os.walk() doesn't use
os.listdir(). It uses the much faster
os.scandir() function, which provides an iterator with more information per directory entry:
scandir() instead of
listdir() can significantly increase the performance of code that also needs file type or file attribute information, because
os.DirEntry objects expose this information if the operating system provides it when scanning a directory. All
os.DirEntry methods may perform a system call, but
is_file() usually only require a system call for symbolic links;
os.DirEntry.stat() always requires a system call on Unix but only requires one for symbolic links on Windows.
os.walk() code makes heavy use of the
DirEntry.is_dir() call, which with
os.scandir() is much cheaper than using
os.isdir() (which must make separate
Next, your code is calling
os.isdir() too often. You are effectively calling it twice for every file entry in your path. You already collected all the subdirectories in
y, you don't need to test the paths again when re-creating
var. These extra
isdir() calls cost you a lot of time.
You also recurse when
var is empty (no further subdirectories), causing you to first wrap the empty list in another list, after which
os.listdir() throws a
TypeError exception which your blanket Pokemon-catch-em-all except handler silences.
Next, you should get rid of the global variables, and use proper variable names.
dirs would be far clearer names than
z. Because you made
z globals you are retaining all file and directory names for a given level, and for every first subdirectory on down, you then re-report those same file and directory names as if they are members of those subdirectories. Only when the first leaf of such a directory tree (with no further subdirectories) is reached do the
.clear() calls on
z get executed, leading to very confusing results with repeated filenames.
You can study the
os.walk() source code, but if we simplify it down to only use top-down traversal and no error handling, then it comes down to:
dirs = 
nondirs = 
with os.scandir(top) as scandir_it:
for entry in scandir_it:
yield top, dirs, nondirs
for dirname in dirs:
new_path = os.path.join(top, dirname)
yield from walk(new_path)
Note that there are no global variables used; there simply is no need for any in this algorithm. There is only a single
os.scandir() call per directory, and the
dirs variable is re-used to recurse into subdirectories.