ISO/IEC JTC 1/SC 22/WG 21 Dxxxx
Date: 2014-07-04
ISO/IEC DTS 18822
ISO/IEC JTC1 SC22
Secretariat: ANSI
Programming Languages — C++
— File System Technical Specification
Langages de programmation — C++
— Spécification technique de système de fichiers
Warning This document is not an ISO Technical Specification. It is distributed for review and comment. It is subject to change without notice and may not be referred to as a Technical Specification. Recipients of this draft are invited to submit, with their comments, notification of any relevant patent rights of which they are aware and to provide supporting documentation. |
Document type: Draft Technical Specification
Document stage: (40) Enquiry
Document Language: E
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Contents
1 Scope
2 Conformance
2.1 POSIX conformance
2.2 Operating system dependent behavior conformance
2.3 File system race behavior
3 Normative references
4 Terms and definitions
4.1 absolute path
4.2 canonical path
4.3 directory
4.4 file
4.5 file system
4.6 file system race
4.7 filename
4.8 hard link
4.9 link
4.10 native encoding
4.11 native pathname format
4.12 NTCTS
4.13 operating system dependent behavior
4.14 parent directory
4.15 path
4.16 pathname
4.17 pathname resolution
4.18 relative path
4.19 symbolic link
5 Requirements
5.1 Namespaces and headers
5.2 Feature test macros
6 Header<experimental/filesystem>
synopsis
7 Error reporting
8 Classpath
8.1path
generic pathname format grammar
8.2path
conversions
8.2.1path
argument format conversions
8.2.2path
type and encoding conversions
8.3path
requirements
8.4path
members
8.4.1path
constructors
8.4.2path
assignments
8.4.3path
appends
8.4.4path
concatenation
8.4.5path
modifiers
8.4.6path
native format observers
8.4.7path
generic format observers
8.4.8path
compare
8.4.9path
decomposition
8.4.10path
query
8.5path
iterators
8.6path
non-member functions
8.6.1path
inserter and extractor
8.6.2path
factory functions
9 Classfilesystem_error
9.1filesystem_error
members
10 Enumerations
10.1 Enum classfile_type
10.2 Enum classcopy_options
10.3 Enum classperms
10.4 Enum classdirectory_options
11 Classfile_status
11.1file_status
constructors
11.2file_status
observers
11.3file_status
modifiers
12 Classdirectory_entry
12.1directory_entry
constructors
12.2directory_entry
modifiers
12.3directory_entry
observers
13 Classdirectory_iterator
13.1directory_iterator
members
13.2directory_iterator
non-member functions
14 Classrecursive_directory_iterator
14.1recursive_directory_iterator
members
14.2recursive_directory_iterator
non-member functions
15 Operational functions
15.1 Absolute
15.2 Canonical
15.3 Copy
15.4 Copy file
15.5 Copy symlink
15.6 Create directories
15.7 Create directory
15.8 Create directory symlink
15.9 Create hard link
15.10 Create symlink
15.11 Current path
15.12 Exists
15.13 Equivalent
15.14 File size
15.15 Hard link count
15.16 Is block file
15.17 Is character file
15.18 Is directory
15.19 Is empty
15.20 Is fifo
15.21 Is other
15.22 Is regular file
15.23 Is socket
15.24 Is symlink
15.25 Last write time
15.26 Permissions
15.27 Read symlink
15.28 Remove
15.29 Remove all
15.30 Rename
15.31 Resize file
15.32 Space
15.33 Status
15.34 Status known
15.35 Symlink status
15.36 System complete
15.37 Temporary directory path
This Technical Specification specifies requirements for implementations of an interface that computer programs written in the C++ programming language may use to perform operations on file systems and their components, such as paths, regular files, and directories. This Technical Specification is applicable to information technology systems that can access hierarchical file systems, such as those with operating systems that conform to the POSIX (3) interface. This Technical Specification is applicable only to vendors who wish to provide the interface it describes.
Conformance is specified in terms of behavior. Ideal behavior is not always implementable, so the conformance sub-clauses take that into account.
Some behavior is specified by reference to POSIX (3). How such behavior is actually implemented is unspecified.
[Note: This constitutes an "as if" rule allowing implementations to call native operating system or other API's. —end note]
Implementations are encouraged to provide such behavior as it is defined by POSIX. Implementations shall document any behavior that differs from the behavior defined by POSIX. Implementations that do not support exact POSIX behavior are encouraged to provide behavior as close to POSIX behavior as is reasonable given the limitations of actual operating systems and file systems. If an implementation cannot provide any reasonable behavior, the implementation shall report an error as specified in § 7.
[Note: This allows users to rely on an exception being thrown or an error code being set when an implementation cannot provide any reasonable behavior. — end note]
Implementations are not required to provide behavior that is not supported by a particular file system.
[Example: The FAT file system used by some memory cards, camera memory, and floppy discs does not support hard links, symlinks, and many other features of more capable file systems, so implementations are not required to support those features on the FAT file system. —end example]
Some behavior is specified as being operating system dependent (4.13). The operating system an implementation is dependent upon is implementation defined.
It is permissible for an implementation to be dependent upon an operating system emulator rather than the actual underlying operating system.
Behavior is undefined if calls to functions provided by this Technical Specification introduce a file system race (4.6).
If the possibility of a file system race would make it unreliable for a program to test for a precondition before calling a function described herein, Requires is not specified for the function.
[Note: As a design practice, preconditions are not specified when it is unreasonable for a program to detect them prior to calling the function. —end note]
The following referenced documents are indispensable for the application of this document. For dated references, only the edition cited applies. For undated references, the latest edition of the referenced document (including any amendments) applies.
[Note: The programming language and library described in ISO/IEC 14882 is herein called the C++ Standard. References to clauses within the C++ Standard are written as "C++14 §3.2". Section references are relative to N3936.
The operating system interface described in ISO/IEC 9945 is herein called POSIX. —end note]
This Technical Specification mentions commercially available operating systems for purposes of exposition. [footnote]
Unless otherwise specified, the whole of the C++ Standard's Library introduction (C++14 §17) is included into this Technical Specification by reference.
[footnote] POSIX® is a registered trademark of The IEEE. MAC OS® is a registered trademark of Apple Inc. Windows® is a registered trademark of Microsoft Corporation. This information is given for the convenience of users of this document and does not constitute an endorsement by ISO or IEC of these products.
For the purposes of this document, the terms and definitions given in the C++ Standard and the following apply.
A path that unambiguously identifies the location of a file without reference to an additional starting location. The elements of a path that determine if it is absolute are operating system dependent.
An absolute path that has no elements that are symbolic links, and no dot or dot-dot elements (8.1).
A file within a file system that acts as a container of directory entries that contain information about other files, possibly including other directory files.
An object within a file system that holds user or system data. Files can be written to, or read from, or both. A file has certain attributes, including type. File types include regular files and directories. Other types of files, such as symbolic links, may be supported by the implementation.
A collection of files and certain of their attributes.
The condition that occurs when multiple threads, processes, or computers interleave access and modification of the same object within a file system.
The name of a file. Filenames dot and dot-dot have special meaning. The following characteristics of filenames are operating system dependent:
A link (4.9) to an existing file. Some file systems support multiple hard links to a file. If the last hard link to a file is removed, the file itself is removed.
[Note: A hard link can be thought of as a shared-ownership smart pointer to a file. —end note]
A directory entry that associates a filename with a file. A link is either a hard link (4.8) or a symbolic link (4.19).
For narrow character strings, the operating system dependent current encoding for path names. For wide character strings, the implementation defined execution wide-character set encoding (C++14 §2.3).
The operating system dependent pathname format accepted by the host operating system.
Acronym for "null-terminated character-type sequence". Describes a sequence
of values of a given encoded character type terminated by that type's null character. If
the encoded character type is EcharT
, the null character can be constructed
by EcharT()
.
Behavior that is dependent upon the behavior and characteristics of an operating system. See [fs.conform.os].
When discussing a given directory, the directory that both contains a directory entry for the given directory and is represented by the filename dot-dot in the given directory.
When discussing other types of files, a directory containing a directory entry for the file under discussion.
This concept does not apply to dot and dot-dot.
A sequence of elements that identify the location of a file within a filesystem. The elements are the root-nameopt, root-directoryopt, and an optional sequence of filenames. The maximum number of elements in the sequence is operating system dependent.
A character string that represents the name of a path. Pathnames are formatted according to the generic pathname format grammar (8.1) or an operating system dependent native pathname format.
Pathname resolution is the operating system dependent mechanism for resolving a pathname to a particular file in a file hierarchy. There may be multiple pathnames that resolve to the same file. [Example: POSIX specifies the mechanism in section 4.11, Pathname resolution. —end example]
A path that
is not absolute, and so only
unambiguously
identifies the location of a file when resolved relative to
an implied starting location. The elements of a path that determine if it is
relative are operating system dependent. [Note:
Pathnames "."
and ".."
are relative paths. —end note]
A type of file with the property that when the file is encountered during pathname resolution, a string stored by the file is used to modify the pathname resolution.
[Note: Symbolic links are often called symlinks. A symbolic link can be thought of as a raw pointer to a file. If the file pointed to does not exist, the symbolic link is said to be a "dangling" symbolic link. —end note]
Throughout this Technical Specification, char
, wchar_t
,
char16_t
, and char32_t
are collectively called
encoded character types.
Template parameters named EcharT
shall be one of the
encoded character types.
Template parameters named InputIterator
shall meet the
C++ Standard's library input iterator requirements (C++14 §24.2.3) and shall
have a value type that is one of the encoded character types.
[Note: Use of an encoded character type implies an associated encoding. Since
signed char
andunsigned char
have no implied encoding, they are not included as permitted types. —end note]
Template parameters named Allocator
shall meet the C++
Standard's library Allocator requirements (C++14 §17.6.3.5).
The components described in this technical specification are experimental and
not part of the C++ standard library. All components described in this technical
specification are declared in namespace std::experimental::filesystem::v1
or a sub-namespace thereof unless otherwise specified. The header described in
this technical specification shall import the contents of
std::experimental::filesystem::v1
into std::experimental::filesystem
as
if by
namespace std { namespace experimental { namespace filesystem { inline namespace v1 {} } } }
Unless otherwise specified, references to other entities described in this
technical specification are assumed to be qualified with std::experimental::
filesystem::v1::
,
and references to entities described in the C++ standard are assumed to be qualified
with std::
.
This macro allows users to determine which version of this
Technical Specification is supported by header <experimental/filesystem>
.
Header <experimental/filesystem>
shall supply
the following macro definition:
#define __cpp_lib_experimental_filesystem 201406
[Note: The value of macro __cpp_lib_experimental_filesystem
is yyyymm where yyyy is the year and mm the month when the
version of the Technical Specification was completed. — end note]
<experimental/filesystem>
synopsis
[fs.filesystem.synopsis]namespace std { namespace experimental { namespace filesystem { inline namespace v1 { class path; void swap(path& lhs, path& rhs) noexcept; size_t hash_value(const path& p) noexcept; bool operator==(const path& lhs, const path& rhs) noexcept; bool operator!=(const path& lhs, const path& rhs) noexcept; bool operator< (const path& lhs, const path& rhs) noexcept; bool operator<=(const path& lhs, const path& rhs) noexcept; bool operator> (const path& lhs, const path& rhs) noexcept; bool operator>=(const path& lhs, const path& rhs) noexcept; path operator/ (const path& lhs, const path& rhs); template <class charT, class traits> basic_ostream<charT, traits>& operator<<(basic_ostream<charT, traits>& os, const path& p); template <class charT, class traits> basic_istream<charT, traits>& operator>>(basic_istream<charT, traits>& is, path& p); template <class Source> path u8path(const Source& source); template <class InputIterator> path u8path(InputIterator first, InputIterator last); class filesystem_error; class directory_entry; class directory_iterator; // enable directory_iterator range-based for statements directory_iterator begin(directory_iterator iter) noexcept; directory_iterator end(const directory_iterator&) noexcept; class recursive_directory_iterator; // enable recursive_directory_iterator range-based for statements recursive_directory_iterator begin(recursive_directory_iterator iter) noexcept; recursive_directory_iterator end(const recursive_directory_iterator&) noexcept; class file_status; struct space_info { uintmax_t capacity; uintmax_t free; uintmax_t available; }; enum class file_type; enum class perms; enum class copy_options; enum class directory_options; typedef chrono::time_point<trivial-clock> file_time_type; // operational functions path absolute(const path& p, const path& base=current_path()); path canonical(const path& p, const path& base = current_path()); path canonical(const path& p, error_code& ec); path canonical(const path& p, const path& base, error_code& ec); void copy(const path& from, const path& to); void copy(const path& from, const path& to, error_code& ec) noexcept; void copy(const path& from, const path& to, copy_options options); void copy(const path& from, const path& to, copy_options options, error_code& ec) noexcept; bool copy_file(const path& from, const path& to); bool copy_file(const path& from, const path& to, error_code& ec) noexcept; bool copy_file(const path& from, const path& to, copy_options option); bool copy_file(const path& from, const path& to, copy_options option, error_code& ec) noexcept; void copy_symlink(const path& existing_symlink, const path& new_symlink); void copy_symlink(const path& existing_symlink, const path& new_symlink, error_code& ec) noexcept; bool create_directories(const path& p); bool create_directories(const path& p, error_code& ec) noexcept; bool create_directory(const path& p); bool create_directory(const path& p, error_code& ec) noexcept; bool create_directory(const path& p, const path& attributes); bool create_directory(const path& p, const path& attributes, error_code& ec) noexcept; void create_directory_symlink(const path& to, const path& new_symlink); void create_directory_symlink(const path& to, const path& new_symlink, error_code& ec) noexcept; void create_hard_link(const path& to, const path& new_hard_link); void create_hard_link(const path& to, const path& new_hard_link, error_code& ec) noexcept; void create_symlink(const path& to, const path& new_symlink); void create_symlink(const path& to, const path& new_symlink, error_code& ec) noexcept; path current_path(); path current_path(error_code& ec); void current_path(const path& p); void current_path(const path& p, error_code& ec) noexcept; bool exists(file_status s) noexcept; bool exists(const path& p); bool exists(const path& p, error_code& ec) noexcept; bool equivalent(const path& p1, const path& p2); bool equivalent(const path& p1, const path& p2, error_code& ec) noexcept; uintmax_t file_size(const path& p); uintmax_t file_size(const path& p, error_code& ec) noexcept; uintmax_t hard_link_count(const path& p); uintmax_t hard_link_count(const path& p, error_code& ec) noexcept; bool is_block_file(file_status s) noexcept; bool is_block_file(const path& p); bool is_block_file(const path& p, error_code& ec) noexcept; bool is_character_file(file_status s) noexcept; bool is_character_file(const path& p); bool is_character_file(const path& p, error_code& ec) noexcept; bool is_directory(file_status s) noexcept; bool is_directory(const path& p); bool is_directory(const path& p, error_code& ec) noexcept; bool is_empty(const path& p); bool is_empty(const path& p, error_code& ec) noexcept; bool is_fifo(file_status s) noexcept; bool is_fifo(const path& p); bool is_fifo(const path& p, error_code& ec) noexcept; bool is_other(file_status s) noexcept; bool is_other(const path& p); bool is_other(const path& p, error_code& ec) noexcept; bool is_regular_file(file_status s) noexcept; bool is_regular_file(const path& p); bool is_regular_file(const path& p, error_code& ec) noexcept; bool is_socket(file_status s) noexcept; bool is_socket(const path& p); bool is_socket(const path& p, error_code& ec) noexcept; bool is_symlink(file_status s) noexcept; bool is_symlink(const path& p); bool is_symlink(const path& p, error_code& ec) noexcept; file_time_type last_write_time(const path& p); file_time_type last_write_time(const path& p, error_code& ec) noexcept; void last_write_time(const path& p, file_time_type new_time); void last_write_time(const path& p, file_time_type new_time, error_code& ec) noexcept; void permissions(const path& p, perms prms); void permissions(const path& p, perms prms, error_code& ec) noexcept; path read_symlink(const path& p); path read_symlink(const path& p, error_code& ec); bool remove(const path& p); bool remove(const path& p, error_code& ec) noexcept; uintmax_t remove_all(const path& p); uintmax_t remove_all(const path& p, error_code& ec) noexcept; void rename(const path& from, const path& to); void rename(const path& from, const path& to, error_code& ec) noexcept; void resize_file(const path& p, uintmax_t size); void resize_file(const path& p, uintmax_t size, error_code& ec) noexcept; space_info space(const path& p); space_info space(const path& p, error_code& ec) noexcept; file_status status(const path& p); file_status status(const path& p, error_code& ec) noexcept; bool status_known(file_status s) noexcept; file_status symlink_status(const path& p); file_status symlink_status(const path& p, error_code& ec) noexcept; path system_complete(const path& p); path system_complete(const path& p, error_code& ec); path temp_directory_path(); path temp_directory_path(error_code& ec); } } } } // namespaces std::experimental::filesystem::v1
trivial-clock
is an implementation-defined type that satisfies the
TrivialClock
requirements (C++14 §20.12.3)
and that is capable of representing and measuring file time values.
Implementations should ensure that the resolution and range of
file_time_type reflect the operating system dependent resolution and range
of file time values.
Filesystem library functions often provide two overloads, one that
throws an exception to report file system errors, and another that sets an error_code
.
[Note: This supports two common use cases:
- Uses where file system errors are truly exceptional and indicate a serious failure. Throwing an exception is the most appropriate response. This is the preferred default for most everyday programming.
- Uses where file system errors are routine and do not necessarily represent failure. Returning an error code is the most appropriate response. This allows application specific error handling, including simply ignoring the error.
—end note]
Functions not having an argument of type error_code&
report errors as follows, unless otherwise specified:
filesystem_error
shall be thrown. For functions with a single path
argument, that argument shall be passed to the
filesystem_error
constructor with a single path argument. For
functions with two path arguments, the first of these arguments shall be
passed to the
filesystem_error
constructor as the path1
argument,
and the second shall be passed as the path2
argument. The
filesystem_error
constructor's error_code
argument
is set as appropriate for the specific operating system dependent error. Functions having an argument of type error_code&
report errors as follows, unless otherwise
specified:
error_code&
argument is set as
appropriate for the specific operating system dependent error. Otherwise, clear()
is called on the
error_code&
argument.path
[class.path]An object of class path
represents a path (4.15)
and contains a pathname (4.16). Such an object is concerned only with the lexical and syntactic aspects
of a path. The path does not necessarily exist in external storage, and the
pathname is not necessarily valid for the current operating
system or for a particular file system.
namespace std { namespace experimental { namespace filesystem { inline namespace v1 { class path { public: typedef see below value_type; typedef basic_string<value_type> string_type; static constexpr value_type preferred_separator = see below; // constructors and destructor path() noexcept; path(const path& p); path(path&& p) noexcept; template <class Source> path(const Source& source); template <class InputIterator> path(InputIterator first, InputIterator last); template <class Source> path(const Source& source, const locale& loc); template <class InputIterator> path(InputIterator first, InputIterator last, const locale& loc); ~path(); // assignments path& operator=(const path& p); path& operator=(path&& p) noexcept; 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); // appends path& operator/=(const path& p); template <class Source> path& operator/=(const Source& source); template <class Source> path& append(const Source& source); template <class InputIterator> path& append(InputIterator first, InputIterator last); // concatenation path& operator+=(const path& x); path& operator+=(const string_type& x); path& operator+=(const value_type* x); path& operator+=(value_type x); template <class Source> path& operator+=(const Source& x); template <class EcharT> path& operator+=(EcharT x); template <class Source> path& concat(const Source& x); template <class InputIterator> path& concat(InputIterator first, InputIterator last); // modifiers void clear() noexcept; path& make_preferred(); path& remove_filename(); path& replace_filename(const path& replacement); path& replace_extension(const path& replacement = path()); void swap(path& rhs) noexcept; // native format observers const string_type& native() const noexcept; const value_type* c_str() const noexcept; operator string_type() const; template <class EcharT, class traits = char_traits<EcharT>, class Allocator = allocator<EcharT> > basic_string<EcharT, traits, Allocator> string(const Allocator& a = Allocator()) const; std::string string() const; std::wstring wstring() const; std::string u8string() const; std::u16string u16string() const; std::u32string u32string() const; // generic format observers template <class EcharT, class traits = char_traits<EcharT>, class Allocator = allocator<EcharT> > basic_string<EcharT, traits, Allocator> generic_string(const Allocator& a = Allocator()) const; std::string generic_string() const; std::wstring generic_wstring() const; std::string generic_u8string() const; std::u16string generic_u16string() const; std::u32string generic_u32string() const; // compare int compare(const path& p) const noexcept; int compare(const string_type& s) const; int compare(const value_type* s) const; // decomposition path root_name() const; path root_directory() const; path root_path() const; path relative_path() const; path parent_path() const; path filename() const; path stem() const; path extension() const; // query bool empty() const noexcept; bool has_root_name() const; bool has_root_directory() const; bool has_root_path() const; bool has_relative_path() const; bool has_parent_path() const; bool has_filename() const; bool has_stem() const; bool has_extension() const; bool is_absolute() const; bool is_relative() const; // iterators class iterator; typedef iterator const_iterator; iterator begin() const; iterator end() const; private: string_type pathname; // exposition only }; } } } } // namespaces std::experimental::filesystem::v1
value_type
is a typedef
for the
operating system dependent encoded character type used to represent pathnames.
The value of preferred_separator
is the operating system dependent preferred-separator character (8.1).
[Example: For POSIX based operating systems,
value_type
ischar
andpreferred_separator
is the slash character (/). For Windows based operating systems,value_type
iswchar_t
andpreferred_separator
is the backslash character (\). —end example]
path
generic pathname format grammar [path.generic]pathname:
root-name
root-directoryopt relative-pathopt
root-directory relative-pathopt
relative-path
root-name:
An
operating system dependent name that identifies the starting location for
absolute paths.
[Note: Many operating systems define a name beginning with two directory-separator characters as a root-name that identifies network or other resource locations. Some operating systems define a single letter followed by a colon as a drive specifier - a root-name identifying a specific device such as a disc drive. —end note]
root-directory:
directory-separator
relative-path:
filename
relative-path
directory-separator
relative-path
directory-separator filename
filename:
name
dot
dot-dot
name:
A
sequence of characters other than directory-separator characters.
[Note: Operating systems often place restrictions on the characters that may be used in a filename. For wide portability, users may wish to limit filename characters to the POSIX Portable Filename Character Set:
A B C D E F G H I J K L M N O P Q R S T U V W X Y Z
a b c d e f g h i j k l m n o p q r s t u v w x y z
0 1 2 3 4 5 6 7 8 9 . _ -
—end note]
dot:
The
filename consisting solely of a single period character (.).
dot-dot:
The
filename consisting solely of two period characters (..).
directory-separator:
slash
slash directory-separator
preferred-separator
preferred-separator directory-separator
preferred-separator:
An
operating system dependent directory separator character. May be a synonym for
slash.
slash:
The slash
character (/).
Multiple successive directory-separator characters are considered to be the same as one directory-separator character.
The filename dot is treated as a reference to the current directory. The filename dot-dot is treated as a reference to the parent directory. What the filename dot-dot refers to relative to root-directory is implementation-defined. Specific filenames may have special meanings for a particular operating system.
path
conversions [path.cvt]path
argument format
conversions [path.fmt.cvt][Note: The format conversions described in this section are not applied on POSIX or Windows based operating systems because on these systems:
- The generic format is acceptable as a native path.
- There is no need to distinguish between native format and generic format arguments.
- Paths for regular files and paths for directories share the same syntax.
—end note]
Functions arguments that take character sequences representing paths may use the generic pathname format grammar (8.1) or the native pathname format (4.11). If and only if such arguments are in the generic format and the generic format is not acceptable to the operating system as a native path, conversion to native format shall be performed during the processing of the argument.
[Note: Some operating systems may have no unambiguous way to distinguish between native format and generic format arguments. This is by design as it simplifies use for operating systems that do not require disambiguation. An implementation for an operating system where disambiguation is required is permitted as an extension to distinguish between the formats. —end note]
If the native format requires paths for regular files to be formatted differently from paths for directories, the path shall be treated as a directory path if last element is directory-separator, otherwise it shall be treated as a regular file path.
path
type and encoding conversions [path.type.cvt]For member function arguments that take character sequences representing
paths and for member functions returning strings, value type and encoding
conversion is performed if the value type of the argument or return differs from
path::value_type
. Encoding
and method of conversion for the argument or return value
to be converted to is determined
by its value type:
char
: Encoding is the native narrow encoding (4.10). Conversion, if any, is operating system dependent.[Note: For POSIX based operating systems
path::value_type
ischar
so no conversion fromchar
value type arguments or tochar
value type returns is performed.For Windows based operating systems, the native narrow encoding is determined by calling a Windows API function. —end note]
[Note: This results in behavior identical to other C and C++ standard library functions that perform file operations using narrow character strings to identify paths. Changing this behavior would be surprising and error prone. —end note]
wchar_t
: Encoding is the native wide encoding (4.10). Conversion method is unspecified.[Note: For Windows based operating systems
path::value_type
iswchar_t
so no conversion fromwchar_t
value type arguments or towchar_t
value type returns is performed. —end note]char16_t
: Encoding is UTF-16. Conversion method is unspecified.
char32_t
: Encoding is UTF-32. Conversion method is unspecified.
If the encoding being converted to has no representation for source characters, the resulting converted characters, if any, are unspecified.
path
requirements [path.req]In addition to the requirements (5), function template parameters named Source
shall be one of:
basic_string<EcharT, traits, Allocator>
. A function
argument const Source&
source
shall have an
effective range [source.begin()
, source.end()
).
const Source&
source
shall have an effective range
[source
, end
) where end
is the first
iterator value with an element value equal to iterator_traits<Source>:: value_type()
.const Source&
source
shall
have an effective range [source
, end
) where
end
is the first iterator value with an element value equal to iterator_traits<decay<Source>: :type>::value_type()
.[Note: See path conversions (8.2) for how these value types and their encodings convert to
path::value_type
and its encoding. —end note]
Arguments of type Source
shall not be null pointers.
path
members [path.member]path
constructors [path.construct]path() noexcept;
Effects: Constructs an object of class
path
.Postconditions:
empty()
.
path(const path& p); path(path&& p) noexcept;
Effects: Constructs an object of class
path
withpathname
having the original value ofp.pathname
. In the second form,p
is left in a valid but unspecified state.
template <class Source> path(const Source& source); template <class InputIterator> path(InputIterator first, InputIterator last);
Effects: Constructs an object of class
path
, storing the effective range ofsource
(8.3) or the range [first
,last
) inpathname
, converting format and encoding if required (8.2.1).
template <class Source> path(const Source& source, const locale& loc); template <class InputIterator> path(InputIterator first, InputIterator last, const locale& loc);
Requires: The value type of
Source
andInputIterator
ischar
.Effects: Constructs an object of class
path
, storing the effective range ofsource
or the range [first
,last
) inpathname
, after converting format if required and after converting the encoding as follows:If
value_type
iswchar_t
, converts to the native wide encoding (4.10) using thecodecvt<wchar_t, char, mbstate_t>
facet ofloc
. Otherwise a conversion is performed using thecodecvt<wchar_t, char, mbstate_t>
facet ofloc
, and then a second conversion to the current narrow encoding.[Example:
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::experimental::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 encodedlatin1_string
to a wide character string in the native wide encoding (4.10). The resulting wide string is then converted to a narrow characterpathname
string in the current native narrow encoding. If the native wide encoding is UTF-16 or UTF-32, and the current native narrow 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 narrow 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 encodedlatin1_string
to a UTF-16 encoded wide characterpathname
string. All of the characters in the ISO/IEC 8859-1 character set will be converted to their Unicode representation.—end example]
path
assignments [path.assign]path& operator=(const path& p);
Effects: If
*this
andp
are the same object, has no effect. Otherwise, modifiespathname
to have the original value ofp.pathname
.Returns:
*this
path& operator=(path&& p) noexcept;
Effects: If
*this
andp
are the same object, has no effect. Otherwise, modifiespathname
to have the original value ofp.pathname
.p
is left in a valid but unspecified state. [Note: A valid implementation isswap(p)
. —end note]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: Stores the effective range of
source
(8.3) or the range [first
,last
) inpathname
, converting format and encoding if required (8.2.1).Returns:
*this
path
appends
[path.append]The append operations use
operator/=
to denote their semantic effect of appending
preferred-separator when needed.
path& operator/=(const path& p);
Effects:
Appendspath::preferred_separator
topathname
unless:
- an added separator would be redundant, or
- would change a relative path to an absolute path [Note: An empty path is relative. — end note], or
p.empty()
, or*p.native().cbegin()
is a directory separator.Then appends
p.native()
topathname
.Returns:
*this
template <class Source> path& operator/=(const Source& source); template <class Source> path& append(const Source& source); template <class InputIterator> path& append(InputIterator first, InputIterator last);
Effects:
Appends
path::preferred_separator
topathname
, converting format and encoding if required (8.2.1), unless:
- an added separator would be redundant, or
- would change an relative path to an absolute path, or
source.empty()
, or*source.native().cbegin()
is a separator.Appends the effective range of
source
(8.3) or the range [first
,last
) topathname
, converting format and encoding if required (8.2.1).Returns:
*this
path
concatenation [path.concat]path& operator+=(const path& x); path& operator+=(const string_type& x); path& operator+=(const value_type* x); path& operator+=(value_type x); template <class Source> path& operator+=(const Source& x); template <class EcharT> path& operator+=(EcharT x); template <class Source> path& concat(const Source& x); template <class InputIterator> path& concat(InputIterator first, InputIterator last);
Postcondition:
native() == prior_native + effective-argument
, whereprior_native
isnative()
prior to the call tooperator+=
, andeffective-argument
is:
x.native()
ifx
is present and isconst path&
, otherwise- the effective range
source
(8.3), ifsource
is present, otherwise,- the range [
first
,last
), iffirst
andlast
are present, otherwise,x
.If the value type of
effective-argument
would not bepath::value_type
, the actual argument or argument range is first converted (8.2.1) so thateffective-argument
has value typepath::value_type
.Returns:
*this
path
modifiers [path.modifiers]void clear() noexcept;
Postcondition:
empty()
path& make_preferred();
Effects: Each directory-separator is converted to preferred-separator.
Returns:
*this
[Example:
path p("foo/bar"); std::cout << p << '\n'; p.make_preferred(); std::cout << p << '\n';On an operating system where preferred-separator is the same as directory-separator, 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();
Postcondition:
!has_filename()
.Returns:
*this
.[Example:
std::cout << path("/foo").remove_filename(); // outputs "/" std::cout << path("/").remove_filename(); // outputs ""—end example]
path& replace_filename(const path& replacement);
Effects:
remove_filename();
operator/=(replacement);Returns:
*this
.[Example:
std::cout << path("/foo").replace_filename("bar"); // outputs "/bar" std::cout << path("/").replace_filename("bar"); // outputs "bar"—end example]
path& replace_extension(const path& replacement = path());
Effects:
- Any existing
extension()(
8.4.9)
is removed from the stored path, then- If
replacement
is not empty and does not begin with a dot character, a dot character is appended to the stored path, thenreplacement
is concatenated to the stored path.Returns:
*this
void swap(path& rhs) noexcept;
Effects: Swaps the contents of the two paths.
Complexity: constant time.
path
native format observers
[path.native.obs]The string returned by all native format observers is in the native pathname format.
const string_type& native() const noexcept;
Returns:
pathname
.
const value_type* c_str() const noexcept;
Returns:
pathname.c_str()
.
operator string_type() const;
Returns:
pathname
.[Note: Conversion to
string_type
is provided so that an object of classpath
can be given as an argument to existing standard library file stream constructors and open functions. This provides basic interoperability without the need to modify existing standard library classes or headers. —end note]
template <class EcharT, class traits = char_traits<EcharT>, class Allocator = allocator<EcharT> > basic_string<EcharT, traits, Allocator> string(const Allocator& a = Allocator()) const;
Returns:
pathname
.Remarks: All memory allocation, including for the return value, shall be performed by
a
. Conversion, if any, is specified by 8.2.
std::string string() const; std::wstring wstring() const; std::string u8string() const; std::u16string u16string() const; std::u32string u32string() const;
Returns:
pathname
.Remarks: Conversion, if any, is performed as specified by 8.2. The encoding of the string returned by
u8string()
is always UTF-8.
path
generic format observers
[path.generic.obs]Generic format observer functions return strings formatted according to the
generic pathname format (8.1).
The forward slash ('/'
) character is used as the
directory-separator character.
[Example: 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:
pathname
, reformatted according to the generic pathname format (8.1).Remarks: All memory allocation, including for the return value, shall be performed by
a
. Conversion, if any, is specified by 8.2.
std::string generic_string() const; std::wstring generic_wstring() const; std::string generic_u8string() const; std::u16string generic_u16string() const; std::u32string generic_u32string() const;
Returns:
pathname
, reformatted according to the generic pathname format (8.1).Remarks: Conversion, if any, is specified by 8.2. The encoding of the string returned by
generic_u8string()
is always UTF-8.
path
compare [path.compare]int compare(const path& p) const noexcept;
Returns: A value less than 0 if
native()
for the elements of*this
are lexicographically less thannative()
for the elements ofp
, otherwise a value greater than 0 ifnative()
for the elements of*this
are lexicographically greater thannative()
for the elements ofp
, otherwise 0.Remark: The elements are determined as if by iteration over the half-open range [
begin()
,end()
) for*this
andp
.
int compare(const string_type& s) const
Returns:
compare(path(s))
.
int compare(const value_type* s) const
Returns:
compare(path(s))
.
path
decomposition
[path.decompose]path root_name() const;
Returns: root-name, if
pathname
includes root-name, otherwisepath()
.
path root_directory() const;
Returns: root-directory, if
pathname
includes root-directory, otherwisepath()
.If root-directory is composed of slash name, slash is excluded from the returned string.
path root_path() const;
Returns:
root_name() / root_directory()
path relative_path() const;
Returns: A
path
composed frompathname
, if!empty()
, beginning with the first filename after root-path. Otherwise,path()
.
path parent_path() const;
Returns:
(empty() || begin() == --end()) ? path() : pp
, wherepp
is constructed as if by starting with an emptypath
and successively applyingoperator/=
for each element in the range [begin()
,--end()
).
path filename() const;
Returns:
empty() ? path() : *--end()
[Example:
std::cout << path("/foo/bar.txt").filename(); // outputs "bar.txt" std::cout << path("/").filename(); // outputs "/" std::cout << path(".").filename(); // outputs "." std::cout << path("..").filename(); // outputs ".."—end example]
path stem() const;
Returns: if
filename()
contains a period but does not consist solely of one or two periods, returns the substring offilename()
starting at its beginning and ending with the character before the last period. Otherwise, returnsfilename()
.[Example:
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: if
filename()
contains a period but does not consist solely of one or two periods, returns the substring offilename()
starting at the rightmost period and for the remainder of the path. Otherwise, returns an emptypath
object.Remarks: Implementations are permitted to define additional behavior for file systems which append additional elements to extensions, such as alternate data streams or partitioned dataset names.
[Example:
std::cout << path("/foo/bar.txt").extension(); //
outputs ".txt
"—end example]
[Note: The period is included in the return value so that it is possible to distinguish between no extension and an empty extension. Also note that for a path
p
,p.stem()+p.extension() == p.filename()
. —end note]
path
query [path.query]bool empty() const noexcept;
Returns:
pathname.empty()
.
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
ifpathname
contains an absolute path (4.1), elsefalse
.[Example:
path("/").is_absolute()
istrue
for POSIX based operating systems, andfalse
for Windows based operating systems. —end example]
bool is_relative() const;
Returns:
!is_absolute()
.
path
iterators [path.itr]Path iterators iterate over the elements of the stored pathname.
A path::iterator
is a constant iterator satisfying all the
requirements of a bidirectional iterator (C++14 §24.1.4 Bidirectional
iterators). Its value_type
is path
.
Calling any non-const member function of a path
object
invalidates all iterators referring to elements of that object.
The forward traversal order is as follows:
The backward traversal order is the reverse of forward traversal.
iterator begin() const;
Returns: An iterator for the first present element in the traversal list above. If no elements are present, the end iterator.
iterator end() const;
Returns: The end iterator.
path
non-member functions
[path.non-member]void swap(path& lhs, path& rhs) noexcept;
Effects:
lhs.swap(rhs)
.
size_t hash_value (const path& p) noexcept;
Returns: A hash value for the path
p
. If for two paths,p1 == p2
thenhash_value(p1) == hash_value(p2)
.
bool operator< (const path& lhs, const path& rhs) noexcept;
Returns:
return lhs.compare(rhs) < 0
.
bool operator<=(const path& lhs, const path& rhs) noexcept;
Returns:
!(rhs < lhs)
.
bool operator> (const path& lhs, const path& rhs) noexcept;
Returns:
rhs < lhs
.
bool operator>=(const path& lhs, const path& rhs) noexcept;
Returns:
!(lhs < rhs)
.
bool operator==(const path& lhs, const path& rhs) noexcept;
Returns:
!(lhs < rhs) && !(rhs < lhs)
.[Note: Path equality and path equivalence have different semantics.
Equality is determined by the
path
non-memberoperator==
, which considers the two path's lexical representations only. Thuspath("foo") == "bar"
is nevertrue
.Equivalence is determined by the
equivalent()
non-member function, which determines if two paths resolve to the same file system entity. Thusequivalent("foo", "bar")
will betrue
when both paths resolve to the same file.Programmers wishing to determine if two paths are "the same" must decide if "the same" means "the same representation" or "resolve to the same actual file", and choose the appropriate function accordingly. —end note]
bool operator!=(const path& lhs, const path& rhs) noexcept;
Returns:
!(lhs == rhs)
.
path operator/ (const path& lhs, const path& rhs);
Returns:
path(lhs) /= rhs
.
path
inserter and extractor [path.io]template <class charT, class traits> basic_ostream<charT, traits>& operator<<(basic_ostream<charT, traits>& os, const path& p);
Effects:
os
<< quoted(p.string<charT, traits>()).[Note: The
quoted
function is described in C++14 §27.7.6. — end note]Returns:
os
template <class charT, class traits> basic_istream<charT, traits>& operator>>(basic_istream<charT, traits>& is, path& p);
Effects:
basic_string<charT, traits> tmp; is >> quoted(tmp); p = tmp;Returns:
is
path
factory functions [path.factory]template <class Source> path u8path(const Source& source); template <class InputIterator> path u8path(InputIterator first, InputIterator last);
Requires: The
source
and [first
,last
) sequences are UTF-8 encoded. The value type ofSource
andInputIterator
ischar
.Returns:
- If
value_type
ischar
and the current native narrow encoding (4.11) is UTF-8,path(source)
orpath(first, last)
, else- if
value_type
iswchar_t
and the native wide encoding is UTF-16, or ifvalue_type
ischar16_t
orchar32_t
, convertsource
or [first
,last
) to a temporary,tmp
, of typestring_type
and returnpath(tmp)
, else- convert
source
or [first
,last
) to a temporary,tmp
, of typeu32string
and returnpath(tmp)
.Remarks: Argument format conversion (8.2.1) applies to the arguments for these functions. How Unicode encoding conversions are performed is unspecified.
[Example:
A string is to be read from a database that is encoded in UTF-8, and used to create a directory using the native encoding for filenames:
namespace fs = std::experimental::filesystem; std::string utf8_string = read_utf8_data(); fs::create_directory(fs::u8path(utf8_string));For POSIX based operating systems with the native narrow encoding set to UTF-8, no encoding or type conversion occurs.
For POSIX based operating systems with the native narrow encoding not set to UTF-8, a conversion to UTF-32 occurs, followed by a conversion to the current native narrow encoding. Some Unicode characters may have no native character set representation.
For Windows based operating systems a conversion from UTF-8 to UTF-16 occurs.
—end example]
filesystem_error
[class.filesystem_error]namespace std { namespace experimental { namespace filesystem { inline namespace v1 { class filesystem_error : public system_error { public: filesystem_error(const string& what_arg, error_code ec); filesystem_error(const string& what_arg, const path& p1, error_code ec); filesystem_error(const string& what_arg, const path& p1, const path& p2, error_code ec); const path& path1() const noexcept; const path& path2() const noexcept; const char* what() const noexcept; }; } } } } // namespaces std::experimental::filesystem::v1
The class filesystem_error
defines the type of
objects thrown as exceptions to report file system errors from functions described in this
Technical Specification.
filesystem_error
members
[filesystem_error.members]Constructors are provided that store zero, one, or two paths associated with an error.
filesystem_error(const string& what_arg, error_code ec);
Postcondition:
Expression Value runtime_error::what()
what_arg.c_str()
code()
ec
path1().empty()
true
path2().empty()
true
filesystem_error(const string& what_arg, const path& p1, error_code ec);
Postcondition:
Expression Value runtime_error::what()
what_arg.c_str()
code()
ec
path1()
Reference to stored copy of p1
path2().empty()
true
filesystem_error(const string& what_arg, const path& p1, const path& p2, error_code ec);
Postcondition:
Expression Value runtime_error::what()
w
hat_arg.c_str()
code()
ec
path1()
Reference to stored copy of p1
path2()
Reference to stored copy of p2
const path& path1() const noexcept;
Returns: Reference to copy of
p1
stored by the constructor, or, if none, an empty path.
const path& path2() const noexcept;
Returns: Reference to copy of
p2
stored by the constructor, or, if none, an empty path.
const char* what() const noexcept;
Returns: A string containing
runtime_error::what()
. The exact format is unspecified. Implementations are encouraged but not required to includepath1.native_string()
if not empty,path2.native_string()
if not empty, andsystem_error::what()
strings in the returned string.
file_type
[enum.file_type]This enum class specifies constants used to identify file types.
Constant Name | Value | Meaning |
none |
0 |
The type of the file has not been determined or an error occurred while trying to determine the type. |
not_found |
-1 |
Pseudo-type indicating the file was not found. [Note: The file not being found is not considered an error while determining the type of a file. —end note] |
regular |
1 |
Regular file |
directory |
2 |
Directory file |
symlink |
3 |
Symbolic link file |
block |
4 |
Block special file |
character |
5 |
Character special file |
fifo |
6 |
FIFO or pipe file |
socket |
7 |
Socket file |
unknown |
8 |
The file does exist, but is of an operating system dependent type not covered by any of the other cases or the process does not have permission to query the file type |
copy_options
[enum.copy_options]The enum class type copy_options
is a bitmask type (C++14 §17.5.2.1.3) that specifies bitmask constants used to control the semantics of
copy operations. The constants are specified in option groups. Constant
none
is shown in each option group for purposes of exposition;
implementations shall provide only a single definition. Calling a
Filesystem library function with more than a single constant for an option
group results in undefined behavior.
Option group controlling copy_file
function effects for existing target files |
||
Constant | Value | Meaning |
none |
0 |
(Default) Error; file already exists. |
skip_existing |
1 |
Do not overwrite existing file, do not report an error. |
overwrite_existing |
2 |
Overwrite the existing file. |
update_existing |
4 |
Overwrite the existing file if it is older than the replacement file. |
Option group controlling copy function effects for
sub-directories |
||
Constant | Value | Meaning |
none |
0 |
(Default) Do not copy sub-directories. |
recursive |
8 |
Recursively copy sub-directories and their contents. |
Option group controlling copy function effects for
symbolic links |
||
Constant | Value | Meaning |
none |
0 |
(Default) Follow symbolic links. |
copy_symlinks |
16 |
Copy symbolic links as symbolic links rather than copying the files that they point to. |
skip_symlinks |
32 |
Ignore symbolic links. |
Option group controlling copy function effects for
choosing the form of copying |
||
Constant | Value | Meaning |
none |
0 |
(Default) Copy content. |
directories_only |
64 |
Copy directory structure only, do not copy non-directory files. |
create_symlinks |
128 |
Make symbolic links instead of copies of files. The source path shall be an absolute path unless the destination path is in the current directory. |
create_hard_links |
256 |
Make hard links instead of copies of files. |
perms
[enum.perms]The enum class type perms is a bitmask type (C++14 §17.5.2.1.3) that specifies bitmask constants used to identify file permissions.
Name | Value (octal) |
POSIX macro |
Definition or notes |
none | 0 | There are no permissions set for the file. | |
owner_read | 0400 | S_IRUSR |
Read permission, owner |
owner_write | 0200 | S_IWUSR |
Write permission, owner |
owner_exec | 0100 | S_IXUSR |
Execute/search permission, owner |
owner_all | 0700 | S_IRWXU |
Read, write, execute/search by owner; owner_read | owner_write | owner_exec |
group_read | 040 | S_IRGRP |
Read permission, group |
group_write | 020 | S_IWGRP |
Write permission, group |
group_exec | 010 | S_IXGRP |
Execute/search permission, group |
group_all | 070 | S_IRWXG |
Read, write, execute/search by group; group_read | group_write | group_exec |
others_read | 04 | S_IROTH |
Read permission, others |
others_write | 02 | S_IWOTH |
Write permission, others |
others_exec | 01 | S_IXOTH |
Execute/search permission, others |
others_all | 07 | S_IRWXO |
Read, write, execute/search by others; others_read | others_write | others_exec |
all | 0777 | owner_all | group_all | others_all |
|
set_uid | 04000 | S_ISUID |
Set-user-ID on execution |
set_gid | 02000 | S_ISGID |
Set-group-ID on execution |
sticky_bit | 01000 | S_ISVTX |
Operating system dependent. |
mask | 07777 | all | set_uid | set_gid | sticky_bit |
|
unknown | 0xFFFF |
The permissions are not known, such as when a file_status object
is created without specifying the permissions |
|
add_perms | 0x10000 |
permissions() shall bitwise or the perm argument's permission bits to the
file's current permission bits. |
|
remove_perms |
0x20000 |
permissions() shall bitwise and the complement of
perm argument's permission bits to the
file's current permission bits. |
|
resolve_symlinks |
0x40000 |
permissions() shall resolve symlinks |
directory_options
[enum.directory_options]
The enum class type directory_options
is a bitmask
type (C++14 §17.5.2.1.3) that specifies bitmask constants used to identify
directory traversal options.
Name | Value | Meaning |
none |
0 |
(Default) Skip directory symlinks, permission denied is an error. |
follow_directory_symlink |
1 |
Follow rather than skip directory symlinks. |
skip_permission_denied |
2 |
Skip directories that would otherwise result in permission denied errors. |
file_status
[class.file_status]namespace std { namespace experimental { namespace filesystem { inline namespace v1 { class file_status { public: // constructors explicit file_status(file_type ft = file_type::none, perms prms = perms::unknown) noexcept; file_status(const file_status&) noexcept = default; file_status(file_status&&) noexcept = default; ~file_status(); file_status& operator=(const file_status&) noexcept = default; file_status& operator=(file_status&&) noexcept = default; // observers file_type type() const noexcept; perms permissions() const noexcept; // modifiers void type(file_type ft) noexcept; void permissions(perms prms) noexcept; }; } } } } // namespaces std::experimental::filesystem::v1
An object of type file_status
stores information about the type
and permissions of a file.
file_status
constructors
[file_status.cons]explicit file_status() noexcept;
Postconditions:
type() == file_type::none
,permissions() == perms::unknown
.
explicit file_status(file_type ft, perms prms = perms::unknown) noexcept;
Postconditions:
type() == ft
,permissions() == prms
.
file_status
observers [file_status.obs]file_type type() const noexcept;
Returns: The value of
type()
specified by the postconditions of the most recent call to a constructor,operator=
, ortype(file_type)
function.
perms permissions() const noexcept;
Returns: The value of
permissions()
specified by the postconditions of the most recent call to a constructor,operator=
, orpermissions(perms)
function.
file_status
modifiers [file_status.mods]void type(file_type ft) noexcept;
Postconditions:
type() == ft
.
void permissions(perms prms) noexcept;
Postconditions:
permissions() == prms
.
directory_entry
[class.directory_entry]namespace std { namespace experimental { namespace filesystem { inline namespace v1 { class directory_entry { public: // constructors and destructor directory_entry() noexcept = default; directory_entry(const directory_entry&) = default; directory_entry(directory_entry&&) noexcept = default; explicit directory_entry(const path& p); ~directory_entry(); // modifiers directory_entry& operator=(const directory_entry&) = default; directory_entry& operator=(directory_entry&&) noexcept = default; void assign(const path& p); void replace_filename(const path& p); // observers const path& path() const noexcept; operator const path&() const noexcept; file_status status() const; file_status status(error_code& ec) const noexcept; file_status symlink_status() const; file_status symlink_status(error_code& ec) const noexcept; bool operator< (const directory_entry& rhs) const noexcept; bool operator==(const directory_entry& rhs) const noexcept; bool operator!=(const directory_entry& rhs) const noexcept; bool operator<=(const directory_entry& rhs) const noexcept; bool operator> (const directory_entry& rhs) const noexcept; bool operator>=(const directory_entry& rhs) const noexcept; private: path m_path; // for exposition only }; } } } } // namespaces std::experimental::filesystem::v1
A directory_entry
object stores a path
object.
directory_entry
constructors [directory_entry.cons] explicit directory_entry(const path& p);
Effects: Constructs an object of type
directory_entry
.Postcondition:
path() == p
.
directory_entry
modifiers [directory_entry.mods] void assign(const path& p);
Postcondition:
path() == p
.
void replace_filename(const path& p);
Postcondition:
path() == x.parent_path() / p
wherex
is the value ofpath()
before the function is called.
directory_entry
observers [directory_entry.obs] const path& path() const noexcept; operator const path&() const noexcept;
Returns:
m_path
file_status status() const; file_status status(error_code& ec) const noexcept;
Returns:
status(path()[, ec])
.Throws: As specified in Error reporting (7).
file_status symlink_status() const; file_status symlink_status(error_code& ec) const noexcept;
Returns:
symlink_status(path()[, ec])
.Throws: As specified in Error reporting (7).
bool operator==(const directory_entry& rhs) const noexcept;
Returns:
m_path == rhs.m_path
.
bool operator!=(const directory_entry& rhs) const noexcept;
Returns:
m_path != rhs.m_path
.
bool operator< (const directory_entry& rhs) const noexcept;
Returns:
m_path < rhs.m_path
.
bool operator<=(const directory_entry& rhs) const noexcept;
Returns:
m_path <= rhs.m_path
.
bool operator> (const directory_entry& rhs) const noexcept;
Returns:
m_path > rhs.m_path
.
bool operator>=(const directory_entry& rhs) const noexcept;
Returns:
m_path >= rhs.m_path
.
directory_iterator
[class.directory_iterator]An object of type directory_iterator
provides an iterator for a
sequence of directory_entry
elements representing the files in a
directory.
[Note: For iteration into sub-directories, see class recursive_directory_iterator
(14). —end note]
namespace std { namespace experimental { namespace filesystem { inline namespace v1 { class directory_iterator { public: typedef directory_entry value_type; typedef ptrdiff_t difference_type; typedef const directory_entry* pointer; typedef const directory_entry& reference; typedef input_iterator_tag iterator_category; // member functions directory_iterator() noexcept; explicit directory_iterator(const path& p); directory_iterator(const path& p, directory_options options); directory_iterator(const path& p, error_code& ec) noexcept; directory_iterator(const path& p, directory_options options, error_code& ec) noexcept; directory_iterator(const directory_iterator& rhs); directory_iterator(directory_iterator&& rhs) noexcept; ~directory_iterator(); directory_iterator& operator=(const directory_iterator& rhs); directory_iterator& operator=(directory_iterator&& rhs) noexcept; const directory_entry& operator*() const; const directory_entry* operator->() const; directory_iterator& operator++(); directory_iterator& increment(error_code& ec) noexcept; // other members as required by C++14 §24.1.1 Input iterators }; } } } } // namespaces std::experimental::filesystem::v1
directory_iterator
satisfies the requirements of an input
iterator C++14 §24.2.3).
If an iterator of type directory_iterator
is advanced past the
last directory element, that iterator shall become equal to the end iterator
value. The directory_iterator
default constructor shall
create an iterator equal to the end iterator value, and this shall be the only
valid iterator for the end condition.
The result of operator*
on an end iterator is undefined behavior. For any other iterator value
a const directory_entry&
is returned. The result of operator->
on an end iterator is
undefined behavior. For any other iterator value a const directory_entry*
is
returned.
Two end iterators are always equal. An end iterator shall not be equal to a non-end iterator.
The result of calling the path()
member of the directory_entry
object obtained by dereferencing a directory_iterator
is a reference to a path
object composed of the directory argument from which the iterator was
constructed with filename of the directory entry appended as if by operator/=
.
Directory iteration shall not yield directory entries for the current (dot) and parent (dot-dot) directories.
The order of directory entries obtained by dereferencing successive
increments of a directory_iterator
is unspecified.
[Note: Programs performing directory iteration may wish to test if the path obtained by dereferencing a directory iterator actually exists. It could be a symbolic link to a non-existent file. Programs recursively walking directory trees for purposes of removing and renaming entries may wish to avoid following symbolic links.
If a file is removed from or added to a directory after the construction of a
directory_iterator
for the directory, it is unspecified whether or not subsequently incrementing the iterator will ever result in an iterator referencing the removed or added directory entry. See POSIXreaddir_r()
. —end note]
directory_iterator
members
[directory_iterator.members]directory_iterator()
noexcept;
Effects: Constructs the end iterator.
explicit directory_iterator(const path& p); directory_iterator(const path& p, directory_options options); directory_iterator(const path& p, error_code& ec) noexcept; directory_iterator(const path& p, directory_options options, error_code& ec) noexcept;
Effects: For the directory that
p
resolves to, constructs an iterator for the first element in a sequence ofdirectory_entry
elements representing the files in the directory, if any; otherwise the end iterator. However, if(options & directory_options::skip_permissions_denied) != directory_options::none
and construction encounters an error indicating that permission to accessp
is denied, constructs the end iterator and does not report an error.Throws: As specified in Error reporting (7).
[Note: To iterate over the current directory, use
directory_iterator(".")
rather thandirectory_iterator("")
. —end note]
directory_iterator(const directory_iterator& rhs); directory_iterator(directory_iterator&& rhs) noexcept;
Effects: Constructs an object of class
directory_iterator
.Postconditions:
*this
has the original value ofrhs
.
directory_iterator& operator=(const directory_iterator& rhs); directory_iterator& operator=(directory_iterator&& rhs) noexcept;
Effects: If
*this
andrhs
are the same object, the member has no effect.Postconditions:
*this
has the original value ofrhs
.Returns:
*this
.
directory_iterator& operator++();
directory_iterator& increment(error_code& ec) noexcept
;
Effects: As specified by C++14 §24.1.1 Input iterators.
Returns:
*this
.Throws: As specified in Error reporting (7).
directory_iterator
non-member functions
[directory_iterator.nonmembers]These functions enable use of directory_iterator
with
range-based for statements.
directory_iterator begin(directory_iterator iter) noexcept;
Returns:
iter
.
directory_iterator end(const directory_iterator&) noexcept;
Returns:
directory_iterator()
.
recursive_directory_iterator
[class.rec.dir.itr]An object of type recursive_directory_iterator
provides an iterator for
a sequence of directory_entry
elements representing the files in a
directory and its sub-directories.
namespace std { namespace experimental { namespace filesystem { inline namespace v1 { class recursive_directory_iterator { public: typedef directory_entry value_type; typedef ptrdiff_t difference_type; typedef const directory_entry* pointer; typedef const directory_entry& reference; typedef input_iterator_tag iterator_category; // constructors and destructor recursive_directory_iterator() noexcept; explicit recursive_directory_iterator(const path& p); recursive_directory_iterator(const path& p, directory_options options); recursive_directory_iterator(const path& p, directory_options options, error_code& ec) noexcept; recursive_directory_iterator(const path& p, error_code& ec) noexcept; recursive_directory_iterator(const recursive_directory_iterator& rhs); recursive_directory_iterator(recursive_directory_iterator&& rhs) noexcept; ~recursive_directory_iterator(); // observers directory_options options() const; int depth() const; bool recursion_pending() const; const directory_entry& operator*() const; const directory_entry* operator->() const; // modifiers recursive_directory_iterator& operator=(const recursive_directory_iterator& rhs); recursive_directory_iterator& operator=(recursive_directory_iterator&& rhs) noexcept; recursive_directory_iterator& operator++(); recursive_directory_iterator& increment(error_code& ec) noexcept; void pop(); void disable_recursion_pending(); // other members as required by C++14 §24.1.1 Input iterators }; } } } } // namespaces std::experimental::filesystem::v1
The behavior of a recursive_directory_iterator
is the same
as a directory_iterator
unless otherwise specified.
[Note: If the directory structure being iterated over contains cycles then the end iterator may be unreachable. —end note]
recursive_directory_iterator
members
[rec.dir.itr.members]recursive_directory_iterator() noexcept;
Effects: Constructs the end iterator.
explicit recursive_directory_iterator(const path& p); recursive_directory_iterator(const path& p, directory_options options); recursive_directory_iterator(const path& p, directory_options options, error_code& ec) noexcept; recursive_directory_iterator(const path& p, error_code& ec) noexcept;
Effects: Constructs a iterator representing the first entry in the directory
p
resolves to, if any; otherwise, the end iterator. However, if(options & directory_options::skip_permissions_denied) != directory_options::none
and construction encounters an error indicating that permission to accessp
is denied, constructs the end iterator and does not report an error.Postcondition:
options() == options
for the signatures with adirectory_options
argument, otherwiseoptions() == directory_options::none
.Throws: As specified in Error reporting (7).
[Note: To iterate over the current directory, use
recursive_directory_iterator(".")
rather thanrecursive_directory_iterator("")
. —end note][Note: By default,
recursive_directory_iterator
does not follow directory symlinks. To follow directory symlinks, specifyoptions
asdirectory_options::follow_directory_symlink
—end note]
recursive_directory_iterator(const recursive_directory_iterator& rhs);
Effects: Constructs an object of class
recursive_directory_iterator
.Postconditions:
this->options() == rhs.options() && this->depth() == rhs.depth()
.
&& this->recursion_pending() == rhs.recursion_pending()
recursive_directory_iterator(recursive_directory_iterator&& rhs) noexcept;
Effects: Constructs an object of class
recursive_directory_iterator
.Postconditions:
this->options()
,this->depth()
, andthis->recursion_pending()
return the values thatrhs.options()
,rhs.depth()
, andrhs.recursion_pending()
, respectively, had before the function call.
recursive_directory_iterator& operator=(const recursive_directory_iterator& rhs);
Effects: If
*this
andrhs
are the same object, the member has no effect.Postconditions:
this->options() == rhs.options() && this->depth() == rhs.depth()
.
&& this->recursion_pending() == rhs.recursion_pending()Returns:
*this
.
recursive_directory_iterator& operator=(recursive_directory_iterator&& rhs) noexcept;
Effects: If
*this
andrhs
are the same object, the member has no effect.Postconditions:
this->options()
,this->depth()
, andthis->recursion_pending()
return the values thatrhs.options()
,rhs.depth()
, andrhs.recursion_pending()
, respectively, had before the function call.Returns:
*this
.
directory_options options() const;
Requires:
*this != recursive_directory_iterator()
.Returns: The value of the constructor
options
argument, if present, otherwisedirectory_options::none
.Throws: Nothing.
int depth() const;
Requires:
*this != recursive_directory_iterator()
.Returns: The current depth of the directory tree being traversed. [Note: The initial directory is depth 0, its immediate subdirectories are depth 1, and so forth. —end note]
Throws: Nothing.
bool recursion_pending() const;
Requires:
*this != recursive_directory_iterator()
.Returns:
true
ifdisable_recursion_pending()
has not been called subsequent to the prior construction or increment operation, otherwisefalse
.Throws: Nothing.
recursive_directory_iterator& operator++(); recursive_directory_iterator& increment(error_code& ec) noexcept;
Requires:
*this != recursive_directory_iterator()
.Effects: As specified by C++14 §24.2.3 Input iterators, except that:
- If there are no more entries at this depth, then if
depth()!= 0
iteration over the parent directory resumes; otherwise*this = recursive_directory_iterator()
.- Otherwise if
recursion_pending() && is_directory(this->status())
then either directory
&& (!is_symlink(this->symlink_status())
|| (options() & directory_options::follow_directory_symlink) !=
directory_options::none)(*this)->path()
is recursively iterated into or, if(options() & directory_options::skip_permissions_denied)
and an error occurs indicating that permission to access directory
!= directory_options::none(*this)->path()
is denied, then directory(*this)->path()
is treated as an empty directory and no error is reported.Returns:
*this
.Throws: As specified in Error reporting (7).
void pop();
Requires:
*this != recursive_directory_iterator()
.Effects: If
depth() == 0
, set*this
torecursive_directory_iterator()
. Otherwise, cease iteration of the directory currently being iterated over, and continue iteration over the parent directory.
void disable_recursion_pending();
Requires:
*this != recursive_directory_iterator()
.Postcondition:
recursion_pending() == false
.[Note:
disable_recursion_pending
()
is used to prevent unwanted recursion into a directory. —end note]
recursive_directory_iterator
non-member functions
[rec.dir.itr.nonmembers]These functions enable use of recursive_directory_iterator
with range-based for statements.
recursive_directory_iterator begin(recursive_directory_iterator iter) noexcept;
Returns:
iter
.
recursive_directory_iterator end(const recursive_directory_iterator&) noexcept;
Returns:
recursive_directory_iterator()
.
Operational functions query or modify files, including directories, in external storage.
[Note: Because hardware failures, network failures, file system races, and many other kinds of errors occur frequently in file system operations, users should be aware that any filesystem operational function, no matter how apparently innocuous, may encounter an error. See Error reporting (7). —end note]
path absolute(const path& p, const path& base=current_path());
Returns: An absolute path composed according to the following table
p.has_root_directory()
!p.has_root_directory()
p.has_root_name()
return p
return p.root_name()
/ absolute(base).root_directory()
/ absolute(base).relative_path()
/ p.relative_path()!p.has_root_name()
return
absolute(base).root_name()
/ preturn
absolute(base) / p[Note: For the returned path,
rp,
rp.is_absolute()
is true. —end note]Throws: As specified in Error reporting (7).
path canonical(const path& p, const path& base = current_path()); path canonical(const path& p, error_code& ec); path canonical(const path& p, const path& base, error_code& ec);
Overview: Converts
p
, which must exist, to an absolute path that has no symbolic link,"."
, or".."
elements.Returns: A path that refers to the same file system object as
absolute(p,base)
. For the overload without abase
argument,base
iscurrent_path()
. Signatures with argumentec
returnpath()
if an error occurs.Throws: As specified in Error reporting (7).
Remarks:
!exists(p)
is an error.[Note: Canonical pathnames allow security checking of a path (e.g. does this path live in /home/goodguy or /home/badguy?) —end note]
void copy(const path& from, const path& to); void copy(const path& from, const path& to, error_code& ec) noexcept;
Effects:
copy(from, to, copy_options::none[, ec])
.
void copy(const path& from, const path& to, copy_options options); void copy(const path& from, const path& to, copy_options options, error_code& ec) noexcept;
Precondition: At most one constant from each option group (10.2) is present in
options
.Effects:
Before the first use of
f
andt
:
- If
(options & copy_options::create_symlinks) != copy_options::none
, then
|| (options & copy_options::skip_symlinks) != copy_options::noneauto f = symlink_status(from)
and if neededauto t = symlink_status(to)
.- Otherwise,
auto f = status(from)
and if neededauto t = status(to)
.Report an error as specified in Error reporting (7) if:
!exists(f)
, orequivalent(from, to)
, oris_other(f) || is_other(t)
, oris_directory(f) && is_regular_file(t)
.If
is_symlink(f)
, then:
- If
(options & copy_options::skip_symlinks) != copy_options::none
, then return.- Otherwise if
!exists(t)
, then
&& (options & copy_options::copy_symlinks) != copy_options::nonecopy_symlink(from, to, options)
.- Otherwise report an error as specified in Error reporting (7).
Otherwise if
is_regular_file(f)
, then:
- If
(options & copy_options::directories_only)
, then return.
!= copy_options::none- Otherwise if
(options & copy_options::create_symlinks)
, then create a symbolic link to the source file.
!= copy_options::none- Otherwise if
(options & copy_options::create_hard_links)
, then create a hard link to the source file.
!= copy_options::none- Otherwise if
is_directory(t)
, thencopy_file(from, to/from.filename(), options)
.- Otherwise,
copy_file(from, to, options)
.
Otherwise if
is_directory(f) && ((options & copy_options::recursive)
then:
!= copy_options::none || options == copy_options::none)
- If
!exists(t)
, thencreate_directory(to, from)
.- Then, iterate over the files in
from
, as if byfor (directory_entry& x : directory_iterator(from))
, and for each iterationcopy(x.path(), to/x.path().filename(), options | copy_options::unspecified)
.Otherwise no effects.
Throws: As specified in Error reporting (7).
Remarks: For the signature with argument
ec
, any Filesystem library functions called by the implementation shall have anerror_code
argument if applicable.[Example: Given this directory structure:
/dir1 file1 file2 dir2 file3Calling
copy("/dir1", "/dir3")
would result in:/dir1 file1 file2 dir2 file3 /dir3 file1 file2Alternatively, calling
copy("/dir1", "/dir3", copy_options::recursive)
would result in:/dir1 file1 file2 dir2 file3 /dir3 file1 file2 dir2 file3—end example]
bool copy_file(const path& from, const path& to); bool copy_file(const path& from, const path& to, error_code& ec) noexcept;
Returns:
copy_file(from, to, copy_options::none
[, ec
])
.Throws: As specified in Error reporting (7).
bool copy_file(const path& from, const path& to, copy_options options); bool copy_file(const path& from, const path& to, copy_options options, error_code& ec) noexcept;
Precondition: At most one constant from each
copy_options
option group (10.2) is present inoptions
.Effects:
Report a file already exists error as specified in Error reporting (7) if:
exists(to)
andequivalent(from, to)
, orexists(to)
and(options & (copy_options::skip_existing
| copy_options::overwrite_existing | copy_options::update_existing))
== copy_options::none.Otherwise copy the contents and attributes of the file
from
resolves to to the fileto
resolves to if:
!exists(to)
, orexists(to)
and(options & copy_options::overwrite_existing) != copy_options::none
, orexists(to)
and(options & copy_options::update_existing) != copy_options::none
andfrom
is more recent thanto
, determined as if by use of thelast_write_time
function.Otherwise no effects.
Returns:
true
if thefrom
file was copied, otherwisefalse
. The signature with argumentec
returnfalse
if an error occurs.Throws: As specified in Error reporting (7).
Complexity: At most one direct or indirect invocation of
status(to)
.
void copy_symlink(const path& existing_symlink, const path& new_symlink); void copy_symlink(const path& existing_symlink, const path& new_symlink, error_code& ec) noexcept;
Effects:
function(read_symlink(existing_symlink
[, ec
]), new_symlink
[, ec
])
, wherefunction
iscreate_symlink
orcreate_directory_symlink
, as appropriate.Throws: As specified in Error reporting (7).
bool create_directories(const path& p); bool create_directories(const path& p, error_code& ec) noexcept;
Effects: Establishes the postcondition by calling
create_directory()
for any element ofp
that does not exist.Postcondition:
is_directory(p)
Returns:
true
if a new directory was created, otherwisefalse
. The signature with argumentec
returns false if an error occurs.Throws: As specified in Error reporting (7).
Complexity: O(n+1) where n is the number of elements of
p
that do not exist.
bool create_directory(const path& p); bool create_directory(const path& p, error_code& ec) noexcept;
Effects: Establishes the postcondition by attempting to create the directory
p
resolves to, as if by POSIXmkdir()
with a second argument ofstatic_cast<int>(perms::all)
. Creation failure becausep
resolves to an existing directory shall not be treated as an error.Postcondition:
is_directory(p)
Returns:
true
if a new directory was created, otherwisefalse
. The signature with argumentec
returns false if an error occurs.Throws: As specified in Error reporting (7).
bool create_directory(const path& p, const path& existing_p); bool create_directory(const path& p, const path& existing_p, error_code& ec) noexcept;
Effects: Establishes the postcondition by attempting to create the directory
p
resolves to, with attributes copied from directoryexisting_p
. The set of attributes copied is operating system dependent. Creation failure becausep
resolves to an existing directory shall not be treated as an error.[Note: For POSIX based operating systems the attributes are those copied by native APIstat(existing_p.c_str(), &attributes_stat)
followed bymkdir(p.c_str(), attributes_stat.st_mode)
. For Windows based operating systems the attributes are those copied by native APICreateDirectoryExW(existing_p.c_str(), p.c_str(), 0)
. —end note]Postcondition:
is_directory(p)
Returns:
true
if a new directory was created, otherwisefalse
. The signature with argumentec
returns false if an error occurs.Throws: As specified in Error reporting (7).
void create_directory_symlink(const path& to, const path& new_symlink); void create_directory_symlink(const path& to, const path& new_symlink, error_code& ec) noexcept;
Effects: Establishes the postcondition, as if by POSIX
symlink()
.Postcondition:
new_symlink
resolves to a symbolic link file that contains an unspecified representation ofto
.Throws: As specified in Error reporting (7).
[Note: Some operating systems require symlink creation to identify that the link is to a directory. Portable code should use
create_directory_symlink()
to create directory symlinks rather thancreate_symlink()
—end note][Note: Some operating systems do not support symbolic links at all or support them only for regular files. Some file systems do not support symbolic links regardless of the operating system - the FAT file system used on memory cards and flash drives, for example. —end note]
void create_hard_link(const path& to, const path& new_hard_link); void create_hard_link(const path& to, const path& new_hard_link, error_code& ec) noexcept;
Effects: Establishes the postcondition, as if by POSIX
link()
.Postcondition:
exists(to) && exists(
new_hard_link
) && equivalent(to,
new_hard_link
)
- The contents of the file or directory
to
resolves to are unchanged.Throws: As specified in Error reporting (7).
[Note: Some operating systems do not support hard links at all or support them only for regular files. Some file systems do not support hard links regardless of the operating system - the FAT file system used on memory cards and flash drives, for example. Some file systems limit the number of links per file. —end note]
void create_symlink(const path& to, const path& new_symlink); void create_symlink(const path& to, const path& new_symlink, error_code& ec) noexcept;
Effects: Establishes the postcondition, as if by POSIX
symlink()
.Postcondition:
new_symlink
resolves to a symbolic link file that contains an unspecified representation ofto
.Throws: As specified in Error reporting (7).
[Note: Some operating systems do not support symbolic links at all or support them only for regular files. Some file systems do not support symbolic links regardless of the operating system - the FAT system used on memory cards and flash drives, for example. —end note]
path current_path(); path current_path(error_code& ec);
Returns: The absolute path of the current working directory, obtained as if by POSIX
getcwd()
. The signature with argumentec
returnspath()
if an error occurs.Throws: As specified in Error reporting (7).
Remarks: The current working directory is the directory, associated with the process, that is used as the starting location in pathname resolution for relative paths.
[Note: The
current_path()
name was chosen to emphasize that the return is a path, not just a single directory name.The current path as returned by many operating systems is a dangerous global variable. It may be changed unexpectedly by a third-party or system library functions, or by another thread. —end note]
void current_path(const path& p); void current_path(const path& p, error_code& ec) noexcept;
Effects: Establishes the postcondition, as if by POSIX
chdir()
.Postcondition:
equivalent(p, current_path())
.Throws: As specified in Error reporting (7).
[Note: The current path for many operating systems is a dangerous global state. It may be changed unexpectedly by a third-party or system library functions, or by another thread. —end note]
bool exists(file_status s) noexcept;
Returns:
status_known(s) && s.type() != file_type::not_found
bool exists(const path& p); bool exists(const path& p, error_code& ec) noexcept;
Returns:
exists(status(p))
orexists(status(p, ec))
, respectively. The signature with argumentec
returnsfalse
if an error occurs.Throws: As specified in Error reporting (7).
bool equivalent(const path& p1, const path& p2); bool equivalent(const path& p1, const path& p2, error_code& ec) noexcept;
Effects: Determines
file_status s1
ands2
, as if bystatus(p1)
andstatus(p2)
, respectively.Returns:
true
, ifs1 == s2
andp1
andp2
resolve to the same file system entity, elsefalse
. The signature with argumentec
returnsfalse
if an error occurs.Two paths are considered to resolve to the same file system entity if two candidate entities reside on the same device at the same location. This is determined as if by the values of the POSIX
stat
structure,
obtained as if bystat()
for the two paths, having equalst_dev
values and equalst_ino
values.Throws:
filesystem_error
if(!exists(s1) && !exists(s2)) || (is_other(s1) && is_other(s2))
, otherwise as specified in Error reporting (7).
uintmax_t file_size(const path& p); uintmax_t file_size(const path& p, error_code& ec) noexcept;
Returns: If
!exists(p) || !is_regular_file(p)
an error is reported (7). Otherwise, the size in bytes of the filep
resolves to, determined as if by the value of the POSIXstat
structure memberst_size
obtained as if by POSIXstat()
. The signature with argumentec
returnsstatic_cast<uintmax_t>(-1)
if an error occurs.Throws: As specified in Error reporting (7).
uintmax_t hard_link_count(const path& p); uintmax_t hard_link_count(const path& p, error_code& ec) noexcept;
Returns: The number of hard links for
p
. The signature with argumentec
returnsstatic_cast<uintmax_t>(-1)
if an error occurs.Throws: As specified in Error reporting (7).
bool is_block_file
(file_status s) noexcept;
Returns:
s.type() == file_type::block
bool is_block_file(const path& p); bool is_block_file(const path& p, error_code& ec) noexcept;
Returns:
is_block_file(status(p))
oris_block_file(status(p, ec))
, respectively. The signature with argumentec
returnsfalse
if an error occurs.Throws: As specified in Error reporting (7).
bool is_character_file
(file_status s) noexcept;
Returns:
s.type() == file_type::character
bool is_character_file(const path& p); bool is_character_file(const path& p, error_code& ec) noexcept;
Returns:
is_character_file(status(p))
oris_character_file(status(p, ec))
, respectively. The signature with argumentec
returnsfalse
if an error occurs.Throws: As specified in Error reporting (7).
bool is_directory(file_status s) noexcept;
Returns:
s.type() == file_type::directory
bool is_directory(const path& p); bool is_directory(const path& p, error_code& ec) noexcept;
Returns:
is_directory(status(p))
oris_directory(status(p, ec))
, respectively. The signature with argumentec
returnsfalse
if an error occurs.Throws: As specified in Error reporting (7).
bool is_empty(const path& p); bool is_empty(const path& p, error_code& ec) noexcept;
Effects: Determines
file_status s
, as if bystatus(p, ec)
.Returns:
is_directory(s)
? directory_iterator(p) == directory_iterator()
: file_size(p) == 0;The signature with argument
ec
returnsfalse
if an error occurs.Throws: As specified in Error reporting (7).
bool is_fifo
(file_status s) noexcept;
Returns:
s.type() == file_type::fifo
bool is_fifo(const path& p); bool is_fifo(const path& p, error_code& ec) noexcept;
Returns:
is_fifo(status(p))
oris_fifo(status(p, ec))
, respectively. The signature with argumentec
returnsfalse
if an error occurs.Throws: As specified in Error reporting (7).
bool is_other(file_status s) noexcept;
Returns:
return exists(s) && !is_regular_file(s) && !is_directory(s) && !is_symlink(s)
bool is_other(const path& p); bool is_other(const path& p, error_code& ec) noexcept;
Returns:
is_other(status(p))
oris_other(status(p, ec))
, respectively. The signature with argumentec
returnsfalse
if an error occurs.Throws: As specified in Error reporting (7).
bool is_regular_file
(file_status s) noexcept;
Returns:
s.type() == file_type::regular
.
bool is_regular_file(const path& p);
Returns:
is_regular_file(status(p))
.Throws:
filesystem_error
ifstatus(p)
would throwfilesystem_error.
bool is_regular_file(const path& p, error_code& ec) noexcept;
Effects: Sets
ec
as if bystatus(p, ec)
. [Note:file_type::none
,file_type::not_found
andfile_type::unknown
cases setec
to error values. To distinguish between cases, call thestatus
function directly. —end note]Returns:
is_regular_file(status(p, ec))
. Returnsfalse
if an error occurs.
bool is_socket
(file_status s) noexcept;
Returns:
s.type() == file_type::socket
bool is_socket(const path& p); bool is_socket(const path& p, error_code& ec) noexcept;
Returns:
is_socket(status(p))
oris_socket(status(p, ec))
, respectively. The signature with argumentec
returnsfalse
if an error occurs.Throws: As specified in Error reporting (7).
bool is_symlink(file_status s) noexcept;
Returns:
s.type() == file_type::symlink
bool is_symlink(const path& p); bool is_symlink(const path& p, error_code& ec) noexcept;
Returns:
is_symlink(symlink_status(p))
oris_symlink(symlink_status(p, ec))
, respectively. The signature with argumentec
returnsfalse
if an error occurs.Throws: As specified in Error reporting (7).
file_time_type last_write_time(const path& p); file_time_type last_write_time(const path& p, error_code& ec) noexcept;
Returns: The time of last data modification of
p
, determined as if by the value of the POSIXstat
structure memberst_mtime
obtained as if by POSIXstat()
. The signature with argumentec
returns file_time_type::min() if an error occurs.Throws: As specified in Error reporting (7).
void last_write_time(const path& p, file_time_type new_time); void last_write_time(const path& p, file_time_type new_time, error_code& ec) noexcept;
Effects: Sets the time of last data modification of the file resolved to by
p
tonew_time
, as if by POSIXfutimens()
.Throws: As specified in Error reporting (7).
[Note: A postcondition of
last_write_time(p) == new_time
is not specified since it might not hold for file systems with coarse time granularity. —end note]
void permissions(const path& p, perms prms); void permissions(const path& p, perms prms, error_code& ec) noexcept;
Requires:
!((prms & perms::add_perms) != perms::none
.
&& (prms & perms::remove_perms) != perms::none)Effects: Applies the effective permissions bits from
prms
to the filep
resolves to, as if by POSIXfchmodat()
. The effective permission bits are determined as specified by the following table.
bits present in prms
Effective bits applied Neither add_perms
norremove_perms
prms & perms::mask
add_perms
status(p).permissions() | (prms & perms::mask)
remove_perms
status(p)
.permissions() & ~(prms & perms::mask)
[Note: Conceptually permissions are viewed as bits, but the actual implementation may use some other mechanism. —end note]
Throws: As specified in Error reporting (7).
path read_symlink(const path& p); path read_symlink(const path& p, error_code& ec);
Returns: If
p
resolves to a symbolic link, apath
object containing the contents of that symbolic link. The signature with argumentec
returnspath()
if an error occurs.Throws: As specified in Error reporting (7). [Note: It is an error if
p
does not resolve to a symbolic link. —end note]
bool remove(const path& p); bool remove(const path& p, error_code& ec) noexcept;
Effects: If
exists(symlink_status(p,ec))
, it is removed as if by POSIXremove()
.[Note: A symbolic link is itself removed, rather than the file it resolves to being removed. —end note]
Postcondition:
!exists(symlink_status(p))
.Returns:
false
if p did not exist in the first place, otherwisetrue
. The signature with argumentec
returnsfalse
if an error occurs.Throws: As specified in Error reporting (7).
uintmax_t remove_all(const path& p); uintmax_t remove_all(const path& p, error_code& ec) noexcept;
Effects: Recursively deletes the contents of p if it exists, then deletes file
p
itself, as if by POSIXremove()
.[Note: A symbolic link is itself removed, rather than the file it resolves to being removed. —end note]
Postcondition:
!exists(p)
Returns: The number of files removed. The signature with argument
ec
returnsstatic_cast<uintmax_t>(-1)
if an error occurs.Throws: As specified in Error reporting (7).
void rename(const path& old_p, const path& new_p); void rename(const path& old_p, const path& new_p, error_code& ec) noexcept;
Effects: Renames
old_p
tonew_p
, as if by POSIXrename()
.[Note: If
old_p
andnew_p
resolve to the same existing file, no action is taken. Otherwise, ifnew_p
resolves to an existing non-directory file, it is removed, while ifnew_p
resolves to an existing directory, it is removed if empty on POSIX compliant operating systems but is an error on some other operating systems. A symbolic link is itself renamed, rather than the file it resolves to being renamed. —end note]Throws: As specified in Error reporting (7).
void resize_file(const path& p, uintmax_t new_size); void resize_file(const path& p, uintmax_t new_size, error_code& ec) noexcept;
Postcondition:
file_size() == new_size
.Throws: As specified in Error reporting (7).
Remarks: Achieves its postconditions as if by POSIX
truncate()
.
space_info space(const path& p); space_info space(const path& p, error_code& ec) noexcept;
Returns: An object of type
space_info
. The value of thespace_info
object is determined as if by using POSIXstatvfs()
to obtain a POSIX structstatvfs
, and then multiplying itsf_blocks
,f_bfree
, andf_bavail
members by itsf_frsize
member, and assigning the results to thecapacity
,free
, andavailable
members respectively. Any members for which the value cannot be determined shall be set tostatic_cast<uintmax_t>(-1)
. For the signature with argumentec
, all members are set tostatic_cast<uintmax_t>(-1)
if an error occurs.Throws: As specified in Error reporting (7).
Remarks: The value of member
space_info::available
is operating system dependent. [Note:available
may be less thanfree
. — end note]
file_status status(const path& p);
Effects: As if:
error_code ec; file_status result = status(p, ec); if (result == file_type::none) throw filesystem_error(implementation-supplied-message, p, ec); return result;Returns: See above.
Throws:
filesystem_error
. [Note:result
values offile_status(file_type::not_found)
andfile_status(file_type::unknown)
are not considered failures and do not cause an exception to be thrown. —end note]
file_status status(const path& p, error_code& ec) noexcept;
Effects:
If possible, determines the attributes of the file
If, during attribute determination, the underlying file system API reports an error, setsp
resolves to, as if by POSIXstat()
.ec
to indicate the specific error reported. Otherwise,ec.clear()
.[Note: This allows users to inspect the specifics of underlying API errors even when the value returned by
status()
is notfile_status(file_type::none)
. —end note]Returns:
If
ec != error_code()
:
- If the specific error indicates that
p
cannot be resolved because some element of the path does not exist, returnfile_status(file_type::not_found)
.- Otherwise, if the specific error indicates that
p
can be resolved but the attributes cannot be determined, returnfile_status(file_type::unknown)
.- Otherwise, return
file_status(file_type::none)
.[Note: These semantics distinguish between
p
being known not to exist,p
existing but not being able to determine its attributes, and there being an error that prevents even knowing ifp
exists. These distinctions are important to some use cases. —end note]Otherwise,
- If the attributes indicate a regular file, as if by POSIX S_ISREG(), return
file_status(file_type::regular)
. [Note:file_type::regular
implies appropriate<fstream>
operations would succeed, assuming no hardware, permission, access, or file system race errors. Lack offile_type::regular
does not necessarily imply<fstream>
operations would fail on a directory. —end note]- Otherwise, if the attributes indicate a directory, as if by POSIX S_ISDIR(), return
file_status(file_type::directory)
. [Note:file_type::directory
impliesdirectory_iterator(p)
would succeed. —end note]- Otherwise, if the attributes indicate a block special file, as if by POSIX S_ISBLK(), return
file_status(file_type::block)
.- Otherwise, if the attributes indicate a character special file, as if by POSIX S_ISCHR(), return
file_status(file_type::character)
.- Otherwise, if the attributes indicate a fifo or pipe file, as if by POSIX S_ISFIFO(), return
file_status(file_type::fifo)
.- Otherwise, if the attributes indicate a socket, as if by POSIX S_ISSOCK(), return
file_status(file_type::socket)
.- Otherwise, return
file_status(file_type::unknown)
.Remarks: If a symbolic link is encountered during pathname resolution, pathname resolution continues using the contents of the symbolic link.
bool status_known(file_status s) noexcept;
Returns:
s.type() != file_type::none
file_status symlink_status(const path& p); file_status symlink_status(const path& p, error_code& ec) noexcept;
Effects: Same as status(), above, except that the attributes of
p
are determined as if by POSIXlstat()
.
Returns: Same as status(), above, except that if the attributes indicate a symbolic link, as if by POSIX S_ISLNK(), return
file_status(file_type::symlink)
. The signature with argumentec
returnsfile_status(file_type::none)
if an error occurs.Remarks: Pathname resolution terminates if
p
names a symbolic link.Throws: As specified in Error reporting (7).
path system_complete(const path& p); path system_complete(const path& p, error_code& ec);
Effects: Composes an absolute path from
p
, using the same rules used by the operating system to resolve a path passed as the filename argument to standard library open functions.Returns: The composed path. The signature with argument
ec
returnspath()
if an error occurs.Postcondition: For the returned path,
rp,
rp.is_absolute()
is true.Throws: As specified in Error reporting (7).
[Example: For POSIX based operating systems,
system_complete(p)
has the same semantics asabsolute(p, current_path())
.For Windows based operating systems,
system_complete(p)
has the same semantics asabsolute(p, current_path())
ifp.is_absolute() || !p.has_root_name()
orp
andbase
have the sameroot_name()
. Otherwise it acts likeabsolute(p, cwd)
is the current directory for thep.root_name()
drive. This will be the current directory for that drive the last time it was set, and thus may be residue left over from a prior program run by the command processor. Although these semantics are useful, they may be surprising. —end example]
path temp_directory_path(); path temp_directory_path(error_code& ec);
Returns: An unspecifed directory path suitable for temporary files. An error shall be reported if
!exists(p) || !is_directory(p)
, wherep
is the path to be returned. The signature with argumentec
returnspath()
if an error occurs.Throws: As specified in Error reporting (7).
[Example: For POSIX based operating systems, an implementation might return the path supplied by the first environment variable found in the list TMPDIR, TMP, TEMP, TEMPDIR, or if none of these are found,
"/tmp"
.For Windows based operating systems, an implementation might return the path reported by the Windows
GetTempPath
API function. —end example]