Awesome
RP_extract:
Rhythm Pattern Audio Feature Extractor
for Music Similarity, Music Classification and Music Recommendation
created by:
TU Wien<br> Music Information Retrieval Group<br> Institute of Software Technology and Interactive Systems<br> Vienna University of Technology, Austria
RP_extract is a Python library to extract semantic features (so called audio descriptors) from audio files (WAV, MP3, ...) which can be used in tasks such as finding similar sounding music, creating playlists or recommender systems, categorizing music into a custom set of categories such as genres, and detecting concepts such as moods and emotions in music. Most of these tasks are achieved through employing Machine Learning, example implementations are provided in this repository and the tutorials included.
Main Authors: Thomas Lidy (audiofeature), Alexander Schindler (slychief)
Installation
[Python 2.7] (https://www.python.org/downloads/release/python-2712/) is required.
Operating Systems
Linux, Mac and Windows are supported. We recommend Ubuntu 14.04 or 16.04.
Download
Either download as ZIP from https://github.com/tuwien-musicir/rp_extract/archive/master.zip , or:
git clone https://github.com/tuwien-musicir/rp_extract.git
Install Dependencies
On Linux Ubuntu many dependencies can be installed from the Software Center or repository like this:
sudo apt-get install python-numpy python-scipy python-pandas python-scikits-learn
Use this to install the remaining dependencies on Ubuntu, respectively all dependencies on Mac and Windows:
sudo pip install -r requirements.txt
Note that some of the requirements are only needed for specific parts of the library. If all you want to use is the
audio analysis part with rp_extract.py
, numpy
and scipy
are the only requirements.
Optional Dependencies
MP3 Decoder
If you want to use MP3, M4A, FLAC or AIF(F) files as input, you need to have one of the following decoders installed in your system: (Note: lame and mpg123 only support MP3, ffmpeg supports MP3 and all other formats)
- Linux: install
ffmpeg
,mpg123
, orlame
from your Software Install Center or package repository (viasudo apt-get install
)- install ffmpeg on Ubuntu 14.04: see http://fcorti.com/2014/04/22/ffmpeg-ubuntu-14-04-lts
- install ffmpeg on Debian Jessie:
sudo echo deb http://ftp.uk.debian.org/debian jessie-backports main > /etc/sources.list.d/ffmpeg.list; sudo apt-get update; sudo apt-get install ffmpeg
- Mac: FFMPeg for Mac: http://ffmpegmac.net or Lame for Mac: http://www.thalictrum.com/en/products/lame.html
- Windows: FFMpeg.exe is already included (nothing to install)
Other
For plotting (using rp_plot.py
)
sudo apt-get install python-matplotlib
For HDF5 file output instead of CSV:
Ubuntu Linux:
sudo apt-get install libhdf5-serial-dev python-tables
Mac OS X: (homebrew must be installed first)
brew tap homebrew/science
brew install hdf5
sudo pip install tables
Easy Getting Started
Analyze all audio files in a folder and store the extracted features:
python rp_extract_batch.py <input_path> <feature_file_name>
This will
- search for WAV, MP3, M4A, FLAC or AIFF files in
input_path
- extract a standard set of audio features (RP, SSD, RH - see http://ifs.tuwien.ac.at/mir/audiofeatureextraction.html )
- write them in CSV format to
feature_file_name
(don't specify a file extension, it will create 3 files, one for each feature type: .rp, .ssd, .rh)
Optionally specify the type of features you want:
python rp_extract_batch.py -rp -mvd -tssd <input_path> <feature_file_name>
Use the following to get a list of possible feature options:
python rp_extract_batch.py -h
Use RP_extract in your code
rp_extract.py
is the main feature extractor.
It can be imported and used in your code to do segment-level audio feature analysis.
For a step-by-step tutorial open „RP_extract Tutorial.ipynb“ in iPython Notebook or view the tutorial here:
http://nbviewer.ipython.org/github/tuwien-musicir/rp_extract/blob/master/RP_extract_Tutorial.ipynb
It also includes examples on how to compute music similarity, e.g. for music recommendation or creating playlists of coherent music.
Genre Recognition and Classification
rp_classify.py
will analyze audio files and categorize them into a high-level concept (such as genre, style or mood)
given a pre-trained classifier model that was created based on training data.
It can be used on a single audio file (wav or mp3) to recognize its genre like this:
python rp_classify.py music/BoxCat_Games_-_10_-_Epic_Song.mp3
will output:
music/BoxCat_Games_-_10_-_Epic_Song.mp3: pop
You can also use a folder as an input, to analyze and predict all audio files contained. The full syntax is:
python rp_classify.py input_path model_file output_filename
input_path
can be: a folder, wav, mp3, m4a or aif(f) file, or txt file containing a line-wise list of audio files
The pre-trained model included in this code repository (models/GTZAN
) can predict these 10 genres:
blues, classical, country, disco, hiphop, jazz, metal, pop, reggae, rock
output_filename
is an optional file in which predictions will be written in a TAB-separated way
(if omitted, result will be printed to stdout).
Train a model:
You can train your own model like this:
python rp_classify.py -t input_path model_file
In this case files from input_path
will be read and analyzed and a model will be trained and stored in model_file
.
In this default case, files in input_path
must be organized in sub-folders named like the categories to be used for training (e.g. one folder named 'pop', one for 'electronic', one for 'classical' etc.)
Alternatively, you can provide the class labels for training a new model in two alternative ways, adding an additional parameter to the command line:
-c classfile
: expects the name of a TAB-separated file, where each line contains<audiofilename>
TAB
<class_label>
-m multiclassfile
: also a TAB-separated file with<audiofilename>
in the first column, and additional columns with the class labels in the header (1st line) and an 'x' for each file belonging to the class, an empty TAB position otherwise.
Once you trained a model in one of these ways, you can do predictions like above:
python rp_classify.py input_path model_file output_filename
Note: Specify the model_file
always without file extension as 3 files will be generated with different extensions.