It's been a while since I've used make, so bear with me...

I've got a directory, flac, containing .FLAC files. I've got a corresponding directory, mp3 containing MP3 files. If a FLAC file is newer than the corresponding MP3 file (or the corresponding MP3 file doesn't exist), then I want to run a bunch of commands to convert the FLAC file to an MP3 file, and copy the tags across.

The kicker: I need to search the flac directory recursively, and create corresponding subdirectories in the mp3 directory. The directories and files can have spaces in the names, and are named in UTF-8.

And I want to use make to drive this.

  • 1
    Any reason for selecting make for this purpose? I'd have thought writing a bash script would be simpler
    – anon
    Mar 20 '10 at 13:37
  • 4
    @Neil, make's concept as pattern-based file system transformation is the best way to approach the original problem. Perhaps implementations of this approach have its limitations, but make is closer to implementing it than bare bash.
    – P Shved
    Mar 20 '10 at 13:55
  • 1
    @Pavel Well, a sh script that walks through the list of flac files (find | while read flacname), makes a mp3name from that, runs "mkdir -p" on the dirname "$mp3name", and then, if [ "$flacfile" -nt "$mp3file"] converts "$flacname" into "$mp3name" is not really magic. The only feature you are actually losing compared to a make based solution is the possibility to run N file conversions processes in parallel with make -jN.
    – ndim
    Mar 20 '10 at 15:45
  • 4
    @ndim That's the first time I have ever heard make's syntax be described as "nice" :-)
    – anon
    Mar 20 '10 at 16:05
  • 1
    Using make and having spaces in file names are contradictory requirements. Use a tool appropriate for the problem domain.
    – Jens
    Aug 15 '13 at 17:45

I would try something along these lines

FLAC_FILES = $(shell find flac/ -type f -name '*.flac')
MP3_FILES = $(patsubst flac/%.flac, mp3/%.mp3, $(FLAC_FILES))

.PHONY: all
all: $(MP3_FILES)

mp3/%.mp3: flac/%.flac
    @mkdir -p "$(@D)"
    @echo convert "$<" to "$@"

A couple of quick notes for make beginners:

  • The @ in front of the commands prevents make from printing the command before actually running it.
  • $(@D) is the directory part of the target file name ($@)
  • Make sure that the lines with shell commands in them start with a tab, not with spaces.

Even if this should handle all UTF-8 characters and stuff, it will fail at spaces in file or directory names, as make uses spaces to separate stuff in the makefiles and I am not aware of a way to work around that. So that leaves you with just a shell script, I am afraid :-/

  • This is where I was going...fast fingers for the win. Though it looks like you may be able to do something clever with vpath. Must study that one of these days. Mar 20 '10 at 13:41
  • 1
    Doesn't appear to work when the directories have spaces in the names. Mar 20 '10 at 13:45
  • Didn't realize that I'd have to shell out to find to get the names recursively... Mar 20 '10 at 13:47
  • 1
    @PaulKonova: Run make -jN. For N use the number of conversions which make should run in parallel. Caution: Running make -j without an N will start all conversion processes at once in parallel which might be equivalent to a fork bomb.
    – ndim
    Nov 19 '13 at 20:40
  • 1
    @Adrian: The .PHONY: all line tells make that the recipe for the all target is to be executed even if there is a file called all newer than all the $(MP3_FILES).
    – ndim
    Apr 26 '18 at 11:27

You can define your own recursive wildcard function like this:

rwildcard=$(foreach d,$(wildcard $(1:=/*)),$(call rwildcard,$d,$2) $(filter $(subst *,%,$2),$d))

The first parameter ($1) is a list of directories, and the second ($2) is a list of patterns you want to match.


To find all the C files in the current directory:

$(call rwildcard,.,*.c)

To find all the .c and .h files in src:

$(call rwildcard,src,*.c *.h)

This function is based on the implementation from this article, with a few improvements.

  • This doesn't seem to work for me. I've copied the exact function and it still won't look recursively.
    – Jeroen
    Nov 5 '13 at 19:38
  • 4
    I am using GNU Make 3.81, and it seems to work for me. It won't work if any of the filenames have spaces in them, though. Note that the filenames it returns have paths relative to the current directory, even if you are only listing files in a subdirectory.
    – larskholte
    Nov 13 '13 at 6:53
  • 2
    This is truly an example, that make is a Turing Tar Pit (see here: yosefk.com/blog/fun-at-the-turing-tar-pit.html). It is not even that hard, but one has to read this: gnu.org/software/make/manual/html_node/Call-Function.html and then "understand recurrence". YOU had to write this recursively, in the verbatim sense; it's not the everyday understanding of "automatically include stuff from subdirs". It's actual RECURRENCE. But remember - "To understand recurrence, you have to understand recurrence". Aug 6 '14 at 22:13
  • @TomaszGandor You don't have to understand recurrence. You have to understand recursion and in order to do that you must first understand recursion. May 7 '19 at 15:19
  • My bad, I fell for a linguistic false-friend. Comments can't be edited after such a long time, but I hope everybody got the point. And they also understand recursion. May 9 '19 at 8:42

If you're using Bash 4.x, you can use a new globbing option, for example:

SHELL:=/bin/bash -O globstar
  @echo Flac: $(shell ls flac/**/*.flac)
  @echo MP3: $(shell ls mp3/**/*.mp3)

This kind of recursive wildcard can find all the files of your interest (.flac, .mp3 or whatever). O

  • 1
    To me, even just $(wildcard flac/**/*.flac) seems to work. OS X, Gnu Make 3.81
    – akauppi
    May 13 '15 at 11:10
  • 2
    I tried $(wildcard ./**/*.py) and it behaved the same as $(wildcard ./*/*.py). I don't think make actually supports **, and it just doesn't fail when you use two *s next to each other.
    – lahwran
    Nov 22 '16 at 21:06
  • @lahwran It should when you invoking commands via Bash shell and you've enabled globstar option. Maybe you're not using GNU make or something else. You may also try this syntax instead. Check the comments for some suggestions. Otherwise it's a thing for the new question.
    – kenorb
    Nov 23 '16 at 0:20
  • @kenorb no no, I didn't even try your thing because I wanted to avoid shell invocation for this particular thing. I was using akauppi's suggested thing. The thing I went with looked like larskholte's answer, though I got it from somewhere else because the comments here said this one was subtly broken. shrug :)
    – lahwran
    Nov 23 '16 at 1:12
  • 1
    @lahwran In this case ** won't work, because the extended globbing is a bash/zsh thing.
    – kenorb
    Nov 23 '16 at 11:06

FWIW, I've used something like this in a Makefile:

RECURSIVE_MANIFEST = `find . -type f -print`

The example above will search from the current directory ('.') for all "plain files" ('-type f') and set the RECURSIVE_MANIFEST make variable to every file it finds. You can then use pattern substitutions to reduce this list, or alternatively, supply more arguments into find to narrow what it returns. See the man page for find.


My solution is based on the one above, uses sed instead of patsubst to mangle the output of find AND escape the spaces.

Going from flac/ to ogg/

OGGS = $(shell find flac -type f -name "*.flac" | sed 's/ /\\ /g;s/flac\//ogg\//;s/\.flac/\.ogg/' )


  1. Still barfs if there are semi-colons in the filename, but they're pretty rare.
  2. The $(@D) trick won't work (outputs gibberish), but oggenc creates directories for you!

Here's a Python script I quickly hacked together to solve the original problem: keep a compressed copy of a music library. The script will convert .m4a files (assumed to be ALAC) to AAC format, unless the AAC file already exists and is newer than the ALAC file. MP3 files in the library will be linked, since they are already compressed.

Just beware that aborting the script (ctrl-c) will leave behind a half-converted file.

I originally also wanted to write a Makefile to handle this, but since it cannot handle spaces in filenames (see the accepted answer) and because writing a bash script is guaranteed to put in me in a world of pain, Python it is. It's fairly straightforward and short, and thus should be easy to tweak to your needs.

from __future__ import print_function

import glob
import os
import subprocess

COMPRESSED = 'compressed_'

UNCOMPRESSED_EXTS = ('m4a', )   # files to convert to lossy format
LINK_EXTS = ('mp3', )           # files to link instead of convert

for root, dirs, files in os.walk(UNCOMPRESSED_DIR):
    out_root = COMPRESSED + root
    if not os.path.exists(out_root):
    for file in files:
        file_path = os.path.join(root, file)
        file_root, ext = os.path.splitext(file_path)
        if ext[1:] in LINK_EXTS:
            if not os.path.exists(COMPRESSED + file_path):
                print('Linking {}'.format(file_path))
                link_source = os.path.relpath(file_path, out_root)
                os.symlink(link_source, COMPRESSED + file_path)
        if ext[1:] not in UNCOMPRESSED_EXTS:
            print('Skipping {}'.format(file_path))
        out_file_path = COMPRESSED + file_path
        if (os.path.exists(out_file_path)
            and os.path.getctime(out_file_path) > os.path.getctime(file_path)):
            print('Up to date: {}'.format(file_path))
        print('Converting {}'.format(file_path))
        subprocess.call(['ffmpeg', '-y', '-i', file_path,
                         '-c:a', 'libfdk_aac', '-vbr', '4',

Of course, this can be enhanced to perform the encoding in parallel. That is left as an exercise to the reader ;-)

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