// boost/filesystem/operations.hpp ---------------------------------------------------// // Copyright Beman Dawes 2002-2009 // Copyright Jan Langer 2002 // Copyright Dietmar Kuehl 2001 // Copyright Vladimir Prus 2002 // Distributed under the Boost Software License, Version 1.0. // See http://www.boost.org/LICENSE_1_0.txt // Library home page: http://www.boost.org/libs/filesystem //--------------------------------------------------------------------------------------// #ifndef BOOST_FILESYSTEM3_OPERATIONS_HPP #define BOOST_FILESYSTEM3_OPERATIONS_HPP #include # if defined( BOOST_NO_STD_WSTRING ) # error Configuration not supported: Boost.Filesystem V3 and later requires std::wstring support # endif #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include // for pair #include #include #include #ifdef BOOST_WINDOWS_API # include #endif #include // must be the last #include //--------------------------------------------------------------------------------------// namespace boost { namespace filesystem { //--------------------------------------------------------------------------------------// // // // class filesystem_error // // // //--------------------------------------------------------------------------------------// class BOOST_SYMBOL_VISIBLE filesystem_error : public system::system_error { // see http://www.boost.org/more/error_handling.html for design rationale // all functions are inline to avoid issues with crossing dll boundaries // functions previously throw() are now BOOST_NOEXCEPT_OR_NOTHROW // functions previously without throw() are now BOOST_NOEXCEPT public: // compiler generates copy constructor and copy assignment filesystem_error( const std::string & what_arg, system::error_code ec) BOOST_NOEXCEPT : system::system_error(ec, what_arg) { try { m_imp_ptr.reset(new m_imp); } catch (...) { m_imp_ptr.reset(); } } filesystem_error( const std::string & what_arg, const path& path1_arg, system::error_code ec) BOOST_NOEXCEPT : system::system_error(ec, what_arg) { try { m_imp_ptr.reset(new m_imp); m_imp_ptr->m_path1 = path1_arg; } catch (...) { m_imp_ptr.reset(); } } filesystem_error( const std::string & what_arg, const path& path1_arg, const path& path2_arg, system::error_code ec) BOOST_NOEXCEPT : system::system_error(ec, what_arg) { try { m_imp_ptr.reset(new m_imp); m_imp_ptr->m_path1 = path1_arg; m_imp_ptr->m_path2 = path2_arg; } catch (...) { m_imp_ptr.reset(); } } ~filesystem_error() BOOST_NOEXCEPT_OR_NOTHROW{} const path& path1() const BOOST_NOEXCEPT { static const path empty_path; return m_imp_ptr.get() ? m_imp_ptr->m_path1 : empty_path; } const path& path2() const BOOST_NOEXCEPT { static const path empty_path; return m_imp_ptr.get() ? m_imp_ptr->m_path2 : empty_path; } const char* what() const BOOST_NOEXCEPT_OR_NOTHROW { if (!m_imp_ptr.get()) return system::system_error::what(); try { if (m_imp_ptr->m_what.empty()) { m_imp_ptr->m_what = system::system_error::what(); if (!m_imp_ptr->m_path1.empty()) { m_imp_ptr->m_what += ": \""; m_imp_ptr->m_what += m_imp_ptr->m_path1.string(); m_imp_ptr->m_what += "\""; } if (!m_imp_ptr->m_path2.empty()) { m_imp_ptr->m_what += ", \""; m_imp_ptr->m_what += m_imp_ptr->m_path2.string(); m_imp_ptr->m_what += "\""; } } return m_imp_ptr->m_what.c_str(); } catch (...) { return system::system_error::what(); } } private: struct m_imp { path m_path1; // may be empty() path m_path2; // may be empty() std::string m_what; // not built until needed }; boost::shared_ptr m_imp_ptr; }; //--------------------------------------------------------------------------------------// // file_type // //--------------------------------------------------------------------------------------// enum file_type { status_error, # ifndef BOOST_FILESYSTEM_NO_DEPRECATED status_unknown = status_error, # endif file_not_found, regular_file, directory_file, // the following may not apply to some operating systems or file systems symlink_file, block_file, character_file, fifo_file, socket_file, reparse_file, // Windows: FILE_ATTRIBUTE_REPARSE_POINT that is not a symlink type_unknown, // file does exist, but isn't one of the above types or // we don't have strong enough permission to find its type _detail_directory_symlink // internal use only; never exposed to users }; //--------------------------------------------------------------------------------------// // perms // //--------------------------------------------------------------------------------------// enum perms { no_perms = 0, // file_not_found is no_perms rather than perms_not_known // POSIX equivalent macros given in comments. // Values are from POSIX and are given in octal per the POSIX standard. // permission bits owner_read = 0400, // S_IRUSR, Read permission, owner owner_write = 0200, // S_IWUSR, Write permission, owner owner_exe = 0100, // S_IXUSR, Execute/search permission, owner owner_all = 0700, // S_IRWXU, Read, write, execute/search by owner group_read = 040, // S_IRGRP, Read permission, group group_write = 020, // S_IWGRP, Write permission, group group_exe = 010, // S_IXGRP, Execute/search permission, group group_all = 070, // S_IRWXG, Read, write, execute/search by group others_read = 04, // S_IROTH, Read permission, others others_write = 02, // S_IWOTH, Write permission, others others_exe = 01, // S_IXOTH, Execute/search permission, others others_all = 07, // S_IRWXO, Read, write, execute/search by others all_all = 0777, // owner_all|group_all|others_all // other POSIX bits set_uid_on_exe = 04000, // S_ISUID, Set-user-ID on execution set_gid_on_exe = 02000, // S_ISGID, Set-group-ID on execution sticky_bit = 01000, // S_ISVTX, // (POSIX XSI) On directories, restricted deletion flag // (V7) 'sticky bit': save swapped text even after use // (SunOS) On non-directories: don't cache this file // (SVID-v4.2) On directories: restricted deletion flag // Also see http://en.wikipedia.org/wiki/Sticky_bit perms_mask = 07777, // all_all|set_uid_on_exe|set_gid_on_exe|sticky_bit perms_not_known = 0xFFFF, // present when directory_entry cache not loaded // options for permissions() function add_perms = 0x1000, // adds the given permission bits to the current bits remove_perms = 0x2000, // removes the given permission bits from the current bits; // choose add_perms or remove_perms, not both; if neither add_perms // nor remove_perms is given, replace the current bits with // the given bits. symlink_perms = 0x4000 // on POSIX, don't resolve symlinks; implied on Windows }; BOOST_BITMASK(perms) //--------------------------------------------------------------------------------------// // file_status // //--------------------------------------------------------------------------------------// class BOOST_FILESYSTEM_DECL file_status { public: file_status() : m_value(status_error), m_perms(perms_not_known) {} explicit file_status(file_type v, perms prms = perms_not_known) : m_value(v), m_perms(prms) {} // observers file_type type() const { return m_value; } perms permissions() const { return m_perms; } // modifiers void type(file_type v) { m_value = v; } void permissions(perms prms) { m_perms = prms; } bool operator==(const file_status& rhs) const { return type() == rhs.type() && permissions() == rhs.permissions(); } bool operator!=(const file_status& rhs) const { return !(*this == rhs); } private: file_type m_value; enum perms m_perms; }; inline bool type_present(file_status f) { return f.type() != status_error; } inline bool permissions_present(file_status f) {return f.permissions() != perms_not_known;} inline bool status_known(file_status f) { return type_present(f) && permissions_present(f); } inline bool exists(file_status f) { return f.type() != status_error && f.type() != file_not_found; } inline bool is_regular_file(file_status f){ return f.type() == regular_file; } inline bool is_directory(file_status f) { return f.type() == directory_file; } inline bool is_symlink(file_status f) { return f.type() == symlink_file; } inline bool is_other(file_status f) { return exists(f) && !is_regular_file(f) && !is_directory(f) && !is_symlink(f); } # ifndef BOOST_FILESYSTEM_NO_DEPRECATED inline bool is_regular(file_status f) { return f.type() == regular_file; } # endif struct space_info { // all values are byte counts boost::uintmax_t capacity; boost::uintmax_t free; // <= capacity boost::uintmax_t available; // <= free }; BOOST_SCOPED_ENUM_START(copy_option) {none=0, fail_if_exists = none, overwrite_if_exists}; BOOST_SCOPED_ENUM_END //--------------------------------------------------------------------------------------// // implementation details // //--------------------------------------------------------------------------------------// namespace detail { // We cannot pass a BOOST_SCOPED_ENUM to a compled function because it will result // in an undefined reference if the library is compled with -std=c++0x but the use // is compiled in C++03 mode, or visa versa. See tickets 6124, 6779, 10038. enum copy_option {none=0, fail_if_exists = none, overwrite_if_exists}; BOOST_FILESYSTEM_DECL file_status status(const path&p, system::error_code* ec=0); BOOST_FILESYSTEM_DECL file_status symlink_status(const path& p, system::error_code* ec=0); BOOST_FILESYSTEM_DECL bool is_empty(const path& p, system::error_code* ec=0); BOOST_FILESYSTEM_DECL path initial_path(system::error_code* ec=0); BOOST_FILESYSTEM_DECL path canonical(const path& p, const path& base, system::error_code* ec=0); BOOST_FILESYSTEM_DECL void copy(const path& from, const path& to, system::error_code* ec=0); BOOST_FILESYSTEM_DECL void copy_directory(const path& from, const path& to, system::error_code* ec=0); BOOST_FILESYSTEM_DECL void copy_file(const path& from, const path& to, // See ticket #2925 detail::copy_option option, system::error_code* ec=0); BOOST_FILESYSTEM_DECL void copy_symlink(const path& existing_symlink, const path& new_symlink, system::error_code* ec=0); BOOST_FILESYSTEM_DECL bool create_directories(const path& p, system::error_code* ec=0); BOOST_FILESYSTEM_DECL bool create_directory(const path& p, system::error_code* ec=0); BOOST_FILESYSTEM_DECL void create_directory_symlink(const path& to, const path& from, system::error_code* ec=0); BOOST_FILESYSTEM_DECL void create_hard_link(const path& to, const path& from, system::error_code* ec=0); BOOST_FILESYSTEM_DECL void create_symlink(const path& to, const path& from, system::error_code* ec=0); BOOST_FILESYSTEM_DECL path current_path(system::error_code* ec=0); BOOST_FILESYSTEM_DECL void current_path(const path& p, system::error_code* ec=0); BOOST_FILESYSTEM_DECL bool equivalent(const path& p1, const path& p2, system::error_code* ec=0); BOOST_FILESYSTEM_DECL boost::uintmax_t file_size(const path& p, system::error_code* ec=0); BOOST_FILESYSTEM_DECL boost::uintmax_t hard_link_count(const path& p, system::error_code* ec=0); BOOST_FILESYSTEM_DECL std::time_t last_write_time(const path& p, system::error_code* ec=0); BOOST_FILESYSTEM_DECL void last_write_time(const path& p, const std::time_t new_time, system::error_code* ec=0); BOOST_FILESYSTEM_DECL void permissions(const path& p, perms prms, system::error_code* ec=0); BOOST_FILESYSTEM_DECL path read_symlink(const path& p, system::error_code* ec=0); BOOST_FILESYSTEM_DECL // For standardization, if the committee doesn't like "remove", consider "eliminate" bool remove(const path& p, system::error_code* ec=0); BOOST_FILESYSTEM_DECL boost::uintmax_t remove_all(const path& p, system::error_code* ec=0); BOOST_FILESYSTEM_DECL void rename(const path& old_p, const path& new_p, system::error_code* ec=0); BOOST_FILESYSTEM_DECL void resize_file(const path& p, uintmax_t size, system::error_code* ec=0); BOOST_FILESYSTEM_DECL space_info space(const path& p, system::error_code* ec=0); BOOST_FILESYSTEM_DECL path system_complete(const path& p, system::error_code* ec=0); BOOST_FILESYSTEM_DECL path temp_directory_path(system::error_code* ec=0); BOOST_FILESYSTEM_DECL path unique_path(const path& p, system::error_code* ec=0); } // namespace detail //--------------------------------------------------------------------------------------// // // // status query functions // // // //--------------------------------------------------------------------------------------// inline file_status status(const path& p) {return detail::status(p);} inline file_status status(const path& p, system::error_code& ec) {return detail::status(p, &ec);} inline file_status symlink_status(const path& p) {return detail::symlink_status(p);} inline file_status symlink_status(const path& p, system::error_code& ec) {return detail::symlink_status(p, &ec);} inline bool exists(const path& p) {return exists(detail::status(p));} inline bool exists(const path& p, system::error_code& ec) {return exists(detail::status(p, &ec));} inline bool is_directory(const path& p) {return is_directory(detail::status(p));} inline bool is_directory(const path& p, system::error_code& ec) {return is_directory(detail::status(p, &ec));} inline bool is_regular_file(const path& p) {return is_regular_file(detail::status(p));} inline bool is_regular_file(const path& p, system::error_code& ec) {return is_regular_file(detail::status(p, &ec));} inline bool is_other(const path& p) {return is_other(detail::status(p));} inline bool is_other(const path& p, system::error_code& ec) {return is_other(detail::status(p, &ec));} inline bool is_symlink(const path& p) {return is_symlink(detail::symlink_status(p));} inline bool is_symlink(const path& p, system::error_code& ec) {return is_symlink(detail::symlink_status(p, &ec));} # ifndef BOOST_FILESYSTEM_NO_DEPRECATED inline bool is_regular(const path& p) {return is_regular(detail::status(p));} inline bool is_regular(const path& p, system::error_code& ec) {return is_regular(detail::status(p, &ec));} # endif inline bool is_empty(const path& p) {return detail::is_empty(p);} inline bool is_empty(const path& p, system::error_code& ec) {return detail::is_empty(p, &ec);} //--------------------------------------------------------------------------------------// // // // operational functions // // in alphabetical order, unless otherwise noted // // // //--------------------------------------------------------------------------------------// // forward declarations path current_path(); // fwd declaration path initial_path(); BOOST_FILESYSTEM_DECL path absolute(const path& p, const path& base=current_path()); // If base.is_absolute(), throws nothing. Thus no need for ec argument inline path canonical(const path& p, const path& base=current_path()) {return detail::canonical(p, base);} inline path canonical(const path& p, system::error_code& ec) {return detail::canonical(p, current_path(), &ec);} inline path canonical(const path& p, const path& base, system::error_code& ec) {return detail::canonical(p, base, &ec);} # ifndef BOOST_FILESYSTEM_NO_DEPRECATED inline path complete(const path& p) { return absolute(p, initial_path()); } inline path complete(const path& p, const path& base) { return absolute(p, base); } # endif inline void copy(const path& from, const path& to) {detail::copy(from, to);} inline void copy(const path& from, const path& to, system::error_code& ec) {detail::copy(from, to, &ec);} inline void copy_directory(const path& from, const path& to) {detail::copy_directory(from, to);} inline void copy_directory(const path& from, const path& to, system::error_code& ec) {detail::copy_directory(from, to, &ec);} inline void copy_file(const path& from, const path& to, // See ticket #2925 BOOST_SCOPED_ENUM(copy_option) option) { detail::copy_file(from, to, static_cast(option)); } inline void copy_file(const path& from, const path& to) { detail::copy_file(from, to, detail::fail_if_exists); } inline void copy_file(const path& from, const path& to, // See ticket #2925 BOOST_SCOPED_ENUM(copy_option) option, system::error_code& ec) { detail::copy_file(from, to, static_cast(option), &ec); } inline void copy_file(const path& from, const path& to, system::error_code& ec) { detail::copy_file(from, to, detail::fail_if_exists, &ec); } inline void copy_symlink(const path& existing_symlink, const path& new_symlink) {detail::copy_symlink(existing_symlink, new_symlink);} inline void copy_symlink(const path& existing_symlink, const path& new_symlink, system::error_code& ec) {detail::copy_symlink(existing_symlink, new_symlink, &ec);} inline bool create_directories(const path& p) {return detail::create_directories(p);} inline bool create_directories(const path& p, system::error_code& ec) {return detail::create_directories(p, &ec);} inline bool create_directory(const path& p) {return detail::create_directory(p);} inline bool create_directory(const path& p, system::error_code& ec) {return detail::create_directory(p, &ec);} inline void create_directory_symlink(const path& to, const path& from) {detail::create_directory_symlink(to, from);} inline void create_directory_symlink(const path& to, const path& from, system::error_code& ec) {detail::create_directory_symlink(to, from, &ec);} inline void create_hard_link(const path& to, const path& new_hard_link) {detail::create_hard_link(to, new_hard_link);} inline void create_hard_link(const path& to, const path& new_hard_link, system::error_code& ec) {detail::create_hard_link(to, new_hard_link, &ec);} inline void create_symlink(const path& to, const path& new_symlink) {detail::create_symlink(to, new_symlink);} inline void create_symlink(const path& to, const path& new_symlink, system::error_code& ec) {detail::create_symlink(to, new_symlink, &ec);} inline path current_path() {return detail::current_path();} inline path current_path(system::error_code& ec) {return detail::current_path(&ec);} inline void current_path(const path& p) {detail::current_path(p);} inline void current_path(const path& p, system::error_code& ec) {detail::current_path(p, &ec);} inline bool equivalent(const path& p1, const path& p2) {return detail::equivalent(p1, p2);} inline bool equivalent(const path& p1, const path& p2, system::error_code& ec) {return detail::equivalent(p1, p2, &ec);} inline boost::uintmax_t file_size(const path& p) {return detail::file_size(p);} inline boost::uintmax_t file_size(const path& p, system::error_code& ec) {return detail::file_size(p, &ec);} inline boost::uintmax_t hard_link_count(const path& p) {return detail::hard_link_count(p);} inline boost::uintmax_t hard_link_count(const path& p, system::error_code& ec) {return detail::hard_link_count(p, &ec);} inline path initial_path() {return detail::initial_path();} inline path initial_path(system::error_code& ec) {return detail::initial_path(&ec);} template path initial_path() {return initial_path();} template path initial_path(system::error_code& ec) {return detail::initial_path(&ec);} inline std::time_t last_write_time(const path& p) {return detail::last_write_time(p);} inline std::time_t last_write_time(const path& p, system::error_code& ec) {return detail::last_write_time(p, &ec);} inline void last_write_time(const path& p, const std::time_t new_time) {detail::last_write_time(p, new_time);} inline void last_write_time(const path& p, const std::time_t new_time, system::error_code& ec) {detail::last_write_time(p, new_time, &ec);} inline void permissions(const path& p, perms prms) {detail::permissions(p, prms);} inline void permissions(const path& p, perms prms, system::error_code& ec) {detail::permissions(p, prms, &ec);} inline path read_symlink(const path& p) {return detail::read_symlink(p);} inline path read_symlink(const path& p, system::error_code& ec) {return detail::read_symlink(p, &ec);} inline // For standardization, if the committee doesn't like "remove", consider "eliminate" bool remove(const path& p) {return detail::remove(p);} inline bool remove(const path& p, system::error_code& ec) {return detail::remove(p, &ec);} inline boost::uintmax_t remove_all(const path& p) {return detail::remove_all(p);} inline boost::uintmax_t remove_all(const path& p, system::error_code& ec) {return detail::remove_all(p, &ec);} inline void rename(const path& old_p, const path& new_p) {detail::rename(old_p, new_p);} inline void rename(const path& old_p, const path& new_p, system::error_code& ec) {detail::rename(old_p, new_p, &ec);} inline // name suggested by Scott McMurray void resize_file(const path& p, uintmax_t size) {detail::resize_file(p, size);} inline void resize_file(const path& p, uintmax_t size, system::error_code& ec) {detail::resize_file(p, size, &ec);} inline space_info space(const path& p) {return detail::space(p);} inline space_info space(const path& p, system::error_code& ec) {return detail::space(p, &ec);} # ifndef BOOST_FILESYSTEM_NO_DEPRECATED inline bool symbolic_link_exists(const path& p) { return is_symlink(symlink_status(p)); } # endif inline path system_complete(const path& p) {return detail::system_complete(p);} inline path system_complete(const path& p, system::error_code& ec) {return detail::system_complete(p, &ec);} inline path temp_directory_path() {return detail::temp_directory_path();} inline path temp_directory_path(system::error_code& ec) {return detail::temp_directory_path(&ec);} inline path unique_path(const path& p="%%%%-%%%%-%%%%-%%%%") { return detail::unique_path(p); } inline path unique_path(const path& p, system::error_code& ec) { return detail::unique_path(p, &ec); } //--------------------------------------------------------------------------------------// // // // directory_entry // // // //--------------------------------------------------------------------------------------// // GCC has a problem with a member function named path within a namespace or // sub-namespace that also has a class named path. The workaround is to always // fully qualify the name path when it refers to the class name. class BOOST_FILESYSTEM_DECL directory_entry { public: // compiler generated copy constructor, copy assignment, and destructor apply directory_entry() {} explicit directory_entry(const boost::filesystem::path& p, file_status st = file_status(), file_status symlink_st=file_status()) : m_path(p), m_status(st), m_symlink_status(symlink_st) {} void assign(const boost::filesystem::path& p, file_status st = file_status(), file_status symlink_st = file_status()) { m_path = p; m_status = st; m_symlink_status = symlink_st; } void replace_filename(const boost::filesystem::path& p, file_status st = file_status(), file_status symlink_st = file_status()) { m_path.remove_filename(); m_path /= p; m_status = st; m_symlink_status = symlink_st; } # ifndef BOOST_FILESYSTEM_NO_DEPRECATED void replace_leaf(const boost::filesystem::path& p, file_status st, file_status symlink_st) { replace_filename(p, st, symlink_st); } # endif const boost::filesystem::path& path() const {return m_path;} file_status status() const {return m_get_status();} file_status status(system::error_code& ec) const {return m_get_status(&ec);} file_status symlink_status() const {return m_get_symlink_status();} file_status symlink_status(system::error_code& ec) const {return m_get_symlink_status(&ec);} bool operator==(const directory_entry& rhs) {return m_path == rhs.m_path;} bool operator!=(const directory_entry& rhs) {return m_path != rhs.m_path;} bool operator< (const directory_entry& rhs) {return m_path < rhs.m_path;} bool operator<=(const directory_entry& rhs) {return m_path <= rhs.m_path;} bool operator> (const directory_entry& rhs) {return m_path > rhs.m_path;} bool operator>=(const directory_entry& rhs) {return m_path >= rhs.m_path;} private: boost::filesystem::path m_path; mutable file_status m_status; // stat()-like mutable file_status m_symlink_status; // lstat()-like file_status m_get_status(system::error_code* ec=0) const; file_status m_get_symlink_status(system::error_code* ec=0) const; }; // directory_entry //--------------------------------------------------------------------------------------// // // // directory_iterator helpers // // // //--------------------------------------------------------------------------------------// class directory_iterator; namespace detail { BOOST_FILESYSTEM_DECL system::error_code dir_itr_close(// never throws() void *& handle # if defined(BOOST_POSIX_API) , void *& buffer # endif ); struct dir_itr_imp { directory_entry dir_entry; void* handle; # ifdef BOOST_POSIX_API void* buffer; // see dir_itr_increment implementation # endif dir_itr_imp() : handle(0) # ifdef BOOST_POSIX_API , buffer(0) # endif {} ~dir_itr_imp() // never throws { dir_itr_close(handle # if defined(BOOST_POSIX_API) , buffer # endif ); } }; // see path::iterator: comment below BOOST_FILESYSTEM_DECL void directory_iterator_construct(directory_iterator& it, const path& p, system::error_code* ec); BOOST_FILESYSTEM_DECL void directory_iterator_increment(directory_iterator& it, system::error_code* ec); } // namespace detail //--------------------------------------------------------------------------------------// // // // directory_iterator // // // //--------------------------------------------------------------------------------------// class directory_iterator : public boost::iterator_facade< directory_iterator, directory_entry, boost::single_pass_traversal_tag > { public: directory_iterator(){} // creates the "end" iterator // iterator_facade derived classes don't seem to like implementations in // separate translation unit dll's, so forward to detail functions explicit directory_iterator(const path& p) : m_imp(new detail::dir_itr_imp) { detail::directory_iterator_construct(*this, p, 0); } directory_iterator(const path& p, system::error_code& ec) : m_imp(new detail::dir_itr_imp) { detail::directory_iterator_construct(*this, p, &ec); } ~directory_iterator() {} // never throws directory_iterator& increment(system::error_code& ec) { detail::directory_iterator_increment(*this, &ec); return *this; } private: friend struct detail::dir_itr_imp; friend BOOST_FILESYSTEM_DECL void detail::directory_iterator_construct(directory_iterator& it, const path& p, system::error_code* ec); friend BOOST_FILESYSTEM_DECL void detail::directory_iterator_increment(directory_iterator& it, system::error_code* ec); // shared_ptr provides shallow-copy semantics required for InputIterators. // m_imp.get()==0 indicates the end iterator. boost::shared_ptr< detail::dir_itr_imp > m_imp; friend class boost::iterator_core_access; boost::iterator_facade< directory_iterator, directory_entry, boost::single_pass_traversal_tag >::reference dereference() const { BOOST_ASSERT_MSG(m_imp.get(), "attempt to dereference end iterator"); return m_imp->dir_entry; } void increment() { detail::directory_iterator_increment(*this, 0); } bool equal(const directory_iterator& rhs) const { return m_imp == rhs.m_imp; } }; // enable C++11 range-base for statement use ---------------------------------------// // begin() and end() are only used by a range-based for statement in the context of // auto - thus the top-level const is stripped - so returning const is harmless and // emphasizes begin() is just a pass through. inline const directory_iterator& begin(const directory_iterator& iter) {return iter;} inline directory_iterator end(const directory_iterator&) {return directory_iterator();} // enable BOOST_FOREACH ------------------------------------------------------------// inline directory_iterator& range_begin(directory_iterator& iter) {return iter;} inline directory_iterator range_begin(const directory_iterator& iter) {return iter;} inline directory_iterator range_end(const directory_iterator&) {return directory_iterator();} } // namespace filesystem // namespace boost template specializations template<> struct range_mutable_iterator { typedef boost::filesystem::directory_iterator type; }; template<> struct range_const_iterator { typedef boost::filesystem::directory_iterator type; }; namespace filesystem { //--------------------------------------------------------------------------------------// // // // recursive_directory_iterator helpers // // // //--------------------------------------------------------------------------------------// BOOST_SCOPED_ENUM_START(symlink_option) { none, no_recurse = none, // don't follow directory symlinks (default behavior) recurse, // follow directory symlinks _detail_no_push = recurse << 1 // internal use only }; BOOST_SCOPED_ENUM_END BOOST_BITMASK(BOOST_SCOPED_ENUM(symlink_option)) namespace detail { struct recur_dir_itr_imp { typedef directory_iterator element_type; std::stack< element_type, std::vector< element_type > > m_stack; int m_level; BOOST_SCOPED_ENUM(symlink_option) m_options; recur_dir_itr_imp() : m_level(0), m_options(symlink_option::none) {} void increment(system::error_code* ec); // ec == 0 means throw on error bool push_directory(system::error_code& ec) BOOST_NOEXCEPT; void pop(); }; // Implementation is inline to avoid dynamic linking difficulties with m_stack: // Microsoft warning C4251, m_stack needs to have dll-interface to be used by // clients of struct 'boost::filesystem::detail::recur_dir_itr_imp' inline bool recur_dir_itr_imp::push_directory(system::error_code& ec) BOOST_NOEXCEPT // Returns: true if push occurs, otherwise false. Always returns false on error. { ec.clear(); // Discover if the iterator is for a directory that needs to be recursed into, // taking symlinks and options into account. if ((m_options & symlink_option::_detail_no_push) == symlink_option::_detail_no_push) m_options &= ~symlink_option::_detail_no_push; else { // Logic for following predicate was contributed by Daniel Aarno to handle cyclic // symlinks correctly and efficiently, fixing ticket #5652. // if (((m_options & symlink_option::recurse) == symlink_option::recurse // || !is_symlink(m_stack.top()->symlink_status())) // && is_directory(m_stack.top()->status())) ... // The predicate code has since been rewritten to pass error_code arguments, // per ticket #5653. file_status symlink_stat; if ((m_options & symlink_option::recurse) != symlink_option::recurse) { symlink_stat = m_stack.top()->symlink_status(ec); if (ec) return false; } if ((m_options & symlink_option::recurse) == symlink_option::recurse || !is_symlink(symlink_stat)) { file_status stat = m_stack.top()->status(ec); if (ec || !is_directory(stat)) return false; directory_iterator next(m_stack.top()->path(), ec); if (!ec && next != directory_iterator()) { m_stack.push(next); ++m_level; return true; } } } return false; } inline void recur_dir_itr_imp::increment(system::error_code* ec) // ec == 0 means throw on error // // Invariant: On return, the top of the iterator stack is the next valid (possibly // end) iterator, regardless of whether or not an error is reported, and regardless of // whether any error is reported by exception or error code. In other words, progress // is always made so a loop on the iterator will always eventually terminate // regardless of errors. { system::error_code ec_push_directory; // if various conditions are met, push a directory_iterator into the iterator stack if (push_directory(ec_push_directory)) { if (ec) ec->clear(); return; } // Do the actual increment operation on the top iterator in the iterator // stack, popping the stack if necessary, until either the stack is empty or a // non-end iterator is reached. while (!m_stack.empty() && ++m_stack.top() == directory_iterator()) { m_stack.pop(); --m_level; } // report errors if any if (ec_push_directory) { if (ec) *ec = ec_push_directory; else { BOOST_FILESYSTEM_THROW(filesystem_error( "filesystem::recursive_directory_iterator directory error", ec_push_directory)); } } else if (ec) ec->clear(); } inline void recur_dir_itr_imp::pop() { BOOST_ASSERT_MSG(m_level > 0, "pop() on recursive_directory_iterator with level < 1"); do { m_stack.pop(); --m_level; } while (!m_stack.empty() && ++m_stack.top() == directory_iterator()); } } // namespace detail //--------------------------------------------------------------------------------------// // // // recursive_directory_iterator // // // //--------------------------------------------------------------------------------------// class recursive_directory_iterator : public boost::iterator_facade< recursive_directory_iterator, directory_entry, boost::single_pass_traversal_tag > { public: recursive_directory_iterator(){} // creates the "end" iterator explicit recursive_directory_iterator(const path& dir_path, BOOST_SCOPED_ENUM(symlink_option) opt = symlink_option::none) : m_imp(new detail::recur_dir_itr_imp) { m_imp->m_options = opt; m_imp->m_stack.push(directory_iterator(dir_path)); if (m_imp->m_stack.top() == directory_iterator()) { m_imp.reset (); } } recursive_directory_iterator(const path& dir_path, BOOST_SCOPED_ENUM(symlink_option) opt, system::error_code & ec) : m_imp(new detail::recur_dir_itr_imp) { m_imp->m_options = opt; m_imp->m_stack.push(directory_iterator(dir_path, ec)); if (m_imp->m_stack.top() == directory_iterator()) { m_imp.reset (); } } recursive_directory_iterator(const path& dir_path, system::error_code & ec) : m_imp(new detail::recur_dir_itr_imp) { m_imp->m_options = symlink_option::none; m_imp->m_stack.push(directory_iterator(dir_path, ec)); if (m_imp->m_stack.top() == directory_iterator()) { m_imp.reset (); } } recursive_directory_iterator& increment(system::error_code& ec) { BOOST_ASSERT_MSG(m_imp.get(), "increment() on end recursive_directory_iterator"); m_imp->increment(&ec); if (m_imp->m_stack.empty()) m_imp.reset(); // done, so make end iterator return *this; } int level() const { BOOST_ASSERT_MSG(m_imp.get(), "level() on end recursive_directory_iterator"); return m_imp->m_level; } bool no_push_pending() const { BOOST_ASSERT_MSG(m_imp.get(), "is_no_push_requested() on end recursive_directory_iterator"); return (m_imp->m_options & symlink_option::_detail_no_push) == symlink_option::_detail_no_push; } # ifndef BOOST_FILESYSTEM_NO_DEPRECATED bool no_push_request() const { return no_push_pending(); } # endif void pop() { BOOST_ASSERT_MSG(m_imp.get(), "pop() on end recursive_directory_iterator"); m_imp->pop(); if (m_imp->m_stack.empty()) m_imp.reset(); // done, so make end iterator } void no_push(bool value=true) { BOOST_ASSERT_MSG(m_imp.get(), "no_push() on end recursive_directory_iterator"); if (value) m_imp->m_options |= symlink_option::_detail_no_push; else m_imp->m_options &= ~symlink_option::_detail_no_push; } file_status status() const { BOOST_ASSERT_MSG(m_imp.get(), "status() on end recursive_directory_iterator"); return m_imp->m_stack.top()->status(); } file_status symlink_status() const { BOOST_ASSERT_MSG(m_imp.get(), "symlink_status() on end recursive_directory_iterator"); return m_imp->m_stack.top()->symlink_status(); } private: // shared_ptr provides shallow-copy semantics required for InputIterators. // m_imp.get()==0 indicates the end iterator. boost::shared_ptr< detail::recur_dir_itr_imp > m_imp; friend class boost::iterator_core_access; boost::iterator_facade< recursive_directory_iterator, directory_entry, boost::single_pass_traversal_tag >::reference dereference() const { BOOST_ASSERT_MSG(m_imp.get(), "dereference of end recursive_directory_iterator"); return *m_imp->m_stack.top(); } void increment() { BOOST_ASSERT_MSG(m_imp.get(), "increment of end recursive_directory_iterator"); m_imp->increment(0); if (m_imp->m_stack.empty()) m_imp.reset(); // done, so make end iterator } bool equal(const recursive_directory_iterator& rhs) const { return m_imp == rhs.m_imp; } }; // enable C++11 range-base for statement use ---------------------------------------// // begin() and end() are only used by a range-based for statement in the context of // auto - thus the top-level const is stripped - so returning const is harmless and // emphasizes begin() is just a pass through. inline const recursive_directory_iterator& begin(const recursive_directory_iterator& iter) {return iter;} inline recursive_directory_iterator end(const recursive_directory_iterator&) {return recursive_directory_iterator();} // enable BOOST_FOREACH ------------------------------------------------------------// inline recursive_directory_iterator& range_begin(recursive_directory_iterator& iter) {return iter;} inline recursive_directory_iterator range_begin(const recursive_directory_iterator& iter) {return iter;} inline recursive_directory_iterator range_end(const recursive_directory_iterator&) {return recursive_directory_iterator();} } // namespace filesystem // namespace boost template specializations template<> struct range_mutable_iterator { typedef boost::filesystem::recursive_directory_iterator type; }; template<> struct range_const_iterator { typedef boost::filesystem::recursive_directory_iterator type; }; namespace filesystem { # if !defined(BOOST_FILESYSTEM_NO_DEPRECATED) typedef recursive_directory_iterator wrecursive_directory_iterator; # endif // test helper -----------------------------------------------------------------------// // Not part of the documented interface since false positives are possible; // there is no law that says that an OS that has large stat.st_size // actually supports large file sizes. namespace detail { BOOST_FILESYSTEM_DECL bool possible_large_file_size_support(); } } // namespace filesystem } // namespace boost #include // pops abi_prefix.hpp pragmas #endif // BOOST_FILESYSTEM3_OPERATIONS_HPP