node-taglib
node-taglib is a simple binding to
TagLib in Javascript.
It requires node.js.
node-taglib offers only an abstract interface without giving access to extended
file-specific attributes. It does allow custom resolvers though. Synchronous
write support is supported for Tag.
NOTE: Asynchronous API requires use of TagLib from git since
certain bugs present in the released v1.7 cause problems.
Example
// load the library
var taglib = require('taglib');
// asynchronous API
taglib.tag(path, function(err, tag) {
tag.artist; // => "Queen"
tag.title = "Erm";
tag.saveSync();
});
// synchronous API
var tag = taglib.tagSync(path);
tag.title; // => "Another one bites the dust"
tag.artist; // => "Kween"
tag.artist = "Queen";
tag.isEmpty(); // => false
tag.saveSync(); // => true
Installation
via npm (Recommended)
npm install taglib
From source
# make sure you have node and taglib installed
git clone git://github.com/nikhilm/node-taglib.git
cd node-taglib
node-waf configure build
node examples/simple.js /path/to/mp3_or_ogg_file
# you can now require('./taglib')
The examples
show usage.
API
read(path, callback)
read(buffer, format, callback)
The function you will most likely want to use. callback
should have signature
callback(err, tag, audioProperties)
where tag
and audioProperties
are
plain-old JavaScript objects. For the distinction between these and Tag
, see
Tag
below.
If there was an error reading the file, err
will be non-null and tag
and
audioProperties
will be null
.
If no tag was found, tag
will be an empty object (falsy). tag
can have the
following fields. node-taglib currently supports only the fields common to all
formats:
- title (string)
- album (string)
- comment (string)
- artist (string)
- track (string)
- year (integer)
- genre (string)
If no audio properties could be read, audioProperties
will be an empty object
(falsy). The following fields are available in audioProperties
, all are
integers:
- length
- bitrate
- sampleRate
- channels
Writing audio properties is not supported.
In the second variant, which can read from a buffer, format
should be
a string as specified in Formats.
tag(path, callback)
tag(buffer, format, callback)
Read the tag from the file at path
asynchronously. The callback should have
signature (err, tag)
. On success, err
will be null
and tag
will be
a Tag
. If errors occurred, err
will contain the error and
tag
will be null
. err
will be an object with field code
having the
integer error code (errno.h
) and field message
will have a string
representation.
In the second variant, which can read from a buffer, format
should be
a string as specified in Formats.
tagSync(path)
tagSync(buffer, format)
Read the tags from the file at path
synchronously. Returns a Tag
. If
errors occurred, throws an exception.
Read the tags from buffer
assuming that it is a format
file. See
Formats
Tag
NOTE: A Tag object should NOT be created using new
. Instead use tag()
or tagSync()
A Tag object allows read-write access to all the meta-data fields. For valid
field names see read()
above.
To get a value, simply access the field -- tag.artist
.
To set a value, assign a value to the field -- tag.year = 2012
. You will
have to call saveSync()
to actually save the changes to the file on disc.
Large number of files
Due to TagLib's design, every Tag
object in memory has to keep its backing
file descriptor open. If you are dealing with a large number of files, you will
soon run into problems because operating systems impose limits on how many
files a process can have open simultaneously. If you want to only read tags,
use read()
instead as it will immediately close the file after the tag is
read.
Tag.save(callback)
Save any changes in the Tag meta-data to disk asynchronously. callback
will
be invoked once the save is done, and should have a signature (err)
. err
will be null
if the save was successful, otherwise it will be an object with
message
having the error string and path
having the file path.
Tag.saveSync()
Save any changes in the Tag meta-data to disk synchronously. Throws an
exception if the save failed.
Tag.isEmpty()
Returns whether the tag is empty or not.
taglib.addResolvers([resolver1[, resolver2[, ...]]])
Adds JavaScript functions that will be called to resolve the filetype of
a file. Each resolver will be added to the front of the resolver queue. So the
last resolver will be called first. Multiple calls to addResolvers
are
allowed.
Each resolver must be a JavaScript function which takes a filename
parameter
and returns a format string
. List of formats.
Formats {#formats}
Any place where node-taglib
expects a format can be passed on of these
(case-insensitive):
"MPEG"
"OGG" - Ogg Vorbis
"OGG/FLAC" - Ogg FLAC
"FLAC"
"MPC"
"WV"
"SPX" - Ogg Speex
"TTA"
"MP4"
"ASF"
"AIFF" - RIFF AIFF
"WAV" - RIFF WAV
"APE"
"MOD"
"S3M"
"IT"
"XM"
These correspond directly to the filetypes
supported
by TagLib. If the filetype cannot be determined, return anything other than
one of these literals.
Asynchronous resolvers (which indicate the filetype via a callback rather than
a return value) are not supported.
taglib.WITH_ASF
A boolean representing whether node-taglib supports ASF files. Depends on
feature being enabled in TagLib.
taglib.WITH_MP4
A boolean representing whether node-taglib supports MP4 files. Depends on
feature being enabled in TagLib.
Contributors are listed at: https://github.com/nikhilm/node-taglib/contributors