Exemple #1
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def add_song(file_name, path):
    # Convert if not mp3
    if not file_name.endswith(".mp3"):
        if not converter.convert(
                path,
                os.path.join(storage.MUSIC_TEMP_STORAGE,
                             os.path.splitext(file_name)[0] + '.mp3')):
            return
        # TODO: check if need to remove old file
        path = os.path.join(storage.MUSIC_TEMP_STORAGE,
                            os.path.splitext(file_name)[0] + '.mp3')
    # Read tags if necessary
    # if correct_tags:
    #    checker.correct_tags(file_path)
    try:
        file = MP3(path)
    except HeaderNotFoundError:
        return False
    # Add Song to database
    divided_name = checker.divide_name(file_name)
    database.add_song(title=divided_name[0],
                      artist=divided_name[1],
                      path=path,
                      duration=int(file.info.length * 1000),
                      status=u'added')
    return True
Exemple #2
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def add_single(conn, pathfile):
    """ add a single song to database """
    if pathfile.endswith(".mp3"):
            # read metadata
            tup = c.meta(pathfile)
            d.add_song(tup, conn)
            log.info('metadata recorded in the database')
            # convert mp3 to wav
            c.convert(pathfile)
            log.info('audio converted to wav')
            # read the wav from local directory
            filename = os.path.basename(pathfile)
            pathwav = "./music/wav/" + filename[:-3] + "wav"
             # compute spectrogram and fingerprints
            framerate, f, t, spect = a.spectrogram(pathwav)
            fingerprints1 = a.fingerprint(f, spect)
            fingerprints2 = a.fingerprint2(f, spect, framerate)
            song_id = d.select_songid(filename, conn)
            log.info('audio file no. %s recorded in the database', song_id)
            # add fingerprints to database
            d.add_fingerprint(filename, t, fingerprints1, fingerprints2, conn)
            # update fingerprinted status
            d.update_fingerprinted(song_id, conn)

            print('Done!', filename, 'added to your database ❤')
Exemple #3
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def train(folder="audio"):
    filepaths = song_loader.convert_files_to_songpaths(folder)
    # load songs
    for i in filepaths:
        name, artist, features = train_single(i)
        print("Adding:", name, "by", artist)
        database.add_song(features, name, artist)
        print("Added:", name, "by", artist)
        database.write_database()
Exemple #4
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def test_add_song(conn):
    """test if add_song works as expected"""
    filename = os.listdir("./music/mp3")[0]
    pathfile = "./music/mp3/" + filename
    tup = c.meta(pathfile)
    d.add_song(tup, conn)
    # check if the song is added
    cur = conn.cursor()
    query = 'SELECT count(*) FROM music where title = %s'
    val = (filename[:-4], )
    cur.execute(query, val)
    rowcount = cur.fetchall()
    assert rowcount[0][0] != 0, "add_song works"
Exemple #5
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def firststep(conn):
    """ ingest a directory of music for database construction

    USAGE
    + this is the prerequisite for all analyses/identification
    + run this function to get a nicely-built music database
    + which will be used as the reference for audio matching
    
    WHAT IT DOES
    + sql database contruction
    + read all mp3 files from a local dir
    + read metadata
    + convert mp3 to wav
    + compute spectrograms and fingerprints
    + record all info in the database

    GOOD FOR
    + lazy guys like me who don't want to contruct db manually
    """

    # create tables if non-exist
    d.create_table(conn)
    log.info("database created")
    # construct database
    for file in os.listdir("./music/mp3"):
        if file.endswith(".mp3"):
            pathfile = "./music/mp3/" + file
            # read metadata
            tup = c.meta(pathfile)
            d.add_song(tup, conn)
            # convert mp3 to wav
            c.convert(pathfile)
    log.info('all metadata recorded in the database')
    log.info('all audio converted to wav')

    for file in os.listdir("./music/wav"):
        if file.endswith(".wav"):
            pathfile = "./music/wav/" + file
            # compute spectrogram and fingerprints
            framerate, f, t, spect = a.spectrogram(pathfile)
            fingerprints1 = a.fingerprint(f, spect)
            fingerprints2 = a.fingerprint2(f, spect, framerate)
            song_id = d.select_songid(file, conn)
            log.info('audio file no. %s recorded in the database', song_id)
            # add fingerprints to database
            d.add_fingerprint(file, t, fingerprints1, fingerprints2, conn)
            # update fingerprinted status
            d.update_fingerprinted(song_id, conn)

    print('Done! Please check out your database ❤')
Exemple #6
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def upload_file():
	if 'username' in loging_session:
		if 'member_name' in loging_session:
			username = loging_session['username']
			membername = loging_session['member_name']
			if request.method == 'POST':
				file = request.files['file']
				if file and allowed_file(file.filename):
					filename = secure_filename(file.filename)
					file.save(os.path.join(app.config['UPLOAD_FOLDER'], filename))
					add_song(membername, filename, url_for('uploaded_file', filename = filename), username)
		           	return redirect(url_for('audio'))
		else:
			return redirect(url_for('choose'))
	else:
		return redirect(url_for('login'))
Exemple #7
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def add_entry():
    """ Adds an entry to the CSV database, and refreshes the home page to update """
    username = util.remove_commas_from_string(request.form["name"])
    link = util.remove_commas_from_string(request.form["ytLink"])
    song = util.remove_commas_from_string(request.form["songName"])

    festive = CHRISTMAS_MODE and "christmasSong" in request.form

    with database.connect_to_database() as db:
        user_id = database.get_userid(db, username)
        database.add_song(db,
                          link,
                          song,
                          user_id,
                          month=12 if festive else None)

    return redirect(url_for('main'))
 def _add_song(self, song_no=0, user_name=None, month=None, day=None):
     if user_name is None:
         user_name = self.test_user_name
     song_id = database.add_song(url=self.test_url.format(id=song_no),
                                 title=self.test_title.format(id=song_no),
                                 user_name=user_name,
                                 month=month,
                                 day=day)
     return song_id
Exemple #9
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def add_entry():
    """ Adds an entry to the CSV database, and refreshes the home page to update """
    username = request.form['username']
    email = request.form['email']
    link = utils.remove_commas_from_string(request.form["ytLink"])
    song = utils.remove_commas_from_string(request.form["songName"])

    festive = CHRISTMAS_MODE and "christmasSong" in request.form

    try:
        database.add_song(link,
                          song,
                          username,
                          month=12 if festive else None,
                          email=email)
    except database.KeyExistsError:
        pass

    return redirect(url_for('main'))
Exemple #10
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def cloudmusic_top_list():
    nu = 0
    while nu < 4:
        source = '网易云音乐'
        if nu == 0:
            url = 'http://music.163.com/discover/toplist?id=19723756'
            music_list_name = '云音乐飙升榜'
        elif nu == 1:
            url = 'http://music.163.com/discover/toplist?id=3779629'
            music_list_name = '云音乐新歌榜'
        elif nu == 2:
            url = 'http://music.163.com/discover/toplist?id=3778678'
            music_list_name = '网易原创歌曲榜'
        else:
            url = 'http://music.163.com/discover/toplist?id=3778678'
            music_list_name = '云音乐热歌榜'

        nu += 1
        page = requests.get(url, headers=header, timeout=30)
        tree = html.fromstring(page.text)
        #print(page.text)
        rank_list = tree.xpath('//textarea[@id="song-list-pre-data"]/text()')
        rank_list = str(rank_list[0])
        #正则表达式处理
        result = rank_list[1:len(rank_list) - 1]
        name_result = re.findall('"album":{"id":.*?,"name":"(.*?)"', rank_list)
        link_result = re.findall('"picUrl":"(.*?)"', rank_list)
        singer_result = re.findall('"artists":\[{"id":.*?,"name":"(.*?)"',
                                   rank_list)
        song_result = re.findall('"id":(\d*?),"pl"', rank_list)
        rank_result = []
        m = 0
        while m < len(song_result):
            rank_result.append(m + 1)
            m += 1
        song_link = []
        for i in song_result:
            s = 'http://music.163.com/#/song?id=' + i
            song_link.append(s)
        database.add_song(source, music_list_name, rank_result, name_result,
                          singer_result, song_link, link_result)
def main(playlist=PLAYLIST_CSV):
    songs = read_playlist(playlist)
    with connect_to_database() as db:
        db_size_before = get_songs_size(db)
        for url, played, title, user in songs:
            played = ast.literal_eval(played)
            assert type(played) is bool
            user_id = get_userid(db, user)
            title = title.replace("'", '')
            added = add_song(db, url, title, user_id)
            logging.info("%s %s by %s", "Added " if added else "Did not add ",
                         title, user)
            if played:
                set_song_played(db, url)
                logging.info("Set song played: %s", title)
        db_size_after = get_songs_size(db)

    no_songs_added = db_size_after - db_size_before
    logging.info(
        "Populated database with playlist. Added %d songs. Database size: %d -> %d",
        no_songs_added, db_size_before, db_size_after)