Created
May 15, 2021 18:13
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Code for the Raspberry Pico Sequencer as it can be seen here: https://www.reddit.com/r/synthdiy/comments/nd14d4/diy_circular_sequencer_made_with_raspberry_pico
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import time | |
import board | |
import neopixel | |
import math | |
import rotaryio | |
import board | |
import digitalio | |
import adafruit_rgbled | |
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 | |
from adafruit_midi.pitch_bend import PitchBend | |
from adafruit_midi.timing_Clock import TimingClock | |
from adafruit_midi.start import Start | |
from adafruit_midi.stop import Stop | |
###################### Midi Setup | |
midiuart = busio.UART(board.GP16, board.GP17, baudrate=31250, timeout=0.00001) | |
midi = adafruit_midi.MIDI( | |
midi_in=midiuart, in_channel=0, midi_out=midiuart, out_channel=0, debug=True | |
) | |
###################### Neopixel Setup | |
num_pixels = 24 | |
pixels = neopixel.NeoPixel(board.GP9, num_pixels, pixel_order=neopixel.GRB, auto_write=False) | |
pixels.brightness = 0.1 | |
pixels.fill((0,0,0)) | |
pixels.show() | |
render_last = time.monotonic_ns() | |
render_delay = 100000000 | |
num_small_pixels = 12 | |
small_pixels = neopixel.NeoPixel(board.GP8, num_small_pixels, pixel_order=neopixel.GRB, auto_write=False) | |
small_pixels.brightness = 0.05 | |
small_pixels.fill((0,0,0)) | |
small_pixels.show() | |
def translate(value, leftMin, leftMax, rightMin, rightMax): | |
leftSpan = leftMax - leftMin | |
rightSpan = rightMax - rightMin | |
valueScaled = float(value - leftMin) / float(leftSpan) | |
return rightMin + (valueScaled * rightSpan) | |
def amount_small_circle(amount = 0, color=(0, 150, 156)): | |
for i in range(num_small_pixels): | |
if i < amount: | |
small_pixels[i] = color | |
else: | |
small_pixels[i] = (0,0,0) | |
small_pixels.show() | |
###################### Rotary Encoder Setup | |
button = digitalio.DigitalInOut(board.GP10) | |
button.direction = digitalio.Direction.INPUT | |
button.pull = digitalio.Pull.DOWN | |
button_state = None | |
encoder = rotaryio.IncrementalEncoder(board.GP18, board.GP19) | |
last_position = None | |
###################### Button Row Setup | |
black_button = digitalio.DigitalInOut(board.GP4) | |
black_button.direction = digitalio.Direction.INPUT | |
black_button.pull = digitalio.Pull.DOWN | |
black_button_event = None | |
yellow_button = digitalio.DigitalInOut(board.GP3) | |
yellow_button.direction = digitalio.Direction.INPUT | |
yellow_button.pull = digitalio.Pull.DOWN | |
yellow_button_event = None | |
white_button = digitalio.DigitalInOut(board.GP5) | |
white_button.direction = digitalio.Direction.INPUT | |
white_button.pull = digitalio.Pull.DOWN | |
white_button_event = None | |
red_button = digitalio.DigitalInOut(board.GP2) | |
red_button.direction = digitalio.Direction.INPUT | |
red_button.pull = digitalio.Pull.DOWN | |
red_button_event = None | |
###################### Sequencer Setup Setup | |
start_sequencer = False | |
active_sequence = 0 | |
num_sequence = 5 | |
amo = [0, 0, 0, 0, 0] | |
off = [12, 12, 12, 12, 12] | |
sequence = [] | |
for i in range(num_sequence): | |
sequence.append([(0,0,0) for _ in range(num_pixels)]) | |
beats_per_minute = 120 | |
steps_per_beat = 6 | |
tick_time = ((60 / beats_per_minute) / steps_per_beat) * 1000000000 | |
amount_small_circle(math.floor(translate(beats_per_minute, 40, 240, 0, 12))) | |
# print("Tick time in nano seconds: ", tick_time) | |
tick_last = time.monotonic_ns() | |
# print("Tick last: ", tick_last) | |
tick_counter = 12 | |
tick_color = [(196, 0, 163), (101, 0, 200), (2, 179, 75), (212, 141, 0), (0, 212, 14)] | |
beat_start_color = [(0, 71, 212), (227, 204, 0), (204, 0, 112), (0, 204, 143), (183, 0, 255) ] | |
beat_step_color = [(0, 23, 69),(92, 82, 0), (60, 0, 30), (0, 74, 52), (30, 0, 30), ] | |
#beat_led = digitalio.DigitalInOut(board.GP11) | |
#beat_led.direction = digitalio.Direction.OUTPUT | |
#beat_led.value = True | |
RED_LED = board.GP11 | |
GREEN_LED = board.GP12 | |
BLUE_LED = board.GP13 | |
# Create a RGB LED object | |
beat_led = adafruit_rgbled.RGBLED(RED_LED, BLUE_LED, GREEN_LED, invert_pwm=True) | |
beat_led.color = (0,0,0) | |
###################### Helper Functions | |
def placePixels(amount = 0, offset = 0, start_color = (255, 0, 0), step_color = (255, 255, 255)): | |
# pixels.fill((0,0,0)) | |
# pixels.show() | |
# print("Placing Pixels: ", amount, offset) | |
seq = [(0,0,0) for _ in range(num_pixels)] | |
if amount == 0: | |
return seq | |
else: | |
step_distance = num_pixels / amount | |
for i in range(amount): | |
if i == 0: | |
seq[(math.floor(i * step_distance) + offset) % num_pixels] = start_color | |
else: | |
seq[(math.floor(i * step_distance) + offset) % num_pixels] = step_color | |
return seq | |
###################### Main Loop | |
while True: | |
position = encoder.position | |
if last_position is None or position != last_position: | |
if last_position is not None: | |
if not button.value and not red_button.value: | |
amo[active_sequence] = amo[active_sequence] - (last_position - position) | |
if amo[active_sequence] > num_pixels: | |
amo[active_sequence] = num_pixels | |
elif amo[active_sequence] < 0: | |
amo[active_sequence] = 0 | |
elif button.value and not red_button.value: | |
off[active_sequence] = off[active_sequence] - (last_position - position) | |
elif not button.value and red_button.value: | |
beats_per_minute -= (last_position - position) | |
if beats_per_minute < 40: | |
beats_per_minute = 40 | |
elif beats_per_minute >= 240: | |
beats_per_minute = 240 | |
tick_time = ((60 / beats_per_minute) / steps_per_beat) * 1000000000 | |
amount_small_circle(math.floor(translate(beats_per_minute, 40, 240, 0, 12))) | |
last_position = position | |
if not button.value and button_state is None: | |
button_state = "pressed" | |
if button.value and button_state == "pressed": | |
print("Button pressed.") | |
button_state = None | |
if black_button.value and black_button_event is None: | |
black_button_event = True | |
if not black_button.value and not black_button_event: | |
black_button_event = None | |
if yellow_button.value and yellow_button_event is None: | |
yellow_button_event = True | |
if not yellow_button.value and not yellow_button_event: | |
yellow_button_event = None | |
if yellow_button_event: | |
start_sequencer = not start_sequencer | |
#time.sleep(0.001) | |
yellow_button_event = False | |
if (time.monotonic_ns() - tick_last) >= tick_time: | |
# print("Beat") | |
note_list = ["C2", "D2", "E2", "G2", "A2"] | |
send_list = [] | |
for s in range(len(sequence)): | |
sequence[s] = placePixels(amo[s], off[s], beat_start_color[s], beat_step_color[s]) | |
if (sequence[s][tick_counter] != (0,0,0)) and start_sequencer: | |
beat_led.color = tick_color[s] | |
send_list.append(NoteOn(note_list[s], 120)) | |
# else: | |
# beat_led.color = (0,0,0) | |
if len(send_list) > 0: | |
midi.send(send_list[0]) | |
time.sleep(0.01) | |
send_list = [] | |
for s in range(len(sequence)): | |
if (sequence[s][tick_counter] != (0,0,0)) and start_sequencer: | |
send_list.append(NoteOff(note_list[s], 120)) | |
#beat_led.color = (0, 0, 0) | |
if len(send_list) > 0: | |
midi.send(send_list[0]) | |
if black_button_event and active_sequence < num_sequence-1: | |
active_sequence += 1 | |
black_button_event = False | |
elif black_button_event and active_sequence == num_sequence-1: | |
active_sequence = 0 | |
black_button_event = False | |
sequence[active_sequence][tick_counter] = tick_color[active_sequence] | |
if tick_counter < num_pixels - 1 and start_sequencer: | |
tick_counter += 1 | |
elif start_sequencer: | |
tick_counter = 0 | |
tick_last = time.monotonic_ns() | |
for i in range(num_pixels): | |
pixels[i] = sequence[active_sequence][i] | |
pixels.show() | |
sequence = [] | |
for i in range(num_sequence): | |
sequence.append([(0,0,0) for _ in range(num_pixels)]) | |
render_last = time.monotonic_ns() | |
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