| //===- ClangAttrEmitter.cpp - Generate Clang attribute handling =-*- C++ -*--=// |
| // |
| // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions. |
| // See https://llvm.org/LICENSE.txt for license information. |
| // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception |
| // |
| //===----------------------------------------------------------------------===// |
| // |
| // These tablegen backends emit Clang attribute processing code |
| // |
| //===----------------------------------------------------------------------===// |
| |
| #include "TableGenBackends.h" |
| |
| #include "llvm/ADT/ArrayRef.h" |
| #include "llvm/ADT/DenseMap.h" |
| #include "llvm/ADT/DenseSet.h" |
| #include "llvm/ADT/STLExtras.h" |
| #include "llvm/ADT/SmallString.h" |
| #include "llvm/ADT/StringExtras.h" |
| #include "llvm/ADT/StringRef.h" |
| #include "llvm/ADT/StringSet.h" |
| #include "llvm/ADT/StringSwitch.h" |
| #include "llvm/ADT/iterator_range.h" |
| #include "llvm/Support/ErrorHandling.h" |
| #include "llvm/Support/raw_ostream.h" |
| #include "llvm/TableGen/Error.h" |
| #include "llvm/TableGen/Record.h" |
| #include "llvm/TableGen/StringMatcher.h" |
| #include "llvm/TableGen/TableGenBackend.h" |
| #include <algorithm> |
| #include <cassert> |
| #include <cctype> |
| #include <cstddef> |
| #include <cstdint> |
| #include <map> |
| #include <memory> |
| #include <set> |
| #include <sstream> |
| #include <string> |
| #include <utility> |
| #include <vector> |
| |
| using namespace llvm; |
| |
| namespace { |
| |
| class FlattenedSpelling { |
| std::string V, N, NS; |
| bool K; |
| |
| public: |
| FlattenedSpelling(const std::string &Variety, const std::string &Name, |
| const std::string &Namespace, bool KnownToGCC) : |
| V(Variety), N(Name), NS(Namespace), K(KnownToGCC) {} |
| explicit FlattenedSpelling(const Record &Spelling) : |
| V(Spelling.getValueAsString("Variety")), |
| N(Spelling.getValueAsString("Name")) { |
| |
| assert(V != "GCC" && V != "Clang" && |
| "Given a GCC spelling, which means this hasn't been flattened!"); |
| if (V == "CXX11" || V == "C2x" || V == "Pragma") |
| NS = Spelling.getValueAsString("Namespace"); |
| bool Unset; |
| K = Spelling.getValueAsBitOrUnset("KnownToGCC", Unset); |
| } |
| |
| const std::string &variety() const { return V; } |
| const std::string &name() const { return N; } |
| const std::string &nameSpace() const { return NS; } |
| bool knownToGCC() const { return K; } |
| }; |
| |
| } // end anonymous namespace |
| |
| static std::vector<FlattenedSpelling> |
| GetFlattenedSpellings(const Record &Attr) { |
| std::vector<Record *> Spellings = Attr.getValueAsListOfDefs("Spellings"); |
| std::vector<FlattenedSpelling> Ret; |
| |
| for (const auto &Spelling : Spellings) { |
| StringRef Variety = Spelling->getValueAsString("Variety"); |
| StringRef Name = Spelling->getValueAsString("Name"); |
| if (Variety == "GCC") { |
| // Gin up two new spelling objects to add into the list. |
| Ret.emplace_back("GNU", Name, "", true); |
| Ret.emplace_back("CXX11", Name, "gnu", true); |
| } else if (Variety == "Clang") { |
| Ret.emplace_back("GNU", Name, "", false); |
| Ret.emplace_back("CXX11", Name, "clang", false); |
| if (Spelling->getValueAsBit("AllowInC")) |
| Ret.emplace_back("C2x", Name, "clang", false); |
| } else |
| Ret.push_back(FlattenedSpelling(*Spelling)); |
| } |
| |
| return Ret; |
| } |
| |
| static std::string ReadPCHRecord(StringRef type) { |
| return StringSwitch<std::string>(type) |
| .EndsWith("Decl *", "Record.GetLocalDeclAs<" |
| + std::string(type, 0, type.size()-1) + ">(Record.readInt())") |
| .Case("TypeSourceInfo *", "Record.getTypeSourceInfo()") |
| .Case("Expr *", "Record.readExpr()") |
| .Case("IdentifierInfo *", "Record.getIdentifierInfo()") |
| .Case("StringRef", "Record.readString()") |
| .Case("ParamIdx", "ParamIdx::deserialize(Record.readInt())") |
| .Default("Record.readInt()"); |
| } |
| |
| // Get a type that is suitable for storing an object of the specified type. |
| static StringRef getStorageType(StringRef type) { |
| return StringSwitch<StringRef>(type) |
| .Case("StringRef", "std::string") |
| .Default(type); |
| } |
| |
| // Assumes that the way to get the value is SA->getname() |
| static std::string WritePCHRecord(StringRef type, StringRef name) { |
| return "Record." + StringSwitch<std::string>(type) |
| .EndsWith("Decl *", "AddDeclRef(" + std::string(name) + ");\n") |
| .Case("TypeSourceInfo *", "AddTypeSourceInfo(" + std::string(name) + ");\n") |
| .Case("Expr *", "AddStmt(" + std::string(name) + ");\n") |
| .Case("IdentifierInfo *", "AddIdentifierRef(" + std::string(name) + ");\n") |
| .Case("StringRef", "AddString(" + std::string(name) + ");\n") |
| .Case("ParamIdx", "push_back(" + std::string(name) + ".serialize());\n") |
| .Default("push_back(" + std::string(name) + ");\n"); |
| } |
| |
| // Normalize attribute name by removing leading and trailing |
| // underscores. For example, __foo, foo__, __foo__ would |
| // become foo. |
| static StringRef NormalizeAttrName(StringRef AttrName) { |
| AttrName.consume_front("__"); |
| AttrName.consume_back("__"); |
| return AttrName; |
| } |
| |
| // Normalize the name by removing any and all leading and trailing underscores. |
| // This is different from NormalizeAttrName in that it also handles names like |
| // _pascal and __pascal. |
| static StringRef NormalizeNameForSpellingComparison(StringRef Name) { |
| return Name.trim("_"); |
| } |
| |
| // Normalize the spelling of a GNU attribute (i.e. "x" in "__attribute__((x))"), |
| // removing "__" if it appears at the beginning and end of the attribute's name. |
| static StringRef NormalizeGNUAttrSpelling(StringRef AttrSpelling) { |
| if (AttrSpelling.startswith("__") && AttrSpelling.endswith("__")) { |
| AttrSpelling = AttrSpelling.substr(2, AttrSpelling.size() - 4); |
| } |
| |
| return AttrSpelling; |
| } |
| |
| typedef std::vector<std::pair<std::string, const Record *>> ParsedAttrMap; |
| |
| static ParsedAttrMap getParsedAttrList(const RecordKeeper &Records, |
| ParsedAttrMap *Dupes = nullptr) { |
| std::vector<Record *> Attrs = Records.getAllDerivedDefinitions("Attr"); |
| std::set<std::string> Seen; |
| ParsedAttrMap R; |
| for (const auto *Attr : Attrs) { |
| if (Attr->getValueAsBit("SemaHandler")) { |
| std::string AN; |
| if (Attr->isSubClassOf("TargetSpecificAttr") && |
| !Attr->isValueUnset("ParseKind")) { |
| AN = Attr->getValueAsString("ParseKind"); |
| |
| // If this attribute has already been handled, it does not need to be |
| // handled again. |
| if (Seen.find(AN) != Seen.end()) { |
| if (Dupes) |
| Dupes->push_back(std::make_pair(AN, Attr)); |
| continue; |
| } |
| Seen.insert(AN); |
| } else |
| AN = NormalizeAttrName(Attr->getName()).str(); |
| |
| R.push_back(std::make_pair(AN, Attr)); |
| } |
| } |
| return R; |
| } |
| |
| namespace { |
| |
| class Argument { |
| std::string lowerName, upperName; |
| StringRef attrName; |
| bool isOpt; |
| bool Fake; |
| |
| public: |
| Argument(const Record &Arg, StringRef Attr) |
| : lowerName(Arg.getValueAsString("Name")), upperName(lowerName), |
| attrName(Attr), isOpt(false), Fake(false) { |
| if (!lowerName.empty()) { |
| lowerName[0] = std::tolower(lowerName[0]); |
| upperName[0] = std::toupper(upperName[0]); |
| } |
| // Work around MinGW's macro definition of 'interface' to 'struct'. We |
| // have an attribute argument called 'Interface', so only the lower case |
| // name conflicts with the macro definition. |
| if (lowerName == "interface") |
| lowerName = "interface_"; |
| } |
| virtual ~Argument() = default; |
| |
| StringRef getLowerName() const { return lowerName; } |
| StringRef getUpperName() const { return upperName; } |
| StringRef getAttrName() const { return attrName; } |
| |
| bool isOptional() const { return isOpt; } |
| void setOptional(bool set) { isOpt = set; } |
| |
| bool isFake() const { return Fake; } |
| void setFake(bool fake) { Fake = fake; } |
| |
| // These functions print the argument contents formatted in different ways. |
| virtual void writeAccessors(raw_ostream &OS) const = 0; |
| virtual void writeAccessorDefinitions(raw_ostream &OS) const {} |
| virtual void writeASTVisitorTraversal(raw_ostream &OS) const {} |
| virtual void writeCloneArgs(raw_ostream &OS) const = 0; |
| virtual void writeTemplateInstantiationArgs(raw_ostream &OS) const = 0; |
| virtual void writeTemplateInstantiation(raw_ostream &OS) const {} |
| virtual void writeCtorBody(raw_ostream &OS) const {} |
| virtual void writeCtorInitializers(raw_ostream &OS) const = 0; |
| virtual void writeCtorDefaultInitializers(raw_ostream &OS) const = 0; |
| virtual void writeCtorParameters(raw_ostream &OS) const = 0; |
| virtual void writeDeclarations(raw_ostream &OS) const = 0; |
| virtual void writePCHReadArgs(raw_ostream &OS) const = 0; |
| virtual void writePCHReadDecls(raw_ostream &OS) const = 0; |
| virtual void writePCHWrite(raw_ostream &OS) const = 0; |
| virtual std::string getIsOmitted() const { return "false"; } |
| virtual void writeValue(raw_ostream &OS) const = 0; |
| virtual void writeDump(raw_ostream &OS) const = 0; |
| virtual void writeDumpChildren(raw_ostream &OS) const {} |
| virtual void writeHasChildren(raw_ostream &OS) const { OS << "false"; } |
| |
| virtual bool isEnumArg() const { return false; } |
| virtual bool isVariadicEnumArg() const { return false; } |
| virtual bool isVariadic() const { return false; } |
| |
| virtual void writeImplicitCtorArgs(raw_ostream &OS) const { |
| OS << getUpperName(); |
| } |
| }; |
| |
| class SimpleArgument : public Argument { |
| std::string type; |
| |
| public: |
| SimpleArgument(const Record &Arg, StringRef Attr, std::string T) |
| : Argument(Arg, Attr), type(std::move(T)) {} |
| |
| std::string getType() const { return type; } |
| |
| void writeAccessors(raw_ostream &OS) const override { |
| OS << " " << type << " get" << getUpperName() << "() const {\n"; |
| OS << " return " << getLowerName() << ";\n"; |
| OS << " }"; |
| } |
| |
| void writeCloneArgs(raw_ostream &OS) const override { |
| OS << getLowerName(); |
| } |
| |
| void writeTemplateInstantiationArgs(raw_ostream &OS) const override { |
| OS << "A->get" << getUpperName() << "()"; |
| } |
| |
| void writeCtorInitializers(raw_ostream &OS) const override { |
| OS << getLowerName() << "(" << getUpperName() << ")"; |
| } |
| |
| void writeCtorDefaultInitializers(raw_ostream &OS) const override { |
| OS << getLowerName() << "()"; |
| } |
| |
| void writeCtorParameters(raw_ostream &OS) const override { |
| OS << type << " " << getUpperName(); |
| } |
| |
| void writeDeclarations(raw_ostream &OS) const override { |
| OS << type << " " << getLowerName() << ";"; |
| } |
| |
| void writePCHReadDecls(raw_ostream &OS) const override { |
| std::string read = ReadPCHRecord(type); |
| OS << " " << type << " " << getLowerName() << " = " << read << ";\n"; |
| } |
| |
| void writePCHReadArgs(raw_ostream &OS) const override { |
| OS << getLowerName(); |
| } |
| |
| void writePCHWrite(raw_ostream &OS) const override { |
| OS << " " << WritePCHRecord(type, "SA->get" + |
| std::string(getUpperName()) + "()"); |
| } |
| |
| std::string getIsOmitted() const override { |
| if (type == "IdentifierInfo *") |
| return "!get" + getUpperName().str() + "()"; |
| if (type == "TypeSourceInfo *") |
| return "!get" + getUpperName().str() + "Loc()"; |
| if (type == "ParamIdx") |
| return "!get" + getUpperName().str() + "().isValid()"; |
| return "false"; |
| } |
| |
| void writeValue(raw_ostream &OS) const override { |
| if (type == "FunctionDecl *") |
| OS << "\" << get" << getUpperName() |
| << "()->getNameInfo().getAsString() << \""; |
| else if (type == "IdentifierInfo *") |
| // Some non-optional (comma required) identifier arguments can be the |
| // empty string but are then recorded as a nullptr. |
| OS << "\" << (get" << getUpperName() << "() ? get" << getUpperName() |
| << "()->getName() : \"\") << \""; |
| else if (type == "TypeSourceInfo *") |
| OS << "\" << get" << getUpperName() << "().getAsString() << \""; |
| else if (type == "ParamIdx") |
| OS << "\" << get" << getUpperName() << "().getSourceIndex() << \""; |
| else |
| OS << "\" << get" << getUpperName() << "() << \""; |
| } |
| |
| void writeDump(raw_ostream &OS) const override { |
| if (type == "FunctionDecl *" || type == "NamedDecl *") { |
| OS << " OS << \" \";\n"; |
| OS << " dumpBareDeclRef(SA->get" << getUpperName() << "());\n"; |
| } else if (type == "IdentifierInfo *") { |
| // Some non-optional (comma required) identifier arguments can be the |
| // empty string but are then recorded as a nullptr. |
| OS << " if (SA->get" << getUpperName() << "())\n" |
| << " OS << \" \" << SA->get" << getUpperName() |
| << "()->getName();\n"; |
| } else if (type == "TypeSourceInfo *") { |
| if (isOptional()) |
| OS << " if (SA->get" << getUpperName() << "Loc())"; |
| OS << " OS << \" \" << SA->get" << getUpperName() |
| << "().getAsString();\n"; |
| } else if (type == "bool") { |
| OS << " if (SA->get" << getUpperName() << "()) OS << \" " |
| << getUpperName() << "\";\n"; |
| } else if (type == "int" || type == "unsigned") { |
| OS << " OS << \" \" << SA->get" << getUpperName() << "();\n"; |
| } else if (type == "ParamIdx") { |
| if (isOptional()) |
| OS << " if (SA->get" << getUpperName() << "().isValid())\n "; |
| OS << " OS << \" \" << SA->get" << getUpperName() |
| << "().getSourceIndex();\n"; |
| } else { |
| llvm_unreachable("Unknown SimpleArgument type!"); |
| } |
| } |
| }; |
| |
| class DefaultSimpleArgument : public SimpleArgument { |
| int64_t Default; |
| |
| public: |
| DefaultSimpleArgument(const Record &Arg, StringRef Attr, |
| std::string T, int64_t Default) |
| : SimpleArgument(Arg, Attr, T), Default(Default) {} |
| |
| void writeAccessors(raw_ostream &OS) const override { |
| SimpleArgument::writeAccessors(OS); |
| |
| OS << "\n\n static const " << getType() << " Default" << getUpperName() |
| << " = "; |
| if (getType() == "bool") |
| OS << (Default != 0 ? "true" : "false"); |
| else |
| OS << Default; |
| OS << ";"; |
| } |
| }; |
| |
| class StringArgument : public Argument { |
| public: |
| StringArgument(const Record &Arg, StringRef Attr) |
| : Argument(Arg, Attr) |
| {} |
| |
| void writeAccessors(raw_ostream &OS) const override { |
| OS << " llvm::StringRef get" << getUpperName() << "() const {\n"; |
| OS << " return llvm::StringRef(" << getLowerName() << ", " |
| << getLowerName() << "Length);\n"; |
| OS << " }\n"; |
| OS << " unsigned get" << getUpperName() << "Length() const {\n"; |
| OS << " return " << getLowerName() << "Length;\n"; |
| OS << " }\n"; |
| OS << " void set" << getUpperName() |
| << "(ASTContext &C, llvm::StringRef S) {\n"; |
| OS << " " << getLowerName() << "Length = S.size();\n"; |
| OS << " this->" << getLowerName() << " = new (C, 1) char [" |
| << getLowerName() << "Length];\n"; |
| OS << " if (!S.empty())\n"; |
| OS << " std::memcpy(this->" << getLowerName() << ", S.data(), " |
| << getLowerName() << "Length);\n"; |
| OS << " }"; |
| } |
| |
| void writeCloneArgs(raw_ostream &OS) const override { |
| OS << "get" << getUpperName() << "()"; |
| } |
| |
| void writeTemplateInstantiationArgs(raw_ostream &OS) const override { |
| OS << "A->get" << getUpperName() << "()"; |
| } |
| |
| void writeCtorBody(raw_ostream &OS) const override { |
| OS << " if (!" << getUpperName() << ".empty())\n"; |
| OS << " std::memcpy(" << getLowerName() << ", " << getUpperName() |
| << ".data(), " << getLowerName() << "Length);\n"; |
| } |
| |
| void writeCtorInitializers(raw_ostream &OS) const override { |
| OS << getLowerName() << "Length(" << getUpperName() << ".size())," |
| << getLowerName() << "(new (Ctx, 1) char[" << getLowerName() |
| << "Length])"; |
| } |
| |
| void writeCtorDefaultInitializers(raw_ostream &OS) const override { |
| OS << getLowerName() << "Length(0)," << getLowerName() << "(nullptr)"; |
| } |
| |
| void writeCtorParameters(raw_ostream &OS) const override { |
| OS << "llvm::StringRef " << getUpperName(); |
| } |
| |
| void writeDeclarations(raw_ostream &OS) const override { |
| OS << "unsigned " << getLowerName() << "Length;\n"; |
| OS << "char *" << getLowerName() << ";"; |
| } |
| |
| void writePCHReadDecls(raw_ostream &OS) const override { |
| OS << " std::string " << getLowerName() |
| << "= Record.readString();\n"; |
| } |
| |
| void writePCHReadArgs(raw_ostream &OS) const override { |
| OS << getLowerName(); |
| } |
| |
| void writePCHWrite(raw_ostream &OS) const override { |
| OS << " Record.AddString(SA->get" << getUpperName() << "());\n"; |
| } |
| |
| void writeValue(raw_ostream &OS) const override { |
| OS << "\\\"\" << get" << getUpperName() << "() << \"\\\""; |
| } |
| |
| void writeDump(raw_ostream &OS) const override { |
| OS << " OS << \" \\\"\" << SA->get" << getUpperName() |
| << "() << \"\\\"\";\n"; |
| } |
| }; |
| |
| class AlignedArgument : public Argument { |
| public: |
| AlignedArgument(const Record &Arg, StringRef Attr) |
| : Argument(Arg, Attr) |
| {} |
| |
| void writeAccessors(raw_ostream &OS) const override { |
| OS << " bool is" << getUpperName() << "Dependent() const;\n"; |
| |
| OS << " unsigned get" << getUpperName() << "(ASTContext &Ctx) const;\n"; |
| |
| OS << " bool is" << getUpperName() << "Expr() const {\n"; |
| OS << " return is" << getLowerName() << "Expr;\n"; |
| OS << " }\n"; |
| |
| OS << " Expr *get" << getUpperName() << "Expr() const {\n"; |
| OS << " assert(is" << getLowerName() << "Expr);\n"; |
| OS << " return " << getLowerName() << "Expr;\n"; |
| OS << " }\n"; |
| |
| OS << " TypeSourceInfo *get" << getUpperName() << "Type() const {\n"; |
| OS << " assert(!is" << getLowerName() << "Expr);\n"; |
| OS << " return " << getLowerName() << "Type;\n"; |
| OS << " }"; |
| } |
| |
| void writeAccessorDefinitions(raw_ostream &OS) const override { |
| OS << "bool " << getAttrName() << "Attr::is" << getUpperName() |
| << "Dependent() const {\n"; |
| OS << " if (is" << getLowerName() << "Expr)\n"; |
| OS << " return " << getLowerName() << "Expr && (" << getLowerName() |
| << "Expr->isValueDependent() || " << getLowerName() |
| << "Expr->isTypeDependent());\n"; |
| OS << " else\n"; |
| OS << " return " << getLowerName() |
| << "Type->getType()->isDependentType();\n"; |
| OS << "}\n"; |
| |
| // FIXME: Do not do the calculation here |
| // FIXME: Handle types correctly |
| // A null pointer means maximum alignment |
| OS << "unsigned " << getAttrName() << "Attr::get" << getUpperName() |
| << "(ASTContext &Ctx) const {\n"; |
| OS << " assert(!is" << getUpperName() << "Dependent());\n"; |
| OS << " if (is" << getLowerName() << "Expr)\n"; |
| OS << " return " << getLowerName() << "Expr ? " << getLowerName() |
| << "Expr->EvaluateKnownConstInt(Ctx).getZExtValue()" |
| << " * Ctx.getCharWidth() : " |
| << "Ctx.getTargetDefaultAlignForAttributeAligned();\n"; |
| OS << " else\n"; |
| OS << " return 0; // FIXME\n"; |
| OS << "}\n"; |
| } |
| |
| void writeASTVisitorTraversal(raw_ostream &OS) const override { |
| StringRef Name = getUpperName(); |
| OS << " if (A->is" << Name << "Expr()) {\n" |
| << " if (!getDerived().TraverseStmt(A->get" << Name << "Expr()))\n" |
| << " return false;\n" |
| << " } else if (auto *TSI = A->get" << Name << "Type()) {\n" |
| << " if (!getDerived().TraverseTypeLoc(TSI->getTypeLoc()))\n" |
| << " return false;\n" |
| << " }\n"; |
| } |
| |
| void writeCloneArgs(raw_ostream &OS) const override { |
| OS << "is" << getLowerName() << "Expr, is" << getLowerName() |
| << "Expr ? static_cast<void*>(" << getLowerName() |
| << "Expr) : " << getLowerName() |
| << "Type"; |
| } |
| |
| void writeTemplateInstantiationArgs(raw_ostream &OS) const override { |
| // FIXME: move the definition in Sema::InstantiateAttrs to here. |
| // In the meantime, aligned attributes are cloned. |
| } |
| |
| void writeCtorBody(raw_ostream &OS) const override { |
| OS << " if (is" << getLowerName() << "Expr)\n"; |
| OS << " " << getLowerName() << "Expr = reinterpret_cast<Expr *>(" |
| << getUpperName() << ");\n"; |
| OS << " else\n"; |
| OS << " " << getLowerName() |
| << "Type = reinterpret_cast<TypeSourceInfo *>(" << getUpperName() |
| << ");\n"; |
| } |
| |
| void writeCtorInitializers(raw_ostream &OS) const override { |
| OS << "is" << getLowerName() << "Expr(Is" << getUpperName() << "Expr)"; |
| } |
| |
| void writeCtorDefaultInitializers(raw_ostream &OS) const override { |
| OS << "is" << getLowerName() << "Expr(false)"; |
| } |
| |
| void writeCtorParameters(raw_ostream &OS) const override { |
| OS << "bool Is" << getUpperName() << "Expr, void *" << getUpperName(); |
| } |
| |
| void writeImplicitCtorArgs(raw_ostream &OS) const override { |
| OS << "Is" << getUpperName() << "Expr, " << getUpperName(); |
| } |
| |
| void writeDeclarations(raw_ostream &OS) const override { |
| OS << "bool is" << getLowerName() << "Expr;\n"; |
| OS << "union {\n"; |
| OS << "Expr *" << getLowerName() << "Expr;\n"; |
| OS << "TypeSourceInfo *" << getLowerName() << "Type;\n"; |
| OS << "};"; |
| } |
| |
| void writePCHReadArgs(raw_ostream &OS) const override { |
| OS << "is" << getLowerName() << "Expr, " << getLowerName() << "Ptr"; |
| } |
| |
| void writePCHReadDecls(raw_ostream &OS) const override { |
| OS << " bool is" << getLowerName() << "Expr = Record.readInt();\n"; |
| OS << " void *" << getLowerName() << "Ptr;\n"; |
| OS << " if (is" << getLowerName() << "Expr)\n"; |
| OS << " " << getLowerName() << "Ptr = Record.readExpr();\n"; |
| OS << " else\n"; |
| OS << " " << getLowerName() |
| << "Ptr = Record.getTypeSourceInfo();\n"; |
| } |
| |
| void writePCHWrite(raw_ostream &OS) const override { |
| OS << " Record.push_back(SA->is" << getUpperName() << "Expr());\n"; |
| OS << " if (SA->is" << getUpperName() << "Expr())\n"; |
| OS << " Record.AddStmt(SA->get" << getUpperName() << "Expr());\n"; |
| OS << " else\n"; |
| OS << " Record.AddTypeSourceInfo(SA->get" << getUpperName() |
| << "Type());\n"; |
| } |
| |
| std::string getIsOmitted() const override { |
| return "!is" + getLowerName().str() + "Expr || !" + getLowerName().str() |
| + "Expr"; |
| } |
| |
| void writeValue(raw_ostream &OS) const override { |
| OS << "\";\n"; |
| OS << " " << getLowerName() |
| << "Expr->printPretty(OS, nullptr, Policy);\n"; |
| OS << " OS << \""; |
| } |
| |
| void writeDump(raw_ostream &OS) const override { |
| OS << " if (!SA->is" << getUpperName() << "Expr())\n"; |
| OS << " dumpType(SA->get" << getUpperName() |
| << "Type()->getType());\n"; |
| } |
| |
| void writeDumpChildren(raw_ostream &OS) const override { |
| OS << " if (SA->is" << getUpperName() << "Expr())\n"; |
| OS << " Visit(SA->get" << getUpperName() << "Expr());\n"; |
| } |
| |
| void writeHasChildren(raw_ostream &OS) const override { |
| OS << "SA->is" << getUpperName() << "Expr()"; |
| } |
| }; |
| |
| class VariadicArgument : public Argument { |
| std::string Type, ArgName, ArgSizeName, RangeName; |
| |
| protected: |
| // Assumed to receive a parameter: raw_ostream OS. |
| virtual void writeValueImpl(raw_ostream &OS) const { |
| OS << " OS << Val;\n"; |
| } |
| // Assumed to receive a parameter: raw_ostream OS. |
| virtual void writeDumpImpl(raw_ostream &OS) const { |
| OS << " OS << \" \" << Val;\n"; |
| } |
| |
| public: |
| VariadicArgument(const Record &Arg, StringRef Attr, std::string T) |
| : Argument(Arg, Attr), Type(std::move(T)), |
| ArgName(getLowerName().str() + "_"), ArgSizeName(ArgName + "Size"), |
| RangeName(getLowerName()) {} |
| |
| const std::string &getType() const { return Type; } |
| const std::string &getArgName() const { return ArgName; } |
| const std::string &getArgSizeName() const { return ArgSizeName; } |
| bool isVariadic() const override { return true; } |
| |
| void writeAccessors(raw_ostream &OS) const override { |
| std::string IteratorType = getLowerName().str() + "_iterator"; |
| std::string BeginFn = getLowerName().str() + "_begin()"; |
| std::string EndFn = getLowerName().str() + "_end()"; |
| |
| OS << " typedef " << Type << "* " << IteratorType << ";\n"; |
| OS << " " << IteratorType << " " << BeginFn << " const {" |
| << " return " << ArgName << "; }\n"; |
| OS << " " << IteratorType << " " << EndFn << " const {" |
| << " return " << ArgName << " + " << ArgSizeName << "; }\n"; |
| OS << " unsigned " << getLowerName() << "_size() const {" |
| << " return " << ArgSizeName << "; }\n"; |
| OS << " llvm::iterator_range<" << IteratorType << "> " << RangeName |
| << "() const { return llvm::make_range(" << BeginFn << ", " << EndFn |
| << "); }\n"; |
| } |
| |
| void writeCloneArgs(raw_ostream &OS) const override { |
| OS << ArgName << ", " << ArgSizeName; |
| } |
| |
| void writeTemplateInstantiationArgs(raw_ostream &OS) const override { |
| // This isn't elegant, but we have to go through public methods... |
| OS << "A->" << getLowerName() << "_begin(), " |
| << "A->" << getLowerName() << "_size()"; |
| } |
| |
| void writeASTVisitorTraversal(raw_ostream &OS) const override { |
| // FIXME: Traverse the elements. |
| } |
| |
| void writeCtorBody(raw_ostream &OS) const override { |
| OS << " std::copy(" << getUpperName() << ", " << getUpperName() |
| << " + " << ArgSizeName << ", " << ArgName << ");\n"; |
| } |
| |
| void writeCtorInitializers(raw_ostream &OS) const override { |
| OS << ArgSizeName << "(" << getUpperName() << "Size), " |
| << ArgName << "(new (Ctx, 16) " << getType() << "[" |
| << ArgSizeName << "])"; |
| } |
| |
| void writeCtorDefaultInitializers(raw_ostream &OS) const override { |
| OS << ArgSizeName << "(0), " << ArgName << "(nullptr)"; |
| } |
| |
| void writeCtorParameters(raw_ostream &OS) const override { |
| OS << getType() << " *" << getUpperName() << ", unsigned " |
| << getUpperName() << "Size"; |
| } |
| |
| void writeImplicitCtorArgs(raw_ostream &OS) const override { |
| OS << getUpperName() << ", " << getUpperName() << "Size"; |
| } |
| |
| void writeDeclarations(raw_ostream &OS) const override { |
| OS << " unsigned " << ArgSizeName << ";\n"; |
| OS << " " << getType() << " *" << ArgName << ";"; |
| } |
| |
| void writePCHReadDecls(raw_ostream &OS) const override { |
| OS << " unsigned " << getLowerName() << "Size = Record.readInt();\n"; |
| OS << " SmallVector<" << getType() << ", 4> " |
| << getLowerName() << ";\n"; |
| OS << " " << getLowerName() << ".reserve(" << getLowerName() |
| << "Size);\n"; |
| |
| // If we can't store the values in the current type (if it's something |
| // like StringRef), store them in a different type and convert the |
| // container afterwards. |
| std::string StorageType = getStorageType(getType()); |
| std::string StorageName = getLowerName(); |
| if (StorageType != getType()) { |
| StorageName += "Storage"; |
| OS << " SmallVector<" << StorageType << ", 4> " |
| << StorageName << ";\n"; |
| OS << " " << StorageName << ".reserve(" << getLowerName() |
| << "Size);\n"; |
| } |
| |
| OS << " for (unsigned i = 0; i != " << getLowerName() << "Size; ++i)\n"; |
| std::string read = ReadPCHRecord(Type); |
| OS << " " << StorageName << ".push_back(" << read << ");\n"; |
| |
| if (StorageType != getType()) { |
| OS << " for (unsigned i = 0; i != " << getLowerName() << "Size; ++i)\n"; |
| OS << " " << getLowerName() << ".push_back(" |
| << StorageName << "[i]);\n"; |
| } |
| } |
| |
| void writePCHReadArgs(raw_ostream &OS) const override { |
| OS << getLowerName() << ".data(), " << getLowerName() << "Size"; |
| } |
| |
| void writePCHWrite(raw_ostream &OS) const override { |
| OS << " Record.push_back(SA->" << getLowerName() << "_size());\n"; |
| OS << " for (auto &Val : SA->" << RangeName << "())\n"; |
| OS << " " << WritePCHRecord(Type, "Val"); |
| } |
| |
| void writeValue(raw_ostream &OS) const override { |
| OS << "\";\n"; |
| OS << " bool isFirst = true;\n" |
| << " for (const auto &Val : " << RangeName << "()) {\n" |
| << " if (isFirst) isFirst = false;\n" |
| << " else OS << \", \";\n"; |
| writeValueImpl(OS); |
| OS << " }\n"; |
| OS << " OS << \""; |
| } |
| |
| void writeDump(raw_ostream &OS) const override { |
| OS << " for (const auto &Val : SA->" << RangeName << "())\n"; |
| writeDumpImpl(OS); |
| } |
| }; |
| |
| class VariadicParamIdxArgument : public VariadicArgument { |
| public: |
| VariadicParamIdxArgument(const Record &Arg, StringRef Attr) |
| : VariadicArgument(Arg, Attr, "ParamIdx") {} |
| |
| public: |
| void writeValueImpl(raw_ostream &OS) const override { |
| OS << " OS << Val.getSourceIndex();\n"; |
| } |
| |
| void writeDumpImpl(raw_ostream &OS) const override { |
| OS << " OS << \" \" << Val.getSourceIndex();\n"; |
| } |
| }; |
| |
| struct VariadicParamOrParamIdxArgument : public VariadicArgument { |
| VariadicParamOrParamIdxArgument(const Record &Arg, StringRef Attr) |
| : VariadicArgument(Arg, Attr, "int") {} |
| }; |
| |
| // Unique the enums, but maintain the original declaration ordering. |
| std::vector<StringRef> |
| uniqueEnumsInOrder(const std::vector<StringRef> &enums) { |
| std::vector<StringRef> uniques; |
| SmallDenseSet<StringRef, 8> unique_set; |
| for (const auto &i : enums) { |
| if (unique_set.insert(i).second) |
| uniques.push_back(i); |
| } |
| return uniques; |
| } |
| |
| class EnumArgument : public Argument { |
| std::string type; |
| std::vector<StringRef> values, enums, uniques; |
| |
| public: |
| EnumArgument(const Record &Arg, StringRef Attr) |
| : Argument(Arg, Attr), type(Arg.getValueAsString("Type")), |
| values(Arg.getValueAsListOfStrings("Values")), |
| enums(Arg.getValueAsListOfStrings("Enums")), |
| uniques(uniqueEnumsInOrder(enums)) |
| { |
| // FIXME: Emit a proper error |
| assert(!uniques.empty()); |
| } |
| |
| bool isEnumArg() const override { return true; } |
| |
| void writeAccessors(raw_ostream &OS) const override { |
| OS << " " << type << " get" << getUpperName() << "() const {\n"; |
| OS << " return " << getLowerName() << ";\n"; |
| OS << " }"; |
| } |
| |
| void writeCloneArgs(raw_ostream &OS) const override { |
| OS << getLowerName(); |
| } |
| |
| void writeTemplateInstantiationArgs(raw_ostream &OS) const override { |
| OS << "A->get" << getUpperName() << "()"; |
| } |
| void writeCtorInitializers(raw_ostream &OS) const override { |
| OS << getLowerName() << "(" << getUpperName() << ")"; |
| } |
| void writeCtorDefaultInitializers(raw_ostream &OS) const override { |
| OS << getLowerName() << "(" << type << "(0))"; |
| } |
| void writeCtorParameters(raw_ostream &OS) const override { |
| OS << type << " " << getUpperName(); |
| } |
| void writeDeclarations(raw_ostream &OS) const override { |
| auto i = uniques.cbegin(), e = uniques.cend(); |
| // The last one needs to not have a comma. |
| --e; |
| |
| OS << "public:\n"; |
| OS << " enum " << type << " {\n"; |
| for (; i != e; ++i) |
| OS << " " << *i << ",\n"; |
| OS << " " << *e << "\n"; |
| OS << " };\n"; |
| OS << "private:\n"; |
| OS << " " << type << " " << getLowerName() << ";"; |
| } |
| |
| void writePCHReadDecls(raw_ostream &OS) const override { |
| OS << " " << getAttrName() << "Attr::" << type << " " << getLowerName() |
| << "(static_cast<" << getAttrName() << "Attr::" << type |
| << ">(Record.readInt()));\n"; |
| } |
| |
| void writePCHReadArgs(raw_ostream &OS) const override { |
| OS << getLowerName(); |
| } |
| |
| void writePCHWrite(raw_ostream &OS) const override { |
| OS << "Record.push_back(SA->get" << getUpperName() << "());\n"; |
| } |
| |
| void writeValue(raw_ostream &OS) const override { |
| // FIXME: this isn't 100% correct -- some enum arguments require printing |
| // as a string literal, while others require printing as an identifier. |
| // Tablegen currently does not distinguish between the two forms. |
| OS << "\\\"\" << " << getAttrName() << "Attr::Convert" << type << "ToStr(get" |
| << getUpperName() << "()) << \"\\\""; |
| } |
| |
| void writeDump(raw_ostream &OS) const override { |
| OS << " switch(SA->get" << getUpperName() << "()) {\n"; |
| for (const auto &I : uniques) { |
| OS << " case " << getAttrName() << "Attr::" << I << ":\n"; |
| OS << " OS << \" " << I << "\";\n"; |
| OS << " break;\n"; |
| } |
| OS << " }\n"; |
| } |
| |
| void writeConversion(raw_ostream &OS) const { |
| OS << " static bool ConvertStrTo" << type << "(StringRef Val, "; |
| OS << type << " &Out) {\n"; |
| OS << " Optional<" << type << "> R = llvm::StringSwitch<Optional<"; |
| OS << type << ">>(Val)\n"; |
| for (size_t I = 0; I < enums.size(); ++I) { |
| OS << " .Case(\"" << values[I] << "\", "; |
| OS << getAttrName() << "Attr::" << enums[I] << ")\n"; |
| } |
| OS << " .Default(Optional<" << type << ">());\n"; |
| OS << " if (R) {\n"; |
| OS << " Out = *R;\n return true;\n }\n"; |
| OS << " return false;\n"; |
| OS << " }\n\n"; |
| |
| // Mapping from enumeration values back to enumeration strings isn't |
| // trivial because some enumeration values have multiple named |
| // enumerators, such as type_visibility(internal) and |
| // type_visibility(hidden) both mapping to TypeVisibilityAttr::Hidden. |
| OS << " static const char *Convert" << type << "ToStr(" |
| << type << " Val) {\n" |
| << " switch(Val) {\n"; |
| SmallDenseSet<StringRef, 8> Uniques; |
| for (size_t I = 0; I < enums.size(); ++I) { |
| if (Uniques.insert(enums[I]).second) |
| OS << " case " << getAttrName() << "Attr::" << enums[I] |
| << ": return \"" << values[I] << "\";\n"; |
| } |
| OS << " }\n" |
| << " llvm_unreachable(\"No enumerator with that value\");\n" |
| << " }\n"; |
| } |
| }; |
| |
| class VariadicEnumArgument: public VariadicArgument { |
| std::string type, QualifiedTypeName; |
| std::vector<StringRef> values, enums, uniques; |
| |
| protected: |
| void writeValueImpl(raw_ostream &OS) const override { |
| // FIXME: this isn't 100% correct -- some enum arguments require printing |
| // as a string literal, while others require printing as an identifier. |
| // Tablegen currently does not distinguish between the two forms. |
| OS << " OS << \"\\\"\" << " << getAttrName() << "Attr::Convert" << type |
| << "ToStr(Val)" << "<< \"\\\"\";\n"; |
| } |
| |
| public: |
| VariadicEnumArgument(const Record &Arg, StringRef Attr) |
| : VariadicArgument(Arg, Attr, Arg.getValueAsString("Type")), |
| type(Arg.getValueAsString("Type")), |
| values(Arg.getValueAsListOfStrings("Values")), |
| enums(Arg.getValueAsListOfStrings("Enums")), |
| uniques(uniqueEnumsInOrder(enums)) |
| { |
| QualifiedTypeName = getAttrName().str() + "Attr::" + type; |
| |
| // FIXME: Emit a proper error |
| assert(!uniques.empty()); |
| } |
| |
| bool isVariadicEnumArg() const override { return true; } |
| |
| void writeDeclarations(raw_ostream &OS) const override { |
| auto i = uniques.cbegin(), e = uniques.cend(); |
| // The last one needs to not have a comma. |
| --e; |
| |
| OS << "public:\n"; |
| OS << " enum " << type << " {\n"; |
| for (; i != e; ++i) |
| OS << " " << *i << ",\n"; |
| OS << " " << *e << "\n"; |
| OS << " };\n"; |
| OS << "private:\n"; |
| |
| VariadicArgument::writeDeclarations(OS); |
| } |
| |
| void writeDump(raw_ostream &OS) const override { |
| OS << " for (" << getAttrName() << "Attr::" << getLowerName() |
| << "_iterator I = SA->" << getLowerName() << "_begin(), E = SA->" |
| << getLowerName() << "_end(); I != E; ++I) {\n"; |
| OS << " switch(*I) {\n"; |
| for (const auto &UI : uniques) { |
| OS << " case " << getAttrName() << "Attr::" << UI << ":\n"; |
| OS << " OS << \" " << UI << "\";\n"; |
| OS << " break;\n"; |
| } |
| OS << " }\n"; |
| OS << " }\n"; |
| } |
| |
| void writePCHReadDecls(raw_ostream &OS) const override { |
| OS << " unsigned " << getLowerName() << "Size = Record.readInt();\n"; |
| OS << " SmallVector<" << QualifiedTypeName << ", 4> " << getLowerName() |
| << ";\n"; |
| OS << " " << getLowerName() << ".reserve(" << getLowerName() |
| << "Size);\n"; |
| OS << " for (unsigned i = " << getLowerName() << "Size; i; --i)\n"; |
| OS << " " << getLowerName() << ".push_back(" << "static_cast<" |
| << QualifiedTypeName << ">(Record.readInt()));\n"; |
| } |
| |
| void writePCHWrite(raw_ostream &OS) const override { |
| OS << " Record.push_back(SA->" << getLowerName() << "_size());\n"; |
| OS << " for (" << getAttrName() << "Attr::" << getLowerName() |
| << "_iterator i = SA->" << getLowerName() << "_begin(), e = SA->" |
| << getLowerName() << "_end(); i != e; ++i)\n"; |
| OS << " " << WritePCHRecord(QualifiedTypeName, "(*i)"); |
| } |
| |
| void writeConversion(raw_ostream &OS) const { |
| OS << " static bool ConvertStrTo" << type << "(StringRef Val, "; |
| OS << type << " &Out) {\n"; |
| OS << " Optional<" << type << "> R = llvm::StringSwitch<Optional<"; |
| OS << type << ">>(Val)\n"; |
| for (size_t I = 0; I < enums.size(); ++I) { |
| OS << " .Case(\"" << values[I] << "\", "; |
| OS << getAttrName() << "Attr::" << enums[I] << ")\n"; |
| } |
| OS << " .Default(Optional<" << type << ">());\n"; |
| OS << " if (R) {\n"; |
| OS << " Out = *R;\n return true;\n }\n"; |
| OS << " return false;\n"; |
| OS << " }\n\n"; |
| |
| OS << " static const char *Convert" << type << "ToStr(" |
| << type << " Val) {\n" |
| << " switch(Val) {\n"; |
| SmallDenseSet<StringRef, 8> Uniques; |
| for (size_t I = 0; I < enums.size(); ++I) { |
| if (Uniques.insert(enums[I]).second) |
| OS << " case " << getAttrName() << "Attr::" << enums[I] |
| << ": return \"" << values[I] << "\";\n"; |
| } |
| OS << " }\n" |
| << " llvm_unreachable(\"No enumerator with that value\");\n" |
| << " }\n"; |
| } |
| }; |
| |
| class VersionArgument : public Argument { |
| public: |
| VersionArgument(const Record &Arg, StringRef Attr) |
| : Argument(Arg, Attr) |
| {} |
| |
| void writeAccessors(raw_ostream &OS) const override { |
| OS << " VersionTuple get" << getUpperName() << "() const {\n"; |
| OS << " return " << getLowerName() << ";\n"; |
| OS << " }\n"; |
| OS << " void set" << getUpperName() |
| << "(ASTContext &C, VersionTuple V) {\n"; |
| OS << " " << getLowerName() << " = V;\n"; |
| OS << " }"; |
| } |
| |
| void writeCloneArgs(raw_ostream &OS) const override { |
| OS << "get" << getUpperName() << "()"; |
| } |
| |
| void writeTemplateInstantiationArgs(raw_ostream &OS) const override { |
| OS << "A->get" << getUpperName() << "()"; |
| } |
| |
| void writeCtorInitializers(raw_ostream &OS) const override { |
| OS << getLowerName() << "(" << getUpperName() << ")"; |
| } |
| |
| void writeCtorDefaultInitializers(raw_ostream &OS) const override { |
| OS << getLowerName() << "()"; |
| } |
| |
| void writeCtorParameters(raw_ostream &OS) const override { |
| OS << "VersionTuple " << getUpperName(); |
| } |
| |
| void writeDeclarations(raw_ostream &OS) const override { |
| OS << "VersionTuple " << getLowerName() << ";\n"; |
| } |
| |
| void writePCHReadDecls(raw_ostream &OS) const override { |
| OS << " VersionTuple " << getLowerName() |
| << "= Record.readVersionTuple();\n"; |
| } |
| |
| void writePCHReadArgs(raw_ostream &OS) const override { |
| OS << getLowerName(); |
| } |
| |
| void writePCHWrite(raw_ostream &OS) const override { |
| OS << " Record.AddVersionTuple(SA->get" << getUpperName() << "());\n"; |
| } |
| |
| void writeValue(raw_ostream &OS) const override { |
| OS << getLowerName() << "=\" << get" << getUpperName() << "() << \""; |
| } |
| |
| void writeDump(raw_ostream &OS) const override { |
| OS << " OS << \" \" << SA->get" << getUpperName() << "();\n"; |
| } |
| }; |
| |
| class ExprArgument : public SimpleArgument { |
| public: |
| ExprArgument(const Record &Arg, StringRef Attr) |
| : SimpleArgument(Arg, Attr, "Expr *") |
| {} |
| |
| void writeASTVisitorTraversal(raw_ostream &OS) const override { |
| OS << " if (!" |
| << "getDerived().TraverseStmt(A->get" << getUpperName() << "()))\n"; |
| OS << " return false;\n"; |
| } |
| |
| void writeTemplateInstantiationArgs(raw_ostream &OS) const override { |
| OS << "tempInst" << getUpperName(); |
| } |
| |
| void writeTemplateInstantiation(raw_ostream &OS) const override { |
| OS << " " << getType() << " tempInst" << getUpperName() << ";\n"; |
| OS << " {\n"; |
| OS << " EnterExpressionEvaluationContext " |
| << "Unevaluated(S, Sema::ExpressionEvaluationContext::Unevaluated);\n"; |
| OS << " ExprResult " << "Result = S.SubstExpr(" |
| << "A->get" << getUpperName() << "(), TemplateArgs);\n"; |
| OS << " tempInst" << getUpperName() << " = " |
| << "Result.getAs<Expr>();\n"; |
| OS << " }\n"; |
| } |
| |
| void writeDump(raw_ostream &OS) const override {} |
| |
| void writeDumpChildren(raw_ostream &OS) const override { |
| OS << " Visit(SA->get" << getUpperName() << "());\n"; |
| } |
| |
| void writeHasChildren(raw_ostream &OS) const override { OS << "true"; } |
| }; |
| |
| class VariadicExprArgument : public VariadicArgument { |
| public: |
| VariadicExprArgument(const Record &Arg, StringRef Attr) |
| : VariadicArgument(Arg, Attr, "Expr *") |
| {} |
| |
| void writeASTVisitorTraversal(raw_ostream &OS) const override { |
| OS << " {\n"; |
| OS << " " << getType() << " *I = A->" << getLowerName() |
| << "_begin();\n"; |
| OS << " " << getType() << " *E = A->" << getLowerName() |
| << "_end();\n"; |
| OS << " for (; I != E; ++I) {\n"; |
| OS << " if (!getDerived().TraverseStmt(*I))\n"; |
| OS << " return false;\n"; |
| OS << " }\n"; |
| OS << " }\n"; |
| } |
| |
| void writeTemplateInstantiationArgs(raw_ostream &OS) const override { |
| OS << "tempInst" << getUpperName() << ", " |
| << "A->" << getLowerName() << "_size()"; |
| } |
| |
| void writeTemplateInstantiation(raw_ostream &OS) const override { |
| OS << " auto *tempInst" << getUpperName() |
| << " = new (C, 16) " << getType() |
| << "[A->" << getLowerName() << "_size()];\n"; |
| OS << " {\n"; |
| OS << " EnterExpressionEvaluationContext " |
| << "Unevaluated(S, Sema::ExpressionEvaluationContext::Unevaluated);\n"; |
| OS << " " << getType() << " *TI = tempInst" << getUpperName() |
| << ";\n"; |
| OS << " " << getType() << " *I = A->" << getLowerName() |
| << "_begin();\n"; |
| OS << " " << getType() << " *E = A->" << getLowerName() |
| << "_end();\n"; |
| OS << " for (; I != E; ++I, ++TI) {\n"; |
| OS << " ExprResult Result = S.SubstExpr(*I, TemplateArgs);\n"; |
| OS << " *TI = Result.getAs<Expr>();\n"; |
| OS << " }\n"; |
| OS << " }\n"; |
| } |
| |
| void writeDump(raw_ostream &OS) const override {} |
| |
| void writeDumpChildren(raw_ostream &OS) const override { |
| OS << " for (" << getAttrName() << "Attr::" << getLowerName() |
| << "_iterator I = SA->" << getLowerName() << "_begin(), E = SA->" |
| << getLowerName() << "_end(); I != E; ++I)\n"; |
| OS << " Visit(*I);\n"; |
| } |
| |
| void writeHasChildren(raw_ostream &OS) const override { |
| OS << "SA->" << getLowerName() << "_begin() != " |
| << "SA->" << getLowerName() << "_end()"; |
| } |
| }; |
| |
| class VariadicIdentifierArgument : public VariadicArgument { |
| public: |
| VariadicIdentifierArgument(const Record &Arg, StringRef Attr) |
| : VariadicArgument(Arg, Attr, "IdentifierInfo *") |
| {} |
| }; |
| |
| class VariadicStringArgument : public VariadicArgument { |
| public: |
| VariadicStringArgument(const Record &Arg, StringRef Attr) |
| : VariadicArgument(Arg, Attr, "StringRef") |
| {} |
| |
| void writeCtorBody(raw_ostream &OS) const override { |
| OS << " for (size_t I = 0, E = " << getArgSizeName() << "; I != E;\n" |
| " ++I) {\n" |
| " StringRef Ref = " << getUpperName() << "[I];\n" |
| " if (!Ref.empty()) {\n" |
| " char *Mem = new (Ctx, 1) char[Ref.size()];\n" |
| " std::memcpy(Mem, Ref.data(), Ref.size());\n" |
| " " << getArgName() << "[I] = StringRef(Mem, Ref.size());\n" |
| " }\n" |
| " }\n"; |
| } |
| |
| void writeValueImpl(raw_ostream &OS) const override { |
| OS << " OS << \"\\\"\" << Val << \"\\\"\";\n"; |
| } |
| }; |
| |
| class TypeArgument : public SimpleArgument { |
| public: |
| TypeArgument(const Record &Arg, StringRef Attr) |
| : SimpleArgument(Arg, Attr, "TypeSourceInfo *") |
| {} |
| |
| void writeAccessors(raw_ostream &OS) const override { |
| OS << " QualType get" << getUpperName() << "() const {\n"; |
| OS << " return " << getLowerName() << "->getType();\n"; |
| OS << " }"; |
| OS << " " << getType() << " get" << getUpperName() << "Loc() const {\n"; |
| OS << " return " << getLowerName() << ";\n"; |
| OS << " }"; |
| } |
| |
| void writeASTVisitorTraversal(raw_ostream &OS) const override { |
| OS << " if (auto *TSI = A->get" << getUpperName() << "Loc())\n"; |
| OS << " if (!getDerived().TraverseTypeLoc(TSI->getTypeLoc()))\n"; |
| OS << " return false;\n"; |
| } |
| |
| void writeTemplateInstantiationArgs(raw_ostream &OS) const override { |
| OS << "A->get" << getUpperName() << "Loc()"; |
| } |
| |
| void writePCHWrite(raw_ostream &OS) const override { |
| OS << " " << WritePCHRecord( |
| getType(), "SA->get" + std::string(getUpperName()) + "Loc()"); |
| } |
| }; |
| |
| } // end anonymous namespace |
| |
| static std::unique_ptr<Argument> |
| createArgument(const Record &Arg, StringRef Attr, |
| const Record *Search = nullptr) { |
| if (!Search) |
| Search = &Arg; |
| |
| std::unique_ptr<Argument> Ptr; |
| llvm::StringRef ArgName = Search->getName(); |
| |
| if (ArgName == "AlignedArgument") |
| Ptr = std::make_unique<AlignedArgument>(Arg, Attr); |
| else if (ArgName == "EnumArgument") |
| Ptr = std::make_unique<EnumArgument>(Arg, Attr); |
| else if (ArgName == "ExprArgument") |
| Ptr = std::make_unique<ExprArgument>(Arg, Attr); |
| else if (ArgName == "FunctionArgument") |
| Ptr = std::make_unique<SimpleArgument>(Arg, Attr, "FunctionDecl *"); |
| else if (ArgName == "NamedArgument") |
| Ptr = std::make_unique<SimpleArgument>(Arg, Attr, "NamedDecl *"); |
| else if (ArgName == "IdentifierArgument") |
| Ptr = std::make_unique<SimpleArgument>(Arg, Attr, "IdentifierInfo *"); |
| else if (ArgName == "DefaultBoolArgument") |
| Ptr = std::make_unique<DefaultSimpleArgument>( |
| Arg, Attr, "bool", Arg.getValueAsBit("Default")); |
| else if (ArgName == "BoolArgument") |
| Ptr = std::make_unique<SimpleArgument>(Arg, Attr, "bool"); |
| else if (ArgName == "DefaultIntArgument") |
| Ptr = std::make_unique<DefaultSimpleArgument>( |
| Arg, Attr, "int", Arg.getValueAsInt("Default")); |
| else if (ArgName == "IntArgument") |
| Ptr = std::make_unique<SimpleArgument>(Arg, Attr, "int"); |
| else if (ArgName == "StringArgument") |
| Ptr = std::make_unique<StringArgument>(Arg, Attr); |
| else if (ArgName == "TypeArgument") |
| Ptr = std::make_unique<TypeArgument>(Arg, Attr); |
| else if (ArgName == "UnsignedArgument") |
| Ptr = std::make_unique<SimpleArgument>(Arg, Attr, "unsigned"); |
| else if (ArgName == "VariadicUnsignedArgument") |
| Ptr = std::make_unique<VariadicArgument>(Arg, Attr, "unsigned"); |
| else if (ArgName == "VariadicStringArgument") |
| Ptr = std::make_unique<VariadicStringArgument>(Arg, Attr); |
| else if (ArgName == "VariadicEnumArgument") |
| Ptr = std::make_unique<VariadicEnumArgument>(Arg, Attr); |
| else if (ArgName == "VariadicExprArgument") |
| Ptr = std::make_unique<VariadicExprArgument>(Arg, Attr); |
| else if (ArgName == "VariadicParamIdxArgument") |
| Ptr = std::make_unique<VariadicParamIdxArgument>(Arg, Attr); |
| else if (ArgName == "VariadicParamOrParamIdxArgument") |
| Ptr = std::make_unique<VariadicParamOrParamIdxArgument>(Arg, Attr); |
| else if (ArgName == "ParamIdxArgument") |
| Ptr = std::make_unique<SimpleArgument>(Arg, Attr, "ParamIdx"); |
| else if (ArgName == "VariadicIdentifierArgument") |
| Ptr = std::make_unique<VariadicIdentifierArgument>(Arg, Attr); |
| else if (ArgName == "VersionArgument") |
| Ptr = std::make_unique<VersionArgument>(Arg, Attr); |
| |
| if (!Ptr) { |
| // Search in reverse order so that the most-derived type is handled first. |
| ArrayRef<std::pair<Record*, SMRange>> Bases = Search->getSuperClasses(); |
| for (const auto &Base : llvm::reverse(Bases)) { |
| if ((Ptr = createArgument(Arg, Attr, Base.first))) |
| break; |
| } |
| } |
| |
| if (Ptr && Arg.getValueAsBit("Optional")) |
| Ptr->setOptional(true); |
| |
| if (Ptr && Arg.getValueAsBit("Fake")) |
| Ptr->setFake(true); |
| |
| return Ptr; |
| } |
| |
| static void writeAvailabilityValue(raw_ostream &OS) { |
| OS << "\" << getPlatform()->getName();\n" |
| << " if (getStrict()) OS << \", strict\";\n" |
| << " if (!getIntroduced().empty()) OS << \", introduced=\" << getIntroduced();\n" |
| << " if (!getDeprecated().empty()) OS << \", deprecated=\" << getDeprecated();\n" |
| << " if (!getObsoleted().empty()) OS << \", obsoleted=\" << getObsoleted();\n" |
| << " if (getUnavailable()) OS << \", unavailable\";\n" |
| << " OS << \""; |
| } |
| |
| static void writeDeprecatedAttrValue(raw_ostream &OS, std::string &Variety) { |
| OS << "\\\"\" << getMessage() << \"\\\"\";\n"; |
| // Only GNU deprecated has an optional fixit argument at the second position. |
| if (Variety == "GNU") |
| OS << " if (!getReplacement().empty()) OS << \", \\\"\"" |
| " << getReplacement() << \"\\\"\";\n"; |
| OS << " OS << \""; |
| } |
| |
| static void writeGetSpellingFunction(Record &R, raw_ostream &OS) { |
| std::vector<FlattenedSpelling> Spellings = GetFlattenedSpellings(R); |
| |
| OS << "const char *" << R.getName() << "Attr::getSpelling() const {\n"; |
| if (Spellings.empty()) { |
| OS << " return \"(No spelling)\";\n}\n\n"; |
| return; |
| } |
| |
| OS << " switch (getAttributeSpellingListIndex()) {\n" |
| " default:\n" |
| " llvm_unreachable(\"Unknown attribute spelling!\");\n" |
| " return \"(No spelling)\";\n"; |
| |
| for (unsigned I = 0; I < Spellings.size(); ++I) |
| OS << " case " << I << ":\n" |
| " return \"" << Spellings[I].name() << "\";\n"; |
| // End of the switch statement. |
| OS << " }\n"; |
| // End of the getSpelling function. |
| OS << "}\n\n"; |
| } |
| |
| static void |
| writePrettyPrintFunction(Record &R, |
| const std::vector<std::unique_ptr<Argument>> &Args, |
| raw_ostream &OS) { |
| std::vector<FlattenedSpelling> Spellings = GetFlattenedSpellings(R); |
| |
| OS << "void " << R.getName() << "Attr::printPretty(" |
| << "raw_ostream &OS, const PrintingPolicy &Policy) const {\n"; |
| |
| if (Spellings.empty()) { |
| OS << "}\n\n"; |
| return; |
| } |
| |
| OS << " switch (getAttributeSpellingListIndex()) {\n" |
| " default:\n" |
| " llvm_unreachable(\"Unknown attribute spelling!\");\n" |
| " break;\n"; |
| |
| for (unsigned I = 0; I < Spellings.size(); ++ I) { |
| llvm::SmallString<16> Prefix; |
| llvm::SmallString<8> Suffix; |
| // The actual spelling of the name and namespace (if applicable) |
| // of an attribute without considering prefix and suffix. |
| llvm::SmallString<64> Spelling; |
| std::string Name = Spellings[I].name(); |
| std::string Variety = Spellings[I].variety(); |
| |
| if (Variety == "GNU") { |
| Prefix = " __attribute__(("; |
| Suffix = "))"; |
| } else if (Variety == "CXX11" || Variety == "C2x") { |
| Prefix = " [["; |
| Suffix = "]]"; |
| std::string Namespace = Spellings[I].nameSpace(); |
| if (!Namespace.empty()) { |
| Spelling += Namespace; |
| Spelling += "::"; |
| } |
| } else if (Variety == "Declspec") { |
| Prefix = " __declspec("; |
| Suffix = ")"; |
| } else if (Variety == "Microsoft") { |
| Prefix = "["; |
| Suffix = "]"; |
| } else if (Variety == "Keyword") { |
| Prefix = " "; |
| Suffix = ""; |
| } else if (Variety == "Pragma") { |
| Prefix = "#pragma "; |
| Suffix = "\n"; |
| std::string Namespace = Spellings[I].nameSpace(); |
| if (!Namespace.empty()) { |
| Spelling += Namespace; |
| Spelling += " "; |
| } |
| } else { |
| llvm_unreachable("Unknown attribute syntax variety!"); |
| } |
| |
| Spelling += Name; |
| |
| OS << |
| " case " << I << " : {\n" |
| " OS << \"" << Prefix << Spelling; |
| |
| if (Variety == "Pragma") { |
| OS << "\";\n"; |
| OS << " printPrettyPragma(OS, Policy);\n"; |
| OS << " OS << \"\\n\";"; |
| OS << " break;\n"; |
| OS << " }\n"; |
| continue; |
| } |
| |
| if (Spelling == "availability") { |
| OS << "("; |
| writeAvailabilityValue(OS); |
| OS << ")"; |
| } else if (Spelling == "deprecated" || Spelling == "gnu::deprecated") { |
| OS << "("; |
| writeDeprecatedAttrValue(OS, Variety); |
| OS << ")"; |
| } else { |
| // To avoid printing parentheses around an empty argument list or |
| // printing spurious commas at the end of an argument list, we need to |
| // determine where the last provided non-fake argument is. |
| unsigned NonFakeArgs = 0; |
| unsigned TrailingOptArgs = 0; |
| bool FoundNonOptArg = false; |
| for (const auto &arg : llvm::reverse(Args)) { |
| if (arg->isFake()) |
| continue; |
| ++NonFakeArgs; |
| if (FoundNonOptArg) |
| continue; |
| // FIXME: arg->getIsOmitted() == "false" means we haven't implemented |
| // any way to detect whether the argument was omitted. |
| if (!arg->isOptional() || arg->getIsOmitted() == "false") { |
| FoundNonOptArg = true; |
| continue; |
| } |
| if (!TrailingOptArgs++) |
| OS << "\";\n" |
| << " unsigned TrailingOmittedArgs = 0;\n"; |
| OS << " if (" << arg->getIsOmitted() << ")\n" |
| << " ++TrailingOmittedArgs;\n"; |
| } |
| if (TrailingOptArgs) |
| OS << " OS << \""; |
| if (TrailingOptArgs < NonFakeArgs) |
| OS << "("; |
| else if (TrailingOptArgs) |
| OS << "\";\n" |
| << " if (TrailingOmittedArgs < " << NonFakeArgs << ")\n" |
| << " OS << \"(\";\n" |
| << " OS << \""; |
| unsigned ArgIndex = 0; |
| for (const auto &arg : Args) { |
| if (arg->isFake()) |
| continue; |
| if (ArgIndex) { |
| if (ArgIndex >= NonFakeArgs - TrailingOptArgs) |
| OS << "\";\n" |
| << " if (" << ArgIndex << " < " << NonFakeArgs |
| << " - TrailingOmittedArgs)\n" |
| << " OS << \", \";\n" |
| << " OS << \""; |
| else |
| OS << ", "; |
| } |
| std::string IsOmitted = arg->getIsOmitted(); |
| if (arg->isOptional() && IsOmitted != "false") |
| OS << "\";\n" |
| << " if (!(" << IsOmitted << ")) {\n" |
| << " OS << \""; |
| arg->writeValue(OS); |
| if (arg->isOptional() && IsOmitted != "false") |
| OS << "\";\n" |
| << " }\n" |
| << " OS << \""; |
| ++ArgIndex; |
| } |
| if (TrailingOptArgs < NonFakeArgs) |
| OS << ")"; |
| else if (TrailingOptArgs) |
| OS << "\";\n" |
| << " if (TrailingOmittedArgs < " << NonFakeArgs << ")\n" |
| << " OS << \")\";\n" |
| << " OS << \""; |
| } |
| |
| OS << Suffix + "\";\n"; |
| |
| OS << |
| " break;\n" |
| " }\n"; |
| } |
| |
| // End of the switch statement. |
| OS << "}\n"; |
| // End of the print function. |
| OS << "}\n\n"; |
| } |
| |
| /// Return the index of a spelling in a spelling list. |
| static unsigned |
| getSpellingListIndex(const std::vector<FlattenedSpelling> &SpellingList, |
| const FlattenedSpelling &Spelling) { |
| assert(!SpellingList.empty() && "Spelling list is empty!"); |
| |
| for (unsigned Index = 0; Index < SpellingList.size(); ++Index) { |
| const FlattenedSpelling &S = SpellingList[Index]; |
| if (S.variety() != Spelling.variety()) |
| continue; |
| if (S.nameSpace() != Spelling.nameSpace()) |
| continue; |
| if (S.name() != Spelling.name()) |
| continue; |
| |
| return Index; |
| } |
| |
| llvm_unreachable("Unknown spelling!"); |
| } |
| |
| static void writeAttrAccessorDefinition(const Record &R, raw_ostream &OS) { |
| std::vector<Record*> Accessors = R.getValueAsListOfDefs("Accessors"); |
| if (Accessors.empty()) |
| return; |
| |
| const std::vector<FlattenedSpelling> SpellingList = GetFlattenedSpellings(R); |
| assert(!SpellingList.empty() && |
| "Attribute with empty spelling list can't have accessors!"); |
| for (const auto *Accessor : Accessors) { |
| const StringRef Name = Accessor->getValueAsString("Name"); |
| std::vector<FlattenedSpelling> Spellings = GetFlattenedSpellings(*Accessor); |
| |
| OS << " bool " << Name |
| << "() const { return getAttributeSpellingListIndex() == "; |
| for (unsigned Index = 0; Index < Spellings.size(); ++Index) { |
| OS << getSpellingListIndex(SpellingList, Spellings[Index]); |
| if (Index != Spellings.size() - 1) |
| OS << " ||\n getAttributeSpellingListIndex() == "; |
| else |
| OS << "; }\n"; |
| } |
| } |
| } |
| |
| static bool |
| SpellingNamesAreCommon(const std::vector<FlattenedSpelling>& Spellings) { |
| assert(!Spellings.empty() && "An empty list of spellings was provided"); |
| std::string FirstName = NormalizeNameForSpellingComparison( |
| Spellings.front().name()); |
| for (const auto &Spelling : |
| llvm::make_range(std::next(Spellings.begin()), Spellings.end())) { |
| std::string Name = NormalizeNameForSpellingComparison(Spelling.name()); |
| if (Name != FirstName) |
| return false; |
| } |
| return true; |
| } |
| |
| typedef std::map<unsigned, std::string> SemanticSpellingMap; |
| static std::string |
| CreateSemanticSpellings(const std::vector<FlattenedSpelling> &Spellings, |
| SemanticSpellingMap &Map) { |
| // The enumerants are automatically generated based on the variety, |
| // namespace (if present) and name for each attribute spelling. However, |
| // care is taken to avoid trampling on the reserved namespace due to |
| // underscores. |
| std::string Ret(" enum Spelling {\n"); |
| std::set<std::string> Uniques; |
| unsigned Idx = 0; |
| |
| // If we have a need to have this many spellings we likely need to add an |
| // extra bit to the SpellingIndex in AttributeCommonInfo, then increase the |
| // value of SpellingNotCalculated there and here. |
| assert(Spellings.size() < 15 && |
| "Too many spellings, would step on SpellingNotCalculated in " |
| "AttributeCommonInfo"); |
| for (auto I = Spellings.begin(), E = Spellings.end(); I != E; ++I, ++Idx) { |
| const FlattenedSpelling &S = *I; |
| const std::string &Variety = S.variety(); |
| const std::string &Spelling = S.name(); |
| const std::string &Namespace = S.nameSpace(); |
| std::string EnumName; |
| |
| EnumName += (Variety + "_"); |
| if (!Namespace.empty()) |
| EnumName += (NormalizeNameForSpellingComparison(Namespace).str() + |
| "_"); |
| EnumName += NormalizeNameForSpellingComparison(Spelling); |
| |
| // Even if the name is not unique, this spelling index corresponds to a |
| // particular enumerant name that we've calculated. |
| Map[Idx] = EnumName; |
| |
| // Since we have been stripping underscores to avoid trampling on the |
| // reserved namespace, we may have inadvertently created duplicate |
| // enumerant names. These duplicates are not considered part of the |
| // semantic spelling, and can be elided. |
| if (Uniques.find(EnumName) != Uniques.end()) |
| continue; |
| |
| Uniques.insert(EnumName); |
| if (I != Spellings.begin()) |
| Ret += ",\n"; |
| // Duplicate spellings are not considered part of the semantic spelling |
| // enumeration, but the spelling index and semantic spelling values are |
| // meant to be equivalent, so we must specify a concrete value for each |
| // enumerator. |
| Ret += " " + EnumName + " = " + llvm::utostr(Idx); |
| } |
| Ret += ",\n SpellingNotCalculated = 15\n"; |
| Ret += "\n };\n\n"; |
| return Ret; |
| } |
| |
| void WriteSemanticSpellingSwitch(const std::string &VarName, |
| const SemanticSpellingMap &Map, |
| raw_ostream &OS) { |
| OS << " switch (" << VarName << ") {\n default: " |
| << "llvm_unreachable(\"Unknown spelling list index\");\n"; |
| for (const auto &I : Map) |
| OS << " case " << I.first << ": return " << I.second << ";\n"; |
| OS << " }\n"; |
| } |
| |
| // Emits the LateParsed property for attributes. |
| static void emitClangAttrLateParsedList(RecordKeeper &Records, raw_ostream &OS) { |
| OS << "#if defined(CLANG_ATTR_LATE_PARSED_LIST)\n"; |
| std::vector<Record*> Attrs = Records.getAllDerivedDefinitions("Attr"); |
| |
| for (const auto *Attr : Attrs) { |
| bool LateParsed = Attr->getValueAsBit("LateParsed"); |
| |
| if (LateParsed) { |
| std::vector<FlattenedSpelling> Spellings = GetFlattenedSpellings(*Attr); |
| |
| // FIXME: Handle non-GNU attributes |
| for (const auto &I : Spellings) { |
| if (I.variety() != "GNU") |
| continue; |
| OS << ".Case(\"" << I.name() << "\", " << LateParsed << ")\n"; |
| } |
| } |
| } |
| OS << "#endif // CLANG_ATTR_LATE_PARSED_LIST\n\n"; |
| } |
| |
| static bool hasGNUorCXX11Spelling(const Record &Attribute) { |
| std::vector<FlattenedSpelling> Spellings = GetFlattenedSpellings(Attribute); |
| for (const auto &I : Spellings) { |
| if (I.variety() == "GNU" || I.variety() == "CXX11") |
| return true; |
| } |
| return false; |
| } |
| |
| namespace { |
| |
| struct AttributeSubjectMatchRule { |
| const Record *MetaSubject; |
| const Record *Constraint; |
| |
| AttributeSubjectMatchRule(const Record *MetaSubject, const Record *Constraint) |
| : MetaSubject(MetaSubject), Constraint(Constraint) { |
| assert(MetaSubject && "Missing subject"); |
| } |
| |
| bool isSubRule() const { return Constraint != nullptr; } |
| |
| std::vector<Record *> getSubjects() const { |
| return (Constraint ? Constraint : MetaSubject) |
| ->getValueAsListOfDefs("Subjects"); |
| } |
| |
| std::vector<Record *> getLangOpts() const { |
| if (Constraint) { |
| // Lookup the options in the sub-rule first, in case the sub-rule |
| // overrides the rules options. |
| std::vector<Record *> Opts = Constraint->getValueAsListOfDefs("LangOpts"); |
| if (!Opts.empty()) |
| return Opts; |
| } |
| return MetaSubject->getValueAsListOfDefs("LangOpts"); |
| } |
| |
| // Abstract rules are used only for sub-rules |
| bool isAbstractRule() const { return getSubjects().empty(); } |
| |
| StringRef getName() const { |
| return (Constraint ? Constraint : MetaSubject)->getValueAsString("Name"); |
| } |
| |
| bool isNegatedSubRule() const { |
| assert(isSubRule() && "Not a sub-rule"); |
| return Constraint->getValueAsBit("Negated"); |
| } |
| |
| std::string getSpelling() const { |
| std::string Result = MetaSubject->getValueAsString("Name"); |
| if (isSubRule()) { |
| Result += '('; |
| if (isNegatedSubRule()) |
| Result += "unless("; |
| Result += getName(); |
| if (isNegatedSubRule()) |
| Result += ')'; |
| Result += ')'; |
| } |
| return Result; |
| } |
| |
| std::string getEnumValueName() const { |
| SmallString<128> Result; |
| Result += "SubjectMatchRule_"; |
| Result += MetaSubject->getValueAsString("Name"); |
| if (isSubRule()) { |
| Result += "_"; |
| if (isNegatedSubRule()) |
| Result += "not_"; |
| Result += Constraint->getValueAsString("Name"); |
| } |
| if (isAbstractRule()) |
| Result += "_abstract"; |
| return Result.str(); |
| } |
| |
| std::string getEnumValue() const { return "attr::" + getEnumValueName(); } |
| |
| static const char *EnumName; |
| }; |
| |
| const char *AttributeSubjectMatchRule::EnumName = "attr::SubjectMatchRule"; |
| |
| struct PragmaClangAttributeSupport { |
| std::vector<AttributeSubjectMatchRule> Rules; |
| |
| class RuleOrAggregateRuleSet { |
| std::vector<AttributeSubjectMatchRule> Rules; |
| bool IsRule; |
| RuleOrAggregateRuleSet(ArrayRef<AttributeSubjectMatchRule> Rules, |
| bool IsRule) |
| : Rules(Rules), IsRule(IsRule) {} |
| |
| public: |
| bool isRule() const { return IsRule; } |
| |
| const AttributeSubjectMatchRule &getRule() const { |
| assert(IsRule && "not a rule!"); |
| return Rules[0]; |
| } |
| |
| ArrayRef<AttributeSubjectMatchRule> getAggregateRuleSet() const { |
| return Rules; |
| } |
| |
| static RuleOrAggregateRuleSet |
| getRule(const AttributeSubjectMatchRule &Rule) { |
| return RuleOrAggregateRuleSet(Rule, /*IsRule=*/true); |
| } |
| static RuleOrAggregateRuleSet |
| getAggregateRuleSet(ArrayRef<AttributeSubjectMatchRule> Rules) { |
| return RuleOrAggregateRuleSet(Rules, /*IsRule=*/false); |
| } |
| }; |
| llvm::DenseMap<const Record *, RuleOrAggregateRuleSet> SubjectsToRules; |
| |
| PragmaClangAttributeSupport(RecordKeeper &Records); |
| |
| bool isAttributedSupported(const Record &Attribute); |
| |
| void emitMatchRuleList(raw_ostream &OS); |
| |
| std::string generateStrictConformsTo(const Record &Attr, raw_ostream &OS); |
| |
| void generateParsingHelpers(raw_ostream &OS); |
| }; |
| |
| } // end anonymous namespace |
| |
| static bool doesDeclDeriveFrom(const Record *D, const Record *Base) { |
| const Record *CurrentBase = D->getValueAsDef("Base"); |
| if (!CurrentBase) |
| return false; |
| if (CurrentBase == Base) |
| return true; |
| return doesDeclDeriveFrom(CurrentBase, Base); |
| } |
| |
| PragmaClangAttributeSupport::PragmaClangAttributeSupport( |
| RecordKeeper &Records) { |
| std::vector<Record *> MetaSubjects = |
| Records.getAllDerivedDefinitions("AttrSubjectMatcherRule"); |
| auto MapFromSubjectsToRules = [this](const Record *SubjectContainer, |
| const Record *MetaSubject, |
| const Record *Constraint) { |
| Rules.emplace_back(MetaSubject, Constraint); |
| std::vector<Record *> ApplicableSubjects = |
| SubjectContainer->getValueAsListOfDefs("Subjects"); |
| for (const auto *Subject : ApplicableSubjects) { |
| bool Inserted = |
| SubjectsToRules |
| .try_emplace(Subject, RuleOrAggregateRuleSet::getRule( |
| AttributeSubjectMatchRule(MetaSubject, |
| Constraint))) |
| .second; |
| if (!Inserted) { |
| PrintFatalError("Attribute subject match rules should not represent" |
| "same attribute subjects."); |
| } |
| } |
| }; |
| for (const auto *MetaSubject : MetaSubjects) { |
| MapFromSubjectsToRules(MetaSubject, MetaSubject, /*Constraints=*/nullptr); |
| std::vector<Record *> Constraints = |
| MetaSubject->getValueAsListOfDefs("Constraints"); |
| for (const auto *Constraint : Constraints) |
| MapFromSubjectsToRules(Constraint, MetaSubject, Constraint); |
| } |
| |
| std::vector<Record *> Aggregates = |
| Records.getAllDerivedDefinitions("AttrSubjectMatcherAggregateRule"); |
| std::vector<Record *> DeclNodes = Records.getAllDerivedDefinitions("DDecl"); |
| for (const auto *Aggregate : Aggregates) { |
| Record *SubjectDecl = Aggregate->getValueAsDef("Subject"); |
| |
| // Gather sub-classes of the aggregate subject that act as attribute |
| // subject rules. |
| std::vector<AttributeSubjectMatchRule> Rules; |
| for (const auto *D : DeclNodes) { |
| if (doesDeclDeriveFrom(D, SubjectDecl)) { |
| auto It = SubjectsToRules.find(D); |
| if (It == SubjectsToRules.end()) |
| continue; |
| if (!It->second.isRule() || It->second.getRule().isSubRule()) |
| continue; // Assume that the rule will be included as well. |
| Rules.push_back(It->second.getRule()); |
| } |
| } |
| |
| bool Inserted = |
| SubjectsToRules |
| .try_emplace(SubjectDecl, |
| RuleOrAggregateRuleSet::getAggregateRuleSet(Rules)) |
| .second; |
| if (!Inserted) { |
| PrintFatalError("Attribute subject match rules should not represent" |
| "same attribute subjects."); |
| } |
| } |
| } |
| |
| static PragmaClangAttributeSupport & |
| getPragmaAttributeSupport(RecordKeeper &Records) { |
| static PragmaClangAttributeSupport Instance(Records); |
| return Instance; |
| } |
| |
| void PragmaClangAttributeSupport::emitMatchRuleList(raw_ostream &OS) { |
| OS << "#ifndef ATTR_MATCH_SUB_RULE\n"; |
| OS << "#define ATTR_MATCH_SUB_RULE(Value, Spelling, IsAbstract, Parent, " |
| "IsNegated) " |
| << "ATTR_MATCH_RULE(Value, Spelling, IsAbstract)\n"; |
| OS << "#endif\n"; |
| for (const auto &Rule : Rules) { |
| OS << (Rule.isSubRule() ? "ATTR_MATCH_SUB_RULE" : "ATTR_MATCH_RULE") << '('; |
| OS << Rule.getEnumValueName() << ", \"" << Rule.getSpelling() << "\", " |
| << Rule.isAbstractRule(); |
| if (Rule.isSubRule()) |
| OS << ", " |
| << AttributeSubjectMatchRule(Rule.MetaSubject, nullptr).getEnumValue() |
| << ", " << Rule.isNegatedSubRule(); |
| OS << ")\n"; |
| } |
| OS << "#undef ATTR_MATCH_SUB_RULE\n"; |
| } |
| |
| bool PragmaClangAttributeSupport::isAttributedSupported( |
| const Record &Attribute) { |
| // If the attribute explicitly specified whether to support #pragma clang |
| // attribute, use that setting. |
| bool Unset; |
| bool SpecifiedResult = |
| Attribute.getValueAsBitOrUnset("PragmaAttributeSupport", Unset); |
| if (!Unset) |
| return SpecifiedResult; |
| |
| // Opt-out rules: |
| // An attribute requires delayed parsing (LateParsed is on) |
| if (Attribute.getValueAsBit("LateParsed")) |
| return false; |
| // An attribute has no GNU/CXX11 spelling |
| if (!hasGNUorCXX11Spelling(Attribute)) |
| return false; |
| // An attribute subject list has a subject that isn't covered by one of the |
| // subject match rules or has no subjects at all. |
| if (Attribute.isValueUnset("Subjects")) |
| return false; |
| const Record *SubjectObj = Attribute.getValueAsDef("Subjects"); |
| std::vector<Record *> Subjects = SubjectObj->getValueAsListOfDefs("Subjects"); |
| if (Subjects.empty()) |
| return false; |
| for (const auto *Subject : Subjects) { |
| if (SubjectsToRules.find(Subject) == SubjectsToRules.end()) |
| return false; |
| } |
| return true; |
| } |
| |
| static std::string GenerateTestExpression(ArrayRef<Record *> LangOpts) { |
| std::string Test; |
| |
| for (auto *E : LangOpts) { |
| if (!Test.empty()) |
| Test += " || "; |
| |
| const StringRef Code = E->getValueAsString("CustomCode"); |
| if (!Code.empty()) { |
| Test += "("; |
| Test += Code; |
| Test += ")"; |
| } else { |
| Test += "LangOpts."; |
| Test += E->getValueAsString("Name"); |
| } |
| } |
| |
| if (Test.empty()) |
| return "true"; |
| |
| return Test; |
| } |
| |
| std::string |
| PragmaClangAttributeSupport::generateStrictConformsTo(const Record &Attr, |
| raw_ostream &OS) { |
| if (!isAttributedSupported(Attr)) |
| return "nullptr"; |
| // Generate a function that constructs a set of matching rules that describe |
| // to which declarations the attribute should apply to. |
| std::string FnName = "matchRulesFor" + Attr.getName().str(); |
| OS << "static void " << FnName << "(llvm::SmallVectorImpl<std::pair<" |
| << AttributeSubjectMatchRule::EnumName |
| << ", bool>> &MatchRules, const LangOptions &LangOpts) {\n"; |
| if (Attr.isValueUnset("Subjects")) { |
| OS << "}\n\n"; |
| return FnName; |
| } |
| const Record *SubjectObj = Attr.getValueAsDef("Subjects"); |
| std::vector<Record *> Subjects = SubjectObj->getValueAsListOfDefs("Subjects"); |
| for (const auto *Subject : Subjects) { |
| auto It = SubjectsToRules.find(Subject); |
| assert(It != SubjectsToRules.end() && |
| "This attribute is unsupported by #pragma clang attribute"); |
| for (const auto &Rule : It->getSecond().getAggregateRuleSet()) { |
| // The rule might be language specific, so only subtract it from the given |
| // rules if the specific language options are specified. |
| std::vector<Record *> LangOpts = Rule.getLangOpts(); |
| OS << " MatchRules.push_back(std::make_pair(" << Rule.getEnumValue() |
| << ", /*IsSupported=*/" << GenerateTestExpression(LangOpts) |
| << "));\n"; |
| } |
| } |
| OS << "}\n\n"; |
| return FnName; |
| } |
| |
| void PragmaClangAttributeSupport::generateParsingHelpers(raw_ostream &OS) { |
| // Generate routines that check the names of sub-rules. |
| OS << "Optional<attr::SubjectMatchRule> " |
| "defaultIsAttributeSubjectMatchSubRuleFor(StringRef, bool) {\n"; |
| OS << " return None;\n"; |
| OS << "}\n\n"; |
| |
| std::map<const Record *, std::vector<AttributeSubjectMatchRule>> |
| SubMatchRules; |
| for (const auto &Rule : Rules) { |
| if (!Rule.isSubRule()) |
| continue; |
| SubMatchRules[Rule.MetaSubject].push_back(Rule); |
| } |
| |
| for (const auto &SubMatchRule : SubMatchRules) { |
| OS << "Optional<attr::SubjectMatchRule> isAttributeSubjectMatchSubRuleFor_" |
| << SubMatchRule.first->getValueAsString("Name") |
| << "(StringRef Name, bool IsUnless) {\n"; |
| OS << " if (IsUnless)\n"; |
| OS << " return " |
| "llvm::StringSwitch<Optional<attr::SubjectMatchRule>>(Name).\n"; |
| for (const auto &Rule : SubMatchRule.second) { |
| if (Rule.isNegatedSubRule()) |
| OS << " Case(\"" << Rule.getName() << "\", " << Rule.getEnumValue() |
| << ").\n"; |
| } |
| OS << " Default(None);\n"; |
| OS << " return " |
| "llvm::StringSwitch<Optional<attr::SubjectMatchRule>>(Name).\n"; |
| for (const auto &Rule : SubMatchRule.second) { |
| if (!Rule.isNegatedSubRule()) |
| OS << " Case(\"" << Rule.getName() << "\", " << Rule.getEnumValue() |
| << ").\n"; |
| } |
| OS << " Default(None);\n"; |
| OS << "}\n\n"; |
| } |
| |
| // Generate the function that checks for the top-level rules. |
| OS << "std::pair<Optional<attr::SubjectMatchRule>, " |
| "Optional<attr::SubjectMatchRule> (*)(StringRef, " |
| "bool)> isAttributeSubjectMatchRule(StringRef Name) {\n"; |
| OS << " return " |
| "llvm::StringSwitch<std::pair<Optional<attr::SubjectMatchRule>, " |
| "Optional<attr::SubjectMatchRule> (*) (StringRef, " |
| "bool)>>(Name).\n"; |
| for (const auto &Rule : Rules) { |
| if (Rule.isSubRule()) |
| continue; |
| std::string SubRuleFunction; |
| if (SubMatchRules.count(Rule.MetaSubject)) |
| SubRuleFunction = |
| ("isAttributeSubjectMatchSubRuleFor_" + Rule.getName()).str(); |
| else |
| SubRuleFunction = "defaultIsAttributeSubjectMatchSubRuleFor"; |
| OS << " Case(\"" << Rule.getName() << "\", std::make_pair(" |
| << Rule.getEnumValue() << ", " << SubRuleFunction << ")).\n"; |
| } |
| OS << " Default(std::make_pair(None, " |
| "defaultIsAttributeSubjectMatchSubRuleFor));\n"; |
| OS << "}\n\n"; |
| |
| // Generate the function that checks for the submatch rules. |
| OS << "const char *validAttributeSubjectMatchSubRules(" |
| << AttributeSubjectMatchRule::EnumName << " Rule) {\n"; |
| OS << " switch (Rule) {\n"; |
| for (const auto &SubMatchRule : SubMatchRules) { |
| OS << " case " |
| << AttributeSubjectMatchRule(SubMatchRule.first, nullptr).getEnumValue() |
| << ":\n"; |
| OS << " return \"'"; |
| bool IsFirst = true; |
| for (const auto &Rule : SubMatchRule.second) { |
| if (!IsFirst) |
| OS << ", '"; |
| IsFirst = false; |
| if (Rule.isNegatedSubRule()) |
| OS << "unless("; |
| OS << Rule.getName(); |
| if (Rule.isNegatedSubRule()) |
| OS << ')'; |
| OS << "'"; |
| } |
| OS << "\";\n"; |
| } |
| OS << " default: return nullptr;\n"; |
| OS << " }\n"; |
| OS << "}\n\n"; |
| } |
| |
| template <typename Fn> |
| static void forEachUniqueSpelling(const Record &Attr, Fn &&F) { |
| std::vector<FlattenedSpelling> Spellings = GetFlattenedSpellings(Attr); |
| SmallDenseSet<StringRef, 8> Seen; |
| for (const FlattenedSpelling &S : Spellings) { |
| if (Seen.insert(S.name()).second) |
| F(S); |
| } |
| } |
| |
| /// Emits the first-argument-is-type property for attributes. |
| static void emitClangAttrTypeArgList(RecordKeeper &Records, raw_ostream &OS) { |
| OS << "#if defined(CLANG_ATTR_TYPE_ARG_LIST)\n"; |
| std::vector<Record *> Attrs = Records.getAllDerivedDefinitions("Attr"); |
| |
| for (const auto *Attr : Attrs) { |
| // Determine whether the first argument is a type. |
| std::vector<Record *> Args = Attr->getValueAsListOfDefs("Args"); |
| if (Args.empty()) |
| continue; |
| |
| if (Args[0]->getSuperClasses().back().first->getName() != "TypeArgument") |
| continue; |
| |
| // All these spellings take a single type argument. |
| forEachUniqueSpelling(*Attr, [&](const FlattenedSpelling &S) { |
| OS << ".Case(\"" << S.name() << "\", " << "true" << ")\n"; |
| }); |
| } |
| OS << "#endif // CLANG_ATTR_TYPE_ARG_LIST\n\n"; |
| } |
| |
| /// Emits the parse-arguments-in-unevaluated-context property for |
| /// attributes. |
| static void emitClangAttrArgContextList(RecordKeeper &Records, raw_ostream &OS) { |
| OS << "#if defined(CLANG_ATTR_ARG_CONTEXT_LIST)\n"; |
| ParsedAttrMap Attrs = getParsedAttrList(Records); |
| for (const auto &I : Attrs) { |
| const Record &Attr = *I.second; |
| |
| if (!Attr.getValueAsBit("ParseArgumentsAsUnevaluated")) |
| continue; |
| |
| // All these spellings take are parsed unevaluated. |
| forEachUniqueSpelling(Attr, [&](const FlattenedSpelling &S) { |
| OS << ".Case(\"" << S.name() << "\", " << "true" << ")\n"; |
| }); |
| } |
| OS << "#endif // CLANG_ATTR_ARG_CONTEXT_LIST\n\n"; |
| } |
| |
| static bool isIdentifierArgument(Record *Arg) { |
| return !Arg->getSuperClasses().empty() && |
| llvm::StringSwitch<bool>(Arg->getSuperClasses().back().first->getName()) |
| .Case("IdentifierArgument", true) |
| .Case("EnumArgument", true) |
| .Case("VariadicEnumArgument", true) |
| .Default(false); |
| } |
| |
| static bool isVariadicIdentifierArgument(Record *Arg) { |
| return !Arg->getSuperClasses().empty() && |
| llvm::StringSwitch<bool>( |
| Arg->getSuperClasses().back().first->getName()) |
| .Case("VariadicIdentifierArgument", true) |
| .Case("VariadicParamOrParamIdxArgument", true) |
| .Default(false); |
| } |
| |
| static void emitClangAttrVariadicIdentifierArgList(RecordKeeper &Records, |
| raw_ostream &OS) { |
| OS << "#if defined(CLANG_ATTR_VARIADIC_IDENTIFIER_ARG_LIST)\n"; |
| std::vector<Record *> Attrs = Records.getAllDerivedDefinitions("Attr"); |
| for (const auto *A : Attrs) { |
| // Determine whether the first argument is a variadic identifier. |
| std::vector<Record *> Args = A->getValueAsListOfDefs("Args"); |
| if (Args.empty() || !isVariadicIdentifierArgument(Args[0])) |
| continue; |
| |
| // All these spellings take an identifier argument. |
| forEachUniqueSpelling(*A, [&](const FlattenedSpelling &S) { |
| OS << ".Case(\"" << S.name() << "\", " |
| << "true" |
| << ")\n"; |
| }); |
| } |
| OS << "#endif // CLANG_ATTR_VARIADIC_IDENTIFIER_ARG_LIST\n\n"; |
| } |
| |
| // Emits the first-argument-is-identifier property for attributes. |
| static void emitClangAttrIdentifierArgList(RecordKeeper &Records, raw_ostream &OS) { |
| OS << "#if defined(CLANG_ATTR_IDENTIFIER_ARG_LIST)\n"; |
| std::vector<Record*> Attrs = Records.getAllDerivedDefinitions("Attr"); |
| |
| for (const auto *Attr : Attrs) { |
| // Determine whether the first argument is an identifier. |
| std::vector<Record *> Args = Attr->getValueAsListOfDefs("Args"); |
| if (Args.empty() || !isIdentifierArgument(Args[0])) |
| continue; |
| |
| // All these spellings take an identifier argument. |
| forEachUniqueSpelling(*Attr, [&](const FlattenedSpelling &S) { |
| OS << ".Case(\"" << S.name() << "\", " << "true" << ")\n"; |
| }); |
| } |
| OS << "#endif // CLANG_ATTR_IDENTIFIER_ARG_LIST\n\n"; |
| } |
| |
| static bool keywordThisIsaIdentifierInArgument(const Record *Arg) { |
| return !Arg->getSuperClasses().empty() && |
| llvm::StringSwitch<bool>( |
| Arg->getSuperClasses().back().first->getName()) |
| .Case("VariadicParamOrParamIdxArgument", true) |
| .Default(false); |
| } |
| |
| static void emitClangAttrThisIsaIdentifierArgList(RecordKeeper &Records, |
| raw_ostream &OS) { |
| OS << "#if defined(CLANG_ATTR_THIS_ISA_IDENTIFIER_ARG_LIST)\n"; |
| std::vector<Record *> Attrs = Records.getAllDerivedDefinitions("Attr"); |
| for (const auto *A : Attrs) { |
| // Determine whether the first argument is a variadic identifier. |
| std::vector<Record *> Args = A->getValueAsListOfDefs("Args"); |
| if (Args.empty() || !keywordThisIsaIdentifierInArgument(Args[0])) |
| continue; |
| |
| // All these spellings take an identifier argument. |
| forEachUniqueSpelling(*A, [&](const FlattenedSpelling &S) { |
| OS << ".Case(\"" << S.name() << "\", " |
| << "true" |
| << ")\n"; |
| }); |
| } |
| OS << "#endif // CLANG_ATTR_THIS_ISA_IDENTIFIER_ARG_LIST\n\n"; |
| } |
| |
| // Emits the class definitions for attributes. |
| void clang::EmitClangAttrClass(RecordKeeper &Records, raw_ostream &OS) { |
| emitSourceFileHeader("Attribute classes' definitions", OS); |
| |
| OS << "#ifndef LLVM_CLANG_ATTR_CLASSES_INC\n"; |
| OS << "#define LLVM_CLANG_ATTR_CLASSES_INC\n\n"; |
| |
| std::vector<Record*> Attrs = Records.getAllDerivedDefinitions("Attr"); |
| ParsedAttrMap AttrMap = getParsedAttrList(Records); |
| |
| for (const auto *Attr : Attrs) { |
| const Record &R = *Attr; |
| |
| // FIXME: Currently, documentation is generated as-needed due to the fact |
| // that there is no way to allow a generated project "reach into" the docs |
| // directory (for instance, it may be an out-of-tree build). However, we want |
| // to ensure that every attribute has a Documentation field, and produce an |
| // error if it has been neglected. Otherwise, the on-demand generation which |
| // happens server-side will fail. This code is ensuring that functionality, |
| // even though this Emitter doesn't technically need the documentation. |
| // When attribute documentation can be generated as part of the build |
| // itself, this code can be removed. |
| (void)R.getValueAsListOfDefs("Documentation"); |
| |
| if (!R.getValueAsBit("ASTNode")) |
| continue; |
| |
| ArrayRef<std::pair<Record *, SMRange>> Supers = R.getSuperClasses(); |
| assert(!Supers.empty() && "Forgot to specify a superclass for the attr"); |
| std::string SuperName; |
| bool Inheritable = false; |
| for (const auto &Super : llvm::reverse(Supers)) { |
| const Record *R = Super.first; |
| if (R->getName() != "TargetSpecificAttr" && |
| R->getName() != "DeclOrTypeAttr" && SuperName.empty()) |
| SuperName = R->getName(); |
| if (R->getName() == "InheritableAttr") |
| Inheritable = true; |
| } |
| |
| OS << "class " << R.getName() << "Attr : public " << SuperName << " {\n"; |
| |
| std::vector<Record*> ArgRecords = R.getValueAsListOfDefs("Args"); |
| std::vector<std::unique_ptr<Argument>> Args; |
| Args.reserve(ArgRecords.size()); |
| |
| bool HasOptArg = false; |
| bool HasFakeArg = false; |
| for (const auto *ArgRecord : ArgRecords) { |
| Args.emplace_back(createArgument(*ArgRecord, R.getName())); |
| Args.back()->writeDeclarations(OS); |
| OS << "\n\n"; |
| |
| // For these purposes, fake takes priority over optional. |
| if (Args.back()->isFake()) { |
| HasFakeArg = true; |
| } else if (Args.back()->isOptional()) { |
| HasOptArg = true; |
| } |
| } |
| |
| OS << "public:\n"; |
| |
| std::vector<FlattenedSpelling> Spellings = GetFlattenedSpellings(R); |
| |
| // If there are zero or one spellings, all spelling-related functionality |
| // can be elided. If all of the spellings share the same name, the spelling |
| // functionality can also be elided. |
| bool ElideSpelling = (Spellings.size() <= 1) || |
| SpellingNamesAreCommon(Spellings); |
| |
| // This maps spelling index values to semantic Spelling enumerants. |
| SemanticSpellingMap SemanticToSyntacticMap; |
| |
| if (!ElideSpelling) |
| OS << CreateSemanticSpellings(Spellings, SemanticToSyntacticMap); |
| |
| const auto &ParsedAttrSpellingItr = llvm::find_if( |
| AttrMap, [R](const std::pair<std::string, const Record *> &P) { |
| return &R == P.second; |
| }); |
| |
| // Emit CreateImplicit factory methods. |
| auto emitCreate = [&](bool Implicit, bool emitFake) { |
| OS << " static " << R.getName() << "Attr *Create"; |
| if (Implicit) |
| OS << "Implicit"; |
| OS << "("; |
| OS << "ASTContext &Ctx"; |
| for (auto const &ai : Args) { |
| if (ai->isFake() && !emitFake) continue; |
| OS << ", "; |
| ai->writeCtorParameters(OS); |
| } |
| OS << ", const AttributeCommonInfo &CommonInfo = {SourceRange{}}) {\n"; |
| OS << " auto *A = new (Ctx) " << R.getName(); |
| OS << "Attr(Ctx, CommonInfo"; |
| for (auto const &ai : Args) { |
| if (ai->isFake() && !emitFake) continue; |
| OS << ", "; |
| ai->writeImplicitCtorArgs(OS); |
| } |
| OS << ");\n"; |
| if (Implicit) { |
| OS << " A->setImplicit(true);\n"; |
| } |
| if (Implicit || ElideSpelling) { |
| OS << " if (!A->isAttributeSpellingListCalculated() && " |
| "!A->getAttrName())\n"; |
| OS << " A->setAttributeSpellingListIndex(0);\n"; |
| } |
| OS << " return A;\n }\n\n"; |
| }; |
| |
| auto emitCreateNoCI = [&](bool Implicit, bool emitFake) { |
| OS <<" static " << R.getName() << "Attr *Create"; |
| if (Implicit) |
| OS << "Implicit"; |
| OS << "("; |
| OS << "ASTContext &Ctx"; |
| for (auto const &ai : Args) { |
| if (ai->isFake() && !emitFake) continue; |
| OS << ", "; |
| ai->writeCtorParameters(OS); |
| } |
| OS << ", SourceRange Range, AttributeCommonInfo::Syntax Syntax"; |
| if (!ElideSpelling) |
| OS << ", " << R.getName() |
| << "Attr::Spelling S = " |
| "static_cast<Spelling>(SpellingNotCalculated)"; |
| OS << ") {\n"; |
| OS << " AttributeCommonInfo I(Range, "; |
| |
| if (ParsedAttrSpellingItr != std::end(AttrMap)) |
| OS << "AT_" << ParsedAttrSpellingItr->first; |
| else |
| OS << "NoSemaHandlerAttribute"; |
| |
| OS << ", Syntax"; |
| if (!ElideSpelling) |
| OS << ", S"; |
| OS << ");\n"; |
| OS << " return Create"; |
| if (Implicit) |
| OS << "Implicit"; |
| OS << "(Ctx"; |
| for (auto const &ai : Args) { |
| if (ai->isFake() && !emitFake) continue; |
| OS << ", "; |
| ai->writeImplicitCtorArgs(OS); |
| } |
| OS << ", I);\n"; |
| OS << " }\n"; |
| }; |
| |
| auto emitCreates = [&](bool emitFake) { |
| emitCreate(true, emitFake); |
| emitCreate(false, emitFake); |
| emitCreateNoCI(true, emitFake); |
| emitCreateNoCI(false, emitFake); |
| }; |
| |
| // Emit a CreateImplicit that takes all the arguments. |
| emitCreates(true); |
| |
| // Emit a CreateImplicit that takes all the non-fake arguments. |
| if (HasFakeArg) |
| emitCreates(false); |
| |
| // Emit constructors. |
| auto emitCtor = [&](bool emitOpt, bool emitFake) { |
| auto shouldEmitArg = [=](const std::unique_ptr<Argument> &arg) { |
| if (arg->isFake()) return emitFake; |
| if (arg->isOptional()) return emitOpt; |
| return true; |
| }; |
| OS << " " << R.getName() |
| << "Attr(ASTContext &Ctx, const AttributeCommonInfo &CommonInfo"; |
| OS << '\n'; |
| for (auto const &ai : Args) { |
| if (!shouldEmitArg(ai)) continue; |
| OS << " , "; |
| ai->writeCtorParameters(OS); |
| OS << "\n"; |
| } |
| |
| OS << " )\n"; |
| OS << " : " << SuperName << "(Ctx, CommonInfo, "; |
| OS << "attr::" << R.getName() << ", " |
| << (R.getValueAsBit("LateParsed") ? "true" : "false"); |
| if (Inheritable) { |
| OS << ", " |
| << (R.getValueAsBit("InheritEvenIfAlreadyPresent") ? "true" |
| : "false"); |
| } |
| OS << ")\n"; |
| |
| for (auto const &ai : Args) { |
| OS << " , "; |
| if (!shouldEmitArg(ai)) { |
| ai->writeCtorDefaultInitializers(OS); |
| } else { |
| ai->writeCtorInitializers(OS); |
| } |
| OS << "\n"; |
| } |
| |
| OS << " {\n"; |
| |
| for (auto const &ai : Args) { |
| if (!shouldEmitArg(ai)) continue; |
| ai->writeCtorBody(OS); |
| } |
| OS << " }\n\n"; |
| }; |
| |
| // Emit a constructor that includes all the arguments. |
| // This is necessary for cloning. |
| emitCtor(true, true); |
| |
| // Emit a constructor that takes all the non-fake arguments. |
| if (HasFakeArg) |
| emitCtor(true, false); |
| |
| // Emit a constructor that takes all the non-fake, non-optional arguments. |
| if (HasOptArg) |
| emitCtor(false, false); |
| |
| OS << " " << R.getName() << "Attr *clone(ASTContext &C) const;\n"; |
| OS << " void printPretty(raw_ostream &OS,\n" |
| << " const PrintingPolicy &Policy) const;\n"; |
| OS << " const char *getSpelling() const;\n"; |
| |
| if (!ElideSpelling) { |
| assert(!SemanticToSyntacticMap.empty() && "Empty semantic mapping list"); |
| OS << " Spelling getSemanticSpelling() const {\n"; |
| WriteSemanticSpellingSwitch("getAttributeSpellingListIndex()", |
| SemanticToSyntacticMap, OS); |
| OS << " }\n"; |
| } |
| |
| writeAttrAccessorDefinition(R, OS); |
| |
| for (auto const &ai : Args) { |
| ai->writeAccessors(OS); |
| OS << "\n\n"; |
| |
| // Don't write conversion routines for fake arguments. |
| if (ai->isFake()) continue; |
| |
| if (ai->isEnumArg()) |
| static_cast<const EnumArgument *>(ai.get())->writeConversion(OS); |
| else if (ai->isVariadicEnumArg()) |
| static_cast<const VariadicEnumArgument *>(ai.get()) |
| ->writeConversion(OS); |
| } |
| |
| OS << R.getValueAsString("AdditionalMembers"); |
| OS << "\n\n"; |
| |
| OS << " static bool classof(const Attr *A) { return A->getKind() == " |
| << "attr::" << R.getName() << "; }\n"; |
| |
| OS << "};\n\n"; |
| } |
| |
| OS << "#endif // LLVM_CLANG_ATTR_CLASSES_INC\n"; |
| } |
| |
| // Emits the class method definitions for attributes. |
| void clang::EmitClangAttrImpl(RecordKeeper &Records, raw_ostream &OS) { |
| emitSourceFileHeader("Attribute classes' member function definitions", OS); |
| |
| std::vector<Record*> Attrs = Records.getAllDerivedDefinitions("Attr"); |
| |
| for (auto *Attr : Attrs) { |
| Record &R = *Attr; |
| |
| if (!R.getValueAsBit("ASTNode")) |
| continue; |
| |
| std::vector<Record*> ArgRecords = R.getValueAsListOfDefs("Args"); |
| std::vector<std::unique_ptr<Argument>> Args; |
| for (const auto *Arg : ArgRecords) |
| Args.emplace_back(createArgument(*Arg, R.getName())); |
| |
| for (auto const &ai : Args) |
| ai->writeAccessorDefinitions(OS); |
| |
| OS << R.getName() << "Attr *" << R.getName() |
| << "Attr::clone(ASTContext &C) const {\n"; |
| OS << " auto *A = new (C) " << R.getName() << "Attr(C, *this"; |
| for (auto const &ai : Args) { |
| OS << ", "; |
| ai->writeCloneArgs(OS); |
| } |
| OS << ");\n"; |
| OS << " A->Inherited = Inherited;\n"; |
| OS << " A->IsPackExpansion = IsPackExpansion;\n"; |
| OS << " A->setImplicit(Implicit);\n"; |
| OS << " return A;\n}\n\n"; |
| |
| writePrettyPrintFunction(R, Args, OS); |
| writeGetSpellingFunction(R, OS); |
| } |
| |
| // Instead of relying on virtual dispatch we just create a huge dispatch |
| // switch. This is both smaller and faster than virtual functions. |
| auto EmitFunc = [&](const char *Method) { |
| OS << " switch (getKind()) {\n"; |
| for (const auto *Attr : Attrs) { |
| const Rec
|