// Class experimental::filesystem::path -*- C++ -*- // Copyright (C) 2014-2022 Free Software Foundation, Inc. // // This file is part of the GNU ISO C++ Library. This library is free // software; you can redistribute it and/or modify it under the // terms of the GNU General Public License as published by the // Free Software Foundation; either version 3, or (at your option) // any later version. // This library is distributed in the hope that it will be useful, // but WITHOUT ANY WARRANTY; without even the implied warranty of // MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the // GNU General Public License for more details. // Under Section 7 of GPL version 3, you are granted additional // permissions described in the GCC Runtime Library Exception, version // 3.1, as published by the Free Software Foundation. // You should have received a copy of the GNU General Public License and // a copy of the GCC Runtime Library Exception along with this program; // see the files COPYING3 and COPYING.RUNTIME respectively. If not, see // . #ifndef _GLIBCXX_USE_CXX11_ABI # define _GLIBCXX_USE_CXX11_ABI 1 #endif #include namespace fs = std::experimental::filesystem; using fs::path; fs::filesystem_error::~filesystem_error() = default; constexpr path::value_type path::preferred_separator [[gnu::used]]; path& path::remove_filename() { if (_M_type == _Type::_Multi) { if (!_M_cmpts.empty()) { auto cmpt = std::prev(_M_cmpts.end()); _M_pathname.erase(cmpt->_M_pos); _M_cmpts.erase(cmpt); _M_trim(); } } else clear(); return *this; } path& path::replace_filename(const path& replacement) { remove_filename(); operator/=(replacement); return *this; } #ifdef _GLIBCXX_FILESYSTEM_IS_WINDOWS const fs::path::value_type dot = L'.'; #else const fs::path::value_type dot = '.'; #endif path& path::replace_extension(const path& replacement) { auto ext = _M_find_extension(); if (ext.first && ext.second != string_type::npos) { if (ext.first == &_M_pathname) _M_pathname.erase(ext.second); else { const auto& back = _M_cmpts.back(); if (ext.first != &back._M_pathname) _GLIBCXX_THROW_OR_ABORT( std::logic_error("path::replace_extension failed")); _M_pathname.erase(back._M_pos + ext.second); } } if (!replacement.empty() && replacement.native()[0] != dot) _M_pathname += dot; _M_pathname += replacement.native(); _M_split_cmpts(); return *this; } namespace { template int do_compare(Iter1 begin1, Iter1 end1, Iter2 begin2, Iter2 end2) { int cmpt = 1; while (begin1 != end1 && begin2 != end2) { if (begin1->native() < begin2->native()) return -cmpt; if (begin1->native() > begin2->native()) return +cmpt; ++begin1; ++begin2; ++cmpt; } if (begin1 == end1) { if (begin2 == end2) return 0; return -cmpt; } return +cmpt; } } int path::compare(const path& p) const noexcept { struct CmptRef { const path* ptr; const string_type& native() const noexcept { return ptr->native(); } }; if (_M_type == _Type::_Multi && p._M_type == _Type::_Multi) return do_compare(_M_cmpts.begin(), _M_cmpts.end(), p._M_cmpts.begin(), p._M_cmpts.end()); else if (_M_type == _Type::_Multi) { CmptRef c[1] = { { &p } }; return do_compare(_M_cmpts.begin(), _M_cmpts.end(), c, c+1); } else if (p._M_type == _Type::_Multi) { CmptRef c[1] = { { this } }; return do_compare(c, c+1, p._M_cmpts.begin(), p._M_cmpts.end()); } else return _M_pathname.compare(p._M_pathname); } path path::root_name() const { path __ret; if (_M_type == _Type::_Root_name) __ret = *this; else if (_M_cmpts.size() && _M_cmpts.begin()->_M_type == _Type::_Root_name) __ret = *_M_cmpts.begin(); return __ret; } path path::root_directory() const { path __ret; if (_M_type == _Type::_Root_dir) __ret = *this; else if (!_M_cmpts.empty()) { auto __it = _M_cmpts.begin(); if (__it->_M_type == _Type::_Root_name) ++__it; if (__it != _M_cmpts.end() && __it->_M_type == _Type::_Root_dir) __ret = *__it; } return __ret; } path path::root_path() const { path __ret; if (_M_type == _Type::_Root_name || _M_type == _Type::_Root_dir) __ret = *this; else if (!_M_cmpts.empty()) { auto __it = _M_cmpts.begin(); if (__it->_M_type == _Type::_Root_name) { __ret = *__it++; if (__it != _M_cmpts.end() && __it->_M_type == _Type::_Root_dir) { __ret._M_pathname += preferred_separator; __ret._M_split_cmpts(); } } else if (__it->_M_type == _Type::_Root_dir) __ret = *__it; } return __ret; } path path::relative_path() const { path __ret; if (_M_type == _Type::_Filename) __ret = *this; else if (!_M_cmpts.empty()) { auto __it = _M_cmpts.begin(); if (__it->_M_type == _Type::_Root_name) ++__it; if (__it != _M_cmpts.end() && __it->_M_type == _Type::_Root_dir) ++__it; if (__it != _M_cmpts.end()) __ret.assign(_M_pathname.substr(__it->_M_pos)); } return __ret; } path path::parent_path() const { path __ret; if (_M_cmpts.size() < 2) return __ret; for (auto __it = _M_cmpts.begin(), __end = std::prev(_M_cmpts.end()); __it != __end; ++__it) { __ret /= *__it; } return __ret; } bool path::has_root_name() const { if (_M_type == _Type::_Root_name) return true; if (!_M_cmpts.empty() && _M_cmpts.begin()->_M_type == _Type::_Root_name) return true; return false; } bool path::has_root_directory() const { if (_M_type == _Type::_Root_dir) return true; if (!_M_cmpts.empty()) { auto __it = _M_cmpts.begin(); if (__it->_M_type == _Type::_Root_name) ++__it; if (__it != _M_cmpts.end() && __it->_M_type == _Type::_Root_dir) return true; } return false; } bool path::has_root_path() const { if (_M_type == _Type::_Root_name || _M_type == _Type::_Root_dir) return true; if (!_M_cmpts.empty()) { auto __type = _M_cmpts.front()._M_type; if (__type == _Type::_Root_name || __type == _Type::_Root_dir) return true; } return false; } bool path::has_relative_path() const { if (_M_type == _Type::_Filename) return true; if (!_M_cmpts.empty()) { auto __it = _M_cmpts.begin(); if (__it->_M_type == _Type::_Root_name) ++__it; if (__it != _M_cmpts.end() && __it->_M_type == _Type::_Root_dir) ++__it; if (__it != _M_cmpts.end()) return true; } return false; } bool path::has_parent_path() const { return _M_cmpts.size() > 1; } bool path::has_filename() const { return !empty(); } std::pair path::_M_find_extension() const { const string_type* s = nullptr; if (_M_type != _Type::_Multi) s = &_M_pathname; else if (!_M_cmpts.empty()) { const auto& c = _M_cmpts.back(); if (c._M_type == _Type::_Filename) s = &c._M_pathname; } if (s) { if (auto sz = s->size()) { if (sz <= 2 && (*s)[0] == dot) { if (sz == 1 || (*s)[1] == dot) // filename is "." or ".." return { s, string_type::npos }; else return { s, 0 }; // filename is like ".?" } return { s, s->rfind(dot) }; } } return {}; } void path::_M_split_cmpts() { _M_type = _Type::_Multi; _M_cmpts.clear(); // Use const-reference to access _M_pathname, to avoid "leaking" COW string. const auto& pathname = _M_pathname; if (pathname.empty()) return; { // Approximate count of components, to reserve space in _M_cmpts vector: int count = 1; bool saw_sep_last = _S_is_dir_sep(pathname[0]); bool saw_non_sep = !saw_sep_last; for (value_type c : pathname) { if (_S_is_dir_sep(c)) saw_sep_last = true; else if (saw_sep_last) { ++count; saw_sep_last = false; saw_non_sep = true; } } if (saw_non_sep && saw_sep_last) ++count; // empty filename after trailing slash if (count > 1) _M_cmpts.reserve(count); } size_t pos = 0; const size_t len = pathname.size(); // look for root name or root directory if (_S_is_dir_sep(pathname[0])) { // look for root name, such as "//" or "//foo" if (len > 1 && pathname[1] == pathname[0]) { if (len == 2) { // entire path is just "//" _M_type = _Type::_Root_name; return; } if (!_S_is_dir_sep(pathname[2])) { // got root name, find its end pos = 3; while (pos < len && !_S_is_dir_sep(pathname[pos])) ++pos; if (pos == len) { _M_type = _Type::_Root_name; return; } _M_add_root_name(pos); _M_add_root_dir(pos); } else { // got something like "///foo" which is just a root directory // composed of multiple redundant directory separators _M_add_root_dir(0); } } else if (len == 1) // got root directory only { _M_type = _Type::_Root_dir; return; } else // got root directory _M_add_root_dir(0); ++pos; } #ifdef _GLIBCXX_FILESYSTEM_IS_WINDOWS else if (len > 1 && pathname[1] == L':') { // got disk designator if (len == 2) { _M_type = _Type::_Root_name; return; } _M_add_root_name(2); if (len > 2 && _S_is_dir_sep(pathname[2])) _M_add_root_dir(2); pos = 2; } #endif else { size_t n = 1; for (; n < pathname.size() && !_S_is_dir_sep(pathname[n]); ++n) { } if (n == pathname.size()) { _M_type = _Type::_Filename; return; } } size_t back = pos; while (pos < len) { if (_S_is_dir_sep(pathname[pos])) { if (back != pos) _M_add_filename(back, pos - back); back = ++pos; } else ++pos; } if (back != pos) _M_add_filename(back, pos - back); else if (_S_is_dir_sep(pathname.back())) { // [path.itr]/8 // "Dot, if one or more trailing non-root slash characters are present." if (_M_cmpts.back()._M_type == _Type::_Filename) { const auto& last = _M_cmpts.back(); pos = last._M_pos + last._M_pathname.size(); _M_cmpts.emplace_back(string_type(1, dot), _Type::_Filename, pos); } } _M_trim(); } void path::_M_add_root_name(size_t n) { _M_cmpts.emplace_back(_M_pathname.substr(0, n), _Type::_Root_name, 0); } void path::_M_add_root_dir(size_t pos) { _M_cmpts.emplace_back(_M_pathname.substr(pos, 1), _Type::_Root_dir, pos); } void path::_M_add_filename(size_t pos, size_t n) { _M_cmpts.emplace_back(_M_pathname.substr(pos, n), _Type::_Filename, pos); } void path::_M_trim() { if (_M_cmpts.size() == 1) { _M_type = _M_cmpts.front()._M_type; _M_cmpts.clear(); } } path::string_type path::_S_convert_loc(const char* __first, const char* __last, const std::locale& __loc) { #if _GLIBCXX_USE_WCHAR_T auto& __cvt = std::use_facet>(__loc); basic_string __ws; if (!__str_codecvt_in_all(__first, __last, __ws, __cvt)) _GLIBCXX_THROW_OR_ABORT(filesystem_error( "Cannot convert character sequence", std::make_error_code(errc::illegal_byte_sequence))); #ifdef _GLIBCXX_FILESYSTEM_IS_WINDOWS return __ws; #else return _Cvt::_S_convert(__ws.data(), __ws.data() + __ws.size()); #endif #else return {__first, __last}; #endif } std::size_t fs::hash_value(const path& p) noexcept { // [path.non-member] // "If for two paths, p1 == p2 then hash_value(p1) == hash_value(p2)." // Equality works as if by traversing the range [begin(), end()), meaning // e.g. path("a//b") == path("a/b"), so we cannot simply hash _M_pathname // but need to iterate over individual elements. Use the hash_combine from // http://www.open-std.org/jtc1/sc22/wg21/docs/papers/2014/n3876.pdf size_t seed = 0; for (const auto& x : p) { seed ^= std::hash()(x.native()) + 0x9e3779b9 + (seed<<6) + (seed>>2); } return seed; } #include std::string fs::filesystem_error::_M_gen_what() { const std::string pstr1 = _M_path1.u8string(); const std::string pstr2 = _M_path2.u8string(); experimental::string_view s = this->system_error::what(); const size_t len = 18 + s.length() + (pstr1.length() || pstr2.length() ? pstr1.length() + 3 : 0) + (pstr2.length() ? pstr2.length() + 3 : 0); std::string w; w.reserve(len); w = "filesystem error: "; w.append(s.data(), s.length()); if (!pstr1.empty()) { w += " ["; w += pstr1; w += ']'; } if (!pstr2.empty()) { if (pstr1.empty()) w += " []"; w += " ["; w += pstr2; w += ']'; } return w; }