Defined in header <filesystem> | ||
---|---|---|
std::filesystem::file_status status( const std::filesystem::path& p ); std::filesystem::file_status status( const std::filesystem::path& p, std::error_code& ec ) noexcept; | (1) | (since C++17) |
std::filesystem::file_status symlink_status( const std::filesystem::path& p ); std::filesystem::file_status symlink_status( const std::filesystem::path& p, std::error_code& ec ) noexcept; | (2) | (since C++17) |
p
as if by POSIX stat
(symlinks are followed to their targets). In the following description, prms
is the result of (m & perms::mask)
, where m
is obtained as if by taking st_mode
from the POSIX struct stat
and converting it to the type std::filesystem::perms
. p
is a regular file (as if by POSIX S_ISREG
), returns file_status(file_type::regular, prms)
. p
is a directory (as if by POSIX S_ISDIR
), returns file_status(file_type::directory, prms)
p
is a block special file (as if by POSIX S_ISBLK
), returns file_status(file_type::block, prms)
p
is a character special file (as if by POSIX S_ISCHR
), returns file_status(file_type::character, prms)
p
is a fifo or pipe file (as if by POSIX S_ISFIFO
), returns file_status(file_type::fifo, prms)
p
is a socket (as if by POSIX S_ISSOCK
), returns file_status(file_type::socket, prms)
p
has an implementation-defined file type, returns file_status(file_type::A, prms)
where A
is the implementation-defined file_type
constant for that type. p
does not exist, returns file_status(file_type::not_found)
p
exists but file attributes cannot be determined, e.g. due to lack of permissions, returns file_status(file_type::unknown)
p
exists, the non-throwing overload sets ec
and returns file_status(file_type::none)
, and the throwing overload throws filesystem_error
file_status(file_type::unknown, prms)
lstat
is used (symlinks are not followed): p
is a symlink, returns file_status(file_type::symlink)
p | - | path to examine |
ec | - | out-parameter for error reporting in the non-throwing overload |
The file status (a filesystem::file_status
object).
The overload that does not take a std::error_code&
parameter throws filesystem::filesystem_error
on underlying OS API errors, constructed with p
as the first path argument and the OS error code as the error code argument. The overload taking a std::error_code&
parameter sets it to the OS API error code if an OS API call fails, and executes ec.clear()
if no errors occur. Any overload not marked noexcept
may throw std::bad_alloc
if memory allocation fails.
The information provided by this function is usually also provided as a byproduct of directory iteration, and may be obtained by the member functions of filesystem::directory_entry
. During directory iteration, calling status
again is unnecessary.
#include <iostream> #include <fstream> #include <cstdio> #include <cstring> #include <filesystem> #include <unistd.h> #include <sys/socket.h> #include <sys/un.h> #include <sys/stat.h> namespace fs = std::filesystem; void demo_status(const fs::path& p, fs::file_status s) { std::cout << p; // alternative: switch(s.type()) { case fs::file_type::regular: ...} if(fs::is_regular_file(s)) std::cout << " is a regular file\n"; if(fs::is_directory(s)) std::cout << " is a directory\n"; if(fs::is_block_file(s)) std::cout << " is a block device\n"; if(fs::is_character_file(s)) std::cout << " is a character device\n"; if(fs::is_fifo(s)) std::cout << " is a named IPC pipe\n"; if(fs::is_socket(s)) std::cout << " is a named IPC socket\n"; if(fs::is_symlink(s)) std::cout << " is a symlink\n"; if(!fs::exists(s)) std::cout << " does not exist\n"; } int main() { // create files of different kinds fs::create_directory("sandbox"); std::ofstream("sandbox/file"); // create regular file fs::create_directory("sandbox/dir"); mkfifo("sandbox/pipe", 0644); sockaddr_un addr; addr.sun_family = AF_UNIX; std::strcpy(addr.sun_path, "sandbox/sock"); int fd = socket(PF_UNIX, SOCK_STREAM, 0); bind(fd, reinterpret_cast<sockaddr*>(&addr), sizeof addr); fs::create_symlink("file", "sandbox/symlink"); // demo different status accessors for(auto it = fs::directory_iterator("sandbox"); it != fs::directory_iterator(); ++it) demo_status(*it, it->symlink_status()); // use cached status from directory entry demo_status("/dev/null", fs::status("/dev/null")); // direct calls to status demo_status("/dev/sda", fs::status("/dev/sda")); demo_status("sandbox/no", fs::status("/sandbox/no")); // cleanup close(fd); fs::remove_all("sandbox"); }
Possible output:
"sandbox/file" is a regular file "sandbox/dir" is a directory "sandbox/pipe" is a named IPC pipe "sandbox/sock" is a named IPC socket "sandbox/symlink" is a symlink "/dev/null" is a character device "/dev/sda" is a block device "sandbox/no" does not exist
(C++17) | represents file type and permissions (class) |
(C++17) | checks whether file status is known (function) |
(C++17) | checks whether the given path refers to block device (function) |
(C++17) | checks whether the given path refers to a character device (function) |
(C++17) | checks whether the given path refers to a directory (function) |
(C++17) | checks whether the given path refers to a named pipe (function) |
(C++17) | checks whether the argument refers to an other file (function) |
(C++17) | checks whether the argument refers to a regular file (function) |
(C++17) | checks whether the argument refers to a named IPC socket (function) |
(C++17) | checks whether the argument refers to a symbolic link (function) |
(C++17) | checks whether path refers to existing file system object (function) |
status of the file designated by this directory entry symlink_status of the file designated by this directory entry (public member function of std::filesystem::directory_entry ) |
© cppreference.com
Licensed under the Creative Commons Attribution-ShareAlike Unported License v3.0.
https://en.cppreference.com/w/cpp/filesystem/status