//===- llvm/Support/Path.h - Path Operating System Concept ------*- C++ -*-===// // // The LLVM Compiler Infrastructure // // This file is distributed under the University of Illinois Open Source // License. See LICENSE.TXT for details. // //===----------------------------------------------------------------------===// // // This file declares the llvm::sys::path namespace. It is designed after // TR2/boost filesystem (v3), but modified to remove exception handling and the // path class. // //===----------------------------------------------------------------------===// #ifndef LLVM_SUPPORT_PATH_H #define LLVM_SUPPORT_PATH_H #include "llvm/ADT/Twine.h" #include "llvm/Support/DataTypes.h" #include <iterator> namespace llvm { namespace sys { namespace path { /// @name Lexical Component Iterator /// @{ /// @brief Path iterator. /// /// This is an input iterator that iterates over the individual components in /// \a path. The traversal order is as follows: /// * The root-name element, if present. /// * The root-directory element, if present. /// * Each successive filename element, if present. /// * Dot, if one or more trailing non-root slash characters are present. /// Traversing backwards is possible with \a reverse_iterator /// /// Iteration examples. Each component is separated by ',': /// @code /// / => / /// /foo => /,foo /// foo/ => foo,. /// /foo/bar => /,foo,bar /// ../ => ..,. /// C:\foo\bar => C:,/,foo,bar /// @endcode class const_iterator : public std::iterator<std::input_iterator_tag, const StringRef> { StringRef Path; ///< The entire path. StringRef Component; ///< The current component. Not necessarily in Path. size_t Position; ///< The iterators current position within Path. // An end iterator has Position = Path.size() + 1. friend const_iterator begin(StringRef path); friend const_iterator end(StringRef path); public: reference operator*() const { return Component; } pointer operator->() const { return &Component; } const_iterator &operator++(); // preincrement bool operator==(const const_iterator &RHS) const; bool operator!=(const const_iterator &RHS) const { return !(*this == RHS); } /// @brief Difference in bytes between this and RHS. ptrdiff_t operator-(const const_iterator &RHS) const; }; /// @brief Reverse path iterator. /// /// This is an input iterator that iterates over the individual components in /// \a path in reverse order. The traversal order is exactly reversed from that /// of \a const_iterator class reverse_iterator : public std::iterator<std::input_iterator_tag, const StringRef> { StringRef Path; ///< The entire path. StringRef Component; ///< The current component. Not necessarily in Path. size_t Position; ///< The iterators current position within Path. friend reverse_iterator rbegin(StringRef path); friend reverse_iterator rend(StringRef path); public: reference operator*() const { return Component; } pointer operator->() const { return &Component; } reverse_iterator &operator++(); // preincrement bool operator==(const reverse_iterator &RHS) const; bool operator!=(const reverse_iterator &RHS) const { return !(*this == RHS); } /// @brief Difference in bytes between this and RHS. ptrdiff_t operator-(const reverse_iterator &RHS) const; }; /// @brief Get begin iterator over \a path. /// @param path Input path. /// @returns Iterator initialized with the first component of \a path. const_iterator begin(StringRef path); /// @brief Get end iterator over \a path. /// @param path Input path. /// @returns Iterator initialized to the end of \a path. const_iterator end(StringRef path); /// @brief Get reverse begin iterator over \a path. /// @param path Input path. /// @returns Iterator initialized with the first reverse component of \a path. reverse_iterator rbegin(StringRef path); /// @brief Get reverse end iterator over \a path. /// @param path Input path. /// @returns Iterator initialized to the reverse end of \a path. reverse_iterator rend(StringRef path); /// @} /// @name Lexical Modifiers /// @{ /// @brief Remove the last component from \a path unless it is the root dir. /// /// @code /// directory/filename.cpp => directory/ /// directory/ => directory /// filename.cpp => <empty> /// / => / /// @endcode /// /// @param path A path that is modified to not have a file component. void remove_filename(SmallVectorImpl<char> &path); /// @brief Replace the file extension of \a path with \a extension. /// /// @code /// ./filename.cpp => ./filename.extension /// ./filename => ./filename.extension /// ./ => ./.extension /// @endcode /// /// @param path A path that has its extension replaced with \a extension. /// @param extension The extension to be added. It may be empty. It may also /// optionally start with a '.', if it does not, one will be /// prepended. void replace_extension(SmallVectorImpl<char> &path, const Twine &extension); /// @brief Replace matching path prefix with another path. /// /// @code /// /foo, /old, /new => /foo /// /old/foo, /old, /new => /new/foo /// /foo, <empty>, /new => /new/foo /// /old/foo, /old, <empty> => /foo /// @endcode /// /// @param Path If \a Path starts with \a OldPrefix modify to instead /// start with \a NewPrefix. /// @param OldPrefix The path prefix to strip from \a Path. /// @param NewPrefix The path prefix to replace \a NewPrefix with. void replace_path_prefix(SmallVectorImpl<char> &Path, const StringRef &OldPrefix, const StringRef &NewPrefix); /// @brief Append to path. /// /// @code /// /foo + bar/f => /foo/bar/f /// /foo/ + bar/f => /foo/bar/f /// foo + bar/f => foo/bar/f /// @endcode /// /// @param path Set to \a path + \a component. /// @param a The component to be appended to \a path. void append(SmallVectorImpl<char> &path, const Twine &a, const Twine &b = "", const Twine &c = "", const Twine &d = ""); /// @brief Append to path. /// /// @code /// /foo + [bar,f] => /foo/bar/f /// /foo/ + [bar,f] => /foo/bar/f /// foo + [bar,f] => foo/bar/f /// @endcode /// /// @param path Set to \a path + [\a begin, \a end). /// @param begin Start of components to append. /// @param end One past the end of components to append. void append(SmallVectorImpl<char> &path, const_iterator begin, const_iterator end); /// @} /// @name Transforms (or some other better name) /// @{ /// Convert path to the native form. This is used to give paths to users and /// operating system calls in the platform's normal way. For example, on Windows /// all '/' are converted to '\'. /// /// @param path A path that is transformed to native format. /// @param result Holds the result of the transformation. void native(const Twine &path, SmallVectorImpl<char> &result); /// Convert path to the native form in place. This is used to give paths to /// users and operating system calls in the platform's normal way. For example, /// on Windows all '/' are converted to '\'. /// /// @param path A path that is transformed to native format. void native(SmallVectorImpl<char> &path); /// @} /// @name Lexical Observers /// @{ /// @brief Get root name. /// /// @code /// //net/hello => //net /// c:/hello => c: (on Windows, on other platforms nothing) /// /hello => <empty> /// @endcode /// /// @param path Input path. /// @result The root name of \a path if it has one, otherwise "". StringRef root_name(StringRef path); /// @brief Get root directory. /// /// @code /// /goo/hello => / /// c:/hello => / /// d/file.txt => <empty> /// @endcode /// /// @param path Input path. /// @result The root directory of \a path if it has one, otherwise /// "". StringRef root_directory(StringRef path); /// @brief Get root path. /// /// Equivalent to root_name + root_directory. /// /// @param path Input path. /// @result The root path of \a path if it has one, otherwise "". StringRef root_path(StringRef path); /// @brief Get relative path. /// /// @code /// C:\hello\world => hello\world /// foo/bar => foo/bar /// /foo/bar => foo/bar /// @endcode /// /// @param path Input path. /// @result The path starting after root_path if one exists, otherwise "". StringRef relative_path(StringRef path); /// @brief Get parent path. /// /// @code /// / => <empty> /// /foo => / /// foo/../bar => foo/.. /// @endcode /// /// @param path Input path. /// @result The parent path of \a path if one exists, otherwise "". StringRef parent_path(StringRef path); /// @brief Get filename. /// /// @code /// /foo.txt => foo.txt /// . => . /// .. => .. /// / => / /// @endcode /// /// @param path Input path. /// @result The filename part of \a path. This is defined as the last component /// of \a path. StringRef filename(StringRef path); /// @brief Get stem. /// /// If filename contains a dot but not solely one or two dots, result is the /// substring of filename ending at (but not including) the last dot. Otherwise /// it is filename. /// /// @code /// /foo/bar.txt => bar /// /foo/bar => bar /// /foo/.txt => <empty> /// /foo/. => . /// /foo/.. => .. /// @endcode /// /// @param path Input path. /// @result The stem of \a path. StringRef stem(StringRef path); /// @brief Get extension. /// /// If filename contains a dot but not solely one or two dots, result is the /// substring of filename starting at (and including) the last dot, and ending /// at the end of \a path. Otherwise "". /// /// @code /// /foo/bar.txt => .txt /// /foo/bar => <empty> /// /foo/.txt => .txt /// @endcode /// /// @param path Input path. /// @result The extension of \a path. StringRef extension(StringRef path); /// @brief Check whether the given char is a path separator on the host OS. /// /// @param value a character /// @result true if \a value is a path separator character on the host OS bool is_separator(char value); /// @brief Return the preferred separator for this platform. /// /// @result StringRef of the preferred separator, null-terminated. StringRef get_separator(); /// @brief Get the typical temporary directory for the system, e.g., /// "/var/tmp" or "C:/TEMP" /// /// @param erasedOnReboot Whether to favor a path that is erased on reboot /// rather than one that potentially persists longer. This parameter will be /// ignored if the user or system has set the typical environment variable /// (e.g., TEMP on Windows, TMPDIR on *nix) to specify a temporary directory. /// /// @param result Holds the resulting path name. void system_temp_directory(bool erasedOnReboot, SmallVectorImpl<char> &result); /// @brief Get the user's home directory. /// /// @param result Holds the resulting path name. /// @result True if a home directory is set, false otherwise. bool home_directory(SmallVectorImpl<char> &result); /// @brief Get the user's cache directory. /// /// Expect the resulting path to be a directory shared with other /// applications/services used by the user. Params \p Path1 to \p Path3 can be /// used to append additional directory names to the resulting path. Recommended /// pattern is <user_cache_directory>/<vendor>/<application>. /// /// @param Result Holds the resulting path. /// @param Path1 Additional path to be appended to the user's cache directory /// path. "" can be used to append nothing. /// @param Path2 Second additional path to be appended. /// @param Path3 Third additional path to be appended. /// @result True if a cache directory path is set, false otherwise. bool user_cache_directory(SmallVectorImpl<char> &Result, const Twine &Path1, const Twine &Path2 = "", const Twine &Path3 = ""); /// @brief Has root name? /// /// root_name != "" /// /// @param path Input path. /// @result True if the path has a root name, false otherwise. bool has_root_name(const Twine &path); /// @brief Has root directory? /// /// root_directory != "" /// /// @param path Input path. /// @result True if the path has a root directory, false otherwise. bool has_root_directory(const Twine &path); /// @brief Has root path? /// /// root_path != "" /// /// @param path Input path. /// @result True if the path has a root path, false otherwise. bool has_root_path(const Twine &path); /// @brief Has relative path? /// /// relative_path != "" /// /// @param path Input path. /// @result True if the path has a relative path, false otherwise. bool has_relative_path(const Twine &path); /// @brief Has parent path? /// /// parent_path != "" /// /// @param path Input path. /// @result True if the path has a parent path, false otherwise. bool has_parent_path(const Twine &path); /// @brief Has filename? /// /// filename != "" /// /// @param path Input path. /// @result True if the path has a filename, false otherwise. bool has_filename(const Twine &path); /// @brief Has stem? /// /// stem != "" /// /// @param path Input path. /// @result True if the path has a stem, false otherwise. bool has_stem(const Twine &path); /// @brief Has extension? /// /// extension != "" /// /// @param path Input path. /// @result True if the path has a extension, false otherwise. bool has_extension(const Twine &path); /// @brief Is path absolute? /// /// @param path Input path. /// @result True if the path is absolute, false if it is not. bool is_absolute(const Twine &path); /// @brief Is path relative? /// /// @param path Input path. /// @result True if the path is relative, false if it is not. bool is_relative(const Twine &path); /// @brief Remove redundant leading "./" pieces and consecutive separators. /// /// @param path Input path. /// @result The cleaned-up \a path. StringRef remove_leading_dotslash(StringRef path); /// @brief In-place remove any './' and optionally '../' components from a path. /// /// @param path processed path /// @param remove_dot_dot specify if '../' (except for leading "../") should be /// removed /// @result True if path was changed bool remove_dots(SmallVectorImpl<char> &path, bool remove_dot_dot = false); } // end namespace path } // end namespace sys } // end namespace llvm #endif