Ejemplo n.º 1
0
def find_chorus(path_to_song):
    track = audio.LocalAudioFile(path_to_song)
    track_segments = getattr(track.analysis, 'segments')
    tmp_segments = deepcopy(track_segments)
    chains = []
    ends_of_chains = []
    start = 0
    other_start = 1

    while tmp_segments:
        chain, start, tmp_segments = comb_segment(tmp_segments, start, other_start)
        other_start = start + 1
        chains.append(chain)
        ends_of_chains.append(start)

    #print chains

    max_chain = max(chains)
    index = chains.index(max_chain)
    end_index = ends_of_chains[index]
    start_index = end_index - max_chain
    print max_chain, start_index, end_index


    render(track_segments[start_index:end_index+1], 'findchorus.mp3', True)
Ejemplo n.º 2
0
def find_chorus_delta(path_to_song):
    """Attempts to find the chorus (or a suitable position in the song to cut
    into/play from) for a given song."""
    #loads data
    track = audio.LocalAudioFile(path_to_song)
    track_segments = getattr(track.analysis, 'segments')

    #a is where the track will split
    a = find_split(track_segments)

    #calculate loudness either side of the split to decide which is chorus
    split_index = a[1]
    left_loud, right_loud = 0, 0

    for i in range(1,31):
        left_loud += track_segments[split_index-i].loudness_max
        right_loud += track_segments[split_index+i].loudness_max

    print left_loud, right_loud

    #if chorus lies on the left, find another split within that segment so
    #output does not start from beginning of song
    if left_loud > right_loud:
        print 'left' 
        print split_index
        left_segments = track_segments[:split_index]
        b = find_split(left_segments)
        print b
        render(track_segments[b[1]:split_index], 'chorusof'+path_to_song, True)

    #if chorus lies on the right of split, simply play from split_index
    else: 
        print 'right'
        render(track_segments[split_index:], 'chorusof'+path_to_song, True)
Ejemplo n.º 3
0
def main():
    usage = "usage: %s [options] <one_single_mp3>" % sys.argv[0]
    parser = OptionParser(usage=usage)
    parser.add_option("-o",
                      "--offset",
                      default=0,
                      help="offset where to start counting")
    parser.add_option("-l", "--low", default=100, help="low tempo")
    parser.add_option("-H", "--high", default=192, help="high tempo")
    parser.add_option("-r",
                      "--rate",
                      default=0,
                      help="acceleration rate (try 30)")
    parser.add_option("-R",
                      "--rubato",
                      default=0,
                      help="rubato on second beat (try 0.2)")
    parser.add_option("-t",
                      "--tempo",
                      default=0,
                      help="target tempo (try 160)")
    parser.add_option("-v",
                      "--verbose",
                      action="store_true",
                      help="show results on screen")

    (options, args) = parser.parse_args()
    if len(args) < 1:
        parser.print_help()
        return -1

    verbose = options.verbose

    # get Echo Nest analysis for this file
    track = LocalAudioFile(args[0], verbose=verbose)

    if verbose:
        print "Waltzifying..."

    # this is where the work takes place
    actions = do_work(track, options)

    if verbose:
        display_actions(actions)

    # new name
    name = os.path.splitext(os.path.basename(args[0]))
    name = str(name[0] + '_waltz_%d' % int(options.offset) + '.mp3')

    if verbose:
        print "Rendering... %s" % name

    # send to renderer
    render(actions, name, verbose=verbose)

    if verbose:
        print "Success!"

    return 1
Ejemplo n.º 4
0
def main():
    options, args = get_options(warn=True);
    actions = do_work(args, options)
    verbose = bool(options.verbose)
    
    if verbose:
        display_actions(actions)
        print "Output Duration = %.3f sec" % sum(act.duration for act in actions)
    
        print "Rendering..."
    # Send to renderer
    render(actions, 'capsule.mp3', verbose)
    return 1
Ejemplo n.º 5
0
def main(song_directory,title, artist,num_songs, output_file, effects=False):
    START = time.time()

    a = Playlist(song_directory, title, artist, int(num_songs))
    a.sort_playlist()
    a.splice_songs()
    switch_durations = a.mix_songs()

    render(a.mix, output_file + '.mp3', verbose=False)

    if effects:
        add_effects(switch_durations, output_file)

    a.show()
    print '\nTook %f seconds to compile and render playlist\n' %round(time.time()-START, 1)
Ejemplo n.º 6
0
def main():
    options, args = get_options(warn=True);
    actions = do_work(args, options)
    verbose = bool(options.verbose)
    
    if verbose:
        display_actions(actions)
        print "Output Duration = %.3f sec" % sum(act.duration for act in actions)
    
        print "Rendering..."
    # Send to renderer
    theuser = str(options.the_user)
    final_file = theuser + ".mp3"
    print final_file
    render(actions, final_file, verbose)
    return 1
Ejemplo n.º 7
0
def main():
    usage = "usage: %s [options] <one_single_mp3>" % sys.argv[0]
    parser = OptionParser(usage=usage)
    parser.add_option("-d", "--duration", default=DEF_DUR, help="target duration (argument in seconds) default=600")
    parser.add_option("-m", "--minimum", default=MIN_JUMP, help="minimal loop size (in beats) default=8")
    parser.add_option("-i", "--infinite", action="store_true", help="generate an infinite loop (outputs a wav file)")
    parser.add_option("-l", "--length", action="store_true", help="length must be accurate")
    parser.add_option("-k", "--pickle", action="store_true", help="output graph as a pickle object")
    parser.add_option("-g", "--graph", action="store_true", help="output graph as a gml text file")
    parser.add_option("-p", "--plot", action="store_true", help="output graph as png image")
    parser.add_option("-f", "--force", action="store_true", help="force (re)computing the graph")
    parser.add_option("-S", "--shortest", action="store_true", help="output the shortest loop")
    parser.add_option("-L", "--longest", action="store_true", help="output the longest loop")
    parser.add_option("-v", "--verbose", action="store_true", help="show results on screen")
    
    (options, args) = parser.parse_args()
    if len(args) < 1:
        parser.print_help()
        return -1
    
    verbose = options.verbose
    track = LocalAudioFile(args[0], verbose=verbose)
    
    # this is where the work takes place
    actions = do_work(track, options)
    
    if verbose:
        display_actions(actions)
        print "Output Duration = %.3f sec" % sum(act.duration for act in actions)
    
    # Send to renderer
    name = os.path.splitext(os.path.basename(args[0]))
    
    # Output wav for loops in order to remain sample accurate
    if bool(options.infinite) == True: 
        name = name[0]+'_'+str(int(options.duration))+'_loop.wav'
    elif bool(options.shortest) == True: 
        name = name[0]+'_'+str(int(sum(act.duration for act in actions)))+'_shortest.wav'
    elif bool(options.longest) == True: 
        name = name[0]+'_'+str(int(sum(act.duration for act in actions)))+'_longest.wav'
    else: 
        name = name[0]+'_'+str(int(options.duration))+'.mp3'
    
    if options.verbose:
        print "Rendering..."
    render(actions, name, verbose=verbose)
    return 1
Ejemplo n.º 8
0
    def reconstruct(self, out, algorithm, verbose=False):
        # Check that we have loaded track from Echo Nest
        # Create source dictionary
        source_dict = {}
        if self.mashup.track == None: self.mashup.load_track(verbose)
        for s in self.sources:
            if s.track == None:
                s.load_track(verbose)
            source_dict[s.mp3_name] = s.track

        if verbose: print("Calculatiing actions in reconstructed mashup...")
        actions = get_actions(self.labeled, source_dict, verbose)
       	if verbose: print("Found actions: %s" % actions)
 
        filename = out+"-"+algorithm+"-reconstructed.mp3"
        if verbose: print("Rendering reconstructed mashup...")
        render(actions, filename)
Ejemplo n.º 9
0
def main():
    usage = "usage: %s [options] <one_single_mp3>" % sys.argv[0]
    parser = OptionParser(usage=usage)
    parser.add_option("-o", "--offset", default=0, help="offset where to start counting")
    parser.add_option("-l", "--low", default=100, help="low tempo")
    parser.add_option("-H", "--high", default=192, help="high tempo")
    parser.add_option("-r", "--rate", default=0, help="acceleration rate (try 30)")
    parser.add_option("-R", "--rubato", default=0, help="rubato on second beat (try 0.2)")
    parser.add_option("-t", "--tempo", default=0, help="target tempo (try 160)")
    parser.add_option("-v", "--verbose", action="store_true", help="show results on screen")
    
    (options, args) = parser.parse_args()
    if len(args) < 1:
        parser.print_help()
        return -1
    
    verbose = options.verbose

    # get Echo Nest analysis for this file
    track = LocalAudioFile(args[0], verbose=verbose)
    
    if verbose:
        print "Waltzifying..."

    # this is where the work takes place
    actions = do_work(track, options)

    if verbose:
        display_actions(actions)
    
    # new name
    name = os.path.splitext(os.path.basename(args[0]))
    name = str(name[0] + '_waltz_%d' % int(options.offset) +'.mp3')
    
    if verbose:
        print "Rendering... %s" % name

    # send to renderer
    render(actions, name, verbose=verbose)
    
    if verbose:
        print "Success!"

    return 1
Ejemplo n.º 10
0
def main():
    usage = "usage: %s [options] <one_single_mp3>" % sys.argv[0]
    parser = OptionParser(usage=usage)
    parser.add_option("-s",
                      "--swing",
                      default=0.33,
                      help="swing factor default=0.33")
    parser.add_option("-v",
                      "--verbose",
                      action="store_true",
                      help="show results on screen")

    (options, args) = parser.parse_args()
    if len(args) < 1:
        parser.print_help()
        return -1

    verbose = options.verbose
    track = None

    track = LocalAudioFile(args[0], verbose=verbose)
    if verbose:
        print "Computing swing . . ."
    # this is where the work takes place
    actions = do_work(track, options)

    if verbose:
        display_actions(actions)

    # Send to renderer
    name = os.path.splitext(os.path.basename(args[0]))
    sign = ('-', '+')[float(options.swing) >= 0]
    name = name[0] + '_swing' + sign + str(int(
        abs(float(options.swing)) * 100)) + '.mp3'
    name = name.replace(' ', '')
    name = os.path.join(os.getcwd(),
                        name)  # TODO: use sys.path[0] instead of getcwd()?

    if verbose:
        print "Rendering... %s" % name
    render(actions, name, verbose=verbose)
    if verbose:
        print "Success!"
    return 1
Ejemplo n.º 11
0
    def crossmatch_sources(self, recompute=False, verbose=False):
        #[(start,duration),...] by timing rather than node index
        def to_tuples(graph):
            return [(d['source'],d['duration']) for s,t,d in graph.edges_iter(data=True)]

        #for all combinations of source songs
        for pair in combinations(self.sources, 2):
            #get crossmatch filename and beats lists
            s1_s2 = "-".join([pair[0].mp3_path,pair[1].mp3_name,"cross.mp3"])
            s2_s1 = "-".join([pair[1].mp3_path,pair[0].mp3_name,"cross.mp3"])
            s1_beats, s2_beats = to_tuples(pair[0].graph), to_tuples(pair[1].graph)
            #use length of min source
            if len(s1_beats) > len(s2_beats):
                s1_beats = s1_beats[:len(s2_beats)]
            elif len(s2_beats) > len(s1_beats):
                s2_beats = s2_beats[:len(s1_beats)]

            #check if crossmatch mp3 exists
            try:
                f = open(s1_s2)
                f.close()
                if verbose: print("Found precomputed crossmatch %s" % s1_s2)
                if recompute: raise Exception()
                self.sources.append(Song(s1_s2))
            except:
                try:
                    f = open(s2_s1)
                    f.close()
                    if verbose: print("Found precomputed crossmatch %s" % s2_s1)
                    if recompute: raise Exception()
                    self.sources.append(Song(s2_s1))
                #RENDER new crossmatch mp3
                except:
                    if verbose and not recompute: print("Found no precomputed crossmatches.")
                    if verbose and recompute: print("Recomputing crossmatches...")
                    #load tracks
                    if pair[0].track == None: pair[0].load_track()
                    if pair[1].track == None: pair[1].load_track()
                    #equalize tracks
                    #TODO beat match to mashup tempo
                    pair[0].track, pair[1].track = equalize_tracks([pair[0].track,pair[1].track])
                    if verbose: print("Rendering crossmatch %s..." % s1_s2)
                    render([Crossmatch( (pair[0].track,pair[1].track), (s1_beats,s2_beats) )], s1_s2) 
                    self.sources.append(Song(s1_s2))
Ejemplo n.º 12
0
def main():
    options, args = get_options(warn=True);
    actions = do_work(args, options)
    verbose = bool(options.verbose)
    stop = bool(options.stop)
    
    
    if verbose:
        display_actions(actions)
        print "Output Duration = %.3f sec" % sum(act.duration for act in actions)
    
        print "Rendering..."
    # Send to renderer
    dts = str(time.time())
    if stop:
        render(actions, 'hmix_%s.mp3' % dts, verbose)    
    else:
        render(actions, 'captemp.mp3', verbose)
        
    return 1
Ejemplo n.º 13
0
def main():
    options, args = get_options(warn=True)
    actions = do_work(args, options)
    verbose = bool(options.verbose)
    stop = bool(options.stop)

    if verbose:
        display_actions(actions)
        print "Output Duration = %.3f sec" % sum(act.duration
                                                 for act in actions)

        print "Rendering..."
    # Send to renderer
    dts = str(time.time())
    if stop:
        render(actions, 'hmix_%s.mp3' % dts, verbose)
    else:
        render(actions, 'captemp.mp3', verbose)

    return 1
Ejemplo n.º 14
0
def main():
    usage = "usage: %s [options] <one_single_mp3>" % sys.argv[0]
    parser = OptionParser(usage=usage)
    parser.add_option("-s", "--swing", default=0.33, help="swing factor default=0.33")
    parser.add_option("-v", "--verbose", action="store_true", help="show results on screen")
    
    (options, args) = parser.parse_args()
    if len(args) < 1:
        parser.print_help()
        return -1
    
    verbose = options.verbose
    track = None
    
    track = LocalAudioFile(args[0], verbose=verbose)
    if verbose:
        print "Computing swing . . ."
    # this is where the work takes place
    actions = do_work(track, options)
    
    if verbose:
        display_actions(actions)
    
    # Send to renderer
    name = os.path.splitext(os.path.basename(args[0]))
    sign = ('-','+')[float(options.swing) >= 0]
    name = name[0] + '_swing' + sign + str(int(abs(float(options.swing))*100)) +'.mp3'
    name = name.replace(' ','') 
    name = os.path.join(os.getcwd(), name) # TODO: use sys.path[0] instead of getcwd()?
    
    if verbose:
        print "Rendering... %s" % name
    render(actions, name, verbose=verbose)
    if verbose:
        print "Success!"
    return 1
Ejemplo n.º 15
0
def main():
    # Initiate playlist with a base song and length
    START = time.time()
    a = Playlist('song_test', "Love Story - Taylor Swift.mp3", 10)
    a.sort_playlist()

    ordering = ['start'] + ['middle']*(len(a.playlist)-2) + ['end']

    # Create real_playlist
    rp = [0] * len(a.playlist)

    # Comes out to be like [[Tune, 'start'], [Tune, 'middle'], ..., [Tune, 'end']]
    for i in range(len(a.playlist)):
        rp[i] = [a.playlist[i], ordering[i], 0, 0]


    # Print playlist
    print ''
    for i in rp:
        print i[0].songName, i[0].bpm, i[1]
    print ''

    # Start the processing
    output_song = []
    # Add starting and ending indices of bars of each song in real_playlist
    for i in rp:
        print "Mixing %s" %i[0].songName
        i[2], i[3] = i[0].choose_jump_point(position=i[1])

    # print rp: [[<tune.Tune instance at 0x7f848b1149e0>, 'start', 0, 66], 
    # [<tune.Tune instance at 0x7f8489d7cfc8>, 'middle', 14, 64], 
    # [<tune.Tune instance at 0x7f8489f35ea8>, 'middle', 37, 51], 
    # [<tune.Tune instance at 0x7f8489b340e0>, 'end', 36, 146]]

    def make_transition(l1, l2):
        # l1, l2 are lists of order [self.tune, self.position, start_bar_index, end_bar_index]

        # Start cutting at the final_bar of the first song
        final_bar = l1[0].bars[l1[3]-1: l1[3]+1]

        # Cut into the first two bars of the second song
        first_bar = l2[0].bars[l2[2]: l2[2]+2]

        # Duration is length of the first two bars of the second song because
        # it has to line up with the [i+2: end] bars.
        duration = sum([i.duration for i in first_bar])

        # Return iterable cross faded object
        return make_crossfade(l1[0].tune, l2[0].tune, final_bar[0].start, first_bar[0].start, duration)

    for i in range(len(rp)):
        if rp[i][1] == 'start':
            output_song += rp[i][0].bars[: rp[i][3]-1]
        if rp[i][1] == 'middle':
            output_song += rp[i][0].bars[rp[i][2]+2 : rp[i][3]-1]
        if rp[i][1] == 'end':
            output_song += rp[i][0].bars[rp[i][2]+2 :]
        try: output_song += make_transition(rp[i], rp[i+1])
        except IndexError: pass

    render(output_song, 'fullMix.mp3', True)
    print '\nTook %f seconds to compile and render playlist' %round(time.time()-START, 1)
Ejemplo n.º 16
0
 def save(self, path):
   render(self.shifted_audio_datas, path)