explicit MDFieldImpl(FieldTy Default)
: Val(std::move(Default)), Seen(false) {}
};
+
struct MDUnsignedField : public MDFieldImpl<uint64_t> {
uint64_t Max;
struct DwarfTagField : public MDUnsignedField {
DwarfTagField() : MDUnsignedField(0, dwarf::DW_TAG_hi_user) {}
};
+struct DwarfAttEncodingField : public MDUnsignedField {
+ DwarfAttEncodingField() : MDUnsignedField(0, dwarf::DW_ATE_hi_user) {}
+};
+struct DwarfVirtualityField : public MDUnsignedField {
+ DwarfVirtualityField() : MDUnsignedField(0, dwarf::DW_VIRTUALITY_max) {}
+};
+struct DwarfLangField : public MDUnsignedField {
+ DwarfLangField() : MDUnsignedField(0, dwarf::DW_LANG_hi_user) {}
+};
+
+struct MDSignedField : public MDFieldImpl<int64_t> {
+ int64_t Min;
+ int64_t Max;
+
+ MDSignedField(int64_t Default = 0)
+ : ImplTy(Default), Min(INT64_MIN), Max(INT64_MAX) {}
+ MDSignedField(int64_t Default, int64_t Min, int64_t Max)
+ : ImplTy(Default), Min(Min), Max(Max) {}
+};
+
+struct MDBoolField : public MDFieldImpl<bool> {
+ MDBoolField(bool Default = false) : ImplTy(Default) {}
+};
struct MDField : public MDFieldImpl<Metadata *> {
MDField() : ImplTy(nullptr) {}
};
+struct MDConstant : public MDFieldImpl<ConstantAsMetadata *> {
+ MDConstant() : ImplTy(nullptr) {}
+};
struct MDStringField : public MDFieldImpl<std::string> {
MDStringField() : ImplTy(std::string()) {}
};
return false;
}
+template <>
+bool LLParser::ParseMDField(LocTy Loc, StringRef Name,
+ DwarfVirtualityField &Result) {
+ if (Lex.getKind() == lltok::APSInt)
+ return ParseMDField(Loc, Name, static_cast<MDUnsignedField &>(Result));
+
+ if (Lex.getKind() != lltok::DwarfVirtuality)
+ return TokError("expected DWARF virtuality code");
+
+ unsigned Virtuality = dwarf::getVirtuality(Lex.getStrVal());
+ if (!Virtuality)
+ return TokError("invalid DWARF virtuality code" + Twine(" '") +
+ Lex.getStrVal() + "'");
+ assert(Virtuality <= Result.Max && "Expected valid DWARF virtuality code");
+ Result.assign(Virtuality);
+ Lex.Lex();
+ return false;
+}
+
+template <>
+bool LLParser::ParseMDField(LocTy Loc, StringRef Name, DwarfLangField &Result) {
+ if (Lex.getKind() == lltok::APSInt)
+ return ParseMDField(Loc, Name, static_cast<MDUnsignedField &>(Result));
+
+ if (Lex.getKind() != lltok::DwarfLang)
+ return TokError("expected DWARF language");
+
+ unsigned Lang = dwarf::getLanguage(Lex.getStrVal());
+ if (!Lang)
+ return TokError("invalid DWARF language" + Twine(" '") + Lex.getStrVal() +
+ "'");
+ assert(Lang <= Result.Max && "Expected valid DWARF language");
+ Result.assign(Lang);
+ Lex.Lex();
+ return false;
+}
+
+template <>
+bool LLParser::ParseMDField(LocTy Loc, StringRef Name,
+ DwarfAttEncodingField &Result) {
+ if (Lex.getKind() == lltok::APSInt)
+ return ParseMDField(Loc, Name, static_cast<MDUnsignedField &>(Result));
+
+ if (Lex.getKind() != lltok::DwarfAttEncoding)
+ return TokError("expected DWARF type attribute encoding");
+
+ unsigned Encoding = dwarf::getAttributeEncoding(Lex.getStrVal());
+ if (!Encoding)
+ return TokError("invalid DWARF type attribute encoding" + Twine(" '") +
+ Lex.getStrVal() + "'");
+ assert(Encoding <= Result.Max && "Expected valid DWARF language");
+ Result.assign(Encoding);
+ Lex.Lex();
+ return false;
+}
+
+template <>
+bool LLParser::ParseMDField(LocTy Loc, StringRef Name,
+ MDSignedField &Result) {
+ if (Lex.getKind() != lltok::APSInt)
+ return TokError("expected signed integer");
+
+ auto &S = Lex.getAPSIntVal();
+ if (S < Result.Min)
+ return TokError("value for '" + Name + "' too small, limit is " +
+ Twine(Result.Min));
+ if (S > Result.Max)
+ return TokError("value for '" + Name + "' too large, limit is " +
+ Twine(Result.Max));
+ Result.assign(S.getExtValue());
+ assert(Result.Val >= Result.Min && "Expected value in range");
+ assert(Result.Val <= Result.Max && "Expected value in range");
+ Lex.Lex();
+ return false;
+}
+
+template <>
+bool LLParser::ParseMDField(LocTy Loc, StringRef Name, MDBoolField &Result) {
+ switch (Lex.getKind()) {
+ default:
+ return TokError("expected 'true' or 'false'");
+ case lltok::kw_true:
+ Result.assign(true);
+ break;
+ case lltok::kw_false:
+ Result.assign(false);
+ break;
+ }
+ Lex.Lex();
+ return false;
+}
+
template <>
bool LLParser::ParseMDField(LocTy Loc, StringRef Name, MDField &Result) {
+ if (Lex.getKind() == lltok::kw_null) {
+ Lex.Lex();
+ Result.assign(nullptr);
+ return false;
+ }
+
Metadata *MD;
if (ParseMetadata(MD, nullptr))
return true;
return false;
}
+template <>
+bool LLParser::ParseMDField(LocTy Loc, StringRef Name, MDConstant &Result) {
+ Metadata *MD;
+ if (ParseValueAsMetadata(MD, "expected constant", nullptr))
+ return true;
+
+ Result.assign(cast<ConstantAsMetadata>(MD));
+ return false;
+}
+
template <>
bool LLParser::ParseMDField(LocTy Loc, StringRef Name, MDStringField &Result) {
std::string S;
return false;
}
+/// ParseMDSubrange:
+/// ::= !MDSubrange(count: 30, lowerBound: 2)
bool LLParser::ParseMDSubrange(MDNode *&Result, bool IsDistinct) {
- return TokError("unimplemented parser");
+#define VISIT_MD_FIELDS(OPTIONAL, REQUIRED) \
+ REQUIRED(count, MDUnsignedField, (0, UINT64_MAX >> 1)); \
+ OPTIONAL(lowerBound, MDSignedField, );
+ PARSE_MD_FIELDS();
+#undef VISIT_MD_FIELDS
+
+ Result = GET_OR_DISTINCT(MDSubrange, (Context, count.Val, lowerBound.Val));
+ return false;
}
+
+/// ParseMDEnumerator:
+/// ::= !MDEnumerator(value: 30, name: "SomeKind")
bool LLParser::ParseMDEnumerator(MDNode *&Result, bool IsDistinct) {
- return TokError("unimplemented parser");
+#define VISIT_MD_FIELDS(OPTIONAL, REQUIRED) \
+ REQUIRED(value, MDSignedField, ); \
+ REQUIRED(name, MDStringField, );
+ PARSE_MD_FIELDS();
+#undef VISIT_MD_FIELDS
+
+ Result = GET_OR_DISTINCT(MDEnumerator, (Context, value.Val, name.Val));
+ return false;
}
+
+/// ParseMDBasicType:
+/// ::= !MDBasicType(tag: DW_TAG_base_type, name: "int", size: 32, align: 32)
bool LLParser::ParseMDBasicType(MDNode *&Result, bool IsDistinct) {
- return TokError("unimplemented parser");
+#define VISIT_MD_FIELDS(OPTIONAL, REQUIRED) \
+ REQUIRED(tag, DwarfTagField, ); \
+ OPTIONAL(name, MDStringField, ); \
+ OPTIONAL(size, MDUnsignedField, (0, UINT32_MAX)); \
+ OPTIONAL(align, MDUnsignedField, (0, UINT32_MAX)); \
+ OPTIONAL(encoding, DwarfAttEncodingField, );
+ PARSE_MD_FIELDS();
+#undef VISIT_MD_FIELDS
+
+ Result = GET_OR_DISTINCT(MDBasicType, (Context, tag.Val, name.Val, size.Val,
+ align.Val, encoding.Val));
+ return false;
}
+
+/// ParseMDDerivedType:
+/// ::= !MDDerivedType(tag: DW_TAG_pointer_type, name: "int", file: !0,
+/// line: 7, scope: !1, baseType: !2, size: 32,
+/// align: 32, offset: 0, flags: 0, extraData: !3)
bool LLParser::ParseMDDerivedType(MDNode *&Result, bool IsDistinct) {
- return TokError("unimplemented parser");
+#define VISIT_MD_FIELDS(OPTIONAL, REQUIRED) \
+ REQUIRED(tag, DwarfTagField, ); \
+ OPTIONAL(name, MDStringField, ); \
+ OPTIONAL(file, MDField, ); \
+ OPTIONAL(line, LineField, ); \
+ OPTIONAL(scope, MDField, ); \
+ REQUIRED(baseType, MDField, ); \
+ OPTIONAL(size, MDUnsignedField, (0, UINT32_MAX)); \
+ OPTIONAL(align, MDUnsignedField, (0, UINT32_MAX)); \
+ OPTIONAL(offset, MDUnsignedField, (0, UINT32_MAX)); \
+ OPTIONAL(flags, MDUnsignedField, (0, UINT32_MAX)); \
+ OPTIONAL(extraData, MDField, );
+ PARSE_MD_FIELDS();
+#undef VISIT_MD_FIELDS
+
+ Result = GET_OR_DISTINCT(MDDerivedType,
+ (Context, tag.Val, name.Val, file.Val, line.Val,
+ scope.Val, baseType.Val, size.Val, align.Val,
+ offset.Val, flags.Val, extraData.Val));
+ return false;
}
+
bool LLParser::ParseMDCompositeType(MDNode *&Result, bool IsDistinct) {
- return TokError("unimplemented parser");
+#define VISIT_MD_FIELDS(OPTIONAL, REQUIRED) \
+ REQUIRED(tag, DwarfTagField, ); \
+ OPTIONAL(name, MDStringField, ); \
+ OPTIONAL(file, MDField, ); \
+ OPTIONAL(line, LineField, ); \
+ OPTIONAL(scope, MDField, ); \
+ OPTIONAL(baseType, MDField, ); \
+ OPTIONAL(size, MDUnsignedField, (0, UINT32_MAX)); \
+ OPTIONAL(align, MDUnsignedField, (0, UINT32_MAX)); \
+ OPTIONAL(offset, MDUnsignedField, (0, UINT32_MAX)); \
+ OPTIONAL(flags, MDUnsignedField, (0, UINT32_MAX)); \
+ OPTIONAL(elements, MDField, ); \
+ OPTIONAL(runtimeLang, DwarfLangField, ); \
+ OPTIONAL(vtableHolder, MDField, ); \
+ OPTIONAL(templateParams, MDField, ); \
+ OPTIONAL(identifier, MDStringField, );
+ PARSE_MD_FIELDS();
+#undef VISIT_MD_FIELDS
+
+ Result = GET_OR_DISTINCT(
+ MDCompositeType,
+ (Context, tag.Val, name.Val, file.Val, line.Val, scope.Val, baseType.Val,
+ size.Val, align.Val, offset.Val, flags.Val, elements.Val,
+ runtimeLang.Val, vtableHolder.Val, templateParams.Val, identifier.Val));
+ return false;
}
+
bool LLParser::ParseMDSubroutineType(MDNode *&Result, bool IsDistinct) {
- return TokError("unimplemented parser");
+#define VISIT_MD_FIELDS(OPTIONAL, REQUIRED) \
+ OPTIONAL(flags, MDUnsignedField, (0, UINT32_MAX)); \
+ REQUIRED(types, MDField, );
+ PARSE_MD_FIELDS();
+#undef VISIT_MD_FIELDS
+
+ Result = GET_OR_DISTINCT(MDSubroutineType, (Context, flags.Val, types.Val));
+ return false;
}
+
+/// ParseMDFileType:
+/// ::= !MDFileType(filename: "path/to/file", directory: "/path/to/dir")
bool LLParser::ParseMDFile(MDNode *&Result, bool IsDistinct) {
- return TokError("unimplemented parser");
+#define VISIT_MD_FIELDS(OPTIONAL, REQUIRED) \
+ REQUIRED(filename, MDStringField, ); \
+ REQUIRED(directory, MDStringField, );
+ PARSE_MD_FIELDS();
+#undef VISIT_MD_FIELDS
+
+ Result = GET_OR_DISTINCT(MDFile, (Context, filename.Val, directory.Val));
+ return false;
}
+
+/// ParseMDCompileUnit:
+/// ::= !MDCompileUnit(language: DW_LANG_C99, file: !0, producer: "clang",
+/// isOptimized: true, flags: "-O2", runtimeVersion: 1,
+/// splitDebugFilename: "abc.debug", emissionKind: 1,
+/// enums: !1, retainedTypes: !2, subprograms: !3,
+/// globals: !4, imports: !5)
bool LLParser::ParseMDCompileUnit(MDNode *&Result, bool IsDistinct) {
- return TokError("unimplemented parser");
+#define VISIT_MD_FIELDS(OPTIONAL, REQUIRED) \
+ REQUIRED(language, DwarfLangField, ); \
+ REQUIRED(file, MDField, ); \
+ OPTIONAL(producer, MDStringField, ); \
+ OPTIONAL(isOptimized, MDBoolField, ); \
+ OPTIONAL(flags, MDStringField, ); \
+ OPTIONAL(runtimeVersion, MDUnsignedField, (0, UINT32_MAX)); \
+ OPTIONAL(splitDebugFilename, MDStringField, ); \
+ OPTIONAL(emissionKind, MDUnsignedField, (0, UINT32_MAX)); \
+ OPTIONAL(enums, MDField, ); \
+ OPTIONAL(retainedTypes, MDField, ); \
+ OPTIONAL(subprograms, MDField, ); \
+ OPTIONAL(globals, MDField, ); \
+ OPTIONAL(imports, MDField, );
+ PARSE_MD_FIELDS();
+#undef VISIT_MD_FIELDS
+
+ Result = GET_OR_DISTINCT(MDCompileUnit,
+ (Context, language.Val, file.Val, producer.Val,
+ isOptimized.Val, flags.Val, runtimeVersion.Val,
+ splitDebugFilename.Val, emissionKind.Val, enums.Val,
+ retainedTypes.Val, subprograms.Val, globals.Val,
+ imports.Val));
+ return false;
}
+
+/// ParseMDSubprogram:
+/// ::= !MDSubprogram(scope: !0, name: "foo", linkageName: "_Zfoo",
+/// file: !1, line: 7, type: !2, isLocal: false,
+/// isDefinition: true, scopeLine: 8, containingType: !3,
+/// virtuality: DW_VIRTUALTIY_pure_virtual,
+/// virtualIndex: 10, flags: 11,
+/// isOptimized: false, function: void ()* @_Z3foov,
+/// templateParams: !4, declaration: !5, variables: !6)
bool LLParser::ParseMDSubprogram(MDNode *&Result, bool IsDistinct) {
- return TokError("unimplemented parser");
+#define VISIT_MD_FIELDS(OPTIONAL, REQUIRED) \
+ OPTIONAL(scope, MDField, ); \
+ REQUIRED(name, MDStringField, ); \
+ OPTIONAL(linkageName, MDStringField, ); \
+ OPTIONAL(file, MDField, ); \
+ OPTIONAL(line, LineField, ); \
+ OPTIONAL(type, MDField, ); \
+ OPTIONAL(isLocal, MDBoolField, ); \
+ OPTIONAL(isDefinition, MDBoolField, (true)); \
+ OPTIONAL(scopeLine, LineField, ); \
+ OPTIONAL(containingType, MDField, ); \
+ OPTIONAL(virtuality, DwarfVirtualityField, ); \
+ OPTIONAL(virtualIndex, MDUnsignedField, (0, UINT32_MAX)); \
+ OPTIONAL(flags, MDUnsignedField, (0, UINT32_MAX)); \
+ OPTIONAL(isOptimized, MDBoolField, ); \
+ OPTIONAL(function, MDConstant, ); \
+ OPTIONAL(templateParams, MDField, ); \
+ OPTIONAL(declaration, MDField, ); \
+ OPTIONAL(variables, MDField, );
+ PARSE_MD_FIELDS();
+#undef VISIT_MD_FIELDS
+
+ Result = GET_OR_DISTINCT(
+ MDSubprogram, (Context, scope.Val, name.Val, linkageName.Val, file.Val,
+ line.Val, type.Val, isLocal.Val, isDefinition.Val,
+ scopeLine.Val, containingType.Val, virtuality.Val,
+ virtualIndex.Val, flags.Val, isOptimized.Val, function.Val,
+ templateParams.Val, declaration.Val, variables.Val));
+ return false;
}
+
+/// ParseMDLexicalBlock:
+/// ::= !MDLexicalBlock(scope: !0, file: !2, line: 7, column: 9)
bool LLParser::ParseMDLexicalBlock(MDNode *&Result, bool IsDistinct) {
- return TokError("unimplemented parser");
+#define VISIT_MD_FIELDS(OPTIONAL, REQUIRED) \
+ REQUIRED(scope, MDField, ); \
+ OPTIONAL(file, MDField, ); \
+ OPTIONAL(line, LineField, ); \
+ OPTIONAL(column, ColumnField, );
+ PARSE_MD_FIELDS();
+#undef VISIT_MD_FIELDS
+
+ Result = GET_OR_DISTINCT(
+ MDLexicalBlock, (Context, scope.Val, file.Val, line.Val, column.Val));
+ return false;
}
+
+/// ParseMDLexicalBlockFile:
+/// ::= !MDLexicalBlockFile(scope: !0, file: !2, discriminator: 9)
bool LLParser::ParseMDLexicalBlockFile(MDNode *&Result, bool IsDistinct) {
- return TokError("unimplemented parser");
+#define VISIT_MD_FIELDS(OPTIONAL, REQUIRED) \
+ REQUIRED(scope, MDField, ); \
+ OPTIONAL(file, MDField, ); \
+ REQUIRED(discriminator, MDUnsignedField, (0, UINT32_MAX));
+ PARSE_MD_FIELDS();
+#undef VISIT_MD_FIELDS
+
+ Result = GET_OR_DISTINCT(MDLexicalBlockFile,
+ (Context, scope.Val, file.Val, discriminator.Val));
+ return false;
}
+
+/// ParseMDNamespace:
+/// ::= !MDNamespace(scope: !0, file: !2, name: "SomeNamespace", line: 9)
bool LLParser::ParseMDNamespace(MDNode *&Result, bool IsDistinct) {
- return TokError("unimplemented parser");
+#define VISIT_MD_FIELDS(OPTIONAL, REQUIRED) \
+ REQUIRED(scope, MDField, ); \
+ OPTIONAL(file, MDField, ); \
+ OPTIONAL(name, MDStringField, ); \
+ OPTIONAL(line, LineField, );
+ PARSE_MD_FIELDS();
+#undef VISIT_MD_FIELDS
+
+ Result = GET_OR_DISTINCT(MDNamespace,
+ (Context, scope.Val, file.Val, name.Val, line.Val));
+ return false;
}
+
+/// ParseMDTemplateTypeParameter:
+/// ::= !MDTemplateTypeParameter(scope: !0, name: "Ty", type: !1)
bool LLParser::ParseMDTemplateTypeParameter(MDNode *&Result, bool IsDistinct) {
- return TokError("unimplemented parser");
+#define VISIT_MD_FIELDS(OPTIONAL, REQUIRED) \
+ REQUIRED(scope, MDField, ); \
+ OPTIONAL(name, MDStringField, ); \
+ REQUIRED(type, MDField, );
+ PARSE_MD_FIELDS();
+#undef VISIT_MD_FIELDS
+
+ Result = GET_OR_DISTINCT(MDTemplateTypeParameter,
+ (Context, scope.Val, name.Val, type.Val));
+ return false;
}
+
+/// ParseMDTemplateValueParameter:
+/// ::= !MDTemplateValueParameter(tag: DW_TAG_template_value_parameter,
+/// scope: !0, name: "V", type: !1,
+/// value: i32 7)
bool LLParser::ParseMDTemplateValueParameter(MDNode *&Result, bool IsDistinct) {
- return TokError("unimplemented parser");
+#define VISIT_MD_FIELDS(OPTIONAL, REQUIRED) \
+ REQUIRED(tag, DwarfTagField, ); \
+ REQUIRED(scope, MDField, ); \
+ OPTIONAL(name, MDStringField, ); \
+ REQUIRED(type, MDField, ); \
+ REQUIRED(value, MDField, );
+ PARSE_MD_FIELDS();
+#undef VISIT_MD_FIELDS
+
+ Result = GET_OR_DISTINCT(
+ MDTemplateValueParameter,
+ (Context, tag.Val, scope.Val, name.Val, type.Val, value.Val));
+ return false;
}
+
+/// ParseMDGlobalVariable:
+/// ::= !MDGlobalVariable(scope: !0, name: "foo", linkageName: "foo",
+/// file: !1, line: 7, type: !2, isLocal: false,
+/// isDefinition: true, variable: i32* @foo,
+/// declaration: !3)
bool LLParser::ParseMDGlobalVariable(MDNode *&Result, bool IsDistinct) {
- return TokError("unimplemented parser");
+#define VISIT_MD_FIELDS(OPTIONAL, REQUIRED) \
+ OPTIONAL(scope, MDField, ); \
+ REQUIRED(name, MDStringField, ); \
+ OPTIONAL(linkageName, MDStringField, ); \
+ OPTIONAL(file, MDField, ); \
+ OPTIONAL(line, LineField, ); \
+ OPTIONAL(type, MDField, ); \
+ OPTIONAL(isLocal, MDBoolField, ); \
+ OPTIONAL(isDefinition, MDBoolField, (true)); \
+ OPTIONAL(variable, MDConstant, ); \
+ OPTIONAL(declaration, MDField, );
+ PARSE_MD_FIELDS();
+#undef VISIT_MD_FIELDS
+
+ Result = GET_OR_DISTINCT(MDGlobalVariable,
+ (Context, scope.Val, name.Val, linkageName.Val,
+ file.Val, line.Val, type.Val, isLocal.Val,
+ isDefinition.Val, variable.Val, declaration.Val));
+ return false;
}
+
bool LLParser::ParseMDLocalVariable(MDNode *&Result, bool IsDistinct) {
return TokError("unimplemented parser");
}
/// ::= i32 %local
/// ::= i32 @global
/// ::= i32 7
-bool LLParser::ParseValueAsMetadata(Metadata *&MD, PerFunctionState *PFS) {
+bool LLParser::ParseValueAsMetadata(Metadata *&MD, const Twine &TypeMsg,
+ PerFunctionState *PFS) {
Type *Ty;
LocTy Loc;
- if (ParseType(Ty, "expected metadata operand", Loc))
+ if (ParseType(Ty, TypeMsg, Loc))
return true;
if (Ty->isMetadataTy())
return Error(Loc, "invalid metadata-value-metadata roundtrip");
// ValueAsMetadata:
// <type> <value>
if (Lex.getKind() != lltok::exclaim)
- return ParseValueAsMetadata(MD, PFS);
+ return ParseValueAsMetadata(MD, "expected metadata operand", PFS);
// '!'.
assert(Lex.getKind() == lltok::exclaim && "Expected '!' here");