.MaxIndex) {
1773 Index = (Val.MaxIndex == 0) ? -1 : (Id - Val.Tgt);
1784 if (Val.MaxIndex == 0 &&
Name == Val.Name)
1787 if (Val.MaxIndex > 0 &&
Name.starts_with(Val.Name)) {
1795 if (Suffix.
size() > 1 && Suffix[0] ==
'0')
1798 return Val.Tgt + Id;
1827namespace MTBUFFormat {
1853 if (
Name == lookupTable[Id])
1957 return 0 <= OpId && isUInt<OP_WIDTH_>(OpId);
2027 return F.getFnAttributeAsParsedInteger(
"InitialPSInputAddr", 0);
2032 return F.getFnAttributeAsParsedInteger(
2033 "amdgpu-color-export",
2038 return F.getFnAttributeAsParsedInteger(
"amdgpu-depth-export", 0) != 0;
2111 return STI.
hasFeature(AMDGPU::FeatureSRAMECC);
2127 return !STI.
hasFeature(AMDGPU::FeatureUnpackedD16VMem) && !
isCI(STI) &&
2138 return Version.Minor >= 3 ? 13 : 5;
2142 return HasSampler ? 4 : 5;
2149 return STI.
hasFeature(AMDGPU::FeatureSouthernIslands);
2153 return STI.
hasFeature(AMDGPU::FeatureSeaIslands);
2157 return STI.
hasFeature(AMDGPU::FeatureVolcanicIslands);
2227 return STI.
hasFeature(AMDGPU::FeatureGCN3Encoding);
2231 return STI.
hasFeature(AMDGPU::FeatureGFX10_AEncoding);
2235 return STI.
hasFeature(AMDGPU::FeatureGFX10_BEncoding);
2239 return STI.
hasFeature(AMDGPU::FeatureGFX10_3Insts);
2247 return STI.
hasFeature(AMDGPU::FeatureGFX90AInsts);
2251 return STI.
hasFeature(AMDGPU::FeatureGFX940Insts);
2255 return STI.
hasFeature(AMDGPU::FeatureArchitectedFlatScratch);
2259 return STI.
hasFeature(AMDGPU::FeatureMAIInsts);
2267 return STI.
hasFeature(AMDGPU::FeatureDPPSrc1SGPR);
2271 return STI.
hasFeature(AMDGPU::FeatureKernargPreload);
2275 int32_t ArgNumVGPR) {
2276 if (has90AInsts && ArgNumAGPR)
2277 return alignTo(ArgNumVGPR, 4) + ArgNumAGPR;
2278 return std::max(ArgNumVGPR, ArgNumAGPR);
2284 return SGPRClass.
contains(FirstSubReg != 0 ? FirstSubReg :
Reg) ||
2292#define MAP_REG2REG \
2293 using namespace AMDGPU; \
2294 switch(Reg.id()) { \
2295 default: return Reg; \
2296 CASE_CI_VI(FLAT_SCR) \
2297 CASE_CI_VI(FLAT_SCR_LO) \
2298 CASE_CI_VI(FLAT_SCR_HI) \
2299 CASE_VI_GFX9PLUS(TTMP0) \
2300 CASE_VI_GFX9PLUS(TTMP1) \
2301 CASE_VI_GFX9PLUS(TTMP2) \
2302 CASE_VI_GFX9PLUS(TTMP3) \
2303 CASE_VI_GFX9PLUS(TTMP4) \
2304 CASE_VI_GFX9PLUS(TTMP5) \
2305 CASE_VI_GFX9PLUS(TTMP6) \
2306 CASE_VI_GFX9PLUS(TTMP7) \
2307 CASE_VI_GFX9PLUS(TTMP8) \
2308 CASE_VI_GFX9PLUS(TTMP9) \
2309 CASE_VI_GFX9PLUS(TTMP10) \
2310 CASE_VI_GFX9PLUS(TTMP11) \
2311 CASE_VI_GFX9PLUS(TTMP12) \
2312 CASE_VI_GFX9PLUS(TTMP13) \
2313 CASE_VI_GFX9PLUS(TTMP14) \
2314 CASE_VI_GFX9PLUS(TTMP15) \
2315 CASE_VI_GFX9PLUS(TTMP0_TTMP1) \
2316 CASE_VI_GFX9PLUS(TTMP2_TTMP3) \
2317 CASE_VI_GFX9PLUS(TTMP4_TTMP5) \
2318 CASE_VI_GFX9PLUS(TTMP6_TTMP7) \
2319 CASE_VI_GFX9PLUS(TTMP8_TTMP9) \
2320 CASE_VI_GFX9PLUS(TTMP10_TTMP11) \
2321 CASE_VI_GFX9PLUS(TTMP12_TTMP13) \
2322 CASE_VI_GFX9PLUS(TTMP14_TTMP15) \
2323 CASE_VI_GFX9PLUS(TTMP0_TTMP1_TTMP2_TTMP3) \
2324 CASE_VI_GFX9PLUS(TTMP4_TTMP5_TTMP6_TTMP7) \
2325 CASE_VI_GFX9PLUS(TTMP8_TTMP9_TTMP10_TTMP11) \
2326 CASE_VI_GFX9PLUS(TTMP12_TTMP13_TTMP14_TTMP15) \
2327 CASE_VI_GFX9PLUS(TTMP0_TTMP1_TTMP2_TTMP3_TTMP4_TTMP5_TTMP6_TTMP7) \
2328 CASE_VI_GFX9PLUS(TTMP4_TTMP5_TTMP6_TTMP7_TTMP8_TTMP9_TTMP10_TTMP11) \
2329 CASE_VI_GFX9PLUS(TTMP8_TTMP9_TTMP10_TTMP11_TTMP12_TTMP13_TTMP14_TTMP15) \
2330 CASE_VI_GFX9PLUS(TTMP0_TTMP1_TTMP2_TTMP3_TTMP4_TTMP5_TTMP6_TTMP7_TTMP8_TTMP9_TTMP10_TTMP11_TTMP12_TTMP13_TTMP14_TTMP15) \
2331 CASE_GFXPRE11_GFX11PLUS(M0) \
2332 CASE_GFXPRE11_GFX11PLUS(SGPR_NULL) \
2333 CASE_GFXPRE11_GFX11PLUS_TO(SGPR_NULL64, SGPR_NULL) \
2336#define CASE_CI_VI(node) \
2337 assert(!isSI(STI)); \
2338 case node: return isCI(STI) ? node##_ci : node##_vi;
2340#define CASE_VI_GFX9PLUS(node) \
2341 case node: return isGFX9Plus(STI) ? node##_gfx9plus : node##_vi;
2343#define CASE_GFXPRE11_GFX11PLUS(node) \
2344 case node: return isGFX11Plus(STI) ? node##_gfx11plus : node##_gfxpre11;
2346#define CASE_GFXPRE11_GFX11PLUS_TO(node, result) \
2347 case node: return isGFX11Plus(STI) ? result##_gfx11plus : result##_gfxpre11;
2356#undef CASE_VI_GFX9PLUS
2357#undef CASE_GFXPRE11_GFX11PLUS
2358#undef CASE_GFXPRE11_GFX11PLUS_TO
2360#define CASE_CI_VI(node) case node##_ci: case node##_vi: return node;
2361#define CASE_VI_GFX9PLUS(node) case node##_vi: case node##_gfx9plus: return node;
2362#define CASE_GFXPRE11_GFX11PLUS(node) case node##_gfx11plus: case node##_gfxpre11: return node;
2363#define CASE_GFXPRE11_GFX11PLUS_TO(node, result)
2369 case AMDGPU::SRC_SHARED_BASE_LO:
2370 case AMDGPU::SRC_SHARED_BASE:
2371 case AMDGPU::SRC_SHARED_LIMIT_LO:
2372 case AMDGPU::SRC_SHARED_LIMIT:
2373 case AMDGPU::SRC_PRIVATE_BASE_LO:
2374 case AMDGPU::SRC_PRIVATE_BASE:
2375 case AMDGPU::SRC_PRIVATE_LIMIT_LO:
2376 case AMDGPU::SRC_PRIVATE_LIMIT:
2377 case AMDGPU::SRC_POPS_EXITING_WAVE_ID:
2379 case AMDGPU::SRC_VCCZ:
2380 case AMDGPU::SRC_EXECZ:
2381 case AMDGPU::SRC_SCC:
2383 case AMDGPU::SGPR_NULL:
2391#undef CASE_VI_GFX9PLUS
2392#undef CASE_GFXPRE11_GFX11PLUS
2393#undef CASE_GFXPRE11_GFX11PLUS_TO
2398 unsigned OpType =
Desc.operands()[OpNo].OperandType;
2405 unsigned OpType =
Desc.operands()[OpNo].OperandType;
2412 unsigned OpType =
Desc.operands()[OpNo].OperandType;
2438 unsigned OpType =
Desc.operands()[OpNo].OperandType;
2449 case AMDGPU::SGPR_LO16RegClassID:
2450 case AMDGPU::AGPR_LO16RegClassID:
2452 case AMDGPU::SGPR_32RegClassID:
2453 case AMDGPU::VGPR_32RegClassID:
2454 case AMDGPU::VRegOrLds_32RegClassID:
2455 case AMDGPU::AGPR_32RegClassID:
2456 case AMDGPU::VS_32RegClassID:
2457 case AMDGPU::AV_32RegClassID:
2458 case AMDGPU::SReg_32RegClassID:
2459 case AMDGPU::SReg_32_XM0RegClassID:
2460 case AMDGPU::SRegOrLds_32RegClassID:
2462 case AMDGPU::SGPR_64RegClassID:
2463 case AMDGPU::VS_64RegClassID:
2464 case AMDGPU::SReg_64RegClassID:
2465 case AMDGPU::VReg_64RegClassID:
2466 case AMDGPU::AReg_64RegClassID:
2467 case AMDGPU::SReg_64_XEXECRegClassID:
2468 case AMDGPU::VReg_64_Align2RegClassID:
2469 case AMDGPU::AReg_64_Align2RegClassID:
2470 case AMDGPU::AV_64RegClassID:
2471 case AMDGPU::AV_64_Align2RegClassID:
2473 case AMDGPU::SGPR_96RegClassID:
2474 case AMDGPU::SReg_96RegClassID:
2475 case AMDGPU::VReg_96RegClassID:
2476 case AMDGPU::AReg_96RegClassID:
2477 case AMDGPU::VReg_96_Align2RegClassID:
2478 case AMDGPU::AReg_96_Align2RegClassID:
2479 case AMDGPU::AV_96RegClassID:
2480 case AMDGPU::AV_96_Align2RegClassID:
2482 case AMDGPU::SGPR_128RegClassID:
2483 case AMDGPU::SReg_128RegClassID:
2484 case AMDGPU::VReg_128RegClassID:
2485 case AMDGPU::AReg_128RegClassID:
2486 case AMDGPU::VReg_128_Align2RegClassID:
2487 case AMDGPU::AReg_128_Align2RegClassID:
2488 case AMDGPU::AV_128RegClassID:
2489 case AMDGPU::AV_128_Align2RegClassID:
2490 case AMDGPU::SReg_128_XNULLRegClassID:
2492 case AMDGPU::SGPR_160RegClassID:
2493 case AMDGPU::SReg_160RegClassID:
2494 case AMDGPU::VReg_160RegClassID:
2495 case AMDGPU::AReg_160RegClassID:
2496 case AMDGPU::VReg_160_Align2RegClassID:
2497 case AMDGPU::AReg_160_Align2RegClassID:
2498 case AMDGPU::AV_160RegClassID:
2499 case AMDGPU::AV_160_Align2RegClassID:
2501 case AMDGPU::SGPR_192RegClassID:
2502 case AMDGPU::SReg_192RegClassID:
2503 case AMDGPU::VReg_192RegClassID:
2504 case AMDGPU::AReg_192RegClassID:
2505 case AMDGPU::VReg_192_Align2RegClassID:
2506 case AMDGPU::AReg_192_Align2RegClassID:
2507 case AMDGPU::AV_192RegClassID:
2508 case AMDGPU::AV_192_Align2RegClassID:
2510 case AMDGPU::SGPR_224RegClassID:
2511 case AMDGPU::SReg_224RegClassID:
2512 case AMDGPU::VReg_224RegClassID:
2513 case AMDGPU::AReg_224RegClassID:
2514 case AMDGPU::VReg_224_Align2RegClassID:
2515 case AMDGPU::AReg_224_Align2RegClassID:
2516 case AMDGPU::AV_224RegClassID:
2517 case AMDGPU::AV_224_Align2RegClassID:
2519 case AMDGPU::SGPR_256RegClassID:
2520 case AMDGPU::SReg_256RegClassID:
2521 case AMDGPU::VReg_256RegClassID:
2522 case AMDGPU::AReg_256RegClassID:
2523 case AMDGPU::VReg_256_Align2RegClassID:
2524 case AMDGPU::AReg_256_Align2RegClassID:
2525 case AMDGPU::AV_256RegClassID:
2526 case AMDGPU::AV_256_Align2RegClassID:
2527 case AMDGPU::SReg_256_XNULLRegClassID:
2529 case AMDGPU::SGPR_288RegClassID:
2530 case AMDGPU::SReg_288RegClassID:
2531 case AMDGPU::VReg_288RegClassID:
2532 case AMDGPU::AReg_288RegClassID:
2533 case AMDGPU::VReg_288_Align2RegClassID:
2534 case AMDGPU::AReg_288_Align2RegClassID:
2535 case AMDGPU::AV_288RegClassID:
2536 case AMDGPU::AV_288_Align2RegClassID:
2538 case AMDGPU::SGPR_320RegClassID:
2539 case AMDGPU::SReg_320RegClassID:
2540 case AMDGPU::VReg_320RegClassID:
2541 case AMDGPU::AReg_320RegClassID:
2542 case AMDGPU::VReg_320_Align2RegClassID:
2543 case AMDGPU::AReg_320_Align2RegClassID:
2544 case AMDGPU::AV_320RegClassID:
2545 case AMDGPU::AV_320_Align2RegClassID:
2547 case AMDGPU::SGPR_352RegClassID:
2548 case AMDGPU::SReg_352RegClassID:
2549 case AMDGPU::VReg_352RegClassID:
2550 case AMDGPU::AReg_352RegClassID:
2551 case AMDGPU::VReg_352_Align2RegClassID:
2552 case AMDGPU::AReg_352_Align2RegClassID:
2553 case AMDGPU::AV_352RegClassID:
2554 case AMDGPU::AV_352_Align2RegClassID:
2556 case AMDGPU::SGPR_384RegClassID:
2557 case AMDGPU::SReg_384RegClassID:
2558 case AMDGPU::VReg_384RegClassID:
2559 case AMDGPU::AReg_384RegClassID:
2560 case AMDGPU::VReg_384_Align2RegClassID:
2561 case AMDGPU::AReg_384_Align2RegClassID:
2562 case AMDGPU::AV_384RegClassID:
2563 case AMDGPU::AV_384_Align2RegClassID:
2565 case AMDGPU::SGPR_512RegClassID:
2566 case AMDGPU::SReg_512RegClassID:
2567 case AMDGPU::VReg_512RegClassID:
2568 case AMDGPU::AReg_512RegClassID:
2569 case AMDGPU::VReg_512_Align2RegClassID:
2570 case AMDGPU::AReg_512_Align2RegClassID:
2571 case AMDGPU::AV_512RegClassID:
2572 case AMDGPU::AV_512_Align2RegClassID:
2574 case AMDGPU::SGPR_1024RegClassID:
2575 case AMDGPU::SReg_1024RegClassID:
2576 case AMDGPU::VReg_1024RegClassID:
2577 case AMDGPU::AReg_1024RegClassID:
2578 case AMDGPU::VReg_1024_Align2RegClassID:
2579 case AMDGPU::AReg_1024_Align2RegClassID:
2580 case AMDGPU::AV_1024RegClassID:
2581 case AMDGPU::AV_1024_Align2RegClassID:
2595 unsigned RCID =
Desc.operands()[OpNo].RegClass;
2604 return (Val == llvm::bit_cast<uint64_t>(0.0)) ||
2605 (Val == llvm::bit_cast<uint64_t>(1.0)) ||
2606 (Val == llvm::bit_cast<uint64_t>(-1.0)) ||
2607 (Val == llvm::bit_cast<uint64_t>(0.5)) ||
2608 (Val == llvm::bit_cast<uint64_t>(-0.5)) ||
2609 (Val == llvm::bit_cast<uint64_t>(2.0)) ||
2610 (Val == llvm::bit_cast<uint64_t>(-2.0)) ||
2611 (Val == llvm::bit_cast<uint64_t>(4.0)) ||
2612 (Val == llvm::bit_cast<uint64_t>(-4.0)) ||
2613 (Val == 0x3fc45f306dc9c882 && HasInv2Pi);
2630 return (Val == llvm::bit_cast<uint32_t>(0.0f)) ||
2631 (Val == llvm::bit_cast<uint32_t>(1.0f)) ||
2632 (Val == llvm::bit_cast<uint32_t>(-1.0f)) ||
2633 (Val == llvm::bit_cast<uint32_t>(0.5f)) ||
2634 (Val == llvm::bit_cast<uint32_t>(-0.5f)) ||
2635 (Val == llvm::bit_cast<uint32_t>(2.0f)) ||
2636 (Val == llvm::bit_cast<uint32_t>(-2.0f)) ||
2637 (Val == llvm::bit_cast<uint32_t>(4.0f)) ||
2638 (Val == llvm::bit_cast<uint32_t>(-4.0f)) ||
2639 (Val == 0x3e22f983 && HasInv2Pi);
2648 return Val == 0x3F00 ||
2669 return Val == 0x3C00 ||
2696 return 192 + std::abs(
Signed);
2701 case 0x3800:
return 240;
2702 case 0xB800:
return 241;
2703 case 0x3C00:
return 242;
2704 case 0xBC00:
return 243;
2705 case 0x4000:
return 244;
2706 case 0xC000:
return 245;
2707 case 0x4400:
return 246;
2708 case 0xC400:
return 247;
2709 case 0x3118:
return 248;
2716 case 0x3F000000:
return 240;
2717 case 0xBF000000:
return 241;
2718 case 0x3F800000:
return 242;
2719 case 0xBF800000:
return 243;
2720 case 0x40000000:
return 244;
2721 case 0xC0000000:
return 245;
2722 case 0x40800000:
return 246;
2723 case 0xC0800000:
return 247;
2724 case 0x3E22F983:
return 248;
2747 return 192 + std::abs(
Signed);
2751 case 0x3F00:
return 240;
2752 case 0xBF00:
return 241;
2753 case 0x3F80:
return 242;
2754 case 0xBF80:
return 243;
2755 case 0x4000:
return 244;
2756 case 0xC000:
return 245;
2757 case 0x4080:
return 246;
2758 case 0xC080:
return 247;
2759 case 0x3E22:
return 248;
2764 return std::nullopt;
2810 return !(Val & 0xffffffffu);
2812 return isUInt<32>(Val) || isInt<32>(Val);
2836 return A->hasAttribute(Attribute::InReg) ||
2837 A->hasAttribute(Attribute::ByVal);
2840 return A->hasAttribute(Attribute::InReg);
2875 int64_t EncodedOffset) {
2877 return isUInt<23>(EncodedOffset);
2880 : isUInt<8>(EncodedOffset);
2884 int64_t EncodedOffset,
2887 return isInt<24>(EncodedOffset);
2891 isInt<21>(EncodedOffset);
2895 return (ByteOffset & 3) == 0;
2904 return ByteOffset >> 2;
2908 int64_t ByteOffset,
bool IsBuffer,
2914 return std::nullopt;
2917 return isInt<24>(ByteOffset) ? std::optional<int64_t>(ByteOffset)
2923 return isInt<20>(ByteOffset) ? std::optional<int64_t>(ByteOffset)
2928 return std::nullopt;
2932 ? std::optional<int64_t>(EncodedOffset)
2937 int64_t ByteOffset) {
2939 return std::nullopt;
2942 return isUInt<32>(EncodedOffset) ? std::optional<int64_t>(EncodedOffset)
2957struct SourceOfDivergence {
2960const SourceOfDivergence *lookupSourceOfDivergence(
unsigned Intr);
2967#define GET_SourcesOfDivergence_IMPL
2968#define GET_UniformIntrinsics_IMPL
2969#define GET_Gfx9BufferFormat_IMPL
2970#define GET_Gfx10BufferFormat_IMPL
2971#define GET_Gfx11PlusBufferFormat_IMPL
2973#include "AMDGPUGenSearchableTables.inc"
2978 return lookupSourceOfDivergence(IntrID);
2982 return lookupAlwaysUniform(IntrID);
2990 ? getGfx11PlusBufferFormatInfo(BitsPerComp, NumComponents,
2992 :
isGFX10(STI) ? getGfx10BufferFormatInfo(BitsPerComp,
2993 NumComponents, NumFormat)
2994 : getGfx9BufferFormatInfo(BitsPerComp,
2995 NumComponents, NumFormat);
3002 : getGfx9BufferFormatInfo(
Format);
3006 for (
auto OpName : { OpName::vdst, OpName::src0, OpName::src1,
3012 if (OpDesc.
operands()[
Idx].RegClass == AMDGPU::VReg_64RegClassID ||
3013 OpDesc.
operands()[
Idx].RegClass == AMDGPU::VReg_64_Align2RegClassID)
3035 OS <<
"Unsupported";
unsigned const MachineRegisterInfo * MRI
static llvm::cl::opt< unsigned > DefaultAMDHSACodeObjectVersion("amdhsa-code-object-version", llvm::cl::Hidden, llvm::cl::init(llvm::AMDGPU::AMDHSA_COV5), llvm::cl::desc("Set default AMDHSA Code Object Version (module flag " "or asm directive still take priority if present)"))
Provides AMDGPU specific target descriptions.
MC layer struct for AMDGPUMCKernelCodeT, provides MCExpr functionality where required.
@ AMD_CODE_PROPERTY_ENABLE_WAVEFRONT_SIZE32
This file contains the simple types necessary to represent the attributes associated with functions a...
static GCRegistry::Add< ErlangGC > A("erlang", "erlang-compatible garbage collector")
Analysis containing CSE Info
This file contains the declarations for the subclasses of Constant, which represent the different fla...
Returns the sub type a function will return at a given Idx Should correspond to the result type of an ExtractValue instruction executed with just that one unsigned Idx
unsigned const TargetRegisterInfo * TRI
#define S_00B848_MEM_ORDERED(x)
#define S_00B848_WGP_MODE(x)
assert(ImpDefSCC.getReg()==AMDGPU::SCC &&ImpDefSCC.isDef())
unsigned unsigned DefaultVal
bool isSramEccSupported() const
void setTargetIDFromFeaturesString(StringRef FS)
TargetIDSetting getXnackSetting() const
AMDGPUTargetID(const MCSubtargetInfo &STI)
bool isXnackSupported() const
void setTargetIDFromTargetIDStream(StringRef TargetID)
std::string toString() const
TargetIDSetting getSramEccSetting() const
unsigned getIndexInParsedOperands(unsigned CompOprIdx) const
unsigned getIndexOfDstInParsedOperands() const
unsigned getIndexOfSrcInParsedOperands(unsigned CompSrcIdx) const
unsigned getCompParsedSrcOperandsNum() const
std::optional< unsigned > getInvalidCompOperandIndex(std::function< unsigned(unsigned, unsigned)> GetRegIdx, bool SkipSrc=false) const
std::array< unsigned, Component::MAX_OPR_NUM > RegIndices
This class represents an incoming formal argument to a Function.
Base class for all callable instructions (InvokeInst and CallInst) Holds everything related to callin...
CallingConv::ID getCallingConv() const
bool paramHasAttr(unsigned ArgNo, Attribute::AttrKind Kind) const
Determine whether the argument or parameter has the given attribute.
This class represents an Operation in the Expression.
constexpr bool test(unsigned I) const
unsigned getAddressSpace() const
This is an important class for using LLVM in a threaded context.
void emitError(const Instruction *I, const Twine &ErrorStr)
emitError - Emit an error message to the currently installed error handler with optional location inf...
Describe properties that are true of each instruction in the target description file.
unsigned getNumOperands() const
Return the number of declared MachineOperands for this MachineInstruction.
ArrayRef< MCOperandInfo > operands() const
unsigned getNumDefs() const
Return the number of MachineOperands that are register definitions.
int getOperandConstraint(unsigned OpNum, MCOI::OperandConstraint Constraint) const
Returns the value of the specified operand constraint if it is present.
unsigned getOpcode() const
Return the opcode number for this descriptor.
Interface to description of machine instruction set.
const MCInstrDesc & get(unsigned Opcode) const
Return the machine instruction descriptor that corresponds to the specified instruction opcode.
MCRegisterClass - Base class of TargetRegisterClass.
unsigned getID() const
getID() - Return the register class ID number.
bool contains(MCRegister Reg) const
contains - Return true if the specified register is included in this register class.
MCRegisterInfo base class - We assume that the target defines a static array of MCRegisterDesc object...
Wrapper class representing physical registers. Should be passed by value.
Generic base class for all target subtargets.
bool hasFeature(unsigned Feature) const
const Triple & getTargetTriple() const
const FeatureBitset & getFeatureBits() const
A Module instance is used to store all the information related to an LLVM module.
This is a 'vector' (really, a variable-sized array), optimized for the case when the array is small.
A wrapper around a string literal that serves as a proxy for constructing global tables of StringRefs...
StringRef - Represent a constant reference to a string, i.e.
std::pair< StringRef, StringRef > split(char Separator) const
Split into two substrings around the first occurrence of a separator character.
bool getAsInteger(unsigned Radix, T &Result) const
Parse the current string as an integer of the specified radix.
std::string str() const
str - Get the contents as an std::string.
constexpr bool empty() const
empty - Check if the string is empty.
constexpr size_t size() const
size - Get the string size.
bool ends_with(StringRef Suffix) const
Check if this string ends with the given Suffix.
Manages the enabling and disabling of subtarget specific features.
const std::vector< std::string > & getFeatures() const
Returns the vector of individual subtarget features.
Triple - Helper class for working with autoconf configuration names.
OSType getOS() const
Get the parsed operating system type of this triple.
ArchType getArch() const
Get the parsed architecture type of this triple.
Twine - A lightweight data structure for efficiently representing the concatenation of temporary valu...
This class implements an extremely fast bulk output stream that can only output to a stream.
A raw_ostream that writes to an std::string.
#define llvm_unreachable(msg)
Marks that the current location is not supposed to be reachable.
@ CONSTANT_ADDRESS_32BIT
Address space for 32-bit constant memory.
@ LOCAL_ADDRESS
Address space for local memory.
@ CONSTANT_ADDRESS
Address space for constant memory (VTX2).
@ GLOBAL_ADDRESS
Address space for global memory (RAT0, VTX0).
bool decodeDepCtr(unsigned Code, int &Id, StringRef &Name, unsigned &Val, bool &IsDefault, const MCSubtargetInfo &STI)
unsigned encodeFieldVaVdst(unsigned Encoded, unsigned VaVdst)
unsigned decodeFieldSaSdst(unsigned Encoded)
unsigned encodeFieldVmVsrc(unsigned Encoded, unsigned VmVsrc)
int encodeDepCtr(const StringRef Name, int64_t Val, unsigned &UsedOprMask, const MCSubtargetInfo &STI)
unsigned encodeFieldSaSdst(unsigned Encoded, unsigned SaSdst)
const CustomOperandVal DepCtrInfo[]
bool isSymbolicDepCtrEncoding(unsigned Code, bool &HasNonDefaultVal, const MCSubtargetInfo &STI)
unsigned decodeFieldVaVdst(unsigned Encoded)
int getDefaultDepCtrEncoding(const MCSubtargetInfo &STI)
unsigned decodeFieldVmVsrc(unsigned Encoded)
bool isSupportedTgtId(unsigned Id, const MCSubtargetInfo &STI)
static constexpr ExpTgt ExpTgtInfo[]
bool getTgtName(unsigned Id, StringRef &Name, int &Index)
unsigned getTgtId(const StringRef Name)
@ ET_DUAL_SRC_BLEND_MAX_IDX
constexpr uint32_t VersionMajor
HSA metadata major version.
@ COMPLETION_ACTION_OFFSET
@ MULTIGRID_SYNC_ARG_OFFSET
unsigned getVGPREncodingGranule(const MCSubtargetInfo *STI, std::optional< bool > EnableWavefrontSize32)
unsigned getTotalNumVGPRs(const MCSubtargetInfo *STI)
unsigned getWavesPerEUForWorkGroup(const MCSubtargetInfo *STI, unsigned FlatWorkGroupSize)
unsigned getWavefrontSize(const MCSubtargetInfo *STI)
unsigned getMaxWorkGroupsPerCU(const MCSubtargetInfo *STI, unsigned FlatWorkGroupSize)
unsigned getMaxFlatWorkGroupSize(const MCSubtargetInfo *STI)
unsigned getMaxWavesPerEU(const MCSubtargetInfo *STI)
unsigned getWavesPerWorkGroup(const MCSubtargetInfo *STI, unsigned FlatWorkGroupSize)
unsigned getNumExtraSGPRs(const MCSubtargetInfo *STI, bool VCCUsed, bool FlatScrUsed, bool XNACKUsed)
unsigned getSGPREncodingGranule(const MCSubtargetInfo *STI)
unsigned getLocalMemorySize(const MCSubtargetInfo *STI)
unsigned getAddressableLocalMemorySize(const MCSubtargetInfo *STI)
unsigned getMinNumVGPRs(const MCSubtargetInfo *STI, unsigned WavesPerEU)
unsigned getEUsPerCU(const MCSubtargetInfo *STI)
@ FIXED_NUM_SGPRS_FOR_INIT_BUG
unsigned getAddressableNumSGPRs(const MCSubtargetInfo *STI)
unsigned getAddressableNumVGPRs(const MCSubtargetInfo *STI)
unsigned getMinNumSGPRs(const MCSubtargetInfo *STI, unsigned WavesPerEU)
static TargetIDSetting getTargetIDSettingFromFeatureString(StringRef FeatureString)
unsigned getMinFlatWorkGroupSize(const MCSubtargetInfo *STI)
unsigned getMaxNumSGPRs(const MCSubtargetInfo *STI, unsigned WavesPerEU, bool Addressable)
unsigned getNumSGPRBlocks(const MCSubtargetInfo *STI, unsigned NumSGPRs)
unsigned getMinWavesPerEU(const MCSubtargetInfo *STI)
unsigned getSGPRAllocGranule(const MCSubtargetInfo *STI)
unsigned getNumWavesPerEUWithNumVGPRs(const MCSubtargetInfo *STI, unsigned NumVGPRs)
unsigned getMaxNumVGPRs(const MCSubtargetInfo *STI, unsigned WavesPerEU)
unsigned getEncodedNumVGPRBlocks(const MCSubtargetInfo *STI, unsigned NumVGPRs, std::optional< bool > EnableWavefrontSize32)
unsigned getOccupancyWithNumSGPRs(unsigned SGPRs, unsigned MaxWaves, AMDGPUSubtarget::Generation Gen)
static unsigned getGranulatedNumRegisterBlocks(unsigned NumRegs, unsigned Granule)
unsigned getVGPRAllocGranule(const MCSubtargetInfo *STI, std::optional< bool > EnableWavefrontSize32)
unsigned getAddressableNumArchVGPRs(const MCSubtargetInfo *STI)
unsigned getAllocatedNumVGPRBlocks(const MCSubtargetInfo *STI, unsigned NumVGPRs, std::optional< bool > EnableWavefrontSize32)
unsigned getTotalNumSGPRs(const MCSubtargetInfo *STI)
uint64_t encodeMsg(uint64_t MsgId, uint64_t OpId, uint64_t StreamId)
bool msgSupportsStream(int64_t MsgId, int64_t OpId, const MCSubtargetInfo &STI)
void decodeMsg(unsigned Val, uint16_t &MsgId, uint16_t &OpId, uint16_t &StreamId, const MCSubtargetInfo &STI)
bool isValidMsgId(int64_t MsgId, const MCSubtargetInfo &STI)
bool isValidMsgStream(int64_t MsgId, int64_t OpId, int64_t StreamId, const MCSubtargetInfo &STI, bool Strict)
StringRef getMsgOpName(int64_t MsgId, uint64_t Encoding, const MCSubtargetInfo &STI)
Map from an encoding to the symbolic name for a sendmsg operation.
static uint64_t getMsgIdMask(const MCSubtargetInfo &STI)
bool msgRequiresOp(int64_t MsgId, const MCSubtargetInfo &STI)
bool isValidMsgOp(int64_t MsgId, int64_t OpId, const MCSubtargetInfo &STI, bool Strict)
constexpr unsigned VOPD_VGPR_BANK_MASKS[]
constexpr unsigned COMPONENTS_NUM
bool isGCN3Encoding(const MCSubtargetInfo &STI)
bool isInlinableLiteralBF16(int16_t Literal, bool HasInv2Pi)
bool isGFX10_BEncoding(const MCSubtargetInfo &STI)
bool isGFX10_GFX11(const MCSubtargetInfo &STI)
bool isInlinableLiteralV216(uint32_t Literal, uint8_t OpType)
LLVM_READONLY const MIMGInfo * getMIMGInfo(unsigned Opc)
unsigned getRegOperandSize(const MCRegisterInfo *MRI, const MCInstrDesc &Desc, unsigned OpNo)
Get size of register operand.
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...
bool isInlinableLiteralFP16(int16_t Literal, bool HasInv2Pi)
bool isSGPR(MCRegister Reg, const MCRegisterInfo *TRI)
Is Reg - scalar register.
uint64_t convertSMRDOffsetUnits(const MCSubtargetInfo &ST, uint64_t ByteOffset)
Convert ByteOffset to dwords if the subtarget uses dword SMRD immediate offsets.
static unsigned encodeStorecnt(const IsaVersion &Version, unsigned Waitcnt, unsigned Storecnt)
MCRegister getMCReg(MCRegister Reg, const MCSubtargetInfo &STI)
If Reg is a pseudo reg, return the correct hardware register given STI otherwise return Reg.
static bool hasSMEMByteOffset(const MCSubtargetInfo &ST)
bool isVOPCAsmOnly(unsigned Opc)
int getMIMGOpcode(unsigned BaseOpcode, unsigned MIMGEncoding, unsigned VDataDwords, unsigned VAddrDwords)
bool getMTBUFHasSrsrc(unsigned Opc)
std::optional< int64_t > getSMRDEncodedLiteralOffset32(const MCSubtargetInfo &ST, int64_t ByteOffset)
static bool isSymbolicCustomOperandEncoding(const CustomOperandVal *Opr, int Size, unsigned Code, bool &HasNonDefaultVal, const MCSubtargetInfo &STI)
bool isGFX10Before1030(const MCSubtargetInfo &STI)
bool isSISrcInlinableOperand(const MCInstrDesc &Desc, unsigned OpNo)
Does this operand support only inlinable literals?
unsigned mapWMMA2AddrTo3AddrOpcode(unsigned Opc)
const int OPR_ID_UNSUPPORTED
bool shouldEmitConstantsToTextSection(const Triple &TT)
bool isInlinableLiteralV2I16(uint32_t Literal)
int getMTBUFElements(unsigned Opc)
bool isHi16Reg(MCRegister Reg, const MCRegisterInfo &MRI)
static int encodeCustomOperandVal(const CustomOperandVal &Op, int64_t InputVal)
int32_t getTotalNumVGPRs(bool has90AInsts, int32_t ArgNumAGPR, int32_t ArgNumVGPR)
bool isGFX10(const MCSubtargetInfo &STI)
LLVM_READONLY int16_t getNamedOperandIdx(uint16_t Opcode, uint16_t NamedIdx)
bool isInlinableLiteralV2BF16(uint32_t Literal)
unsigned getMaxNumUserSGPRs(const MCSubtargetInfo &STI)
std::optional< unsigned > getInlineEncodingV216(bool IsFloat, uint32_t Literal)
FPType getFPDstSelType(unsigned Opc)
unsigned getNumFlatOffsetBits(const MCSubtargetInfo &ST)
For pre-GFX12 FLAT instructions the offset must be positive; MSB is ignored and forced to zero.
bool hasA16(const MCSubtargetInfo &STI)
bool isLegalSMRDEncodedSignedOffset(const MCSubtargetInfo &ST, int64_t EncodedOffset, bool IsBuffer)
bool isGFX12Plus(const MCSubtargetInfo &STI)
unsigned getNSAMaxSize(const MCSubtargetInfo &STI, bool HasSampler)
CanBeVOPD getCanBeVOPD(unsigned Opc)
bool hasPackedD16(const MCSubtargetInfo &STI)
unsigned getStorecntBitMask(const IsaVersion &Version)
unsigned getLdsDwGranularity(const MCSubtargetInfo &ST)
bool isGFX940(const MCSubtargetInfo &STI)
bool isEntryFunctionCC(CallingConv::ID CC)
bool isInlinableLiteralV2F16(uint32_t Literal)
bool isHsaAbi(const MCSubtargetInfo &STI)
bool isGFX11(const MCSubtargetInfo &STI)
const int OPR_VAL_INVALID
bool getSMEMIsBuffer(unsigned Opc)
bool isGFX10_3_GFX11(const MCSubtargetInfo &STI)
uint8_t mfmaScaleF8F6F4FormatToNumRegs(unsigned EncodingVal)
bool isGroupSegment(const GlobalValue *GV)
IsaVersion getIsaVersion(StringRef GPU)
bool getMTBUFHasSoffset(unsigned Opc)
bool hasXNACK(const MCSubtargetInfo &STI)
bool isValid32BitLiteral(uint64_t Val, bool IsFP64)
static unsigned getCombinedCountBitMask(const IsaVersion &Version, bool IsStore)
unsigned getVOPDOpcode(unsigned Opc)
bool isDPALU_DPP(const MCInstrDesc &OpDesc)
unsigned encodeWaitcnt(const IsaVersion &Version, unsigned Vmcnt, unsigned Expcnt, unsigned Lgkmcnt)
Encodes Vmcnt, Expcnt and Lgkmcnt into Waitcnt for given isa Version.
bool isVOPC64DPP(unsigned Opc)
int getMUBUFOpcode(unsigned BaseOpc, unsigned Elements)
bool isCompute(CallingConv::ID cc)
bool getMAIIsGFX940XDL(unsigned Opc)
bool isSI(const MCSubtargetInfo &STI)
unsigned getDefaultAMDHSACodeObjectVersion()
bool isReadOnlySegment(const GlobalValue *GV)
bool isArgPassedInSGPR(const Argument *A)
bool isIntrinsicAlwaysUniform(unsigned IntrID)
int getMUBUFBaseOpcode(unsigned Opc)
unsigned getAMDHSACodeObjectVersion(const Module &M)
unsigned decodeLgkmcnt(const IsaVersion &Version, unsigned Waitcnt)
unsigned getWaitcntBitMask(const IsaVersion &Version)
bool getVOP3IsSingle(unsigned Opc)
bool isGFX9(const MCSubtargetInfo &STI)
bool getVOP1IsSingle(unsigned Opc)
static bool isDwordAligned(uint64_t ByteOffset)
unsigned getVOPDEncodingFamily(const MCSubtargetInfo &ST)
bool isGFX10_AEncoding(const MCSubtargetInfo &STI)
bool isKImmOperand(const MCInstrDesc &Desc, unsigned OpNo)
Is this a KImm operand?
bool getHasColorExport(const Function &F)
int getMTBUFBaseOpcode(unsigned Opc)
bool isChainCC(CallingConv::ID CC)
bool isGFX90A(const MCSubtargetInfo &STI)
unsigned getSamplecntBitMask(const IsaVersion &Version)
unsigned getDefaultQueueImplicitArgPosition(unsigned CodeObjectVersion)
bool hasSRAMECC(const MCSubtargetInfo &STI)
bool getHasDepthExport(const Function &F)
bool isGFX8_GFX9_GFX10(const MCSubtargetInfo &STI)
bool getMUBUFHasVAddr(unsigned Opc)
int getVOPDFull(unsigned OpX, unsigned OpY, unsigned EncodingFamily)
bool isTrue16Inst(unsigned Opc)
bool hasAny64BitVGPROperands(const MCInstrDesc &OpDesc)
std::pair< unsigned, unsigned > getVOPDComponents(unsigned VOPDOpcode)
bool isInlinableLiteral32(int32_t Literal, bool HasInv2Pi)
bool isGFX12(const MCSubtargetInfo &STI)
unsigned getInitialPSInputAddr(const Function &F)
unsigned encodeExpcnt(const IsaVersion &Version, unsigned Waitcnt, unsigned Expcnt)
bool isSISrcOperand(const MCInstrDesc &Desc, unsigned OpNo)
Is this an AMDGPU specific source operand? These include registers, inline constants,...
unsigned getKmcntBitMask(const IsaVersion &Version)
unsigned getVmcntBitMask(const IsaVersion &Version)
bool isNotGFX10Plus(const MCSubtargetInfo &STI)
bool hasMAIInsts(const MCSubtargetInfo &STI)
bool isIntrinsicSourceOfDivergence(unsigned IntrID)
bool isKernelCC(const Function *Func)
bool isGenericAtomic(unsigned Opc)
Waitcnt decodeStorecntDscnt(const IsaVersion &Version, unsigned StorecntDscnt)
bool isGFX8Plus(const MCSubtargetInfo &STI)
LLVM_READONLY bool hasNamedOperand(uint64_t Opcode, uint64_t NamedIdx)
LLVM_READNONE bool isInlinableIntLiteral(int64_t Literal)
Is this literal inlinable, and not one of the values intended for floating point values.
unsigned getLgkmcntBitMask(const IsaVersion &Version)
bool getMUBUFTfe(unsigned Opc)
unsigned getBvhcntBitMask(const IsaVersion &Version)
bool hasSMRDSignedImmOffset(const MCSubtargetInfo &ST)
bool hasMIMG_R128(const MCSubtargetInfo &STI)
bool hasGFX10_3Insts(const MCSubtargetInfo &STI)
bool hasG16(const MCSubtargetInfo &STI)
unsigned getAddrSizeMIMGOp(const MIMGBaseOpcodeInfo *BaseOpcode, const MIMGDimInfo *Dim, bool IsA16, bool IsG16Supported)
int getMTBUFOpcode(unsigned BaseOpc, unsigned Elements)
unsigned getExpcntBitMask(const IsaVersion &Version)
bool hasArchitectedFlatScratch(const MCSubtargetInfo &STI)
bool getMUBUFHasSoffset(unsigned Opc)
bool isNotGFX11Plus(const MCSubtargetInfo &STI)
bool isGFX11Plus(const MCSubtargetInfo &STI)
std::optional< unsigned > getInlineEncodingV2F16(uint32_t Literal)
bool isInlineValue(unsigned Reg)
bool isSISrcFPOperand(const MCInstrDesc &Desc, unsigned OpNo)
Is this floating-point operand?
bool isShader(CallingConv::ID cc)
unsigned getHostcallImplicitArgPosition(unsigned CodeObjectVersion)
static unsigned getDefaultCustomOperandEncoding(const CustomOperandVal *Opr, int Size, const MCSubtargetInfo &STI)
static unsigned encodeLoadcnt(const IsaVersion &Version, unsigned Waitcnt, unsigned Loadcnt)
bool isGFX10Plus(const MCSubtargetInfo &STI)
static bool decodeCustomOperand(const CustomOperandVal *Opr, int Size, unsigned Code, int &Idx, StringRef &Name, unsigned &Val, bool &IsDefault, const MCSubtargetInfo &STI)
std::optional< int64_t > getSMRDEncodedOffset(const MCSubtargetInfo &ST, int64_t ByteOffset, bool IsBuffer, bool HasSOffset)
bool isGlobalSegment(const GlobalValue *GV)
@ OPERAND_KIMM32
Operand with 32-bit immediate that uses the constant bus.
@ OPERAND_REG_INLINE_C_LAST
@ OPERAND_REG_INLINE_C_FP64
@ OPERAND_REG_INLINE_C_V2BF16
@ OPERAND_REG_IMM_V2INT16
@ OPERAND_REG_INLINE_AC_V2FP16
@ OPERAND_REG_INLINE_AC_FIRST
@ OPERAND_REG_INLINE_C_V2FP16
@ OPERAND_REG_INLINE_AC_V2INT16
@ OPERAND_REG_INLINE_AC_FP16
@ OPERAND_REG_INLINE_AC_FP32
@ OPERAND_REG_INLINE_AC_V2BF16
@ OPERAND_REG_INLINE_C_FIRST
@ OPERAND_REG_INLINE_C_FP32
@ OPERAND_REG_INLINE_AC_LAST
@ OPERAND_REG_INLINE_C_V2INT16
@ OPERAND_REG_INLINE_AC_FP64
@ OPERAND_REG_INLINE_C_FP16
@ OPERAND_REG_INLINE_C_V2FP32
@ OPERAND_REG_IMM_FP32_DEFERRED
@ OPERAND_REG_IMM_FP16_DEFERRED
void initDefaultAMDKernelCodeT(AMDGPUMCKernelCodeT &KernelCode, const MCSubtargetInfo *STI)
bool isNotGFX9Plus(const MCSubtargetInfo &STI)
bool hasGDS(const MCSubtargetInfo &STI)
bool isLegalSMRDEncodedUnsignedOffset(const MCSubtargetInfo &ST, int64_t EncodedOffset)
bool isGFX9Plus(const MCSubtargetInfo &STI)
bool hasDPPSrc1SGPR(const MCSubtargetInfo &STI)
const int OPR_ID_DUPLICATE
bool isVOPD(unsigned Opc)
VOPD::InstInfo getVOPDInstInfo(const MCInstrDesc &OpX, const MCInstrDesc &OpY)
unsigned encodeVmcnt(const IsaVersion &Version, unsigned Waitcnt, unsigned Vmcnt)
unsigned decodeExpcnt(const IsaVersion &Version, unsigned Waitcnt)
bool isCvt_F32_Fp8_Bf8_e64(unsigned Opc)
Waitcnt decodeLoadcntDscnt(const IsaVersion &Version, unsigned LoadcntDscnt)
std::optional< unsigned > getInlineEncodingV2I16(uint32_t Literal)
unsigned getRegBitWidth(const TargetRegisterClass &RC)
Get the size in bits of a register from the register class RC.
static unsigned encodeStorecntDscnt(const IsaVersion &Version, unsigned Storecnt, unsigned Dscnt)
int getMCOpcode(uint16_t Opcode, unsigned Gen)
const MIMGBaseOpcodeInfo * getMIMGBaseOpcode(unsigned Opc)
bool isVI(const MCSubtargetInfo &STI)
bool getMUBUFIsBufferInv(unsigned Opc)
MCRegister mc2PseudoReg(MCRegister Reg)
Convert hardware register Reg to a pseudo register.
std::optional< unsigned > getInlineEncodingV2BF16(uint32_t Literal)
static int encodeCustomOperand(const CustomOperandVal *Opr, int Size, const StringRef Name, int64_t InputVal, unsigned &UsedOprMask, const MCSubtargetInfo &STI)
unsigned hasKernargPreload(const MCSubtargetInfo &STI)
bool isCI(const MCSubtargetInfo &STI)
unsigned encodeLgkmcnt(const IsaVersion &Version, unsigned Waitcnt, unsigned Lgkmcnt)
bool getVOP2IsSingle(unsigned Opc)
bool getMAIIsDGEMM(unsigned Opc)
Returns true if MAI operation is a double precision GEMM.
LLVM_READONLY const MIMGBaseOpcodeInfo * getMIMGBaseOpcodeInfo(unsigned BaseOpcode)
unsigned getCompletionActionImplicitArgPosition(unsigned CodeObjectVersion)
SmallVector< unsigned > getIntegerVecAttribute(const Function &F, StringRef Name, unsigned Size, unsigned DefaultVal)
int getMaskedMIMGOp(unsigned Opc, unsigned NewChannels)
bool isModuleEntryFunctionCC(CallingConv::ID CC)
bool isNotGFX12Plus(const MCSubtargetInfo &STI)
bool getMTBUFHasVAddr(unsigned Opc)
unsigned decodeVmcnt(const IsaVersion &Version, unsigned Waitcnt)
uint8_t getELFABIVersion(const Triple &T, unsigned CodeObjectVersion)
std::pair< unsigned, unsigned > getIntegerPairAttribute(const Function &F, StringRef Name, std::pair< unsigned, unsigned > Default, bool OnlyFirstRequired)
unsigned getLoadcntBitMask(const IsaVersion &Version)
bool isInlinableLiteralI16(int32_t Literal, bool HasInv2Pi)
bool hasVOPD(const MCSubtargetInfo &STI)
static unsigned encodeDscnt(const IsaVersion &Version, unsigned Waitcnt, unsigned Dscnt)
bool isInlinableLiteral64(int64_t Literal, bool HasInv2Pi)
Is this literal inlinable.
const MFMA_F8F6F4_Info * getMFMA_F8F6F4_WithFormatArgs(unsigned CBSZ, unsigned BLGP, unsigned F8F8Opcode)
unsigned getMultigridSyncArgImplicitArgPosition(unsigned CodeObjectVersion)
bool isGFX9_GFX10_GFX11(const MCSubtargetInfo &STI)
bool isGFX9_GFX10(const MCSubtargetInfo &STI)
int getMUBUFElements(unsigned Opc)
static unsigned encodeLoadcntDscnt(const IsaVersion &Version, unsigned Loadcnt, unsigned Dscnt)
const GcnBufferFormatInfo * getGcnBufferFormatInfo(uint8_t BitsPerComp, uint8_t NumComponents, uint8_t NumFormat, const MCSubtargetInfo &STI)
bool isGraphics(CallingConv::ID cc)
unsigned mapWMMA3AddrTo2AddrOpcode(unsigned Opc)
bool isPermlane16(unsigned Opc)
bool getMUBUFHasSrsrc(unsigned Opc)
unsigned getDscntBitMask(const IsaVersion &Version)
constexpr std::underlying_type_t< E > Mask()
Get a bitmask with 1s in all places up to the high-order bit of E's largest value.
@ AMDGPU_CS
Used for Mesa/AMDPAL compute shaders.
@ AMDGPU_VS
Used for Mesa vertex shaders, or AMDPAL last shader stage before rasterization (vertex shader if tess...
@ AMDGPU_KERNEL
Used for AMDGPU code object kernels.
@ AMDGPU_Gfx
Used for AMD graphics targets.
@ AMDGPU_CS_ChainPreserve
Used on AMDGPUs to give the middle-end more control over argument placement.
@ AMDGPU_HS
Used for Mesa/AMDPAL hull shaders (= tessellation control shaders).
@ AMDGPU_GS
Used for Mesa/AMDPAL geometry shaders.
@ AMDGPU_CS_Chain
Used on AMDGPUs to give the middle-end more control over argument placement.
@ AMDGPU_PS
Used for Mesa/AMDPAL pixel shaders.
@ SPIR_KERNEL
Used for SPIR kernel functions.
@ AMDGPU_ES
Used for AMDPAL shader stage before geometry shader if geometry is in use.
@ AMDGPU_LS
Used for AMDPAL vertex shader if tessellation is in use.
unsigned ID
LLVM IR allows to use arbitrary numbers as calling convention identifiers.
@ ELFABIVERSION_AMDGPU_HSA_V4
@ ELFABIVERSION_AMDGPU_HSA_V5
@ ELFABIVERSION_AMDGPU_HSA_V6
initializer< Ty > init(const Ty &Val)
This is an optimization pass for GlobalISel generic memory operations.
constexpr T alignDown(U Value, V Align, W Skew=0)
Returns the largest unsigned integer less than or equal to Value and is Skew mod Align.
void report_fatal_error(Error Err, bool gen_crash_diag=true)
Report a serious error, calling any installed error handler.
raw_fd_ostream & errs()
This returns a reference to a raw_ostream for standard error.
constexpr T divideCeil(U Numerator, V Denominator)
Returns the integer ceil(Numerator / Denominator).
uint64_t alignTo(uint64_t Size, Align A)
Returns a multiple of A needed to store Size bytes.
raw_ostream & operator<<(raw_ostream &OS, const APFixedPoint &FX)
@ AlwaysUniform
The result values are always uniform.
@ Default
The result values are uniform if and only if all operands are uniform.
AMD Kernel Code Object (amd_kernel_code_t).
uint16_t amd_machine_version_major
uint16_t amd_machine_kind
uint16_t amd_machine_version_stepping
uint8_t private_segment_alignment
int64_t kernel_code_entry_byte_offset
uint32_t amd_kernel_code_version_major
uint16_t amd_machine_version_minor
uint8_t group_segment_alignment
uint8_t kernarg_segment_alignment
uint32_t amd_kernel_code_version_minor
uint64_t compute_pgm_resource_registers
Instruction set architecture version.
Represents the counter values to wait for in an s_waitcnt instruction.
Description of the encoding of one expression Op.
