I'm trying to figure out the best way to find the number of files in a particular directory when there are a very large number of files (more than 100,000).

When there are that many files, performing ls | wc -l takes quite a long time to execute. I believe this is because it's returning the names of all the files. I'm trying to take up as little of the disk I/O as possible.

I have experimented with some shell and Perl scripts to no avail. How can I do it?

  • 3
    make sure that your "ls" is /usr/bin/ls and not an alias to something fancier. Sep 15, 2009 at 14:14
  • Similar question with interesting answers here: serverfault.com/questions/205071/…
    – aidan
    Nov 24, 2010 at 17:28
  • Its worth pointing out that most if not all the solutions presented to this question are not specific to Linux, but are pretty general to all *NIX-like systems. Perhaps removing the "Linux" tag is appropriate. Apr 8, 2018 at 20:09

17 Answers 17


By default ls sorts the names, which can take a while if there are a lot of them. Also there will be no output until all of the names are read and sorted. Use the ls -f option to turn off sorting.

ls -f | wc -l

Note: This will also enable -a, so ., .., and other files starting with . will be counted.

  • 20
    +1 And I thought I knew everything there was to know about ls.
    – mob
    Sep 15, 2009 at 13:58
  • 7
    ZOMG. Sorting of 100K lines is nothing - compared to the stat() call ls does on every file. find doesn't stat() thus it works faster.
    – Dummy00001
    Jul 19, 2010 at 20:03
  • 16
    ls -f does not stat() either. But of course both ls and find call stat() when certain options are used, such as ls -l or find -mtime.
    – mark4o
    Jul 19, 2010 at 23:46
  • 10
    For context, this took 1-2 minutes to count 2.5 million jpgs on a small-ish Slicehost box.
    – philfreo
    Dec 23, 2011 at 18:18
  • 9
    If you want to add subdirectories to the count, do ls -fR | wc -l
    – Ryan Walls
    Dec 22, 2012 at 18:20

The fastest way is a purpose-built program, like this:

#include <stdio.h>
#include <dirent.h>

int main(int argc, char *argv[]) {
    DIR *dir;
    struct dirent *ent;
    long count = 0;

    dir = opendir(argv[1]);

    while((ent = readdir(dir)))


    printf("%s contains %ld files\n", argv[1], count);

    return 0;

From my testing without regard to cache, I ran each of these about 50 times each against the same directory, over and over, to avoid cache-based data skew, and I got roughly the following performance numbers (in real clock time):

ls -1  | wc - 0:01.67
ls -f1 | wc - 0:00.14
find   | wc - 0:00.22
dircnt | wc - 0:00.04

That last one, dircnt, is the program compiled from the above source.

EDIT 2016-09-26

Due to popular demand, I've re-written this program to be recursive, so it will drop into subdirectories and continue to count files and directories separately.

Since it's clear some folks want to know how to do all this, I have a lot of comments in the code to try to make it obvious what's going on. I wrote this and tested it on 64-bit Linux, but it should work on any POSIX-compliant system, including Microsoft Windows. Bug reports are welcome; I'm happy to update this if you can't get it working on your AIX or OS/400 or whatever.

As you can see, it's much more complicated than the original and necessarily so: at least one function must exist to be called recursively unless you want the code to become very complex (e.g. managing a subdirectory stack and processing that in a single loop). Since we have to check file types, differences between different OSs, standard libraries, etc. come into play, so I have written a program that tries to be usable on any system where it will compile.

There is very little error checking, and the count function itself doesn't really report errors. The only calls that can really fail are opendir and stat (if you aren't lucky and have a system where dirent contains the file type already). I'm not paranoid about checking the total length of the subdir pathnames, but theoretically, the system shouldn't allow any path name that is longer than than PATH_MAX. If there are concerns, I can fix that, but it's just more code that needs to be explained to someone learning to write C. This program is intended to be an example of how to dive into subdirectories recursively.

#include <stdio.h>
#include <dirent.h>
#include <string.h>
#include <stdlib.h>
#include <limits.h>
#include <sys/stat.h>

#if defined(WIN32) || defined(_WIN32) 
#define PATH_SEPARATOR '\\' 
#define PATH_SEPARATOR '/' 

/* A custom structure to hold separate file and directory counts */
struct filecount {
  long dirs;
  long files;

 * counts the number of files and directories in the specified directory.
 * path - relative pathname of a directory whose files should be counted
 * counts - pointer to struct containing file/dir counts
void count(char *path, struct filecount *counts) {
    DIR *dir;                /* dir structure we are reading */
    struct dirent *ent;      /* directory entry currently being processed */
    char subpath[PATH_MAX];  /* buffer for building complete subdir and file names */
    /* Some systems don't have dirent.d_type field; we'll have to use stat() instead */
#if !defined ( _DIRENT_HAVE_D_TYPE )
    struct stat statbuf;     /* buffer for stat() info */

/* fprintf(stderr, "Opening dir %s\n", path); */
    dir = opendir(path);

    /* opendir failed... file likely doesn't exist or isn't a directory */
    if(NULL == dir) {

    while((ent = readdir(dir))) {
      if (strlen(path) + 1 + strlen(ent->d_name) > PATH_MAX) {
          fprintf(stdout, "path too long (%ld) %s%c%s", (strlen(path) + 1 + strlen(ent->d_name)), path, PATH_SEPARATOR, ent->d_name);

/* Use dirent.d_type if present, otherwise use stat() */
#if defined ( _DIRENT_HAVE_D_TYPE )
/* fprintf(stderr, "Using dirent.d_type\n"); */
      if(DT_DIR == ent->d_type) {
/* fprintf(stderr, "Don't have dirent.d_type, falling back to using stat()\n"); */
      sprintf(subpath, "%s%c%s", path, PATH_SEPARATOR, ent->d_name);
      if(lstat(subpath, &statbuf)) {

      if(S_ISDIR(statbuf.st_mode)) {
          /* Skip "." and ".." directory entries... they are not "real" directories */
          if(0 == strcmp("..", ent->d_name) || 0 == strcmp(".", ent->d_name)) {
/*              fprintf(stderr, "This is %s, skipping\n", ent->d_name); */
          } else {
              sprintf(subpath, "%s%c%s", path, PATH_SEPARATOR, ent->d_name);
              count(subpath, counts);
      } else {

/* fprintf(stderr, "Closing dir %s\n", path); */

int main(int argc, char *argv[]) {
    struct filecount counts;
    counts.files = 0;
    counts.dirs = 0;
    count(argv[1], &counts);

    /* If we found nothing, this is probably an error which has already been printed */
    if(0 < counts.files || 0 < counts.dirs) {
        printf("%s contains %ld files and %ld directories\n", argv[1], counts.files, counts.dirs);

    return 0;

EDIT 2017-01-17

I've incorporated two changes suggested by @FlyingCodeMonkey:

  1. Use lstat instead of stat. This will change the behavior of the program if you have symlinked directories in the directory you are scanning. The previous behavior was that the (linked) subdirectory would have its file count added to the overall count; the new behavior is that the linked directory will count as a single file, and its contents will not be counted.
  2. If the path of a file is too long, an error message will be emitted and the program will halt.

EDIT 2017-06-29

With any luck, this will be the last edit of this answer :)

I've copied this code into a GitHub repository to make it a bit easier to get the code (instead of copy/paste, you can just download the source), plus it makes it easier for anyone to suggest a modification by submitting a pull-request from GitHub.

The source is available under Apache License 2.0. Patches* welcome!

  • "patch" is what old people like me call a "pull request".
  • 3
    Just great! thanks! And for those unaware: you can complile the above code in the terminal: gcc -o dircnt dircnt.c and use is like this ./dircnt some_dir
    – aesede
    Mar 19, 2015 at 18:51
  • Is there an easy way to make this recursive?
    – ck_
    Sep 28, 2015 at 14:14
  • 1
    @ChristopherSchultz, the benchmarks you posted above - how big was the directory in question? Oct 17, 2016 at 14:00
  • 1
    I really wanted to use this in Python so I packaged it up as the ffcount package. Thanks for making the code available @ChristopherSchultz!
    – GjjvdBurg
    Mar 23, 2018 at 22:02
  • 1
    I'm not saying this is fast, but I fired off a 'find', realised it would take ages but left it running anyway, googled for better tools, found this page, installed C tools & extensions to vscode so I could compile C programs, pasted this code into vscode, built and executed this code to get the result I needed, and was done before find had finished. Jun 6 at 8:10

Use find. For example:

find . -name "*.ext" | wc -l
  • 1
    This will recursively find files under the current directory.
    – mark4o
    Sep 15, 2009 at 14:01
  • 14
    If he want only current directory, not the whole tree recursively, he can add -maxdepth 1 option to find.
    – igustin
    Sep 15, 2009 at 14:47
  • 4
    It seems the reason find is faster than ls is because of how you are using ls. If you stop sorting, ls and find have similar performance. Feb 6, 2015 at 14:56
  • 3
    you can speed up find + wc by printing only a single character: find . -printf x | wc -c. otherwise you're creating strings from the entire path and passing that to wc (extra I/O).
    – ives
    Sep 1, 2020 at 19:07
  • 2
    You should be using -printf as @ives shows anyway, so the count is correct when some joker writes filenames with newlines in them. May 16, 2021 at 15:47

find, ls, and perl tested against 40,000 files has the same speed (though I didn't try to clear the cache):

[user@server logs]$ time find . | wc -l

real    0m0.054s
user    0m0.018s
sys     0m0.040s

[user@server logs]$ time /bin/ls -f | wc -l

real    0m0.059s
user    0m0.027s
sys     0m0.037s

And with Perl's opendir and readdir, the same time:

[user@server logs]$ time perl -e 'opendir D, "."; @files = readdir D; closedir D; print scalar(@files)."\n"'

real    0m0.057s
user    0m0.024s
sys     0m0.033s

Note: I used /bin/ls -f to make sure to bypass the alias option which might slow a little bit and -f to avoid file ordering. ls without -f is twice slower than find/perl except if ls is used with -f, it seems to be the same time:

[user@server logs]$ time /bin/ls . | wc -l

real    0m0.109s
user    0m0.070s
sys     0m0.044s

I also would like to have some script to ask the file system directly without all the unnecessary information.

The tests were based on the answers of Peter van der Heijden, glenn jackman, and mark4o.

  • 7
    You should definitely clear the cache between tests. The first time I run ls -l | wc -l on a folder on an external 2.5" HDD with 1M files, it takes about 3 mins for the operation to finish. The second time it takes 12 seconds IIRC. Also this could potentially depend on your file system too. I was using Btrfs. May 2, 2016 at 4:58
  • Thank you, perl snippet is solution for me. $ time perl -e 'opendir D, "."; @files = readdir D; closedir D; print scalar(@files)."\n"' 1315029 real 0m0.580s user 0m0.302s sys 0m0.275s
    – Pažout
    Jun 15, 2018 at 13:04
  • you can speed up find + wc by printing only a single character: find . -printf x | wc -c. otherwise you're creating strings from the entire path and passing that to wc (extra I/O).
    – ives
    Sep 1, 2020 at 19:07

Surprisingly for me, a bare-bones find is very much comparable to ls -f

> time ls -f my_dir | wc -l

real    0m0.015s
user    0m0.011s
sys     0m0.009s


> time find my_dir -maxdepth 1 | wc -l

real    0m0.014s
user    0m0.008s
sys     0m0.010s

Of course, the values on the third decimal place shift around a bit every time you execute any of these, so they're basically identical. Notice however that find returns one extra unit, because it counts the actual directory itself (and, as mentioned before, ls -f returns two extra units, since it also counts . and ..).


Fast Linux file count

The fastest Linux file count I know is

locate -c -r '/home'

There is no need to invoke grep! But as mentioned, you should have a fresh database (updated daily by a cron job, or manual by sudo updatedb).

From man locate

-c, --count
    Instead  of  writing  file  names on standard output, write the number of matching
    entries only.

Additional, you should know that it also counts the directories as files!

BTW: If you want an overview of your files and directories on your system type

locate -S

It outputs the number of directories, files, etc.

  • 1
    note that you have to make sure that the database is up-to-date
    – phuclv
    Sep 25, 2018 at 2:40
  • 3
    LOL if you have all the counts in a database already, then you can certainly count quickly. :) Jun 17, 2019 at 14:40
  • this is reasonable for approximate values and estimates, but wouldn't be suitable for tasks like verifying data migration.
    – ives
    May 27, 2021 at 15:23

You can change the output based on your requirements, but here is a Bash one-liner I wrote to recursively count and report the number of files in a series of numerically named directories.

dir=/tmp/count_these/ ; for i in $(ls -1 ${dir} | sort -n) ; { echo "$i => $(find ${dir}${i} -type f | wc -l),"; }

This looks recursively for all files (not directories) in the given directory and returns the results in a hash-like format. Simple tweaks to the find command could make what kind of files you're looking to count more specific, etc.

It results in something like this:

1 => 38,
65 => 95052,
66 => 12823,
67 => 10572,
69 => 67275,
70 => 8105,
71 => 42052,
72 => 1184,
  • 2
    I found the example a little bit confusing. I was wondering why there were numbers on the left, instead of directory names. Thank you for this though, I ended up using it with a few minor tweaks. (counting directories and dropping the base folder name. for i in $(ls -1 . | sort -n) ; { echo "$i => $(find ${i} | wc -l)"; } Apr 27, 2012 at 0:00
  • 1
    The numbers on the left are my directory names from my example data. Sorry that was confusing.
    – mightybs
    Mar 19, 2014 at 9:58
  • 1
    ls -1 ${dir} won't work properly without more spaces. Also, there's no guarantee that the name returned by ls can be passed to find, as ls escapes non-printable characters for human consumption. (mkdir $'oddly\nnamed\ndirectory' if you want a particularly interesting test case). See Why you shouldn't parse the output of ls(1) Feb 10, 2017 at 16:37

You can get a count of files and directories with the tree program.

Run the command tree | tail -n 1 to get the last line, which will say something like "763 directories, 9290 files". This counts files and folders recursively, excluding hidden files, which can be added with the flag -a. For reference, it took 4.8 seconds on my computer, for tree to count my whole home directory, which was 24,777 directories, 238,680 files. find -type f | wc -l took 5.3 seconds, half a second longer, so I think tree is pretty competitive speed-wise.

As long as you don't have any subfolders, tree is a quick and easy way to count the files.

Also, and purely for the fun of it, you can use tree | grep '^├' to only show the files/folders in the current directory - this is basically a much slower version of ls.

  • Brew install tail for OS X. May 1, 2015 at 6:43
  • @TheUnfunCat tail should already be installed on your Mac OS X system. Aug 27, 2015 at 14:04

ls spends more time sorting the files names. Use -f to disable the sorting, which will save some time:

ls -f | wc -l

Or you can use find:

find . -type f | wc -l

I came here when trying to count the files in a data set of approximately 10,000 folders with approximately 10,000 files each. The problem with many of the approaches is that they implicitly stat 100 million files, which takes ages.

I took the liberty to extend the approach by Christopher Schultz so it supports passing directories via arguments (his recursive approach uses stat as well).

Put the following into file dircnt_args.c:

#include <stdio.h>
#include <dirent.h>

int main(int argc, char *argv[]) {
    DIR *dir;
    struct dirent *ent;
    long count;
    long countsum = 0;
    int i;

    for(i=1; i < argc; i++) {
        dir = opendir(argv[i]);
        count = 0;
        while((ent = readdir(dir)))


        printf("%s contains %ld files\n", argv[i], count);
        countsum += count;
    printf("sum: %ld\n", countsum);

    return 0;

After a gcc -o dircnt_args dircnt_args.c you can invoke it like this:

dircnt_args /your/directory/*

On 100 million files in 10,000 folders, the above completes quite quickly (approximately 5 minutes for the first run, and followup on cache: approximately 23 seconds).

The only other approach that finished in less than an hour was ls with about 1 min on cache: ls -f /your/directory/* | wc -l. The count is off by a couple of newlines per directory though...

Other than expected, none of my attempts with find returned within an hour :-/

  • For somebody that's not a C programmer, can you explain why this would be faster, and how it is able to get the same answer without doing the same thing?
    – mlissner
    May 1, 2018 at 7:45
  • you don't need to be a C programmer, just understand what it means to stat a file and how directories are represented: directories are essentially lists of filenames and inodes. If you stat a file you access the inode which is somewhere on the drive to for example get info like file-size, permissions, ... . If you're just interested in the counts per dir you do not need to access the inode info, which might save you a lot of time.
    – Jörn Hees
    May 24, 2018 at 18:58
  • This segfaults on Oracle linux, gcc version 4.8.5 20150623 (Red Hat 4.8.5-28.0.1) (GCC)... relative paths and remote fs's seem to be the cause
    – Rondo
    Oct 23, 2018 at 0:01
  • Re "The count is off by a couple of newlines per directory though": This can be fixed by combining -f with -A (uppercase 'a'): ls -f -A. The option -f enables -a (lowercase 'a'), but it can be overridden with -A. This was tested with ls version 8.30. Nov 9, 2020 at 2:36

The fastest way on Linux (the question is tagged as Linux), is to use a direct system call. Here's a little program that counts files (only, no directories) in a directory. You can count millions of files and it is around 2.5 times faster than "ls -f" and around 1.3-1.5 times faster than Christopher Schultz's answer.

#define _GNU_SOURCE
#include <dirent.h>
#include <stdio.h>
#include <fcntl.h>
#include <stdlib.h>
#include <sys/syscall.h>

#define BUF_SIZE 4096

struct linux_dirent {
    long d_ino;
    off_t d_off;
    unsigned short d_reclen;
    char d_name[];

int countDir(char *dir) {

    int fd, nread, bpos, numFiles = 0;
    char d_type, buf[BUF_SIZE];
    struct linux_dirent *dirEntry;

    fd = open(dir, O_RDONLY | O_DIRECTORY);
    if (fd == -1) {
        puts("open directory error");
    while (1) {
        nread = syscall(SYS_getdents, fd, buf, BUF_SIZE);
        if (nread == -1) {
            puts("getdents error");
        if (nread == 0) {

        for (bpos = 0; bpos < nread;) {
            dirEntry = (struct linux_dirent *) (buf + bpos);
            d_type = *(buf + bpos + dirEntry->d_reclen - 1);
            if (d_type == DT_REG) {
                // Increase counter
            bpos += dirEntry->d_reclen;

    return numFiles;

int main(int argc, char **argv) {

    if (argc != 2) {
        puts("Pass directory as parameter");
        return 2;
    printf("Number of files in %s: %d\n", argv[1], countDir(argv[1]));
    return 0;

PS: It is not recursive, but you could modify it to achieve that.

  • 1
    I'm not sure I agree that this is faster. I haven't traced-through everything that the compiler does with opendir/readdir, but I suspect it boils down to almost the same code in the end. Making system calls that way is also not portable and, as the Linux ABI is not stable, a program compiled on one system is not guaranteed to work properly on another (though it's fairly good advice to compile anything from source on any *NIX system IMO). If speed is key, this is a good solution if it actually improves speed -- I haven't benchmarked the programs separately. Oct 19, 2017 at 13:07

You should use "getdents" in place of ls/find

Here is one very good article which described the getdents approach.


Here is the extract:

ls and practically every other method of listing a directory (including Python's os.listdir and find .) rely on libc readdir(). However, readdir() only reads 32K of directory entries at a time, which means that if you have a lot of files in the same directory (e.g., 500 million directory entries) it is going to take an insanely long time to read all the directory entries, especially on a slow disk. For directories containing a large number of files, you'll need to dig deeper than tools that rely on readdir(). You will need to use the getdents() system call directly, rather than helper methods from the C standard library.

We can find the C code to list the files using getdents() from here:

There are two modifications you will need to do in order quickly list all the files in a directory.

First, increase the buffer size from X to something like 5 megabytes.

#define BUF_SIZE 1024*1024*5

Then modify the main loop where it prints out the information about each file in the directory to skip entries with inode == 0. I did this by adding

if (dp->d_ino != 0) printf(...);

In my case I also really only cared about the file names in the directory so I also rewrote the printf() statement to only print the filename.

if(d->d_ino) printf("%sn ", (char *) d->d_name);

Compile it (it doesn't need any external libraries, so it's super simple to do)

gcc listdir.c -o listdir

Now just run

./listdir [directory with an insane number of files]
  • 3
    Note that Linux does a read-ahead, so readdir() is not actually slow. I need solid figure before I believe that it's worth to throw away portability for this performance gain.
    – fuz
    May 12, 2018 at 19:03
  • Can you add some benchmarks, comparing the two methods? Incl. under which conditions, e.g. number of files, cold/warm filesystem cache, hardware, disk type (HDD vs. SSD), file system type (e.g., ext4 or NTFS), disk fragmentation state, computer system, and operating system (e.g. Ubuntu 16.04), with version information))? You can edit your answer (but without "Edit:", "Update:", or similar). Nov 9, 2020 at 3:04
  • What is the scope of getdents()? Only for Linux? Nov 9, 2020 at 3:21

This answer here is faster than almost everything else on this page for very large, very nested directories:


locate -r '.' | grep -c "^$PWD"

  • 3
    Nice. Since you already have an up-to-date db of all files, no need to go at it again. But unfortunately , you must make sure the updatedb command has already run and completed for this method.
    – Chris Reid
    Mar 18, 2018 at 22:00
  • 1
    you don't need to grep. Use locate -c -r '/path' like in abu_bua's solution
    – phuclv
    Sep 25, 2018 at 2:42

You could try if using opendir() and readdir() in Perl is faster. For an example of those function, look here.

  • 2
    usage: perl -e 'opendir D, "."; @files = readdir D; closedir D; print scalar(@files)' Sep 15, 2009 at 14:11
  • In a script: #!/usr/bin/env perl5 use strict; use warnings; eval 'exec perl5 -S $0 ${1+"$@"}' if 0; # not running under some shell foreach (@ARGV) { opendir D, "$_"; my @files = readdir D; closedir D; print "$_: "; print scalar(@files); print "\n"; }
    – RJVB
    Aug 31 at 13:40

I realized that not using in memory processing, when you have a huge amount of data, is faster than "piping" the commands. So I saved the result to a file and analyzed it afterwards:

ls -1 /path/to/dir > count.txt && wc-l count.txt
  • 1
    this is not the fastest solution because hard disks are extremely slow. There are other more efficient ways that were posted years before you
    – phuclv
    Sep 25, 2018 at 2:43
  • Can you add actual measurements for the two ways (piping and intermediate file) to your answer (incl. under which conditions, e.g. number of files, hardware, disk type (HDD vs. SSD), file system type (e.g., ext4 or NTFS), disk fragmentation state, computer system, and operating system (e.g. Ubuntu 16.04), with version information))? You can edit your answer (but without "Edit:", "Update:", or similar). Nov 9, 2020 at 2:06

The first 10 directories with the highest number of files.

dir=/ ; for i in $(ls -1 ${dir} | sort -n) ; { echo "$(find ${dir}${i} \
    -type f | wc -l) => $i,"; } | sort -nr | head -10
  • 4
    This certainly looks astonishingly similar to the answer (with the same bugs) written by mightybs. If you're going to extend or modify code written by someone else, crediting them is appropriate. Understanding the code you're using in your answers enough to identify and fix its bugs is even more appropriate. Feb 10, 2017 at 16:39

I prefer the following command to keep track of the changes in the number of files in a directory.

watch -d -n 0.01 'ls | wc -l'

The command will keeps a window open to keep track of the number of files that are in the directory with a refresh rate of 0.1 seconds.

  • 1
    are you sure that ls | wc -l will finish for a folder with thousands or millions of files in 0.01s? even your ls is hugely inefficient compared to other solutions. And the OP just want to get the count, not sitting there looking at the output changing
    – phuclv
    Sep 25, 2018 at 2:39
  • Well. Well. I found an elegant solution which works for me. I would like to share the same, hence did. I don't know 'ls' command in linux is highly inefficient. What are you using instead of that ? And 0.01s is the refresh rate. Not the time. if you havn't used watch please refer man pages. Sep 25, 2018 at 5:15
  • well I did read the watch manual after that comment and see that 0.01s (not 0.1s) is an unrealistic number because the refresh rate of most PC screens is only 60Hz, and this doesn't answer the question in any way. The OP asked about "Fast Linux File Count for a large number of files". You also didn't read any available answers before posting
    – phuclv
    Sep 25, 2018 at 7:41
  • I did read the answers. But what I posted is a way of keeping track of changing number of file in a directory. for eg: while copying file from one location to another the number of file keeps changes. with the method I poster one can keep track of that. I agree that the post I made no where modify or improve any previous posts. Sep 25, 2018 at 10:08
  • The question specifically wants something that is faster than ls | wc -l, which this clearly is not. May 16, 2021 at 15:52

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