Exemple #1
0
def play(voice_id):
    tel = bot.getTel()

    degrees = [ dsp.randchoose([1, 2, 3, 5, 6, 8]) for f in range(dsp.randint(2, 20)) ]
    #degrees = [ dsp.randchoose([1, 5, 6, 7, 8]) for f in range(dsp.randint(2, 10)) ]

    octave = dsp.randint(1, 4)

    freqs = tune.fromdegrees(degrees, root='c', octave=octave, ratios=tune.terry)

    out = ''

    for r in range(dsp.randint(2, 20)):
        freq = dsp.randchoose(freqs)
        waveform = dsp.randchoose(['tri', 'sine2pi'])

        length = dsp.randint(dsp.mstf(1), dsp.mstf(4000))
        #length = dsp.mstf(1500)
        #length = dsp.mstf(2500)

        pulsewidth = dsp.rand(0.01, 1)

        mod = dsp.breakpoint([ dsp.rand() for b in range(int(round(tel['density'])) + 3) ], 512)
        window = dsp.breakpoint([0] + [ dsp.rand() for b in range(int(round(tel['harmonicity'] * 2)) + 3) ] + [0], 512)
        waveform = dsp.breakpoint([0] + [ dsp.rand(-1, 1) for b in range(int(round(tel['roughness'] * dsp.randint(1, 4))) + 3) ] + [0], 512)

        modRange = dsp.rand(0.01, 100.08)

        modFreq = dsp.rand(0.0001, 5)

        volume = dsp.rand(0.2, 0.3) * (tel['density'] / 10.0)
        #volume = dsp.rand(0.2, 0.8)

        t = dsp.pulsar(freq, length, pulsewidth, waveform, window, mod, modRange, modFreq, volume)
        #t = dsp.tone(length, freq, waveform)

        t = dsp.pan(t, dsp.rand())

        t = dsp.alias(t)

        t = dsp.amp(t, dsp.rand(0.5, 15.0))

        t = dsp.pad(t, 0, dsp.randint(dsp.mstf(1), dsp.mstf(10)))

        t = dsp.amp(t, dsp.rand(0.5, 0.95))

        t = dsp.env(t, 'sine')
        #t = dsp.env(t, 'phasor')

        #t = dsp.pine(t, dsp.flen(t) * 4, freq)

        out += t


    dsp.log('')
    dsp.log('boone')
    dsp.log('%s length: %.2f' % (voice_id, dsp.fts(dsp.flen(out))))
    bot.show_telemetry(tel)

    return out
Exemple #2
0
def play(voice_id):
    tel = bot.getTel()

    b = dsp.read('sounds/birds.wav').data

    b = dsp.split(b, dsp.randint(100, 1000))

    b = b[:dsp.randint(len(b) / 10, len(b))]

    blen = len(b)

    pans = dsp.breakpoint([ dsp.rand() for i in range(dsp.randint(10, 100)) ], blen)
    speeds = dsp.breakpoint([ dsp.rand(0.25, 1.5) for i in range(dsp.randint(10, 100)) ], blen)
    amps = dsp.breakpoint([ dsp.rand(0.05, 1.5) for i in range(dsp.randint(10, 100)) ], blen)

    b = [ dsp.pan(b[i], pans[i]) for i in range(blen) ]
    b = [ dsp.transpose(b[i], speeds[i]) for i in range(blen) ]
    b = [ dsp.amp(b[i], amps[i]) for i in range(blen) ]

    b = dsp.packet_shuffle(b, dsp.randint(4, 30))

    for i, bb in enumerate(b):
        if dsp.rand(0, 100) > 60:
            b[i] = bb * dsp.randint(2, 10)

    out = ''.join(b)

    dsp.log('')
    dsp.log('birds')
    dsp.log(blen)
    dsp.log('%s length: %.2f' % (voice_id, dsp.fts(dsp.flen(out))))
    bot.show_telemetry(tel)

    return out
Exemple #3
0
def play(voice_id):
    tel = bot.getTel()

    bpm = s.config('bpm')

    #if 'gentle' in tel['name'] or 'upbeat' in tel['name'] or 'full' in tel['name']:
        #dsp.log('')
        #dsp.log(voice_id + ' chirps silent')
        #return dsp.pad('', 0, dsp.stf(dsp.rand(1, 10)))

    length = int((1.0 / (tel['pace'] / 10.0)) * dsp.stf(3))

    def makecurve(length):
        # freq, length, pulsewidth, waveform, window, mod, modRange, modFreq, amp

        wf = dsp.breakpoint([0] + [ dsp.rand(-1, 1) for i in range(int(dsp.rand(5, 30))) ] + [0], 1024)
        win = dsp.breakpoint([0] + [ dsp.rand(0, 1) for i in range(4) ] + [0], 1024)
        mod = dsp.breakpoint([ dsp.rand(0, 1) for i in range(int(dsp.rand(4, 8))) ], 1024)

        smaxamp = dsp.rand(0.65, 0.95)
        amp = dsp.rand(0.01, smaxamp)

        pw = dsp.rand(0.1, 1.0)

        if 'upbeat' in tel['name']:
            wf = dsp.breakpoint([0] + [ dsp.rand(-1, 1) for i in range(int(dsp.rand(5, 30))) ] + [0], 1024)
            win = dsp.breakpoint([0] + [ dsp.rand(0, 1) for i in range(4) ] + [0], 1024)
            mod = dsp.breakpoint([ dsp.rand(0, 1) for i in range(int(dsp.rand(5, 80))) ], 1024)


            pw = 1.0

        if 'ballsout' in tel['name']:
            wf = dsp.breakpoint([0] + [ dsp.rand(-1, 1) for i in range(int(dsp.rand(10, 40))) ] + [0], 1024)
            win = dsp.breakpoint([0] + [ dsp.rand(0, 1) for i in range(10) ] + [0], 1024)
            mod = dsp.breakpoint([ dsp.rand(0, 1) for i in range(int(dsp.rand(20, 100))) ], 1024)


        if 'sparse' in tel['name']:
            amp = dsp.rand(0.7, 3)

        freq = tel['register'] * tel['roughness'] * (tel['density'] * tel['pace'] * 0.25)
        #if dsp.rand(0, 100) > 50:
            #freq = dsp.rand(2, 20)

        modR = tel['harmonicity']
        modF= tel['pace'] / 10.0

        c = dsp.pulsar(freq, length, pw, wf, win, mod, modR, modF, amp)

        ngrains = len(c)
        pans = dsp.breakpoint([ dsp.rand(0,1) for i in range(100) ], ngrains)

        maxPad = dsp.randint(2000, 4000)

        if 'sparse' in tel['name']:
            c = dsp.vsplit(c, dsp.mstf(0.5), dsp.mstf(tel['density'] * tel['harmonicity'] * tel['roughness'] * tel['pace']))
            c = [ dsp.randchoose(c) for i in range(int(dsp.rand(3, 10))) ]

        elif 'ballsout' in tel['name']:
            c = dsp.vsplit(c, dsp.mstf(0.1), dsp.mstf(400))
            c = dsp.packet_shuffle(c, dsp.randint(5, 10))

            speeds = dsp.breakpoint([ dsp.rand(tel['register'] * 0.1 + 0.2, tel['register'] + 0.2) for i in range(100) ], ngrains)

            #c = [ dsp.transpose(cg, speeds[i]) for i, cg in enumerate(c) ]
            #c = [ dsp.amp(cg, dsp.rand(0.25, 1.25)) for i, cg in enumerate(c) ]

            for ic, cc in enumerate(c):
                if dsp.rand(0, 100) > 70:
                    c[ic] = dsp.tone(dsp.flen(cc), 11000, amp=0.5)

        elif 'upbeat' in tel['name']:
            beat = dsp.bpm2frames(bpm)
            c = dsp.split(c, beat)

            maxPad = 0

            c = [ dsp.pad(cg, 0, dsp.mstf(dsp.rand(10, beat / 4))) for i, cg in enumerate(c) ]

        else:
            c = dsp.vsplit(c, dsp.mstf(10), dsp.mstf(tel['density'] * tel['harmonicity'] * tel['roughness'] * tel['pace'] * dsp.rand(1, 10)))

        c = [ dsp.pan(cg, pans[i]) for i, cg in enumerate(c) ]
        c = [ dsp.env(cg, 'sine') for i, cg in enumerate(c) ]

        if 'sparse' in tel['name'] or 'ballsout' in tel['name']:
            speeds = dsp.breakpoint([ dsp.rand(0.5, 1.99) for i in range(100) ], ngrains)
            
            for ic, cc in enumerate(c):
                if dsp.flen(cc) < dsp.mstf(100):
                    c[ic] = cc + ''.join([ dsp.amp(cc, dsp.rand(0.1, 1.0)) for buh in range(dsp.randint(1, int(tel['density']))) ])

            #c = [ dsp.transpose(cg, speeds[i]) for i, cg in enumerate(c) ]
            c = [ dsp.pan(cg, dsp.rand(0.0, 1.0)) for i, cg in enumerate(c) ]

        if 'ballsout' not in tel['name']:
            c = [ dsp.pad(cg, 0, dsp.mstf(dsp.rand(10, maxPad))) for i, cg in enumerate(c) ]

        out = ''.join(c)

        return out

    out = makecurve(length)

    if dsp.flen(out) > dsp.mstf(100) and dsp.rand(0, 100) > 30:
        out = dsp.drift(out, (tel['harmonicity'] - 10.0) * -1 * 0.5, dsp.randint(41, 441))

    if dsp.flen(out) > dsp.stf(10):
        out = dsp.fill(out, dsp.stf(10))

    if dsp.rand(0, 100) > 50:
        out = dsp.vsplit(out, 41, 441)
        for ii, o in enumerate(out):
            if dsp.rand(0, 100) > 50:
                out[ii] = dsp.pad('', 0, dsp.flen(o))
            elif dsp.rand(0, 100) > 50:
                out[ii] = dsp.amp(o, dsp.rand(0.75, 3))

        out = [ dsp.pan(o, dsp.rand()) for o in out ]

        out = ''.join(out)

    dsp.log('')
    dsp.log('chirp')
    dsp.log('%s length: %.2f' % (voice_id, dsp.fts(dsp.flen(out))))
    bot.show_telemetry(tel)

    return out