31 Input/output library [input.output]

31.12 File systems [filesystems]

31.12.6 Class path [fs.class.path]

31.12.6.5 Members [fs.path.member]

31.12.6.5.1 Constructors [fs.path.construct]

path() noexcept;
Postconditions: empty() is true.
path(const path& p); path(path&& p) noexcept;
Effects: Constructs an object of class path having the same pathname in the native and generic formats, respectively, as the original value of p.
In the second form, p is left in a valid but unspecified state.
path(string_type&& source, format fmt = auto_format);
Effects: Constructs an object of class path for which the pathname in the detected-format of source has the original value of source ([fs.path.fmt.cvt]), converting format if required ([fs.path.fmt.cvt]).
source is left in a valid but unspecified state.
template<class Source> path(const Source& source, format fmt = auto_format); template<class InputIterator> path(InputIterator first, InputIterator last, format fmt = auto_format);
Effects: Let s be the effective range of source ([fs.path.req]) or the range [first, last), with the encoding converted if required ([fs.path.cvt]).
Finds the detected-format of s ([fs.path.fmt.cvt]) and constructs an object of class path for which the pathname in that format is s.
template<class Source> path(const Source& source, const locale& loc, format fmt = auto_format); template<class InputIterator> path(InputIterator first, InputIterator last, const locale& loc, format fmt = auto_format);
Mandates: The value type of Source and InputIterator is char.
Effects: Let s be the effective range of source or the range [first, last), after converting the encoding as follows:
  • If value_type is wchar_t, converts to the native wide encoding ([fs.path.type.cvt]) using the codecvt<wchar_t, char, mbstate_t> facet of loc.
  • Otherwise a conversion is performed using the codecvt<wchar_t, char, mbstate_t> facet of loc, and then a second conversion to the current ordinary encoding.
Finds the detected-format of s ([fs.path.fmt.cvt]) and constructs an object of class path for which the pathname in that format is s.
[Example 1: 
A string is to be read from a database that is encoded in ISO/IEC 8859-1, and used to create a directory: namespace fs = std::filesystem; std::string latin1_string = read_latin1_data(); codecvt_8859_1<wchar_t> latin1_facet; std::locale latin1_locale(std::locale(), latin1_facet); fs::create_directory(fs::path(latin1_string, latin1_locale));
For POSIX-based operating systems, the path is constructed by first using latin1_facet to convert ISO/IEC 8859-1 encoded latin1_string to a wide character string in the native wide encoding ([fs.path.type.cvt]).
The resulting wide string is then converted to an ordinary character pathname string in the current native ordinary encoding.
If the native wide encoding is UTF-16 or UTF-32, and the current native ordinary encoding is UTF-8, all of the characters in the ISO/IEC 8859-1 character set will be converted to their Unicode representation, but for other native ordinary encodings some characters may have no representation.
For Windows-based operating systems, the path is constructed by using latin1_facet to convert ISO/IEC 8859-1 encoded latin1_string to a UTF-16 encoded wide character pathname string.
All of the characters in the ISO/IEC 8859-1 character set will be converted to their Unicode representation.
— end example]

31.12.6.5.2 Assignments [fs.path.assign]

path& operator=(const path& p);
Effects: If *this and p are the same object, has no effect.
Otherwise, sets both respective pathnames of *this to the respective pathnames of p.
Returns: *this.
path& operator=(path&& p) noexcept;
Effects: If *this and p are the same object, has no effect.
Otherwise, sets both respective pathnames of *this to the respective pathnames of p.
p is left in a valid but unspecified state.
[Note 1: 
A valid implementation is swap(p).
— end note]
Returns: *this.
path& operator=(string_type&& source); path& assign(string_type&& source);
Effects: Sets the pathname in the detected-format of source to the original value of source.
source is left in a valid but unspecified state.
Returns: *this.
template<class Source> path& operator=(const Source& source); template<class Source> path& assign(const Source& source); template<class InputIterator> path& assign(InputIterator first, InputIterator last);
Effects: Let s be the effective range of source ([fs.path.req]) or the range [first, last), with the encoding converted if required ([fs.path.cvt]).
Finds the detected-format of s ([fs.path.fmt.cvt]) and sets the pathname in that format to s.
Returns: *this.

31.12.6.5.3 Appends [fs.path.append]

The append operations use operator/= to denote their semantic effect of appending preferred-separator when needed.
path& operator/=(const path& p);
Effects: If p.is_absolute() || (p.has_root_name() && p.root_name() != root_name()), then operator=(p).
Otherwise, modifies *this as if by these steps:
  • If p.has_root_directory(), then removes any root directory and relative path from the generic format pathname.
    Otherwise, if !has_root_directory() && is_absolute() is true or if has_filename() is true, then appends path​::​preferred_separator to the generic format pathname.
  • Then appends the native format pathname of p, omitting any root-name from its generic format pathname, to the native format pathname.
[Example 1: 
Even if //host is interpreted as a root-name, both of the paths path("//host")/"foo" and path("//host/")/"foo" equal "//host/foo" (although the former might use backslash as the preferred separator).
Expression examples: // On POSIX, path("foo") /= path(""); // yields path("foo/") path("foo") /= path("/bar"); // yields path("/bar") // On Windows, path("foo") /= path(""); // yields path("foo\\") path("foo") /= path("/bar"); // yields path("/bar") path("foo") /= path("c:/bar"); // yields path("c:/bar") path("foo") /= path("c:"); // yields path("c:") path("c:") /= path(""); // yields path("c:") path("c:foo") /= path("/bar"); // yields path("c:/bar") path("c:foo") /= path("c:bar"); // yields path("c:foo\\bar")
— end example]
Returns: *this.
template<class Source> path& operator/=(const Source& source); template<class Source> path& append(const Source& source);
Effects: Equivalent to: return operator/=(path(source));
template<class InputIterator> path& append(InputIterator first, InputIterator last);
Effects: Equivalent to: return operator/=(path(first, last));

31.12.6.5.4 Concatenation [fs.path.concat]

path& operator+=(const path& x); path& operator+=(const string_type& x); path& operator+=(basic_string_view<value_type> x); path& operator+=(const value_type* x); template<class Source> path& operator+=(const Source& x); template<class Source> path& concat(const Source& x);
Effects: Appends path(x).native() to the pathname in the native format.
[Note 1: 
This directly manipulates the value of native(), which is not necessarily portable between operating systems.
— end note]
Returns: *this.
path& operator+=(value_type x); template<class EcharT> path& operator+=(EcharT x);
Effects: Equivalent to: return *this += basic_string_view(&x, 1);
template<class InputIterator> path& concat(InputIterator first, InputIterator last);
Effects: Equivalent to: return *this += path(first, last);

31.12.6.5.5 Modifiers [fs.path.modifiers]

void clear() noexcept;
Postconditions: empty() is true.
path& make_preferred();
Effects: Each directory-separator of the pathname in the generic format is converted to preferred-separator.
Returns: *this.
[Example 1: path p("foo/bar"); std::cout << p << '\n'; p.make_preferred(); std::cout << p << '\n';
On an operating system where preferred-separator is a slash, the output is: "foo/bar" "foo/bar"
On an operating system where preferred-separator is a backslash, the output is: "foo/bar" "foo\bar"
— end example]
path& remove_filename();
Effects: Remove the generic format pathname of filename() from the generic format pathname.
Postconditions: !has_filename().
Returns: *this.
[Example 2: path("foo/bar").remove_filename(); // yields "foo/" path("foo/").remove_filename(); // yields "foo/" path("/foo").remove_filename(); // yields "/" path("/").remove_filename(); // yields "/" — end example]
path& replace_filename(const path& replacement);
Effects: Equivalent to: remove_filename(); operator/=(replacement);
Returns: *this.
[Example 3: path("/foo").replace_filename("bar"); // yields "/bar" on POSIX path("/").replace_filename("bar"); // yields "/bar" on POSIX — end example]
path& replace_extension(const path& replacement = path());
Effects:
  • Any existing extension() ([fs.path.decompose]) is removed from the pathname in the generic format, then
  • If replacement is not empty and does not begin with a dot character, a dot character is appended to the pathname in the generic format, then
  • operator+=(replacement);.
Returns: *this.
void swap(path& rhs) noexcept;
Effects: Swaps the contents (in all formats) of the two paths.
Complexity: Constant time.

31.12.6.5.6 Native format observers [fs.path.native.obs]

The string returned by all native format observers is in the native pathname format ([fs.class.path]).
const string_type& native() const noexcept;
Returns: The pathname in the native format.
const value_type* c_str() const noexcept;
Effects: Equivalent to: return native().c_str();
operator string_type() const;
Returns: native().
template<class EcharT, class traits = char_traits<EcharT>, class Allocator = allocator<EcharT>> basic_string<EcharT, traits, Allocator> string(const Allocator& a = Allocator()) const;
Returns: native().
Remarks: All memory allocation, including for the return value, shall be performed by a.
Conversion, if any, is specified by [fs.path.cvt].
std::string string() const; std::wstring wstring() const; std::u8string u8string() const; std::u16string u16string() const; std::u32string u32string() const;
Returns: native().
Remarks: Conversion, if any, is performed as specified by [fs.path.cvt].

31.12.6.5.7 Generic format observers [fs.path.generic.obs]

Generic format observer functions return strings formatted according to the generic pathname format.
A single slash ('/') character is used as the directory-separator.
[Example 1: 
On an operating system that uses backslash as its preferred-separator, path("foo\\bar").generic_string() returns "foo/bar".
— end example]
template<class EcharT, class traits = char_traits<EcharT>, class Allocator = allocator<EcharT>> basic_string<EcharT, traits, Allocator> generic_string(const Allocator& a = Allocator()) const;
Returns: The pathname in the generic format.
Remarks: All memory allocation, including for the return value, shall be performed by a.
Conversion, if any, is specified by [fs.path.cvt].
std::string generic_string() const; std::wstring generic_wstring() const; std::u8string generic_u8string() const; std::u16string generic_u16string() const; std::u32string generic_u32string() const;
Returns: The pathname in the generic format.
Remarks: Conversion, if any, is specified by [fs.path.cvt].

31.12.6.5.8 Compare [fs.path.compare]

int compare(const path& p) const noexcept;
Returns:
  • Let rootNameComparison be the result of this->root_name().native().compare(p.root_name().native()).
    If rootNameComparison is not 0, rootNameComparison.
  • Otherwise, if !this->has_root_directory() and p.has_root_directory(), a value less than 0.
  • Otherwise, if this->has_root_directory() and !p.has_root_directory(), a value greater than 0.
  • Otherwise, if native() for the elements of this->relative_path() are lexicographically less than native() for the elements of p.relative_path(), a value less than 0.
  • Otherwise, if native() for the elements of this->relative_path() are lexicographically greater than native() for the elements of p.relative_path(), a value greater than 0.
  • Otherwise, 0.
int compare(const string_type& s) const; int compare(basic_string_view<value_type> s) const; int compare(const value_type* s) const;
Effects: Equivalent to: return compare(path(s));

31.12.6.5.9 Decomposition [fs.path.decompose]

path root_name() const;
Returns: root-name, if the pathname in the generic format includes root-name, otherwise path().
path root_directory() const;
Returns: root-directory, if the pathname in the generic format includes root-directory, otherwise path().
path root_path() const;
Returns: root_name() / root_directory().
path relative_path() const;
Returns: A path composed from the pathname in the generic format, if empty() is false, beginning with the first filename after root_path().
Otherwise, path().
path parent_path() const;
Returns: *this if has_relative_path() is false, otherwise a path whose generic format pathname is the longest prefix of the generic format pathname of *this that produces one fewer element in its iteration.
path filename() const;
Returns: relative_path().empty() ? path() : *--end().
[Example 1: path("/foo/bar.txt").filename(); // yields "bar.txt" path("/foo/bar").filename(); // yields "bar" path("/foo/bar/").filename(); // yields "" path("/").filename(); // yields "" path("//host").filename(); // yields "" path(".").filename(); // yields "." path("..").filename(); // yields ".." — end example]
path stem() const;
Returns: Let f be the generic format pathname of filename().
Returns a path whose pathname in the generic format is
  • f, if it contains no periods other than a leading period or consists solely of one or two periods;
  • otherwise, the prefix of f ending before its last period.
[Example 2: std::cout << path("/foo/bar.txt").stem(); // outputs "bar" path p = "foo.bar.baz.tar"; for (; !p.extension().empty(); p = p.stem()) std::cout << p.extension() << '\n'; // outputs: .tar // .baz // .bar — end example]
path extension() const;
Returns: A path whose pathname in the generic format is the suffix of filename() not included in stem().
[Example 3: path("/foo/bar.txt").extension(); // yields ".txt" and stem() is "bar" path("/foo/bar").extension(); // yields "" and stem() is "bar" path("/foo/.profile").extension(); // yields "" and stem() is ".profile" path(".bar").extension(); // yields "" and stem() is ".bar" path("..bar").extension(); // yields ".bar" and stem() is "." — end example]
[Note 1: 
The period is included in the return value so that it is possible to distinguish between no extension and an empty extension.
— end note]
[Note 2: 
On non-POSIX operating systems, for a path p, it is possible that p.stem() + p.extension() == p.filename() is false, even though the generic format pathnames are the same.
— end note]

31.12.6.5.10 Query [fs.path.query]

bool empty() const noexcept;
Returns: true if the pathname in the generic format is empty, otherwise false.
bool has_root_path() const;
Returns: !root_path().empty().
bool has_root_name() const;
Returns: !root_name().empty().
bool has_root_directory() const;
Returns: !root_directory().empty().
bool has_relative_path() const;
Returns: !relative_path().empty().
bool has_parent_path() const;
Returns: !parent_path().empty().
bool has_filename() const;
Returns: !filename().empty().
bool has_stem() const;
Returns: !stem().empty().
bool has_extension() const;
Returns: !extension().empty().
bool is_absolute() const;
Returns: true if the pathname in the native format contains an absolute path ([fs.class.path]), otherwise false.
[Example 1: 
path("/").is_absolute() is true for POSIX-based operating systems, and false for Windows-based operating systems.
— end example]
bool is_relative() const;
Returns: !is_absolute().

31.12.6.5.11 Generation [fs.path.gen]

path lexically_normal() const;
Returns: A path whose pathname in the generic format is the normal form ([fs.path.generic]) of the pathname in the generic format of *this.
[Example 1: assert(path("foo/./bar/..").lexically_normal() == "foo/"); assert(path("foo/.///bar/../").lexically_normal() == "foo/");
The above assertions will succeed.
On Windows, the returned path's directory-separator characters will be backslashes rather than slashes, but that does not affect path equality.
— end example]
path lexically_relative(const path& base) const;
Effects: If:
  • root_name() != base.root_name() is true, or
  • is_absolute() != base.is_absolute() is true, or
  • !has_root_directory() && base.has_root_directory() is true, or
  • any filename in relative_path() or base.relative_path() can be interpreted as a root-name,
returns path().
[Note 1: 
On a POSIX implementation, no filename in a relative-path is acceptable as a root-name.
— end note]
Determines the first mismatched element of *this and base as if by: auto [a, b] = mismatch(begin(), end(), base.begin(), base.end());
Then,
  • if a == end() and b == base.end(), returns path("."); otherwise
  • let n be the number of filename elements in [b, base.end()) that are not dot or dot-dot or empty, minus the number that are dot-dot.
    If n<0, returns path(); otherwise
  • if n == 0 and (a == end() || a->empty()), returns path("."); otherwise
  • returns an object of class path that is default-constructed, followed by
    • application of operator/=(path("..")) n times, and then
    • application of operator/= for each element in [a, end()).
Returns: *this made relative to base.
Does not resolve ([fs.class.path]) symlinks.
Does not first normalize ([fs.path.generic]) *this or base.
[Example 2: assert(path("/a/d").lexically_relative("/a/b/c") == "../../d"); assert(path("/a/b/c").lexically_relative("/a/d") == "../b/c"); assert(path("a/b/c").lexically_relative("a") == "b/c"); assert(path("a/b/c").lexically_relative("a/b/c/x/y") == "../.."); assert(path("a/b/c").lexically_relative("a/b/c") == "."); assert(path("a/b").lexically_relative("c/d") == "../../a/b");
The above assertions will succeed.
On Windows, the returned path's directory-separator characters will be backslashes rather than slashes, but that does not affect path equality.
— end example]
[Note 2: 
If symlink following semantics are desired, use the operational function relative().
— end note]
[Note 3: 
If normalization ([fs.path.generic]) is needed to ensure consistent matching of elements, apply lexically_normal() to *this, base, or both.
— end note]
path lexically_proximate(const path& base) const;
Returns: If the value of lexically_relative(base) is not an empty path, return it.
Otherwise return *this.
[Note 4: 
If symlink following semantics are desired, use the operational function proximate().
— end note]
[Note 5: 
If normalization ([fs.path.generic]) is needed to ensure consistent matching of elements, apply lexically_normal() to *this, base, or both.
— end note]