22#include "llvm/Config/llvm-config.h"
43#define DEBUG_TYPE "tblgen-records"
123 OS <<
"Total allocator memory = " <<
Allocator.getTotalMemory() <<
"\n\n";
125 OS <<
"Number of records instantiated = " <<
LastRecordID <<
'\n';
126 OS <<
"Number of anonymous records = " <<
AnonCounter <<
'\n';
133#if !defined(NDEBUG) || defined(LLVM_ENABLE_DUMP)
139 ListTy =
new (RK.getImpl().Allocator)
ListRecTy(
this);
144 assert(RHS &&
"NULL pointer");
145 return Kind == RHS->getRecTyKind();
151 return &RK.getImpl().SharedBitRecTy;
158 return BitsTy->getNumBits() == 1;
168 Ty =
new (RKImpl.
Allocator) BitsRecTy(RK, Sz);
173 return "bits<" +
utostr(Size) +
">";
184 return &RK.getImpl().SharedIntRecTy;
193 return &RK.getImpl().SharedStringRecTy;
206 return "list<" + ElementTy->getAsString() +
">";
211 return ElementTy->typeIsConvertibleTo(ListTy->getElementType());
222 return &RK.getImpl().SharedDagRecTy;
231 ID.AddInteger(Classes.
size());
232 for (
const Record *R : Classes)
237 : RecTy(RecordRecTyKind, RK), NumClasses(Classes.
size()) {
244 if (UnsortedClasses.
empty())
251 return LHS->getNameInitAsString() < RHS->getNameInitAsString();
263 for (
unsigned i = 0; i < Classes.
size(); ++i) {
264 for (
unsigned j = 0; j < Classes.
size(); ++j) {
267 assert(&Classes[0]->getRecords() == &Classes[i]->getRecords());
273 RecordRecTy *Ty =
new (Mem) RecordRecTy(RK, Classes);
279 assert(Class &&
"unexpected null class");
280 return get(Class->getRecords(), {Class});
289 return getClasses()[0]->getNameInitAsString();
291 std::string Str =
"{";
295 Str += R->getNameInitAsString();
303 return MySuperClass == Class || MySuperClass->
isSubClassOf(Class);
316 return isSubClassOf(TargetClass);
329 while (!Stack.empty()) {
330 const Record *R = Stack.pop_back_val();
332 if (T2->isSubClassOf(R))
350 assert(T1 !=
nullptr &&
"Invalid record type");
351 if (T1->typeIsConvertibleTo(T2))
354 assert(T2 !=
nullptr &&
"Invalid record type");
355 if (T2->typeIsConvertibleTo(T1))
360 const RecTy *NewType =
361 resolveTypes(ListTy1->getElementType(), ListTy2->getElementType());
374void Init::anchor() {}
376#if !defined(NDEBUG) || defined(LLVM_ENABLE_DUMP)
382 return TyInit->getType()->getRecordKeeper();
384 return ArgInit->getRecordKeeper();
389 return &RK.getImpl().TheUnsetInit;
400 auto I = Aux.index();
403 ID.AddInteger(std::get<ArgumentInit::Positional>(Aux));
405 ID.AddPointer(std::get<ArgumentInit::Named>(Aux));
430 const Init *NewValue = Value->resolveReferences(R);
431 if (NewValue != Value)
450 if (BRT->getNumBits() == 1)
482 BitsInit *
I =
new (Mem) BitsInit(RK, Bits);
500 if (
getNumBits() != BRT->getNumBits())
return nullptr;
517 Result |=
static_cast<int64_t
>(Bit->getValue()) << Idx;
527 Result |=
static_cast<int64_t
>(Bit->getValue()) << Idx;
535 for (
auto [Bit, NewBit] :
zip_equal(Bits, NewBits)) {
554 std::string Result =
"{ ";
559 Result += Bit->getAsString();
563 return Result +
" }";
572 const Init *CachedBitVarRef =
nullptr;
573 const Init *CachedBitVarResolved =
nullptr;
579 if (CurBitVar->getBitVar() != CachedBitVarRef) {
580 CachedBitVarRef = CurBitVar->getBitVar();
583 assert(CachedBitVarResolved &&
"Unresolved bitvar reference");
584 NewBit = CachedBitVarResolved->
getBit(CurBitVar->getBitNum());
587 NewBit = CurBit->resolveReferences(R)->getBit(0);
604 I =
new (RK.
getImpl().Allocator) IntInit(RK, V);
614 return (NumBits >=
sizeof(
Value) * 8) ||
615 (
Value >> NumBits == 0) || (
Value >> (NumBits-1) == -1);
624 if (Val != 0 && Val != 1)
return nullptr;
635 for (
unsigned i = 0; i != BRT->getNumBits(); ++i)
648 for (
auto [Bit, NewBit] :
zip_equal(Bits, NewBits)) {
658 return new (RK.
getImpl().Allocator) AnonymousNameInit(RK, V);
666 return "anonymous_" +
utostr(Value);
671 auto *New = R.resolve(Old);
672 New = New ? New : Old;
675 return Anonymous->getNameInit();
684 auto &Entry = *InitMap.
try_emplace(V,
nullptr).first;
686 Entry.second =
new (RKImpl.
Allocator) StringInit(RK, Entry.getKey(), Fmt);
699 const RecTy *EltTy) {
700 ID.AddInteger(Elements.size());
701 ID.AddPointer(EltTy);
703 for (
const Init *
E : Elements)
714 const RecTy *EltTy) {
728 ListInit *
I =
new (Mem) ListInit(Elements, EltTy);
744 Elements.reserve(
size());
749 const RecTy *ElementType = LRT->getElementType();
751 if (
const Init *CI =
I->convertInitializerTo(ElementType)) {
752 Elements.push_back(CI);
777 Resolved.reserve(
size());
783 Resolved.push_back(E);
802 std::string Result =
"[";
804 for (
const Init *Element : *
this) {
819 ID.AddInteger(Opcode);
846 if (LHS->isConcrete()) {
851 OS << *Def->getDef();
891 (Anonymous && Name == Anonymous->getNameInit())) {
898 auto PrintFatalErrorHelper = [CurRec](
const Twine &
T) {
907 PrintFatalErrorHelper(
Twine(
"Undefined reference to record: '") +
908 Name->getValue() +
"'\n");
915 PrintFatalErrorHelper(
Twine(
"Expected type '") +
931 if (LHS->isConcrete())
943 assert(!LHSl->empty() &&
"Empty list in head");
944 return LHSl->getElement(0);
950 assert(!LHSl->empty() &&
"Empty list in tail");
954 LHSl->getElementType());
981 if (!TI->getType()->typeIsA(
getType())) {
987 return Dag->getOperator();
994 return Dag->getName();
1001 int64_t LHSv = LHSi->getValue();
1004 "Illegal operation: logtwo is undefined "
1005 "on arguments less than or equal to 0");
1009 "Log of an int64_t must be smaller than INT64_MAX");
1023 [](
const ListInit *
List) -> std::optional<std::vector<const Init *>> {
1024 std::vector<const Init *> Flattened;
1026 for (
const Init *InnerInit :
List->getElements()) {
1029 return std::nullopt;
1035 auto Flattened = Flatten(LHSList);
1037 return ListInit::get(*Flattened, InnerListTy->getElementType());
1049 ->Fold(R.getCurrentRecord(), R.isFinal());
1057 case NOT: Result =
"!not";
break;
1058 case HEAD: Result =
"!head";
break;
1059 case TAIL: Result =
"!tail";
break;
1060 case SIZE: Result =
"!size";
break;
1061 case EMPTY: Result =
"!empty";
break;
1062 case GETDAGOP: Result =
"!getdagop";
break;
1064 Result =
"!getdagopname";
1066 case LOG2 : Result =
"!logtwo";
break;
1068 Result =
"!listflatten";
1074 Result =
"!tolower";
1077 Result =
"!toupper";
1080 Result =
"!initialized";
1083 return Result +
"(" + LHS->getAsString() +
")";
1089 ID.AddInteger(Opcode);
1117 Concat.append(I1->getValue());
1125 if (List->size() == 0)
1133 for (
const Init *Elem : List->getElements().drop_front()) {
1138 Result.append(Element->getValue());
1147 if (List->size() == 0)
1150 List->getElement(0)->convertInitializerTo(
IntRecTy::get(RK)));
1155 for (
const Init *Elem : List->getElements().drop_front()) {
1161 Result.append(Element->getAsString());
1194 const Init *RHS)
const {
1205 Result = LHSi->getValue() == RHSi->getValue();
1208 Result = LHSi->getValue() != RHSi->getValue();
1211 Result = LHSi->getValue() <= RHSi->getValue();
1214 Result = LHSi->getValue() < RHSi->getValue();
1217 Result = LHSi->getValue() >= RHSi->getValue();
1220 Result = LHSi->getValue() > RHSi->getValue();
1236 Result = LHSs->getValue() == RHSs->getValue();
1239 Result = LHSs->getValue() != RHSs->getValue();
1242 Result = LHSs->getValue() <= RHSs->getValue();
1245 Result = LHSs->getValue() < RHSs->getValue();
1248 Result = LHSs->getValue() >= RHSs->getValue();
1251 Result = LHSs->getValue() > RHSs->getValue();
1264 return (
Opc ==
EQ) ? LHSd == RHSd : LHSd != RHSd;
1267 return std::nullopt;
1270static std::optional<unsigned>
1274 int64_t Pos = Idx->getValue();
1278 (
Twine(
"index ") + std::to_string(Pos) +
Twine(
" is negative")).str();
1279 return std::nullopt;
1281 if (Pos >= Dag->getNumArgs()) {
1283 Error = (
Twine(
"index ") + std::to_string(Pos) +
1284 " is out of range (dag has " +
1285 std::to_string(Dag->getNumArgs()) +
" arguments)")
1287 return std::nullopt;
1294 auto ArgNo = Dag->getArgNo(Name->getValue());
1297 Error = (
Twine(
"key '") + Name->getValue() +
Twine(
"' is not found")).str();
1298 return std::nullopt;
1314 if (LOp && ROp && LOp->getDef() != ROp->getDef()) {
1316 LHSs->getAsString() +
"' vs. '" + RHSs->getAsString() +
1319 const Init *
Op = LOp ? LOp : ROp;
1327 const auto *NameInit = LHSs->getName();
1329 NameInit = RHSs->getName();
1343 StringRef RegexStr = RegexInit->getValue();
1345 if (!Matcher.isValid())
1349 Matcher.match(StrInit->getValue()));
1366 if (
Count->getValue() < 0)
1379 for (
const Init *EltLHS : *LHSs) {
1381 for (
const Init *EltRHS : *RHSs) {
1382 if (std::optional<bool> Result =
CompareInit(
EQ, EltLHS, EltRHS)) {
1390 Args.push_back(EltLHS);
1399 if (!TheList || !Idx)
1401 auto i = Idx->getValue();
1402 if (i < 0 || i >= (ssize_t)TheList->size())
1404 return TheList->getElement(i);
1409 if (!TheList || !SliceIdxs)
1412 Args.reserve(SliceIdxs->size());
1413 for (
auto *
I : *SliceIdxs) {
1417 auto i =
II->getValue();
1418 if (i < 0 || i >= (ssize_t)TheList->size())
1420 Args.push_back(TheList->getElement(i));
1430 int64_t Start = LHSi->getValue();
1431 int64_t End = RHSi->getValue();
1437 Args.reserve(End - Start + 1);
1438 for (
auto i = Start; i <= End; ++i)
1442 Args.reserve(Start - End + 1);
1443 for (
auto i = Start; i >= End; --i)
1446 }
else if (Start < End) {
1448 Args.reserve(End - Start);
1449 for (
auto i = Start; i < End; ++i)
1466 if (
List && Delim) {
1495 assert(*ArgNo < Dag->getNumArgs());
1497 const Init *Arg = Dag->getArg(*ArgNo);
1499 if (!TI->getType()->typeIsConvertibleTo(
getType()))
1509 int64_t Pos = Idx->getValue();
1510 if (Pos < 0 || Pos >= Dag->getNumArgs()) {
1513 Twine(
"!getdagname index is out of range 0...") +
1514 std::to_string(Dag->getNumArgs() - 1) +
": " +
1515 std::to_string(Pos));
1517 const Init *ArgName = Dag->getArgName(Pos);
1536 Dag->getArgNames());
1554 int64_t LHSv = LHSi->getValue(), RHSv = RHSi->getValue();
1558 case ADD: Result = LHSv + RHSv;
break;
1559 case SUB: Result = LHSv - RHSv;
break;
1560 case MUL: Result = LHSv * RHSv;
break;
1564 "Illegal operation: division by zero");
1565 else if (LHSv ==
INT64_MIN && RHSv == -1)
1567 "Illegal operation: INT64_MIN / -1");
1569 Result = LHSv / RHSv;
1571 case AND: Result = LHSv & RHSv;
break;
1572 case OR: Result = LHSv | RHSv;
break;
1573 case XOR: Result = LHSv ^ RHSv;
break;
1575 if (RHSv < 0 || RHSv >= 64)
1577 "Illegal operation: out of bounds shift");
1581 if (RHSv < 0 || RHSv >= 64)
1583 "Illegal operation: out of bounds shift");
1587 if (RHSv < 0 || RHSv >= 64)
1589 "Illegal operation: out of bounds shift");
1616 if ((
Opc ==
AND && !LHSi->getValue()) ||
1617 (
Opc ==
OR && LHSi->getValue() == -1))
1624 if (LHS != NewLHS || RHS != NewRHS)
1626 ->Fold(R.getCurrentRecord());
1635 return LHS->getAsString() +
"[" + RHS->getAsString() +
"]";
1637 return LHS->getAsString() +
"..." + RHS->getAsString();
1638 case CONCAT: Result =
"!con";
break;
1642 case ADD: Result =
"!add";
break;
1643 case SUB: Result =
"!sub";
break;
1644 case MUL: Result =
"!mul";
break;
1645 case DIV: Result =
"!div";
break;
1646 case AND: Result =
"!and";
break;
1647 case OR: Result =
"!or";
break;
1648 case XOR: Result =
"!xor";
break;
1649 case SHL: Result =
"!shl";
break;
1650 case SRA: Result =
"!sra";
break;
1651 case SRL: Result =
"!srl";
break;
1652 case EQ: Result =
"!eq";
break;
1653 case NE: Result =
"!ne";
break;
1654 case LE: Result =
"!le";
break;
1655 case LT: Result =
"!lt";
break;
1656 case GE: Result =
"!ge";
break;
1657 case GT: Result =
"!gt";
break;
1658 case LISTCONCAT: Result =
"!listconcat";
break;
1659 case LISTSPLAT: Result =
"!listsplat";
break;
1661 Result =
"!listremove";
1663 case STRCONCAT: Result =
"!strconcat";
break;
1664 case INTERLEAVE: Result =
"!interleave";
break;
1665 case SETDAGOP: Result =
"!setdagop";
break;
1667 Result =
"!setdagopname";
1673 Result =
"!getdagname";
1676 return Result +
"(" + LHS->getAsString() +
", " + RHS->getAsString() +
")";
1682 ID.AddInteger(Opcode);
1713 return RHS->resolveReferences(R);
1718 bool Change =
false;
1752 for (
const Init *&Item : NewList) {
1754 if (NewItem != Item)
1771 for (
const Init *Item : MHSl->getElements()) {
1775 if (
const auto *IncludeInt =
1778 if (IncludeInt->getValue())
1797 using KV = std::pair<const Init *, const Init *>;
1800 for (
const Init *Item : MHSl->getElements()) {
1807 if (KeyedList.
empty())
1814 for (
auto &[
Key, Item] : KeyedList) {
1836 for (
auto &[
Key, Item] : KeyedList)
1837 Result.push_back(Item);
1857 if (LHSd && MHSd && RHSd) {
1858 const Record *Val = RHSd->getDef();
1859 if (LHSd->getAsString() == RHSd->getAsString())
1860 Val = MHSd->getDef();
1863 if (LHSv && MHSv && RHSv) {
1864 std::string Val = RHSv->getName().str();
1865 if (LHSv->getAsString() == RHSv->getAsString())
1866 Val = MHSv->getName().str();
1869 if (LHSs && MHSs && RHSs) {
1870 std::string Val = RHSs->getValue().str();
1872 std::string::size_type Idx = 0;
1874 std::string::size_type Found = Val.find(LHSs->getValue(), Idx);
1875 if (Found == std::string::npos)
1877 Val.replace(Found, LHSs->getValue().size(), MHSs->getValue().str());
1878 Idx = Found + MHSs->getValue().size();
1907 if (LHSi->getValue())
1923 if (MHSok && RHSok && (!MHSl || !RHSl || MHSl->size() == RHSl->size())) {
1925 unsigned Size = MHSl ? MHSl->size() : RHSl->size();
1926 for (
unsigned i = 0; i !=
Size; ++i) {
1942 if (!LHSi || !MHSi || !RHSi)
1945 auto Start = LHSi->getValue();
1946 auto End = MHSi->getValue();
1947 auto Step = RHSi->getValue();
1952 if (Start < End && Step > 0) {
1953 Args.reserve((End - Start) / Step);
1954 for (
auto I = Start;
I < End;
I += Step)
1956 }
else if (Start > End && Step < 0) {
1957 Args.reserve((Start - End) / -Step);
1958 for (
auto I = Start;
I > End;
I += Step)
1970 if (LHSs && MHSi && RHSi) {
1971 int64_t StringSize = LHSs->getValue().size();
1972 int64_t Start = MHSi->getValue();
1973 int64_t
Length = RHSi->getValue();
1974 if (Start < 0 || Start > StringSize)
1976 Twine(
"!substr start position is out of range 0...") +
1977 std::to_string(StringSize) +
": " +
1978 std::to_string(Start));
1991 if (LHSs && MHSs && RHSi) {
1992 int64_t SourceSize = LHSs->getValue().size();
1993 int64_t Start = RHSi->getValue();
1994 if (Start < 0 || Start > SourceSize)
1996 Twine(
"!find start position is out of range 0...") +
1997 std::to_string(SourceSize) +
": " +
1998 std::to_string(Start));
1999 auto I = LHSs->getValue().find(MHSs->getValue(), Start);
2000 if (
I == std::string::npos)
2015 assert(*ArgNo < Dag->getNumArgs());
2019 return DagInit::get(Dag->getOperator(), Dag->getName(), Args,
2020 Dag->getArgNames());
2033 assert(*ArgNo < Dag->getNumArgs());
2037 return DagInit::get(Dag->getOperator(), Dag->getName(), Dag->getArgs(),
2054 if (
Value->getValue())
2055 return MHS->resolveReferences(R);
2056 return RHS->resolveReferences(R);
2071 if (LHS != lhs || MHS != mhs || RHS != rhs)
2073 ->Fold(R.getCurrentRecord());
2079 bool UnquotedLHS =
false;
2081 case DAG: Result =
"!dag";
break;
2082 case FILTER: Result =
"!filter"; UnquotedLHS =
true;
break;
2083 case FOREACH: Result =
"!foreach"; UnquotedLHS =
true;
break;
2088 case IF: Result =
"!if";
break;
2092 case SUBST: Result =
"!subst";
break;
2093 case SUBSTR: Result =
"!substr";
break;
2094 case FIND: Result =
"!find";
break;
2096 Result =
"!setdagarg";
2099 Result =
"!setdagname";
2102 return (Result +
"(" +
2103 (UnquotedLHS ? LHS->getAsUnquotedString() : LHS->getAsString()) +
2104 ", " + MHS->getAsString() +
", " + RHS->getAsString() +
")");
2110 ID.AddPointer(Start);
2111 ID.AddPointer(List);
2114 ID.AddPointer(Expr);
2129 FoldOpInit *
I =
new (RK.
Allocator) FoldOpInit(Start, List, A, B, Expr,
Type);
2140 const Init *Accum = Start;
2141 for (
const Init *Elt : *LI) {
2158 const Init *
NewExpr = Expr->resolveReferences(SR);
2160 if (Start == NewStart && List == NewList && Expr ==
NewExpr)
2164 ->
Fold(R.getCurrentRecord());
2174 return (
Twine(
"!foldl(") + Start->getAsString() +
", " + List->getAsString() +
2175 ", " + A->getAsUnquotedString() +
", " + B->getAsUnquotedString() +
2176 ", " + Expr->getAsString() +
")")
2183 ID.AddPointer(Expr);
2196 IsAOpInit *
I =
new (RK.
Allocator) IsAOpInit(CheckType, Expr);
2208 if (TI->getType()->typeIsConvertibleTo(CheckType))
2215 if ((!CheckType->typeIsConvertibleTo(TI->getType()) &&
2216 Expr->isConcrete()) ||
2239 return (
Twine(
"!isa<") + CheckType->getAsString() +
">(" +
2240 Expr->getAsString() +
")")
2247 ID.AddPointer(Expr);
2257 if (
const ExistsOpInit *
I =
2261 ExistsOpInit *
I =
new (RK.
Allocator) ExistsOpInit(CheckType, Expr);
2273 const Record *
D = CheckType->getRecordKeeper().getDef(Name->getValue());
2277 D->getDefInit()->getType()->typeIsA(CheckType));
2285 (Anonymous && Name == Anonymous->getNameInit())) {
2304 if (Expr !=
NewExpr || R.isFinal())
2305 return get(CheckType,
NewExpr)->
Fold(R.getCurrentRecord(), R.isFinal());
2314 return (
Twine(
"!exists<") + CheckType->getAsString() +
">(" +
2315 Expr->getAsString() +
")")
2326 const Init *Regex) {
2332 if (
const InstancesOpInit *
I =
2336 InstancesOpInit *
I =
new (RK.
Allocator) InstancesOpInit(Type, Regex);
2346 if (CurRec && !IsFinal)
2353 StringRef RegexStr = RegexInit->getValue();
2355 if (!Matcher.isValid())
2361 if (Matcher.match(Def->getName()))
2369 if (Regex != NewRegex || R.isFinal())
2370 return get(Type, NewRegex)->
Fold(R.getCurrentRecord(), R.isFinal());
2375 return "!instances<" + Type->
getAsString() +
">(" + Regex->getAsString() +
2383 return Field->getType();
2403 if (!
T)
return nullptr;
2404 unsigned NumBits =
T->getNumBits();
2408 for (
unsigned Bit : Bits) {
2428 if (!
getType()->typeIsConvertibleTo(Ty))
2449 return NameString->getValue();
2459 if (
const Init *Val = R.resolve(VarName))
2473 return TI->getAsString() +
"{" +
utostr(Bit) +
"}";
2477 const Init *
I = TI->resolveReferences(R);
2484DefInit::DefInit(
const Record *
D)
2489 if (
getType()->typeIsConvertibleTo(RRT))
2496 return RV->getType();
2504 ID.AddInteger(Args.size());
2505 ID.AddPointer(Class);
2507 for (
const Init *
I : Args)
2530 VarDefInit *
I =
new (Mem) VarDefInit(Loc, Class, Args);
2539const DefInit *VarDefInit::instantiate() {
2544 auto NewRecOwner = std::make_unique<Record>(
2546 Record *NewRec = NewRecOwner.get();
2549 for (
const RecordVal &Val : Class->getValues())
2562 for (
const Init *Arg : TArgs) {
2567 for (
auto *Arg :
args()) {
2568 if (Arg->isPositional())
2569 R.set(TArgs[Arg->getIndex()], Arg->getValue());
2571 R.set(Arg->getName(), Arg->getValue());
2578 Class, SMRange(Class->getLoc().back(), Class->getLoc().back()));
2582 Records.addDef(std::move(NewRecOwner));
2608 return const_cast<VarDefInit *
>(New)->instantiate();
2620 Arg->resolveReferences(R);
2622 if (!R.foundUnresolved())
2623 return const_cast<VarDefInit *
>(
this)->instantiate();
2628 std::string Result = Class->getNameInitAsString() +
"<";
2632 Result += Arg->getAsString();
2634 return Result +
">";
2660 const Record *Def = DI->getDef();
2663 Twine(
"Attempting to access field '") +
2664 FieldName->getAsUnquotedString() +
"' of '" +
2665 Rec->getAsString() +
"' is a forbidden self-reference");
2666 const Init *FieldVal = Def->getValue(FieldName)->getValue();
2675 const Init *FieldVal = DI->getDef()->getValue(FieldName)->getValue();
2684 const RecTy *ValType) {
2686 "Number of conditions and values must match!");
2687 ID.AddPointer(ValType);
2689 for (
const auto &[
Cond, Val] :
zip(Conds, Vals)) {
2711 "Number of conditions and values must match!");
2723 CondOpInit *
I =
new (Mem) CondOpInit(Conds,
Values, Ty);
2734 const Init *NewCond =
Cond->resolveReferences(R);
2755 if (CondI->getValue())
2756 return Val->convertInitializerTo(
getValType());
2764 " does not have any true condition in:" +
2765 this->getAsString());
2771 return std::get<0>(Pair)->isConcrete() && std::get<1>(Pair)->isConcrete();
2777 return std::get<0>(Pair)->isComplete() && std::get<1>(Pair)->isComplete();
2782 std::string Result =
"!cond(";
2786 Result +=
Cond->getAsString() +
": ";
2787 Result += Val->getAsString();
2789 return Result +
")";
2804 for (
auto [Arg, Name] :
zip_equal(Args, ArgNames)) {
2806 ID.AddPointer(Name);
2814 ValName(VN), NumArgs(
Args.
size()) {
2823 "Number of DAG args and arg names must match!");
2835 Args.size(), ArgNames.
size()),
2837 DagInit *
I =
new (Mem) DagInit(V, VN, Args, ArgNames);
2844 ArrayRef<std::pair<const Init *, const StringInit *>> ArgAndNames) {
2856 return DefI->getDef();
2864 return ArgName && ArgName->
getValue() == Name;
2866 if (It == ArgNames.
end())
2867 return std::nullopt;
2868 return std::distance(ArgNames.
begin(), It);
2874 bool ArgsChanged =
false;
2878 ArgsChanged |= NewArg != Arg;
2881 const Init *
Op = Val->resolveReferences(R);
2882 if (
Op != Val || ArgsChanged)
2889 if (!Val->isConcrete())
2895 std::string Result =
"(" + Val->getAsString();
2897 Result +=
":$" + ValName->getAsUnquotedString();
2903 Result += Arg->getAsString();
2905 Result +=
":$" + Name->getAsUnquotedString();
2908 return Result +
")";
2916 : Name(
N), TyAndKind(
T, K) {
2918 assert(Value &&
"Cannot create unset value for current type!");
2924 : Name(
N), Loc(Loc), TyAndKind(
T, K) {
2926 assert(Value &&
"Cannot create unset value for current type!");
2936 if (StrInit->hasCodeFormat())
2944 return TyAndKind.getPointer()->getAsString();
2965 for (
unsigned I = 0, E = BTy->getNumBits();
I < E; ++
I)
2966 Bits[
I] = Value->getBit(
I);
2980#if !defined(NDEBUG) || defined(LLVM_ENABLE_DUMP)
2991 if (PrintSem) OS <<
";\n";
2995 assert(Locs.size() == 1);
2996 ForwardDeclarationLocs.push_back(Locs.front());
2999 Locs.push_back(
Loc);
3002void Record::checkName() {
3007 "' is not a string!");
3017 if (!CorrespondingDefInit) {
3018 CorrespondingDefInit =
3019 new (TrackedRecords.getImpl().Allocator)
DefInit(
this);
3021 return CorrespondingDefInit;
3047 if (NewName != OldName) {
3054 if (SkipVal == &
Value)
3058 if (
Value.setValue(VR)) {
3062 (
Twine(
"of type '") + VRT->getType()->getAsString() +
"' ").str();
3065 Twine(
"Invalid value ") +
Type +
"found when setting field '" +
3066 Value.getNameInitAsString() +
"' of type '" +
3076 const Init *
Value = Assertion.Condition->resolveReferences(R);
3077 Assertion.Condition =
Value;
3078 Value = Assertion.Message->resolveReferences(R);
3079 Assertion.Message =
Value;
3083 const Init *
Value = Dump.Message->resolveReferences(R);
3084 Dump.Message =
Value;
3095#if !defined(NDEBUG) || defined(LLVM_ENABLE_DUMP)
3100 OS << R.getNameInitAsString();
3103 if (!TArgs.
empty()) {
3106 for (
const Init *TA : TArgs) {
3108 assert(RV &&
"Template argument record not found??");
3110 RV->
print(OS,
false);
3116 std::vector<const Record *> SCs = R.getSuperClasses();
3119 for (
const Record *SC : SCs)
3120 OS <<
" " << SC->getNameInitAsString();
3124 for (
const RecordVal &Val : R.getValues())
3125 if (Val.isNonconcreteOK() && !R.isTemplateArg(Val.getNameInit()))
3127 for (
const RecordVal &Val : R.getValues())
3128 if (!Val.isNonconcreteOK() && !R.isTemplateArg(Val.getNameInit()))
3138 "' does not have a field named `" + FieldName +
"'!\n");
3144 if (!R || !R->getValue())
3146 "' does not have a field named `" + FieldName +
"'!\n");
3147 return R->getValue();
3153 return SI->getValue();
3155 "' exists but does not have a string value");
3158std::optional<StringRef>
3161 if (!R || !R->getValue())
3162 return std::nullopt;
3164 return std::nullopt;
3167 return SI->getValue();
3170 "Record `" +
getName() +
"', ` field `" + FieldName +
3171 "' exists but does not have a string initializer!");
3179 "' exists but does not have a bits value");
3187 "' exists but does not have a list value");
3190std::vector<const Record *>
3193 std::vector<const Record *> Defs;
3194 for (
const Init *
I :
List->getElements()) {
3196 Defs.push_back(DI->getDef());
3200 "' list is not entirely DefInit!");
3208 return II->getValue();
3211 Twine(
"Record `") +
getName() +
"', field `" + FieldName +
3212 "' exists but does not have an int value: " +
I->getAsString());
3218 std::vector<int64_t> Ints;
3219 for (
const Init *
I :
List->getElements()) {
3221 Ints.push_back(
II->getValue());
3224 Twine(
"Record `") +
getName() +
"', field `" + FieldName +
3225 "' exists but does not have a list of ints value: " +
3231std::vector<StringRef>
3234 std::vector<StringRef> Strings;
3235 for (
const Init *
I :
List->getElements()) {
3237 Strings.push_back(
SI->getValue());
3240 Twine(
"Record `") +
getName() +
"', field `" + FieldName +
3241 "' exists but does not have a list of strings value: " +
3250 return DI->getDef();
3252 FieldName +
"' does not have a def initializer!");
3258 return DI->getDef();
3262 FieldName +
"' does not have either a def initializer or '?'!");
3268 return BI->getValue();
3270 FieldName +
"' does not have a bit initializer!");
3281 return BI->getValue();
3283 FieldName +
"' does not have a bit initializer!");
3291 FieldName +
"' does not have a dag initializer!");
3302 bool AnyFailed =
false;
3306 AnyFailed |=
CheckAssert(Assertion.Loc, Condition, Message);
3314 PrintError(
this,
"assertion failed in this record");
3322 const Init *Message = Dump.Message->resolveReferences(R);
3338 : Impl(
std::make_unique<
detail::RecordKeeperImpl>(*this)),
3343#if !defined(NDEBUG) || defined(LLVM_ENABLE_DUMP)
3348 OS <<
"------------- Classes -----------------\n";
3350 OS <<
"class " << *
C;
3352 OS <<
"------------- Defs -----------------\n";
3368 auto [Iter, Inserted] = Cache.try_emplace(ClassName.
str());
3371 return Iter->second;
3374std::vector<const Record *>
3377 std::vector<const Record *> Defs;
3379 assert(ClassNames.
size() > 0 &&
"At least one class must be passed.");
3380 for (
StringRef ClassName : ClassNames) {
3387 for (
const auto &OneDef :
getDefs()) {
3389 return OneDef.second->isSubClassOf(Class);
3391 Defs.push_back(OneDef.second.get());
3405 Impl->dumpAllocationStats(OS);
3409 auto It = Map.find(VarName);
3410 if (It == Map.end())
3413 const Init *
I = It->second.V;
3415 if (!It->second.Resolved && Map.size() > 1) {
3419 I =
I->resolveReferences(*
this);
3420 Map[VarName] = {
I,
true};
3427 const Init *Val = Cache.lookup(VarName);
3436 Val = RV->getValue();
3437 Stack.push_back(VarName);
3442 Stack.push_back(VarName);
3447 Cache[VarName] = Val;
3452 const Init *
I =
nullptr;
3455 I = R->resolve(VarName);
3456 if (
I && !FoundUnresolved) {
3461 I->resolveReferences(
Sub);
3462 FoundUnresolved |=
Sub.FoundUnresolved;
3467 FoundUnresolved =
true;
3472 if (VarName == VarNameToTrack)
assert(UImm &&(UImm !=~static_cast< T >(0)) &&"Invalid immediate!")
This file defines the StringMap class.
This file defines the BumpPtrAllocator interface.
static GCRegistry::Add< ErlangGC > A("erlang", "erlang-compatible garbage collector")
static GCRegistry::Add< StatepointGC > D("statepoint-example", "an example strategy for statepoint")
static GCRegistry::Add< CoreCLRGC > E("coreclr", "CoreCLR-compatible GC")
static GCRegistry::Add< OcamlGC > B("ocaml", "ocaml 3.10-compatible GC")
#define LLVM_DUMP_METHOD
Mark debug helper function definitions like dump() that should not be stripped from debug builds.
This file defines the DenseMap class.
This file defines a hash set that can be used to remove duplication of nodes in a graph.
static constexpr Value * getValue(Ty &ValueOrUse)
ConstantRange Range(APInt(BitWidth, Low), APInt(BitWidth, High))
uint64_t IntrinsicInst * II
OptimizedStructLayoutField Field
const SmallVectorImpl< MachineOperand > & Cond
static const Init * SortHelper(const Init *LHS, const Init *MHS, const Init *RHS, const RecTy *Type, const Record *CurRec)
static void ProfileBitsInit(FoldingSetNodeID &ID, ArrayRef< const Init * > Range)
static bool canFitInBitfield(int64_t Value, unsigned NumBits)
static void ProfileCondOpInit(FoldingSetNodeID &ID, ArrayRef< const Init * > Conds, ArrayRef< const Init * > Vals, const RecTy *ValType)
static void ProfileListInit(FoldingSetNodeID &ID, ArrayRef< const Init * > Elements, const RecTy *EltTy)
static std::optional< unsigned > getDagArgNoByKey(const DagInit *Dag, const Init *Key, std::string &Error)
static void ProfileBinOpInit(FoldingSetNodeID &ID, unsigned Opcode, const Init *LHS, const Init *RHS, const RecTy *Type)
static const StringInit * ConcatStringInits(const StringInit *I0, const StringInit *I1)
static void ProfileTernOpInit(FoldingSetNodeID &ID, unsigned Opcode, const Init *LHS, const Init *MHS, const Init *RHS, const RecTy *Type)
static void ProfileExistsOpInit(FoldingSetNodeID &ID, const RecTy *CheckType, const Init *Expr)
static const ListInit * ConcatListInits(const ListInit *LHS, const ListInit *RHS)
static const StringInit * interleaveStringList(const ListInit *List, const StringInit *Delim)
static void ProfileDagInit(FoldingSetNodeID &ID, const Init *V, const StringInit *VN, ArrayRef< const Init * > Args, ArrayRef< const StringInit * > ArgNames)
static void ProfileFoldOpInit(FoldingSetNodeID &ID, const Init *Start, const Init *List, const Init *A, const Init *B, const Init *Expr, const RecTy *Type)
static void ProfileInstancesOpInit(FoldingSetNodeID &ID, const RecTy *Type, const Init *Regex)
static void ProfileUnOpInit(FoldingSetNodeID &ID, unsigned Opcode, const Init *Op, const RecTy *Type)
static void ProfileArgumentInit(FoldingSetNodeID &ID, const Init *Value, ArgAuxType Aux)
static const Init * ForeachDagApply(const Init *LHS, const DagInit *MHSd, const Init *RHS, const Record *CurRec)
static const Init * FilterHelper(const Init *LHS, const Init *MHS, const Init *RHS, const RecTy *Type, const Record *CurRec)
static const Init * ItemApply(const Init *LHS, const Init *MHSe, const Init *RHS, const Record *CurRec)
static const RecordRecTy * resolveRecordTypes(const RecordRecTy *T1, const RecordRecTy *T2)
static void ProfileRecordRecTy(FoldingSetNodeID &ID, ArrayRef< const Record * > Classes)
static const Init * ForeachHelper(const Init *LHS, const Init *MHS, const Init *RHS, const RecTy *Type, const Record *CurRec)
static void ProfileVarDefInit(FoldingSetNodeID &ID, const Record *Class, ArrayRef< const ArgumentInit * > Args)
static void ProfileIsAOpInit(FoldingSetNodeID &ID, const RecTy *CheckType, const Init *Expr)
static const StringInit * interleaveIntList(const ListInit *List, const StringInit *Delim)
This file defines the SmallString class.
This file defines the SmallVector class.
FunctionLoweringInfo::StatepointRelocationRecord RecordType
static SymbolRef::Type getType(const Symbol *Sym)
static constexpr int Concat[]
static AnonymousNameInit * get(RecordKeeper &RK, unsigned)
const StringInit * getNameInit() const
const Init * resolveReferences(Resolver &R) const override
This function is used by classes that refer to other variables which may not be defined at the time t...
std::string getAsString() const override
Convert this value to a literal form.
const ArgumentInit * cloneWithValue(const Init *Value) const
void Profile(FoldingSetNodeID &ID) const
static const ArgumentInit * get(const Init *Value, ArgAuxType Aux)
ArgumentInit(const Init *Value, ArgAuxType Aux)
const Init * resolveReferences(Resolver &R) const override
This function is used by classes that refer to other variables which may not be defined at the time t...
Represent a constant reference to an array (0 or more elements consecutively in memory),...
size_t size() const
Get the array size.
bool empty() const
Check if the array is empty.
static const BinOpInit * get(BinaryOp opc, const Init *lhs, const Init *rhs, const RecTy *Type)
void Profile(FoldingSetNodeID &ID) const
const Init * resolveReferences(Resolver &R) const override
This function is used by classes that refer to other variables which may not be defined at the time t...
static const Init * getStrConcat(const Init *lhs, const Init *rhs)
std::string getAsString() const override
Convert this value to a literal form.
BinaryOp getOpcode() const
const Init * getRHS() const
std::optional< bool > CompareInit(unsigned Opc, const Init *LHS, const Init *RHS) const
const Init * getLHS() const
static const Init * getListConcat(const TypedInit *lhs, const Init *rhs)
const Init * Fold(const Record *CurRec) const
'true'/'false' - Represent a concrete initializer for a bit.
static BitInit * get(RecordKeeper &RK, bool V)
const Init * convertInitializerTo(const RecTy *Ty) const override
Convert to a value whose type is Ty, or return null if this is not possible.
'bit' - Represent a single bit
static const BitRecTy * get(RecordKeeper &RK)
bool typeIsConvertibleTo(const RecTy *RHS) const override
Return true if all values of 'this' type can be converted to the specified type.
'{ a, b, c }' - Represents an initializer for a BitsRecTy value.
void Profile(FoldingSetNodeID &ID) const
std::string getAsString() const override
Convert this value to a literal form.
bool isComplete() const override
Is this a complete value with no unset (uninitialized) subvalues?
unsigned getNumBits() const
std::optional< int64_t > convertInitializerToInt() const
const Init * getBit(unsigned Bit) const override
Get the Init value of the specified bit.
const Init * convertInitializerBitRange(ArrayRef< unsigned > Bits) const override
This function is used to implement the bit range selection operator.
const Init * resolveReferences(Resolver &R) const override
This function is used by classes that refer to other variables which may not be defined at the time t...
const Init * convertInitializerTo(const RecTy *Ty) const override
Convert to a value whose type is Ty, or return null if this is not possible.
ArrayRef< const Init * > getBits() const
uint64_t convertKnownBitsToInt() const
bool allInComplete() const
static BitsInit * get(RecordKeeper &RK, ArrayRef< const Init * > Range)
bool isConcrete() const override
Is this a concrete and fully resolved value without any references or stuck operations?
'bits<n>' - Represent a fixed number of bits
bool typeIsConvertibleTo(const RecTy *RHS) const override
Return true if all values of 'this' type can be converted to the specified type.
static const BitsRecTy * get(RecordKeeper &RK, unsigned Sz)
std::string getAsString() const override
const Init * Fold(const Record *CurRec) const
auto getCondAndVals() const
ArrayRef< const Init * > getVals() const
const Init * resolveReferences(Resolver &R) const override
This function is used by classes that refer to other variables which may not be defined at the time t...
const Init * getBit(unsigned Bit) const override
Get the Init value of the specified bit.
bool isConcrete() const override
Is this a concrete and fully resolved value without any references or stuck operations?
void Profile(FoldingSetNodeID &ID) const
std::string getAsString() const override
Convert this value to a literal form.
static const CondOpInit * get(ArrayRef< const Init * > Conds, ArrayRef< const Init * > Values, const RecTy *Type)
const RecTy * getValType() const
bool isComplete() const override
Is this a complete value with no unset (uninitialized) subvalues?
ArrayRef< const Init * > getConds() const
(v a, b) - Represent a DAG tree value.
bool isConcrete() const override
Is this a concrete and fully resolved value without any references or stuck operations?
std::optional< unsigned > getArgNo(StringRef Name) const
This method looks up the specified argument name and returns its argument number or std::nullopt if t...
const StringInit * getName() const
void Profile(FoldingSetNodeID &ID) const
const Init * getOperator() const
const Init * resolveReferences(Resolver &R) const override
This function is used by classes that refer to other variables which may not be defined at the time t...
ArrayRef< const StringInit * > getArgNames() const
static const DagInit * get(const Init *V, const StringInit *VN, ArrayRef< const Init * > Args, ArrayRef< const StringInit * > ArgNames)
const Record * getOperatorAsDef(ArrayRef< SMLoc > Loc) const
auto getArgAndNames() const
ArrayRef< const Init * > getArgs() const
std::string getAsString() const override
Convert this value to a literal form.
'dag' - Represent a dag fragment
std::string getAsString() const override
static const DagRecTy * get(RecordKeeper &RK)
AL - Represent a reference to a 'def' in the description.
std::string getAsString() const override
Convert this value to a literal form.
const RecTy * getFieldType(const StringInit *FieldName) const override
This function is used to implement the FieldInit class.
const Init * convertInitializerTo(const RecTy *Ty) const override
Convert to a value whose type is Ty, or return null if this is not possible.
Lightweight error class with error context and mandatory checking.
void Profile(FoldingSetNodeID &ID) const
static const ExistsOpInit * get(const RecTy *CheckType, const Init *Expr)
std::string getAsString() const override
Convert this value to a literal form.
const Init * resolveReferences(Resolver &R) const override
This function is used by classes that refer to other variables which may not be defined at the time t...
const Init * Fold(const Record *CurRec, bool IsFinal=false) const
const Init * getBit(unsigned Bit) const override
Get the Init value of the specified bit.
X.Y - Represent a reference to a subfield of a variable.
const Init * Fold(const Record *CurRec) const
const Init * getBit(unsigned Bit) const override
Get the Init value of the specified bit.
static const FieldInit * get(const Init *R, const StringInit *FN)
const Init * resolveReferences(Resolver &R) const override
This function is used by classes that refer to other variables which may not be defined at the time t...
bool isConcrete() const override
Is this a concrete and fully resolved value without any references or stuck operations?
const Init * Fold(const Record *CurRec) const
std::string getAsString() const override
Convert this value to a literal form.
static const FoldOpInit * get(const Init *Start, const Init *List, const Init *A, const Init *B, const Init *Expr, const RecTy *Type)
const Init * getBit(unsigned Bit) const override
Get the Init value of the specified bit.
const Init * resolveReferences(Resolver &R) const override
This function is used by classes that refer to other variables which may not be defined at the time t...
void Profile(FoldingSetNodeID &ID) const
void InsertNode(T *N, void *InsertPos)
Insert the specified node into the folding set, knowing that it is not already in the folding set.
T * FindNodeOrInsertPos(const FoldingSetNodeID &ID, void *&InsertPos)
Look up the node specified by ID.
This class is used to gather all the unique data bits of a node.
This template class is used to instantiate a specialized implementation of the folding set to the nod...
const Init * resolve(const Init *VarName) override
Return the initializer for the given variable name (should normally be a StringInit),...
virtual const Init * resolveReferences(Resolver &R) const
This function is used by classes that refer to other variables which may not be defined at the time t...
virtual std::string getAsUnquotedString() const
Convert this value to a literal form, without adding quotes around a string.
void dump() const
Debugging method that may be called through a debugger; just invokes print on stderr.
void print(raw_ostream &OS) const
Print this value.
virtual std::string getAsString() const =0
Convert this value to a literal form.
virtual bool isConcrete() const
Is this a concrete and fully resolved value without any references or stuck operations?
virtual bool isComplete() const
Is this a complete value with no unset (uninitialized) subvalues?
virtual const Init * getBit(unsigned Bit) const =0
Get the Init value of the specified bit.
virtual const Init * convertInitializerTo(const RecTy *Ty) const =0
Convert to a value whose type is Ty, or return null if this is not possible.
virtual const Init * getCastTo(const RecTy *Ty) const =0
If this value is convertible to type Ty, return a value whose type is Ty, generating a !...
RecordKeeper & getRecordKeeper() const
Get the record keeper that initialized this Init.
Init(InitKind K, uint8_t Opc=0)
void Profile(FoldingSetNodeID &ID) const
const Init * Fold(const Record *CurRec, bool IsFinal=false) const
const Init * resolveReferences(Resolver &R) const override
This function is used by classes that refer to other variables which may not be defined at the time t...
std::string getAsString() const override
Convert this value to a literal form.
static const InstancesOpInit * get(const RecTy *Type, const Init *Regex)
static IntInit * get(RecordKeeper &RK, int64_t V)
const Init * convertInitializerBitRange(ArrayRef< unsigned > Bits) const override
This function is used to implement the bit range selection operator.
std::string getAsString() const override
Convert this value to a literal form.
const Init * convertInitializerTo(const RecTy *Ty) const override
Convert to a value whose type is Ty, or return null if this is not possible.
'int' - Represent an integer value of no particular size
static const IntRecTy * get(RecordKeeper &RK)
bool typeIsConvertibleTo(const RecTy *RHS) const override
Return true if all values of 'this' type can be converted to the specified type.
static const IsAOpInit * get(const RecTy *CheckType, const Init *Expr)
void Profile(FoldingSetNodeID &ID) const
const Init * resolveReferences(Resolver &R) const override
This function is used by classes that refer to other variables which may not be defined at the time t...
std::string getAsString() const override
Convert this value to a literal form.
const Init * getBit(unsigned Bit) const override
Get the Init value of the specified bit.
const Init * Fold() const
[AL, AH, CL] - Represent a list of defs
std::string getAsString() const override
Convert this value to a literal form.
const RecTy * getElementType() const
static const ListInit * get(ArrayRef< const Init * > Range, const RecTy *EltTy)
bool isConcrete() const override
Is this a concrete and fully resolved value without any references or stuck operations?
bool isComplete() const override
Is this a complete value with no unset (uninitialized) subvalues?
const Init * resolveReferences(Resolver &R) const override
This method is used by classes that refer to other variables which may not be defined at the time the...
const Init * convertInitializerTo(const RecTy *Ty) const override
Convert to a value whose type is Ty, or return null if this is not possible.
void Profile(FoldingSetNodeID &ID) const
const Record * getElementAsRecord(unsigned Idx) const
ArrayRef< const Init * > getElements() const
const Init * getElement(unsigned Idx) const
'list<Ty>' - Represent a list of element values, all of which must be of the specified type.
const RecTy * getElementType() const
bool typeIsA(const RecTy *RHS) const override
Return true if 'this' type is equal to or a subtype of RHS.
std::string getAsString() const override
bool typeIsConvertibleTo(const RecTy *RHS) const override
Return true if all values of 'this' type can be converted to the specified type.
A helper class to return the specified delimiter string after the first invocation of operator String...
Resolve arbitrary mappings.
const Init * resolve(const Init *VarName) override
Return the initializer for the given variable name (should normally be a StringInit),...
const Init * getBit(unsigned Bit) const final
Get the Init value of the specified bit.
RecordKeeper & getRecordKeeper() const
Return the RecordKeeper that uniqued this Type.
virtual bool typeIsA(const RecTy *RHS) const
Return true if 'this' type is equal to or a subtype of RHS.
virtual bool typeIsConvertibleTo(const RecTy *RHS) const
Return true if all values of 'this' type can be converted to the specified type.
RecTyKind
Subclass discriminator (for dyn_cast<> et al.)
RecTy(RecTyKind K, RecordKeeper &RK)
virtual std::string getAsString() const =0
const ListRecTy * getListTy() const
Returns the type representing list<thistype>.
const Record * getClass(StringRef Name) const
Get the class with the specified name.
const RecordMap & getClasses() const
Get the map of classes.
const Init * getNewAnonymousName()
GetNewAnonymousName - Generate a unique anonymous name that can be used as an identifier.
const RecordMap & getDefs() const
Get the map of records (defs).
detail::RecordKeeperImpl & getImpl()
Return the internal implementation of the RecordKeeper.
void dumpAllocationStats(raw_ostream &OS) const
ArrayRef< const Record * > getAllDerivedDefinitionsIfDefined(StringRef ClassName) const
Get all the concrete records that inherit from specified class, if the class is defined.
const Record * getDef(StringRef Name) const
Get the concrete record with the specified name.
ArrayRef< const Record * > getAllDerivedDefinitions(StringRef ClassName) const
Get all the concrete records that inherit from the one specified class.
'[classname]' - Type of record values that have zero or more superclasses.
bool typeIsConvertibleTo(const RecTy *RHS) const override
Return true if all values of 'this' type can be converted to the specified type.
bool isSubClassOf(const Record *Class) const
ArrayRef< const Record * > getClasses() const
void Profile(FoldingSetNodeID &ID) const
std::string getAsString() const override
bool typeIsA(const RecTy *RHS) const override
Return true if 'this' type is equal to or a subtype of RHS.
static const RecordRecTy * get(RecordKeeper &RK, ArrayRef< const Record * > Classes)
Get the record type with the given non-redundant list of superclasses.
Resolve all variables from a record except for unset variables.
const Init * resolve(const Init *VarName) override
Return the initializer for the given variable name (should normally be a StringInit),...
This class represents a field in a record, including its name, type, value, and source location.
std::string getNameInitAsString() const
Get the name of the field as a std::string.
bool isNonconcreteOK() const
Is this a field where nonconcrete values are okay?
bool setValue(const Init *V)
Set the value of the field from an Init.
SMLoc getLoc() const
Get the source location of the point where the field was defined.
const Init * getValue() const
Get the value of the field as an Init.
StringRef getName() const
Get the name of the field as a StringRef.
void print(raw_ostream &OS, bool PrintSem=true) const
Print the value to an output stream, possibly with a semicolon.
RecordVal(const Init *N, const RecTy *T, FieldKind K)
const Init * getNameInit() const
Get the name of the field as an Init.
std::string getPrintType() const
Get the type of the field for printing purposes.
const RecTy * getType() const
Get the type of the field value as a RecTy.
std::vector< int64_t > getValueAsListOfInts(StringRef FieldName) const
This method looks up the specified field and returns its value as a vector of integers,...
const RecordRecTy * getType() const
const Init * getValueInit(StringRef FieldName) const
Return the initializer for a value with the specified name, or throw an exception if the field does n...
bool getValueAsBitOrUnset(StringRef FieldName, bool &Unset) const
This method looks up the specified field and returns its value as a bit.
bool getValueAsBit(StringRef FieldName) const
This method looks up the specified field and returns its value as a bit, throwing an exception if the...
static unsigned getNewUID(RecordKeeper &RK)
ArrayRef< SMLoc > getLoc() const
void checkUnusedTemplateArgs()
ArrayRef< DumpInfo > getDumps() const
std::vector< const Record * > getValueAsListOfDefs(StringRef FieldName) const
This method looks up the specified field and returns its value as a vector of records,...
ArrayRef< AssertionInfo > getAssertions() const
std::string getNameInitAsString() const
const Record * getValueAsDef(StringRef FieldName) const
This method looks up the specified field and returns its value as a Record, throwing an exception if ...
const DagInit * getValueAsDag(StringRef FieldName) const
This method looks up the specified field and returns its value as an Dag, throwing an exception if th...
std::vector< StringRef > getValueAsListOfStrings(StringRef FieldName) const
This method looks up the specified field and returns its value as a vector of strings,...
const RecordVal * getValue(const Init *Name) const
void addValue(const RecordVal &RV)
const Record * getValueAsOptionalDef(StringRef FieldName) const
This method looks up the specified field and returns its value as a Record, returning null if the fie...
ArrayRef< std::pair< const Record *, SMRange > > getDirectSuperClasses() const
Return the direct superclasses of this record.
StringRef getName() const
Record(const Init *N, ArrayRef< SMLoc > locs, RecordKeeper &records, RecordKind Kind=RK_Def)
void setName(const Init *Name)
const ListInit * getValueAsListInit(StringRef FieldName) const
This method looks up the specified field and returns its value as a ListInit, throwing an exception i...
void appendDumps(const Record *Rec)
bool isSubClassOf(const Record *R) const
DefInit * getDefInit() const
get the corresponding DefInit.
SMLoc getFieldLoc(StringRef FieldName) const
Return the source location for the named field.
void resolveReferences(const Init *NewName=nullptr)
If there are any field references that refer to fields that have been filled in, we can propagate the...
std::optional< StringRef > getValueAsOptionalString(StringRef FieldName) const
This method looks up the specified field and returns its value as a string, throwing an exception if ...
void removeValue(const Init *Name)
ArrayRef< const Init * > getTemplateArgs() const
void updateClassLoc(SMLoc Loc)
const BitsInit * getValueAsBitsInit(StringRef FieldName) const
This method looks up the specified field and returns its value as a BitsInit, throwing an exception i...
void addDirectSuperClass(const Record *R, SMRange Range)
void appendAssertions(const Record *Rec)
const Init * getNameInit() const
int64_t getValueAsInt(StringRef FieldName) const
This method looks up the specified field and returns its value as an int64_t, throwing an exception i...
void checkRecordAssertions()
StringRef getValueAsString(StringRef FieldName) const
This method looks up the specified field and returns its value as a string, throwing an exception if ...
Interface for looking up the initializer for a variable name, used by Init::resolveReferences.
const Record * getCurrentRecord() const
Represents a location in source code.
Delegate resolving to a sub-resolver, but shadow some variable names.
void addShadow(const Init *Key)
SmallString - A SmallString is just a SmallVector with methods and accessors that make it work better...
reference emplace_back(ArgTypes &&... Args)
void reserve(size_type N)
void push_back(const T &Elt)
This is a 'vector' (really, a variable-sized array), optimized for the case when the array is small.
"foo" - Represent an initialization by a string value.
static const StringInit * get(RecordKeeper &RK, StringRef, StringFormat Fmt=SF_String)
StringFormat getFormat() const
StringRef getValue() const
static StringFormat determineFormat(StringFormat Fmt1, StringFormat Fmt2)
const Init * convertInitializerTo(const RecTy *Ty) const override
Convert to a value whose type is Ty, or return null if this is not possible.
StringMap - This is an unconventional map that is specialized for handling keys that are "strings",...
std::pair< iterator, bool > try_emplace(StringRef Key, ArgsTy &&...Args)
Emplace a new element for the specified key into the map if the key isn't already in the map.
'string' - Represent an string value
std::string getAsString() const override
static const StringRecTy * get(RecordKeeper &RK)
bool typeIsConvertibleTo(const RecTy *RHS) const override
Return true if all values of 'this' type can be converted to the specified type.
Represent a constant reference to a string, i.e.
std::string str() const
Get the contents as an std::string.
const Init * Fold(const Record *CurRec) const
const Init * getLHS() const
void Profile(FoldingSetNodeID &ID) const
const Init * getMHS() const
const Init * getRHS() const
static const TernOpInit * get(TernaryOp opc, const Init *lhs, const Init *mhs, const Init *rhs, const RecTy *Type)
std::string getAsString() const override
Convert this value to a literal form.
const Init * resolveReferences(Resolver &R) const override
This function is used by classes that refer to other variables which may not be defined at the time t...
TernaryOp getOpcode() const
(Optionally) delegate resolving to a sub-resolver, and keep track whether there were unresolved refer...
const Init * resolve(const Init *VarName) override
Return the initializer for the given variable name (should normally be a StringInit),...
bool foundUnresolved() const
TrackUnresolvedResolver(Resolver *R=nullptr)
See the file comment for details on the usage of the TrailingObjects type.
static constexpr std::enable_if_t< std::is_same_v< Foo< TrailingTys... >, Foo< Tys... > >, size_t > totalSizeToAlloc(typename trailing_objects_internal::ExtractSecondType< TrailingTys, size_t >::type... Counts)
Twine - A lightweight data structure for efficiently representing the concatenation of temporary valu...
The instances of the Type class are immutable: once they are created, they are never changed.
This is the common superclass of types that have a specific, explicit type, stored in ValueTy.
const RecTy * getFieldType(const StringInit *FieldName) const override
This method is used to implement the FieldInit class.
TypedInit(InitKind K, const RecTy *T, uint8_t Opc=0)
const Init * convertInitializerBitRange(ArrayRef< unsigned > Bits) const override
This function is used to implement the bit range selection operator.
RecordKeeper & getRecordKeeper() const
Get the record keeper that initialized this Init.
const Init * getCastTo(const RecTy *Ty) const override
If this value is convertible to type Ty, return a value whose type is Ty, generating a !...
const Init * convertInitializerTo(const RecTy *Ty) const override
Convert to a value whose type is Ty, or return null if this is not possible.
const RecTy * getType() const
Get the type of the Init as a RecTy.
const Init * getOperand() const
UnaryOp getOpcode() const
static const UnOpInit * get(UnaryOp opc, const Init *lhs, const RecTy *Type)
void Profile(FoldingSetNodeID &ID) const
const Init * resolveReferences(Resolver &R) const override
This function is used by classes that refer to other variables which may not be defined at the time t...
std::string getAsString() const override
Convert this value to a literal form.
const Init * Fold(const Record *CurRec, bool IsFinal=false) const
'?' - Represents an uninitialized value.
const Init * getCastTo(const RecTy *Ty) const override
If this value is convertible to type Ty, return a value whose type is Ty, generating a !...
const Init * convertInitializerTo(const RecTy *Ty) const override
Convert to a value whose type is Ty, or return null if this is not possible.
static UnsetInit * get(RecordKeeper &RK)
Get the singleton unset Init.
LLVM Value Representation.
Type * getType() const
All values are typed, get the type of this value.
Opcode{0} - Represent access to one bit of a variable or field.
static const VarBitInit * get(const TypedInit *T, unsigned B)
unsigned getBitNum() const
std::string getAsString() const override
Convert this value to a literal form.
const Init * resolveReferences(Resolver &R) const override
This function is used by classes that refer to other variables which may not be defined at the time t...
ArrayRef< const ArgumentInit * > args() const
static const VarDefInit * get(SMLoc Loc, const Record *Class, ArrayRef< const ArgumentInit * > Args)
const Init * resolveReferences(Resolver &R) const override
This function is used by classes that refer to other variables which may not be defined at the time t...
const Init * Fold() const
void Profile(FoldingSetNodeID &ID) const
std::string getAsString() const override
Convert this value to a literal form.
'Opcode' - Represent a reference to an entire variable object.
static const VarInit * get(StringRef VN, const RecTy *T)
const Init * getBit(unsigned Bit) const override
Get the Init value of the specified bit.
StringRef getName() const
const Init * getNameInit() const
const Init * resolveReferences(Resolver &R) const override
This method is used by classes that refer to other variables which may not be defined at the time the...
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.
constexpr char Args[]
Key for Kernel::Metadata::mArgs.
unsigned ID
LLVM IR allows to use arbitrary numbers as calling convention identifiers.
@ C
The default llvm calling convention, compatible with C.
llvm::SmallVector< std::shared_ptr< RecordsSlice >, 4 > Records
This is an optimization pass for GlobalISel generic memory operations.
detail::zippy< detail::zip_shortest, T, U, Args... > zip(T &&t, U &&u, Args &&...args)
zip iterator for two or more iteratable types.
void stable_sort(R &&Range)
bool all_of(R &&range, UnaryPredicate P)
Provide wrappers to std::all_of which take ranges instead of having to pass begin/end explicitly.
Printable print(const GCNRegPressure &RP, const GCNSubtarget *ST=nullptr, unsigned DynamicVGPRBlockSize=0)
auto size(R &&Range, std::enable_if_t< std::is_base_of< std::random_access_iterator_tag, typename std::iterator_traits< decltype(Range.begin())>::iterator_category >::value, void > *=nullptr)
Get the size of a range.
detail::zippy< detail::zip_first, T, U, Args... > zip_equal(T &&t, U &&u, Args &&...args)
zip iterator that assumes that all iteratees have the same length.
RelativeUniformCounterPtr Values
auto enumerate(FirstRange &&First, RestRanges &&...Rest)
Given two or more input ranges, returns a new range whose values are tuples (A, B,...
decltype(auto) dyn_cast(const From &Val)
dyn_cast<X> - Return the argument parameter cast to the specified type.
LLVM_ABI void PrintFatalError(const Twine &Msg)
LLVM_ABI void PrintError(const Twine &Msg)
void append_range(Container &C, Range &&R)
Wrapper function to append range R to container C.
std::string utostr(uint64_t X, bool isNeg=false)
auto uninitialized_copy(R &&Src, IterTy Dst)
unsigned Log2_64(uint64_t Value)
Return the floor log base 2 of the specified value, -1 if the value is zero.
LLVM_ABI bool CheckAssert(SMLoc Loc, const Init *Condition, const Init *Message)
auto dyn_cast_or_null(const Y &Val)
bool any_of(R &&range, UnaryPredicate P)
Provide wrappers to std::any_of which take ranges instead of having to pass begin/end explicitly.
LLVM_ABI void PrintWarning(const Twine &Msg)
auto reverse(ContainerTy &&C)
decltype(auto) get(const PointerIntPair< PointerTy, IntBits, IntType, PtrTraits, Info > &Pair)
void sort(IteratorTy Start, IteratorTy End)
auto make_first_range(ContainerTy &&c)
Given a container of pairs, return a range over the first elements.
bool isa(const From &Val)
isa<X> - Return true if the parameter to the template is an instance of one of the template type argu...
LLVM_ATTRIBUTE_VISIBILITY_DEFAULT AnalysisKey InnerAnalysisManagerProxy< AnalysisManagerT, IRUnitT, ExtraArgTs... >::Key
LLVM_ABI raw_fd_ostream & errs()
This returns a reference to a raw_ostream for standard error.
@ Sub
Subtraction of integers.
RelativeUniformCounterPtr ValuesPtrExpr VTableAddr Count
DWARFExpression::Operation Op
raw_ostream & operator<<(raw_ostream &OS, const APFixedPoint &FX)
ArrayRef(const T &OneElt) -> ArrayRef< T >
auto make_second_range(ContainerTy &&c)
Given a container of pairs, return a range over the second elements.
LLVM_ABI void dumpMessage(SMLoc Loc, const Init *Message)
decltype(auto) cast(const From &Val)
cast<X> - Return the argument parameter cast to the specified type.
auto find_if(R &&Range, UnaryPredicate P)
Provide wrappers to std::find_if which take ranges instead of having to pass begin/end explicitly.
bool is_contained(R &&Range, const E &Element)
Returns true if Element is found in Range.
const RecTy * resolveTypes(const RecTy *T1, const RecTy *T2)
Find a common type that T1 and T2 convert to.
BumpPtrAllocatorImpl<> BumpPtrAllocator
The standard BumpPtrAllocator which just uses the default template parameters.
std::variant< unsigned, const Init * > ArgAuxType
std::string itostr(int64_t X)
Implement std::hash so that hash_code can be used in STL containers.
This class represents the internal implementation of the RecordKeeper.
StringMap< const StringInit *, BumpPtrAllocator & > StringInitCodePool
StringRecTy SharedStringRecTy
FoldingSet< ListInit > TheListInitPool
FoldingSet< BitsInit > TheBitsInitPool
BumpPtrAllocator Allocator
std::map< int64_t, IntInit * > TheIntInitPool
FoldingSet< ArgumentInit > TheArgumentInitPool
FoldingSet< UnOpInit > TheUnOpInitPool
DenseMap< std::pair< const Init *, const StringInit * >, FieldInit * > TheFieldInitPool
std::vector< BitsRecTy * > SharedBitsRecTys
FoldingSet< RecordRecTy > RecordTypePool
FoldingSet< VarDefInit > TheVarDefInitPool
RecordKeeperImpl(RecordKeeper &RK)
StringMap< const StringInit *, BumpPtrAllocator & > StringInitStringPool
FoldingSet< TernOpInit > TheTernOpInitPool
FoldingSet< InstancesOpInit > TheInstancesOpInitPool
void dumpAllocationStats(raw_ostream &OS) const
FoldingSet< ExistsOpInit > TheExistsOpInitPool
DenseMap< std::pair< const RecTy *, const Init * >, VarInit * > TheVarInitPool
FoldingSet< IsAOpInit > TheIsAOpInitPool
FoldingSet< DagInit > TheDagInitPool
DenseMap< std::pair< const TypedInit *, unsigned >, VarBitInit * > TheVarBitInitPool
FoldingSet< CondOpInit > TheCondOpInitPool
FoldingSet< BinOpInit > TheBinOpInitPool
FoldingSet< FoldOpInit > TheFoldOpInitPool
Sorting predicate to sort record pointers by name.