std::experimental::filesystem::create_hard_link (3) - Linux Man Pages

std::experimental::filesystem::create_hard_link: std::experimental::filesystem::create_hard_link

NAME

std::experimental::filesystem::create_hard_link - std::experimental::filesystem::create_hard_link

Synopsis


Defined in header <experimental/filesystem>
void create_hard_link( const path& target, const path& link ); (filesystem TS)
void create_hard_link( const path& target, const path& link, error_code& ec );


Creates a hard link link with its target set to target as if by POSIX link(): the pathname target must exist.
Once created, link and target are two logical names that refer to the same file (they are equivalent). Even if the original name target is deleted, the file continues to exist and is accessible as link.

Parameters


target - path of the file or directory to link to
link - path of the new hard link
ec - out-parameter for error reporting in the non-throwing overload

Return value


(none)

Exceptions


The overload that does not take a error_code& parameter throws filesystem_error on underlying OS API errors, constructed with target as the first argument, link as the second argument, and the OS error code as the error code argument. std::bad_alloc may be thrown if memory allocation fails. The overload taking a 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. This overload has
noexcept specification:
noexcept

Notes


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.
Hardlinking to directories is typically restricted to the superuser.
Hard links typically cannot cross filesystem boundaries.
The special pathname dot (".") is a hard link to its parent directory. The special pathname dot-dot ".." is a hard link to the directory that is the parent of its parent.

Example


// Run this code


  #include <iostream>
  #include <fstream>
  #include <experimental/filesystem>
  namespace fs = std::experimental::filesystem;


  int main()
  {
      fs::create_directories("sandbox/subdir");
      std::ofstream("sandbox/a").put('a'); // create regular file
      fs::create_hard_link("sandbox/a", "sandbox/b");
      fs::remove("sandbox/a");
      // read from the original file via surviving hard link
      char c = std::ifstream("sandbox/b").get();
      std::cout << c << '\n';
      fs::remove_all("sandbox");
  }

Output:


  a

See also


                         creates a symbolic link
create_symlink (function)
create_directory_symlink
                         returns the number of hard links referring to the specific file
hard_link_count (function)