PEP: 471 Title: os.scandir() function -- a better and faster directory iterator Version: $Revision$ Last-Modified: $Date$ Author: Ben Hoyt BDFL-Delegate: Victor Stinner Status: Accepted Type: Standards Track Content-Type: text/x-rst Created: 30-May-2014 Python-Version: 3.5 Post-History: 27-Jun-2014, 8-Jul-2014, 14-Jul-2014 Abstract ======== This PEP proposes including a new directory iteration function, ``os.scandir()``, in the standard library. This new function adds useful functionality and increases the speed of ``os.walk()`` by 2-20 times (depending on the platform and file system) by avoiding calls to ``os.stat()`` in most cases. Rationale ========= Python's built-in ``os.walk()`` is significantly slower than it needs to be, because -- in addition to calling ``os.listdir()`` on each directory -- it executes the ``stat()`` system call or ``GetFileAttributes()`` on each file to determine whether the entry is a directory or not. But the underlying system calls -- ``FindFirstFile`` / ``FindNextFile`` on Windows and ``readdir`` on POSIX systems -- already tell you whether the files returned are directories or not, so no further system calls are needed. Further, the Windows system calls return all the information for a ``stat_result`` object on the directory entry, such as file size and last modification time. In short, you can reduce the number of system calls required for a tree function like ``os.walk()`` from approximately 2N to N, where N is the total number of files and directories in the tree. (And because directory trees are usually wider than they are deep, it's often much better than this.) In practice, removing all those extra system calls makes ``os.walk()`` about **8-9 times as fast on Windows**, and about **2-3 times as fast on POSIX systems**. So we're not talking about micro- optimizations. See more `benchmarks here`_. .. _`benchmarks here`: https://github.com/benhoyt/scandir#benchmarks Somewhat relatedly, many people (see Python `Issue 11406`_) are also keen on a version of ``os.listdir()`` that yields filenames as it iterates instead of returning them as one big list. This improves memory efficiency for iterating very large directories. So, as well as providing a ``scandir()`` iterator function for calling directly, Python's existing ``os.walk()`` function can be sped up a huge amount. .. _`Issue 11406`: http://bugs.python.org/issue11406 Implementation ============== The implementation of this proposal was written by Ben Hoyt (initial version) and Tim Golden (who helped a lot with the C extension module). It lives on GitHub at `benhoyt/scandir`_. (The implementation may lag behind the updates to this PEP a little.) .. _`benhoyt/scandir`: https://github.com/benhoyt/scandir Note that this module has been used and tested (see "Use in the wild" section in this PEP), so it's more than a proof-of-concept. However, it is marked as beta software and is not extensively battle-tested. It will need some cleanup and more thorough testing before going into the standard library, as well as integration into ``posixmodule.c``. Specifics of proposal ===================== os.scandir() ------------ Specifically, this PEP proposes adding a single function to the ``os`` module in the standard library, ``scandir``, that takes a single, optional string as its argument:: scandir(directory='.') -> generator of DirEntry objects Like ``listdir``, ``scandir`` calls the operating system's directory iteration system calls to get the names of the files in the given ``directory``, but it's different from ``listdir`` in two ways: * Instead of returning bare filename strings, it returns lightweight ``DirEntry`` objects that hold the filename string and provide simple methods that allow access to the additional data the operating system may have returned. * It returns a generator instead of a list, so that ``scandir`` acts as a true iterator instead of returning the full list immediately. ``scandir()`` yields a ``DirEntry`` object for each file and sub-directory in ``directory``. Just like ``listdir``, the ``'.'`` and ``'..'`` pseudo-directories are skipped, and the entries are yielded in system-dependent order. Each ``DirEntry`` object has the following attributes and methods: * ``name``: the entry's filename, relative to the ``directory`` argument (corresponds to the return values of ``os.listdir``) * ``path``: the entry's full path name (not necessarily an absolute path) -- the equivalent of ``os.path.join(directory, entry.name)`` * ``is_dir(*, follow_symlinks=True)``: similar to ``pathlib.Path.is_dir()``, but the return value is cached on the ``DirEntry`` object; doesn't require a system call in most cases; don't follow symbolic links if ``follow_symlinks`` is False * ``is_file(*, follow_symlinks=True)``: similar to ``pathlib.Path.is_file()``, but the return value is cached on the ``DirEntry`` object; doesn't require a system call in most cases; don't follow symbolic links if ``follow_symlinks`` is False * ``is_symlink()``: similar to ``pathlib.Path.is_symlink()``, but the return value is cached on the ``DirEntry`` object; doesn't require a system call in most cases * ``stat(*, follow_symlinks=True)``: like ``os.stat()``, but the return value is cached on the ``DirEntry`` object; does not require a system call on Windows (except for symlinks); don't follow symbolic links (like ``os.lstat()``) if ``follow_symlinks`` is False All *methods* may perform system calls in some cases and therefore possibly raise ``OSError`` -- see the "Notes on exception handling" section for more details. The ``DirEntry`` attribute and method names were chosen to be the same as those in the new ``pathlib`` module where possible, for consistency. The only difference in functionality is that the ``DirEntry`` methods cache their values on the entry object after the first call. Like the other functions in the ``os`` module, ``scandir()`` accepts either a bytes or str object for the ``directory`` parameter, and returns the ``DirEntry.name`` and ``DirEntry.path`` attributes with the same type as ``directory``. However, it is *strongly recommended* to use the str type, as this ensures cross-platform support for Unicode filenames. (On Windows, bytes filenames have been deprecated since Python 3.3). os.walk() --------- As part of this proposal, ``os.walk()`` will also be modified to use ``scandir()`` rather than ``listdir()`` and ``os.path.isdir()``. This will increase the speed of ``os.walk()`` very significantly (as mentioned above, by 2-20 times, depending on the system). Examples ======== First, a very simple example of ``scandir()`` showing use of the ``DirEntry.name`` attribute and the ``DirEntry.is_dir()`` method:: def subdirs(path): """Yield directory names not starting with '.' under given path.""" for entry in os.scandir(path): if not entry.name.startswith('.') and entry.is_dir(): yield entry.name This ``subdirs()`` function will be significantly faster with scandir than ``os.listdir()`` and ``os.path.isdir()`` on both Windows and POSIX systems, especially on medium-sized or large directories. Or, for getting the total size of files in a directory tree, showing use of the ``DirEntry.stat()`` method and ``DirEntry.path`` attribute:: def get_tree_size(directory): """Return total size of files in directory and subdirs.""" total = 0 for entry in os.scandir(directory): if entry.is_dir(follow_symlinks=False): total += get_tree_size(entry.path) else: total += entry.stat(follow_symlinks=False).st_size return total This also shows the use of the ``follow_symlinks`` parameter to ``is_dir()`` -- in a recursive function like this, we probably don't want to follow links. (To properly follow links in a recursive function like this we'd want special handling for the case where following a symlink leads to a recursive loop.) Note that ``get_tree_size()`` will get a huge speed boost on Windows, because no extra stat call are needed, but on POSIX systems the size information is not returned by the directory iteration functions, so this function won't gain anything there. Notes on caching ---------------- The ``DirEntry`` objects are relatively dumb -- the ``name`` and ``path`` attributes are obviously always cached, and the ``is_X`` and ``stat`` methods cache their values (immediately on Windows via ``FindNextFile``, and on first use on POSIX systems via a ``stat`` system call) and never refetch from the system. For this reason, ``DirEntry`` objects are intended to be used and thrown away after iteration, not stored in long-lived data structured and the methods called again and again. If developers want "refresh" behaviour (for example, for watching a file's size change), they can simply use ``pathlib.Path`` objects, or call the regular ``os.stat()`` or ``os.path.getsize()`` functions which get fresh data from the operating system every call. Notes on exception handling --------------------------- ``DirEntry.is_X()`` and ``DirEntry.stat()`` are explicitly methods rather than attributes or properties, to make it clear that they may not be cheap operations (although they often are), and they may do a system call. As a result, these methods may raise ``OSError``. For example, ``DirEntry.stat()`` will always make a system call on POSIX-based systems, and the ``DirEntry.is_X()`` methods will make a ``stat()`` system call on such systems if ``readdir()`` does not support ``d_type`` or returns a ``d_type`` with a value of ``DT_UNKNOWN``, which can occur under certain conditions or on certain file systems. Often this does not matter -- for example, ``os.walk()`` as defined in the standard library only catches errors around the ``listdir()`` calls. Also, because the exception-raising behaviour of the ``DirEntry.is_X`` methods matches that of ``pathlib`` -- which only raises ``OSError`` in the case of permissions or other fatal errors, but returns False if the path doesn't exist or is a broken symlink -- it's often not necessary to catch errors around the ``is_X()`` calls. However, when a user requires fine-grained error handling, it may be desirable to catch ``OSError`` around all method calls and handle as appropriate. For example, below is a version of the ``get_tree_size()`` example shown above, but with fine-grained error handling added:: def get_tree_size(directory): """Return total size of files in directory and subdirs. If is_dir() or stat() fails, print an error message to stderr and assume zero size (for example, file has been deleted). """ total = 0 for entry in os.scandir(directory): try: is_dir = entry.is_dir(follow_symlinks=False) except OSError as error: print('Error calling is_dir():', error, file=sys.stderr) continue if is_dir: total += get_tree_size(entry.path) else: try: total += entry.stat(follow_symlinks=False).st_size except OSError as error: print('Error calling stat():', error, file=sys.stderr) return total Support ======= The scandir module on GitHub has been forked and used quite a bit (see "Use in the wild" in this PEP), but there's also been a fair bit of direct support for a scandir-like function from core developers and others on the python-dev and python-ideas mailing lists. A sampling: * **python-dev**: a good number of +1's and very few negatives for scandir and PEP 471 on `this June 2014 python-dev thread `_ * **Nick Coghlan**, a core Python developer: "I've had the local Red Hat release engineering team express their displeasure at having to stat every file in a network mounted directory tree for info that is present in the dirent structure, so a definite +1 to os.scandir from me, so long as it makes that info available." [`source1 `_] * **Tim Golden**, a core Python developer, supports scandir enough to have spent time refactoring and significantly improving scandir's C extension module. [`source2 `_] * **Christian Heimes**, a core Python developer: "+1 for something like yielddir()" [`source3 `_] and "Indeed! I'd like to see the feature in 3.4 so I can remove my own hack from our code base." [`source4 `_] * **Gregory P. Smith**, a core Python developer: "As 3.4beta1 happens tonight, this isn't going to make 3.4 so i'm bumping this to 3.5. I really like the proposed design outlined above." [`source5 `_] * **Guido van Rossum** on the possibility of adding scandir to Python 3.5 (as it was too late for 3.4): "The ship has likewise sailed for adding scandir() (whether to os or pathlib). By all means experiment and get it ready for consideration for 3.5, but I don't want to add it to 3.4." [`source6 `_] Support for this PEP itself (meta-support?) was given by Nick Coghlan on python-dev: "A PEP reviewing all this for 3.5 and proposing a specific os.scandir API would be a good thing." [`source7 `_] Use in the wild =============== To date, the ``scandir`` implementation is definitely useful, but has been clearly marked "beta", so it's uncertain how much use of it there is in the wild. Ben Hoyt has had several reports from people using it. For example: * Chris F: "I am processing some pretty large directories and was half expecting to have to modify getdents. So thanks for saving me the effort." [via personal email] * bschollnick: "I wanted to let you know about this, since I am using Scandir as a building block for this code. Here's a good example of scandir making a radical performance improvement over os.listdir." [`source8 `_] * Avram L: "I'm testing our scandir for a project I'm working on. Seems pretty solid, so first thing, just want to say nice work!" [via personal email] * Matt Z: "I used scandir to dump the contents of a network dir in under 15 seconds. 13 root dirs, 60,000 files in the structure. This will replace some old VBA code embedded in a spreadsheet that was taking 15-20 minutes to do the exact same thing." [via personal email] Others have `requested a PyPI package`_ for it, which has been created. See `PyPI package`_. .. _`requested a PyPI package`: https://github.com/benhoyt/scandir/issues/12 .. _`PyPI package`: https://pypi.python.org/pypi/scandir GitHub stats don't mean too much, but scandir does have several watchers, issues, forks, etc. Here's the run-down as of the stats as of July 7, 2014: * Watchers: 17 * Stars: 57 * Forks: 20 * Issues: 4 open, 26 closed Also, because this PEP will increase the speed of ``os.walk()`` significantly, there are thousands of developers and scripts, and a lot of production code, that would benefit from it. For example, on GitHub, there are almost as many uses of ``os.walk`` (194,000) as there are of ``os.mkdir`` (230,000). Rejected ideas ============== Naming ------ The only other real contender for this function's name was ``iterdir()``. However, ``iterX()`` functions in Python (mostly found in Python 2) tend to be simple iterator equivalents of their non-iterator counterparts. For example, ``dict.iterkeys()`` is just an iterator version of ``dict.keys()``, but the objects returned are identical. In ``scandir()``'s case, however, the return values are quite different objects (``DirEntry`` objects vs filename strings), so this should probably be reflected by a difference in name -- hence ``scandir()``. See some `relevant discussion on python-dev `_. Wildcard support ---------------- ``FindFirstFile``/``FindNextFile`` on Windows support passing a "wildcard" like ``*.jpg``, so at first folks (this PEP's author included) felt it would be a good idea to include a ``windows_wildcard`` keyword argument to the ``scandir`` function so users could pass this in. However, on further thought and discussion it was decided that this would be bad idea, *unless it could be made cross-platform* (a ``pattern`` keyword argument or similar). This seems easy enough at first -- just use the OS wildcard support on Windows, and something like ``fnmatch`` or ``re`` afterwards on POSIX-based systems. Unfortunately the exact Windows wildcard matching rules aren't really documented anywhere by Microsoft, and they're quite quirky (see this `blog post `_), meaning it's very problematic to emulate using ``fnmatch`` or regexes. So the consensus was that Windows wildcard support was a bad idea. It would be possible to add at a later date if there's a cross-platform way to achieve it, but not for the initial version. Read more on the `this Nov 2012 python-ideas thread `_ and this `June 2014 python-dev thread on PEP 471 `_. Methods not following symlinks by default ----------------------------------------- There was much debate on python-dev (see messages in `this thread `_) over whether the ``DirEntry`` methods should follow symbolic links or not (when the ``is_X()`` methods had no ``follow_symlinks`` parameter). Initially they did not (see previous versions of this PEP and the scandir.py module), but Victor Stinner made a pretty compelling case on python-dev that following symlinks by default is a better idea, because: * following links is usually what you want (in 92% of cases in the standard library, functions using ``os.listdir()`` and ``os.path.isdir()`` do follow symlinks) * that's the precedent set by the similar functions ``os.path.isdir()`` and ``pathlib.Path.is_dir()``, so to do otherwise would be confusing * with the non-link-following approach, if you wanted to follow links you'd have to say something like ``if (entry.is_symlink() and os.path.isdir(entry.path)) or entry.is_dir()``, which is clumsy As a case in point that shows the non-symlink-following version is error prone, this PEP's author had a bug caused by getting this exact test wrong in his initial implementation of ``scandir.walk()`` in scandir.py (see `Issue #4 here `_). In the end there was not total agreement that the methods should follow symlinks, but there was basic consensus among the most involved participants, and this PEP's author believes that the above case is strong enough to warrant following symlinks by default. In addition, it's straight-forward to call the relevant methods with ``follow_symlinks=False`` if the other behaviour is desired. DirEntry attributes being properties ------------------------------------ In some ways it would be nicer for the ``DirEntry`` ``is_X()`` and ``stat()`` to be properties instead of methods, to indicate they're very cheap or free. However, this isn't quite the case, as ``stat()`` will require an OS call on POSIX-based systems but not on Windows. Even ``is_dir()`` and friends may perform an OS call on POSIX-based systems if the ``dirent.d_type`` value is ``DT_UNKNOWN`` (on certain file systems). Also, people would expect the attribute access ``entry.is_dir`` to only ever raise ``AttributeError``, not ``OSError`` in the case it makes a system call under the covers. Calling code would have to have a ``try``/``except`` around what looks like a simple attribute access, and so it's much better to make them *methods*. See `this May 2013 python-dev thread `_ where this PEP author makes this case and there's agreement from a core developers. DirEntry fields being "static" attribute-only objects ----------------------------------------------------- In `this July 2014 python-dev message `_, Paul Moore suggested a solution that was a "thin wrapper round the OS feature", where the ``DirEntry`` object had only static attributes: ``name``, ``path``, and ``is_X``, with the ``st_X`` attributes only present on Windows. The idea was to use this simpler, lower-level function as a building block for higher-level functions. At first there was general agreement that simplifying in this way was a good thing. However, there were two problems with this approach. First, the assumption is the ``is_dir`` and similar attributes are always present on POSIX, which isn't the case (if ``d_type`` is not present or is ``DT_UNKNOWN``). Second, it's a much harder-to-use API in practice, as even the ``is_dir`` attributes aren't always present on POSIX, and would need to be tested with ``hasattr()`` and then ``os.stat()`` called if they weren't present. See `this July 2014 python-dev response `_ from this PEP's author detailing why this option is a non-ideal solution, and the subsequent reply from Paul Moore voicing agreement. DirEntry fields being static with an ensure_lstat option -------------------------------------------------------- Another seemingly simpler and attractive option was suggested by Nick Coghlan in this `June 2014 python-dev message `_: make ``DirEntry.is_X`` and ``DirEntry.lstat_result`` properties, and populate ``DirEntry.lstat_result`` at iteration time, but only if the new argument ``ensure_lstat=True`` was specified on the ``scandir()`` call. This does have the advantage over the above in that you can easily get the stat result from ``scandir()`` if you need it. However, it has the serious disadvantage that fine-grained error handling is messy, because ``stat()`` will be called (and hence potentially raise ``OSError``) during iteration, leading to a rather ugly, hand-made iteration loop:: it = os.scandir(directory) while True: try: entry = next(it) except OSError as error: handle_error(directory, error) except StopIteration: break Or it means that ``scandir()`` would have to accept an ``onerror`` argument -- a function to call when ``stat()`` errors occur during iteration. This seems to this PEP's author neither as direct nor as Pythonic as ``try``/``except`` around a ``DirEntry.stat()`` call. Another drawback is that ``os.scandir()`` is written to make code faster. Always calling ``os.lstat()`` on POSIX would not bring any speedup. In most cases, you don't need the full ``stat_result`` object -- the ``is_X()`` methods are enough and this information is already known. See `Ben Hoyt's July 2014 reply `_ to the discussion summarizing this and detailing why he thinks the original PEP 471 proposal is "the right one" after all. Return values being (name, stat_result) two-tuples -------------------------------------------------- Initially this PEP's author proposed this concept as a function called ``iterdir_stat()`` which yielded two-tuples of (name, stat_result). This does have the advantage that there are no new types introduced. However, the ``stat_result`` is only partially filled on POSIX-based systems (most fields set to ``None`` and other quirks), so they're not really ``stat_result`` objects at all, and this would have to be thoroughly documented as different from ``os.stat()``. Also, Python has good support for proper objects with attributes and methods, which makes for a saner and simpler API than two-tuples. It also makes the ``DirEntry`` objects more extensible and future-proof as operating systems add functionality and we want to include this in ``DirEntry``. See also some previous discussion: * `May 2013 python-dev thread `_ where Nick Coghlan makes the original case for a ``DirEntry``-style object. * `June 2014 python-dev thread `_ where Nick Coghlan makes (another) good case against the two-tuple approach. Return values being overloaded stat_result objects -------------------------------------------------- Another alternative discussed was making the return values to be overloaded ``stat_result`` objects with ``name`` and ``path`` attributes. However, apart from this being a strange (and strained!) kind of overloading, this has the same problems mentioned above -- most of the ``stat_result`` information is not fetched by ``readdir()`` on POSIX systems, only (part of) the ``st_mode`` value. Return values being pathlib.Path objects ---------------------------------------- With Antoine Pitrou's new standard library ``pathlib`` module, it at first seems like a great idea for ``scandir()`` to return instances of ``pathlib.Path``. However, ``pathlib.Path``'s ``is_X()`` and ``stat()`` functions are explicitly not cached, whereas ``scandir`` has to cache them by design, because it's (often) returning values from the original directory iteration system call. And if the ``pathlib.Path`` instances returned by ``scandir`` cached stat values, but the ordinary ``pathlib.Path`` objects explicitly don't, that would be more than a little confusing. Guido van Rossum explicitly rejected ``pathlib.Path`` caching stat in the context of scandir `here `_, making ``pathlib.Path`` objects a bad choice for scandir return values. Possible improvements ===================== There are many possible improvements one could make to scandir, but here is a short list of some this PEP's author has in mind: * scandir could potentially be further sped up by calling ``readdir`` / ``FindNextFile`` say 50 times per ``Py_BEGIN_ALLOW_THREADS`` block so that it stays in the C extension module for longer, and may be somewhat faster as a result. This approach hasn't been tested, but was suggested by on Issue 11406 by Antoine Pitrou. [`source9 `_] * scandir could use a free list to avoid the cost of memory allocation for each iteration -- a short free list of 10 or maybe even 1 may help. Suggested by Victor Stinner on a `python-dev thread on June 27`_. .. _`python-dev thread on June 27`: https://mail.python.org/pipermail/python-dev/2014-June/135232.html Previous discussion =================== * `Original November 2012 thread Ben Hoyt started on python-ideas `_ about speeding up ``os.walk()`` * Python `Issue 11406`_, which includes the original proposal for a scandir-like function * `Further May 2013 thread Ben Hoyt started on python-dev `_ that refined the ``scandir()`` API, including Nick Coghlan's suggestion of scandir yielding ``DirEntry``-like objects * `November 2013 thread Ben Hoyt started on python-dev `_ to discuss the interaction between scandir and the new ``pathlib`` module * `June 2014 thread Ben Hoyt started on python-dev `_ to discuss the first version of this PEP, with extensive discussion about the API * `First July 2014 thread Ben Hoyt started on python-dev `_ to discuss his updates to PEP 471 * `Second July 2014 thread Ben Hoyt started on python-dev `_ to discuss the remaining decisions needed to finalize PEP 471, specifically whether the ``DirEntry`` methods should follow symlinks by default * `Question on StackOverflow `_ about why ``os.walk()`` is slow and pointers on how to fix it (this inspired the author of this PEP early on) * `BetterWalk `_, this PEP's author's previous attempt at this, on which the scandir code is based Copyright ========= This document has been placed in the public domain. .. Local Variables: mode: indented-text indent-tabs-mode: nil sentence-end-double-space: t fill-column: 70 coding: utf-8 End: