heck_circuitpython_seq/code.py


								# MIDI Cable

								# Black - Data

								# White - VCC 3.3v

								# Brown - GND


								import time

								import board

								import busio

								import adafruit_midi


								from adafruit_midi.control_change import ControlChange

								from adafruit_midi.note_off import NoteOff

								from adafruit_midi.note_on import NoteOn


								def init():

								    print("init")

								    global midi

								    uart = busio.UART(board.TX, board.RX, baudrate=31250, timeout=0.001)  # init UART

								    midi_in_channel = 2

								    midi_out_channel = 1

								    midi = adafruit_midi.MIDI(

								        midi_in=uart,

								        midi_out=uart,

								        in_channel=(midi_in_channel - 1),

								        out_channel=(midi_out_channel - 1),

								        debug=False,

								    )

								    print("Default output channel:", midi.out_channel + 1)


								def trig(note_nr):

								    # print("trig: " + str(note_nr))

								    midi.send(NoteOn(note_nr, 127))

								    midi.send(NoteOff(note_nr, 0))


								def subdiv(clk_bar, clk_bar_old, div, note_nr):

								    div_ns = div_to_ns(div)

								    clk_sub1_old = clk_bar_old % div_ns

								    clk_sub1 = clk_bar % div_ns

								    clk_sub1_diff = clk_sub1 - clk_sub1_old

								    if clk_sub1_diff < 0:

								        trig(note_nr)

								        # note_buffer_on.append(NoteOn(note_nr, 127))

								        # note_buffer_off.append(NoteOff(note_nr, 127))


								def div_to_ns(div) -> int:

								        # trig(note_nr)

								    clk_pulse_per_second = 1000000000

								    beat_per_bar = 4

								    bar_ns = beat_per_bar / bpm * 60 * clk_pulse_per_second

								    return bar_ns / div


								def md_note(nr):

								    '''1-16'''

								    md_notes = [ 36,38,40,41,43,45,47,48,50,52,53,55,57,59,60,62 ]

								    nr = min(nr,16)

								    nr = max(nr,1)

								    return md_notes[nr-1]


								def md_selftest():

								    for i in range(1,16 + 1):

								        trig(md_note(i))

								        time.sleep(0.2)


								def main():

								    print("main")

								    bar_ns = div_to_ns(1)


								    clk_bar = time.monotonic_ns() % bar_ns

								    while True:

								        clk_bar_old = clk_bar

								        clk_bar = time.monotonic_ns() % bar_ns


								        # md_selftest()


								        # for i in range(1,16+1):

								        #     subdiv(clk_bar, clk_bar_old, i, md_note(i))

								        subdiv(clk_bar, clk_bar_old, 1, md_note(1))

								        subdiv(clk_bar, clk_bar_old, 8, md_note(2))


								        # for i in note_buffer_on:

								        #     midi.send(i)

								        #

								        # for i in note_buffer_off:

								        #     midi.send(i)

								        #

								        # note_buffer_on.clear()

								        # note_buffer_off.clear()


								bpm = 120

								note_buffer_on = []

								note_buffer_off = []


								init()

								main()