///===-- Representation.h - ClangDoc Representation -------------*- 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 // //===----------------------------------------------------------------------===// // // This file defines the internal representations of different declaration // types for the clang-doc tool. // //===----------------------------------------------------------------------===// #ifndef LLVM_CLANG_TOOLS_EXTRA_CLANG_DOC_REPRESENTATION_H #define LLVM_CLANG_TOOLS_EXTRA_CLANG_DOC_REPRESENTATION_H #include "clang/AST/Type.h" #include "clang/Basic/Specifiers.h" #include "clang/Tooling/StandaloneExecution.h" #include "llvm/ADT/APSInt.h" #include "llvm/ADT/SmallVector.h" #include "llvm/ADT/StringExtras.h" #include #include #include namespace clang { namespace doc { // SHA1'd hash of a USR. using SymbolID = std::array; struct BaseRecordInfo; struct EnumInfo; struct FunctionInfo; struct Info; struct TypedefInfo; enum class InfoType { IT_default, IT_namespace, IT_record, IT_function, IT_enum, IT_typedef }; // A representation of a parsed comment. struct CommentInfo { CommentInfo() = default; CommentInfo(CommentInfo &Other) = delete; CommentInfo(CommentInfo &&Other) = default; CommentInfo &operator=(CommentInfo &&Other) = default; bool operator==(const CommentInfo &Other) const; // This operator is used to sort a vector of CommentInfos. // No specific order (attributes more important than others) is required. Any // sort is enough, the order is only needed to call std::unique after sorting // the vector. bool operator<(const CommentInfo &Other) const; SmallString<16> Kind; // Kind of comment (FullComment, ParagraphComment, TextComment, // InlineCommandComment, HTMLStartTagComment, HTMLEndTagComment, // BlockCommandComment, ParamCommandComment, // TParamCommandComment, VerbatimBlockComment, // VerbatimBlockLineComment, VerbatimLineComment). SmallString<64> Text; // Text of the comment. SmallString<16> Name; // Name of the comment (for Verbatim and HTML). SmallString<8> Direction; // Parameter direction (for (T)ParamCommand). SmallString<16> ParamName; // Parameter name (for (T)ParamCommand). SmallString<16> CloseName; // Closing tag name (for VerbatimBlock). bool SelfClosing = false; // Indicates if tag is self-closing (for HTML). bool Explicit = false; // Indicates if the direction of a param is explicit // (for (T)ParamCommand). llvm::SmallVector, 4> AttrKeys; // List of attribute keys (for HTML). llvm::SmallVector, 4> AttrValues; // List of attribute values for each key (for HTML). llvm::SmallVector, 4> Args; // List of arguments to commands (for InlineCommand). std::vector> Children; // List of child comments for this CommentInfo. }; struct Reference { // This variant (that takes no qualified name parameter) uses the Name as the // QualName (very useful in unit tests to reduce verbosity). This can't use an // empty string to indicate the default because we need to accept the empty // string as a valid input for the global namespace (it will have // "GlobalNamespace" as the name, but an empty QualName). Reference(SymbolID USR = SymbolID(), StringRef Name = StringRef(), InfoType IT = InfoType::IT_default) : USR(USR), Name(Name), QualName(Name), RefType(IT) {} Reference(SymbolID USR, StringRef Name, InfoType IT, StringRef QualName, StringRef Path = StringRef()) : USR(USR), Name(Name), QualName(QualName), RefType(IT), Path(Path) {} bool operator==(const Reference &Other) const { return std::tie(USR, Name, QualName, RefType) == std::tie(Other.USR, Other.Name, QualName, Other.RefType); } bool mergeable(const Reference &Other); void merge(Reference &&I); /// Returns the path for this Reference relative to CurrentPath. llvm::SmallString<64> getRelativeFilePath(const StringRef &CurrentPath) const; /// Returns the basename that should be used for this Reference. llvm::SmallString<16> getFileBaseName() const; SymbolID USR = SymbolID(); // Unique identifier for referenced decl // Name of type (possibly unresolved). Not including namespaces or template // parameters (so for a std::vector this would be "vector"). See also // QualName. SmallString<16> Name; // Full qualified name of this type, including namespaces and template // parameter (for example this could be "std::vector"). Contrast to // Name. SmallString<16> QualName; InfoType RefType = InfoType::IT_default; // Indicates the type of this // Reference (namespace, record, // function, enum, default). // Path of directory where the clang-doc generated file will be saved // (possibly unresolved) llvm::SmallString<128> Path; }; // Holds the children of a record or namespace. struct ScopeChildren { // Namespaces and Records are references because they will be properly // documented in their own info, while the entirety of Functions and Enums are // included here because they should not have separate documentation from // their scope. // // Namespaces are not syntactically valid as children of records, but making // this general for all possible container types reduces code complexity. std::vector Namespaces; std::vector Records; std::vector Functions; std::vector Enums; std::vector Typedefs; }; // A base struct for TypeInfos struct TypeInfo { TypeInfo() = default; TypeInfo(const Reference &R) : Type(R) {} // Convenience constructor for when there is no symbol ID or info type // (normally used for built-in types in tests). TypeInfo(StringRef Name, StringRef Path = StringRef()) : Type(SymbolID(), Name, InfoType::IT_default, Name, Path) {} bool operator==(const TypeInfo &Other) const { return Type == Other.Type; } Reference Type; // Referenced type in this info. }; // Represents one template parameter. // // This is a very simple serialization of the text of the source code of the // template parameter. It is saved in a struct so there is a place to add the // name and default values in the future if needed. struct TemplateParamInfo { TemplateParamInfo() = default; explicit TemplateParamInfo(StringRef Contents) : Contents(Contents) {} // The literal contents of the code for that specifies this template parameter // for this declaration. Typical values will be "class T" and // "typename T = int". SmallString<16> Contents; }; struct TemplateSpecializationInfo { // Indicates the declaration that this specializes. SymbolID SpecializationOf; // Template parameters applying to the specialized record/function. std::vector Params; }; // Records the template information for a struct or function that is a template // or an explicit template specialization. struct TemplateInfo { // May be empty for non-partial specializations. std::vector Params; // Set when this is a specialization of another record/function. std::optional Specialization; }; // Info for field types. struct FieldTypeInfo : public TypeInfo { FieldTypeInfo() = default; FieldTypeInfo(const TypeInfo &TI, StringRef Name = StringRef(), StringRef DefaultValue = StringRef()) : TypeInfo(TI), Name(Name), DefaultValue(DefaultValue) {} bool operator==(const FieldTypeInfo &Other) const { return std::tie(Type, Name, DefaultValue) == std::tie(Other.Type, Other.Name, Other.DefaultValue); } SmallString<16> Name; // Name associated with this info. // When used for function parameters, contains the string representing the // expression of the default value, if any. SmallString<16> DefaultValue; }; // Info for member types. struct MemberTypeInfo : public FieldTypeInfo { MemberTypeInfo() = default; MemberTypeInfo(const TypeInfo &TI, StringRef Name, AccessSpecifier Access) : FieldTypeInfo(TI, Name), Access(Access) {} bool operator==(const MemberTypeInfo &Other) const { return std::tie(Type, Name, Access, Description) == std::tie(Other.Type, Other.Name, Other.Access, Other.Description); } // Access level associated with this info (public, protected, private, none). // AS_public is set as default because the bitcode writer requires the enum // with value 0 to be used as the default. // (AS_public = 0, AS_protected = 1, AS_private = 2, AS_none = 3) AccessSpecifier Access = AccessSpecifier::AS_public; std::vector Description; // Comment description of this field. }; struct Location { Location(int LineNumber = 0, StringRef Filename = StringRef(), bool IsFileInRootDir = false) : LineNumber(LineNumber), Filename(Filename), IsFileInRootDir(IsFileInRootDir) {} bool operator==(const Location &Other) const { return std::tie(LineNumber, Filename) == std::tie(Other.LineNumber, Other.Filename); } // This operator is used to sort a vector of Locations. // No specific order (attributes more important than others) is required. Any // sort is enough, the order is only needed to call std::unique after sorting // the vector. bool operator<(const Location &Other) const { return std::tie(LineNumber, Filename) < std::tie(Other.LineNumber, Other.Filename); } int LineNumber = 0; // Line number of this Location. SmallString<32> Filename; // File for this Location. bool IsFileInRootDir = false; // Indicates if file is inside root directory }; /// A base struct for Infos. struct Info { Info(InfoType IT = InfoType::IT_default, SymbolID USR = SymbolID(), StringRef Name = StringRef(), StringRef Path = StringRef()) : USR(USR), IT(IT), Name(Name), Path(Path) {} Info(const Info &Other) = delete; Info(Info &&Other) = default; virtual ~Info() = default; SymbolID USR = SymbolID(); // Unique identifier for the decl described by this Info. const InfoType IT = InfoType::IT_default; // InfoType of this particular Info. SmallString<16> Name; // Unqualified name of the decl. llvm::SmallVector Namespace; // List of parent namespaces for this decl. std::vector Description; // Comment description of this decl. llvm::SmallString<128> Path; // Path of directory where the clang-doc // generated file will be saved void mergeBase(Info &&I); bool mergeable(const Info &Other); llvm::SmallString<16> extractName() const; /// Returns the file path for this Info relative to CurrentPath. llvm::SmallString<64> getRelativeFilePath(const StringRef &CurrentPath) const; /// Returns the basename that should be used for this Info. llvm::SmallString<16> getFileBaseName() const; }; // Info for namespaces. struct NamespaceInfo : public Info { NamespaceInfo(SymbolID USR = SymbolID(), StringRef Name = StringRef(), StringRef Path = StringRef()); void merge(NamespaceInfo &&I); ScopeChildren Children; }; // Info for symbols. struct SymbolInfo : public Info { SymbolInfo(InfoType IT, SymbolID USR = SymbolID(), StringRef Name = StringRef(), StringRef Path = StringRef()) : Info(IT, USR, Name, Path) {} void merge(SymbolInfo &&I); std::optional DefLoc; // Location where this decl is defined. llvm::SmallVector Loc; // Locations where this decl is declared. }; // TODO: Expand to allow for documenting templating and default args. // Info for functions. struct FunctionInfo : public SymbolInfo { FunctionInfo(SymbolID USR = SymbolID()) : SymbolInfo(InfoType::IT_function, USR) {} void merge(FunctionInfo &&I); bool IsMethod = false; // Indicates whether this function is a class method. Reference Parent; // Reference to the parent class decl for this method. TypeInfo ReturnType; // Info about the return type of this function. llvm::SmallVector Params; // List of parameters. // Access level for this method (public, private, protected, none). // AS_public is set as default because the bitcode writer requires the enum // with value 0 to be used as the default. // (AS_public = 0, AS_protected = 1, AS_private = 2, AS_none = 3) AccessSpecifier Access = AccessSpecifier::AS_public; // Full qualified name of this function, including namespaces and template // specializations. SmallString<16> FullName; // When present, this function is a template or specialization. std::optional Template; }; // TODO: Expand to allow for documenting templating, inheritance access, // friend classes // Info for types. struct RecordInfo : public SymbolInfo { RecordInfo(SymbolID USR = SymbolID(), StringRef Name = StringRef(), StringRef Path = StringRef()); void merge(RecordInfo &&I); // Type of this record (struct, class, union, interface). TagTypeKind TagType = TagTypeKind::Struct; // Full qualified name of this record, including namespaces and template // specializations. SmallString<16> FullName; // When present, this record is a template or specialization. std::optional Template; // Indicates if the record was declared using a typedef. Things like anonymous // structs in a typedef: // typedef struct { ... } foo_t; // are converted into records with the typedef as the Name + this flag set. bool IsTypeDef = false; llvm::SmallVector Members; // List of info about record members. llvm::SmallVector Parents; // List of base/parent records // (does not include virtual // parents). llvm::SmallVector VirtualParents; // List of virtual base/parent records. std::vector Bases; // List of base/parent records; this includes inherited methods and // attributes ScopeChildren Children; }; // Info for typedef and using statements. struct TypedefInfo : public SymbolInfo { TypedefInfo(SymbolID USR = SymbolID()) : SymbolInfo(InfoType::IT_typedef, USR) {} void merge(TypedefInfo &&I); TypeInfo Underlying; // Inidicates if this is a new C++ "using"-style typedef: // using MyVector = std::vector // False means it's a C-style typedef: // typedef std::vector MyVector; bool IsUsing = false; }; struct BaseRecordInfo : public RecordInfo { BaseRecordInfo(); BaseRecordInfo(SymbolID USR, StringRef Name, StringRef Path, bool IsVirtual, AccessSpecifier Access, bool IsParent); // Indicates if base corresponds to a virtual inheritance bool IsVirtual = false; // Access level associated with this inherited info (public, protected, // private). AccessSpecifier Access = AccessSpecifier::AS_public; bool IsParent = false; // Indicates if this base is a direct parent }; // Information for a single possible value of an enumeration. struct EnumValueInfo { explicit EnumValueInfo(StringRef Name = StringRef(), StringRef Value = StringRef("0"), StringRef ValueExpr = StringRef()) : Name(Name), Value(Value), ValueExpr(ValueExpr) {} bool operator==(const EnumValueInfo &Other) const { return std::tie(Name, Value, ValueExpr) == std::tie(Other.Name, Other.Value, Other.ValueExpr); } SmallString<16> Name; // The computed value of the enumeration constant. This could be the result of // evaluating the ValueExpr, or it could be automatically generated according // to C rules. SmallString<16> Value; // Stores the user-supplied initialization expression for this enumeration // constant. This will be empty for implicit enumeration values. SmallString<16> ValueExpr; }; // TODO: Expand to allow for documenting templating. // Info for types. struct EnumInfo : public SymbolInfo { EnumInfo() : SymbolInfo(InfoType::IT_enum) {} EnumInfo(SymbolID USR) : SymbolInfo(InfoType::IT_enum, USR) {} void merge(EnumInfo &&I); // Indicates whether this enum is scoped (e.g. enum class). bool Scoped = false; // Set to nonempty to the type when this is an explicitly typed enum. For // enum Foo : short { ... }; // this will be "short". std::optional BaseType; llvm::SmallVector Members; // List of enum members. }; struct Index : public Reference { Index() = default; Index(StringRef Name) : Reference(SymbolID(), Name) {} Index(StringRef Name, StringRef JumpToSection) : Reference(SymbolID(), Name), JumpToSection(JumpToSection) {} Index(SymbolID USR, StringRef Name, InfoType IT, StringRef Path) : Reference(USR, Name, IT, Name, Path) {} // This is used to look for a USR in a vector of Indexes using std::find bool operator==(const SymbolID &Other) const { return USR == Other; } bool operator<(const Index &Other) const; std::optional> JumpToSection; std::vector Children; void sort(); }; // TODO: Add functionality to include separate markdown pages. // A standalone function to call to merge a vector of infos into one. // This assumes that all infos in the vector are of the same type, and will fail // if they are different. llvm::Expected> mergeInfos(std::vector> &Values); struct ClangDocContext { ClangDocContext() = default; ClangDocContext(tooling::ExecutionContext *ECtx, StringRef ProjectName, bool PublicOnly, StringRef OutDirectory, StringRef SourceRoot, StringRef RepositoryUrl, std::vector UserStylesheets, std::vector JsScripts); tooling::ExecutionContext *ECtx; std::string ProjectName; // Name of project clang-doc is documenting. bool PublicOnly; // Indicates if only public declarations are documented. std::string OutDirectory; // Directory for outputting generated files. std::string SourceRoot; // Directory where processed files are stored. Links // to definition locations will only be generated if // the file is in this dir. // URL of repository that hosts code used for links to definition locations. std::optional RepositoryUrl; // Path of CSS stylesheets that will be copied to OutDirectory and used to // style all HTML files. std::vector UserStylesheets; // JavaScript files that will be imported in allHTML file. std::vector JsScripts; // Other files that should be copied to OutDirectory, besides UserStylesheets. std::vector FilesToCopy; Index Idx; }; } // namespace doc } // namespace clang #endif // LLVM_CLANG_TOOLS_EXTRA_CLANG_DOC_REPRESENTATION_H