Szerkesztés

Megosztás a következőn keresztül:


<filesystem> functions

These free functions in the <filesystem> header do modifying and query operations on paths, files, symlinks, directories, and volumes. For more information and code examples, see File System Navigation (C++).

absolute

path absolute(const path& pval, const path& base = current_path());

The function returns the absolute pathname corresponding to pval relative to the pathname base:

  1. If pval.has_root_name() && pval.has_root_directory() the function returns pval.

  2. If pval.has_root_name() && !pval.has_root_directory() the function returns pval.root_name() / absolute(base).root_directory() / absolute(base).relative_path() / pval.relative_path().

  3. If !pval.has_root_name() && pval.has_root_directory() the function returns absolute(base).root_name() / pval.

  4. If !pval.has_root_name() && !pval.has_root_directory() the function returns absolute(base) / pval.

begin

const directory_iterator& begin(const directory_iterator& iter) noexcept;
const recursive_directory_iterator&
    begin(const recursive_directory_iterator& iter) noexcept;

Both functions return iter.

canonical

path canonical(const path& pval, const path& base = current_path());
path canonical(const path& pval, error_code& ec);
path canonical(const path& pval, const path& base, error_code& ec);

The functions all form an absolute pathname pabs = absolute(pval, base) (or pabs = absolute(pval) for the overload with no base parameter), then reduce it to a canonical form in the following sequence of steps:

  1. Every path component X for which is_symlink(X) is true is replaced by read_symlink(X).

  2. Every path component . (dot is the current directory established by previous path components) is removed.

  3. Every pair of path components X/.. (dot-dot is the parent directory established by previous path components) is removed.

The function then returns pabs.

copy

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 opts);
void copy(const path& from, const path& to, copy_options opts, error_code& ec) noexcept;

The functions all possibly copy or link one or more files at from to to under control of opts, which is taken as copy_options::none for the overloads with no opts parameter. opts shall contain at most one of:

  • skip_existing, overwrite_existing, or update_existing

  • copy_symlinks or skip_symlinks

  • directories_only, create_symlinks, or create_hard_links

The functions first determine the file_status values f for from and t for to:

  • if opts & (copy_options::create_symlinks | copy_options::skip_symlinks), by calling symlink_status

  • otherwise, by calling status

  • Otherwise report an error.

If !exists(f) || equivalent(f, t) || is_other(f) || is_other(t) || is_directory(f)&& is_regular_file(t), they then report an error (and do nothing else).

Otherwise, if is_symlink(f) then:

  • If options & copy_options::skip_symlinks, then do nothing.

  • Otherwise, if !exists(t)&& options & copy_options::copy_symlinks, then copy_symlink(from, to, opts).

  • Otherwise, report an error.

Otherwise, if is_regular_file(f), then:

  • If opts & copy_options::directories_only, then do nothing.

  • Otherwise, if opts & copy_options::create_symlinks, then create_symlink(to, from).

  • Otherwise, if opts & copy_options::create_hard_links, then create_hard_link(to, from).

  • Otherwise, if is_directory(f), then copy_file(from, to / from.filename(), opts).

  • Otherwise, copy_file(from, to, opts).

Otherwise, if is_directory(f) && (opts & copy_options::recursive || !opts), then:

if (!exists(t))
{  // copy directory contents recursively
    create_directory(to, from, ec);

    for (directory_iterator next(from), end; ec == error_code() && next != end; ++next)
    {
        copy(next->path(), to / next->path().filename(), opts, ec);
    }
}

Otherwise, do nothing.

copy_file

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 opts);
bool copy_file(const path& from, const path& to, copy_options opts, error_code& ec) noexcept;

The functions all possibly copy the file at from to to under control of opts, which is taken as copy_options::none for the overloads with no opts parameter. opts shall contain at most one of skip_existing, overwrite_existing, or update_existing.

If exists(to) && !(opts & (copy_options::skip_existing | copy_options::overwrite_existing | copy_options::update_existing)), then report as an error that the file already exists.

Otherwise, if !exists(to) || opts & copy_options::overwrite_existing || opts & copy_options::update_existing&& last_write_time(to) < last_write_time(from) || !(opts & (copy_options::skip_existing | copy_options::overwrite_existing | copy_options:update_existing)), then attempt to copy the contents and attributes of the file from to the file to. Report as an error if the copy attempt fails.

The functions return true if the copy is attempted and succeeds, otherwise false.

void copy_symlink(const path& from, const path& to);
void copy_symlink(const path& from, const path& to, error_code& ec) noexcept;

If is_directory(from), the function calls create_directory_symlink(from, to). Otherwise, it calls create_symlink(from, to).

create_directories

bool create_directories(const path& pval);
bool create_directories(const path& pval, error_code& ec) noexcept;

For a pathname such as a\/b\/c, the function creates directories a and a\/b as needed so that it can create the directory a\/b\/c as needed. It returns true only if it actually creates the directory pval.

create_directory

bool create_directory(const path& pval);

bool create_directory(const path& pval, error_code& ec) noexcept;
bool create_directory(const path& pval, const path& attr);
bool create_directory(const path& pval, const path& attr, error_code& ec) noexcept;

The function creates the directory pval as needed. It returns true only if it actually creates the directory pval, in which case it copies permissions from the existing file attr, or uses perms::all for the overloads with no attr parameter.

void create_directory_symlink(const path& to, const path& link);
void create_directory_symlink(const path& to, const path& link, error_code& ec) noexcept;

The function creates link as a symlink to the directory to.

void create_hard_link(const path& to,  const path& link);
void create_hard_link(const path& to, const path& link, error_code& ec) noexcept;

The function creates link as a hard link to the directory or file to.

void create_symlink(const path& to, const path& link);

void create_symlink(const path& to, const path& link, error_code& ec) noexcept;

The function creates link as a symlink to the file to.

current_path

path current_path();
path current_path(error_code& ec);
void current_path(const path& pval);
void current_path(const path& pval, error_code& ec) noexcept;

The functions with no parameter pval return the pathname for the current directory. The remaining functions set the current directory to pval.

end

directory_iterator& end(const directory_iterator& iter) noexcept;
recursive_directory_iterator& end(const recursive_directory_iterator& iter) noexcept;

The first function returns directory_iterator() and the second function returns recursive_directory_iterator()

equivalent

bool equivalent(const path& left, const path& right);
bool equivalent(const path& left, const path& right, error_code& ec) noexcept;

The functions return true only if left and right choose the same filesystem entity.

exists

bool exists(file_status stat) noexcept;
bool exists(const path& pval);
bool exists(const path& pval, error_code& ec) noexcept;

The first function returns status_known && stat.type() != file_not_found. The second and third functions return exists(status(pval)).

file_size

uintmax_t file_size(const path& pval);
uintmax_t file_size(const path& pval, error_code& ec) noexcept;

The functions return the size in bytes of the file chosen by pval, if exists(pval) && is_regular_file(pval) and the file size can be determined. Otherwise they report an error and return uintmax_t(-1).

uintmax_t hard_link_count(const path& pval);
uintmax_t hard_link_count(const path& pval, error_code& ec) noexcept;

The function returns the number of hard links for pval, or -1 if an error occurs.

hash_value

size_t hash_value(const path& pval) noexcept;

The function returns a hash value for pval.native().

is_block_file

bool is_block_file(file_status stat) noexcept;
bool is_block_file(const path& pval);
bool is_block_file(const path& pval, error_code& ec) noexcept;

The first function returns stat.type() == file_type::block. The remaining functions return is_block_file(status(pval)).

is_character_file

bool is_character_file(file_status stat) noexcept;
bool is_character_file(const path& pval);
bool is_character_file(const path& pval, error_code& ec) noexcept;

The first function returns stat.type() == file_type::character. The remaining functions return is_character_file(status(pval)).

is_directory

bool is_directory(file_status stat) noexcept;
bool is_directory(const path& pval);
bool is_directory(const path& pval, error_code& ec) noexcept;

The first function returns stat.type() == file_type::directory. The remaining functions return is_directory_file(status(pval)).

is_empty

bool is_empty(file_status stat) noexcept;
bool is_empty(const path& pval);
bool is_empty(const path& pval, error_code& ec) noexcept;

If is_directory(pval), then the function returns directory_iterator(pval) == directory_iterator(); otherwise it returns file_size(pval) == 0.

is_fifo

bool is_fifo(file_status stat) noexcept;
bool is_fifo(const path& pval);
bool is_fifo(const path& pval, error_code& ec) noexcept;

The first function returns stat.type() == file_type::fifo. The remaining functions return is_fifo(status(pval)).

is_other

bool is_other(file_status stat) noexcept;
bool is_other(const path& pval);
bool is_other(const path& pval, error_code& ec) noexcept;

The first function returns stat.type() == file_type::other. The remaining functions return is_other(status(pval)).

is_regular_file

bool is_regular_file(file_status stat) noexcept;
bool is_regular_file(const path& pval);
bool is_regular_file(const path& pval, error_code& ec) noexcept;

The first function returns stat.type() == file_type::regular. The remaining functions return is_regular_file(status(pval)).

is_socket

bool is_socket(file_status stat) noexcept;
bool is_socket(const path& pval);
bool is_socket(const path& pval, error_code& ec) noexcept;

The first function returns stat.type() == file_type::socket. The remaining functions return is_socket(status(pval)).

bool is_symlink(file_status stat) noexcept;
bool is_symlink(const path& pval);
bool is_symlink(const path& pval, error_code& ec) noexcept;

The first function returns stat.type() == file_type::symlink. The remaining functions return is_symlink(status(pval)).

last_write_time

file_time_type last_write_time(const path& pval);
file_time_type last_write_time(const path& pval, error_code& ec) noexcept;
void last_write_time(const path& pval, file_time_type new_time);
void last_write_time(const path& pval, file_time_type new_time, error_code& ec) noexcept;

The first two functions return the time of last data modification for pval, or file_time_type(-1) if an error occurs. The last two functions set the time of last data modification for pval to new_time.

permissions

void permissions(const path& pval, perms mask);
void permissions(const path& pval, perms mask, error_code& ec) noexcept;

The functions set the permissions for the pathname chosen by pval to mask & perms::mask under control of perms & (perms::add_perms | perms::remove_perms). mask shall contain at most one of perms::add_perms and perms::remove_perms.

If mask & perms::add_perms, the functions set the permissions to status(pval).permissions() | mask & perms::mask. Otherwise, if mask & perms::remove_perms, the functions set the permissions to status(pval).permissions() & ~(mask & perms::mask). Otherwise, the functions set the permissions to mask & perms::mask.

proximate

path proximate(const path& p, error_code& ec);
path proximate(const path& p, const path& base = current_path());
path proximate(const path& p, const path& base, error_code& ec);
path read_symlink(const path& pval);
path read_symlink(const path& pval, error_code& ec);

The functions report an error and return path() if !is_symlink(pval). Otherwise, the functions return an object of type path containing the symbolic link.

relative

path relative(const path& p, error_code& ec);
path relative(const path& p, const path& base = current_path());
path relative(const path& p, const path& base, error_code& ec);

remove

bool remove(const path& pval);
bool remove(const path& pval, error_code& ec) noexcept;

The functions return true only if exists(symlink_status(pval)) and the file is successfully removed. A symlink is itself removed, not the file it chooses.

remove_all

uintmax_t remove_all(const path& pval);
uintmax_t remove_all(const path& pval, error_code& ec) noexcept;

If pval is a directory, the functions recursively remove all directory entries, then the entry itself. Otherwise, the functions call remove. They return a count of all elements successfully removed.

rename

void rename(const path& from, const path& to);
void rename(const path& from, const path& to, error_code& ec) noexcept;

The functions rename from to to. A symlink is itself renamed, not the file it chooses.

resize_file

void resize(const path& pval, uintmax_t size);
void resize(const path& pval, uintmax_t size, error_code& ec) noexcept;

The functions alter the size of a file such that file_size(pval) == size

space

space_info space(const path& pval);
space_info space(const path& pval, error_code& ec) noexcept;

The function returns information about the volume chosen by pval, in a structure of type space_info. The structure contains uintmax_t(-1) for any value that can't be determined.

status

file_status status(const path& pval);
file_status status(const path& pval, error_code& ec) noexcept;

The functions return the pathname status, the file type, and permissions, associated with pval. A symlink is itself not tested, but the file it chooses.

status_known

bool status_known(file_status stat) noexcept;

The function returns stat.type() != file_type::none

swap

void swap(path& left, path& right) noexcept;

The function exchanges the contents of left and right.

file_status symlink_status(const path& pval);
file_status symlink_status(const path& pval, error_code& ec) noexcept;

The functions return the pathname symlink status, the file type, and permissions, associated with pval. The functions behave the same as status(pval) except that a symlink is itself tested, not the file it chooses.

system_complete

path system_complete(const path& pval);
path system_complete(const path& pval, error_code& ec);

The functions return an absolute pathname that takes into account, as necessary, the current directory associated with its root name. (For POSIX, the functions return absolute(pval)).

temp_directory_path

path temp_directory_path();
path temp_directory_path(error_code& ec);

The functions return a pathname for a directory suitable for containing temporary files.

u8path

template <class Source>
path u8path(const Source& source);

template <class InIt>
path u8path(InIt first, InIt last);

The first function behaves the same as path(source) and the second function behaves the same as path(first, last) except that the chosen source in each case is taken as a sequence of char elements encoded as UTF-8, whatever the filesystem.

weakly_canonical

path weakly_canonical(const path& p);
path weakly_canonical(const path& p, error_code& ec);