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| 1 | +# SPDX-FileCopyrightText: 2021 john park for Adafruit Industries |
| 2 | +# SPDX-License-Identifier: MIT |
| 3 | +# NeoController: NeoSlider(x4) + NeoKey MIDI input device |
| 4 | + |
| 5 | +import board |
| 6 | +import busio |
| 7 | +from adafruit_simplemath import map_range |
| 8 | +import usb_midi |
| 9 | +import adafruit_midi |
| 10 | +from adafruit_midi.control_change import ControlChange |
| 11 | +from adafruit_midi.note_on import NoteOn |
| 12 | +from adafruit_midi.note_off import NoteOff |
| 13 | +from adafruit_seesaw.seesaw import Seesaw |
| 14 | +from adafruit_seesaw import neopixel |
| 15 | +from adafruit_seesaw.analoginput import AnalogInput |
| 16 | +from adafruit_neokey.neokey1x4 import NeoKey1x4 |
| 17 | + |
| 18 | +i2c = busio.I2C(board.SCL, board.SDA) # for QT Py RP2040, use SCL1/SDA1 |
| 19 | + |
| 20 | +# --- NeoSlider object setup |
| 21 | +addresses = (0x30, 0x31, 0x32, 0x33) # cut jumpers to proper addreses (none, A0, A1, A0+A1) |
| 22 | +neosliders = [] # list to hold neoslider objects |
| 23 | +for address in addresses: # create each neoslider w proper address |
| 24 | + temp_neosliders = Seesaw(i2c, address) |
| 25 | + neosliders.append(temp_neosliders) # append to the list |
| 26 | + |
| 27 | +# --- NeoSlider analog read setup |
| 28 | +analogin_pin = 18 # slider is on this analog pin |
| 29 | +analog_pins = (0, 1) |
| 30 | +analog_inputs = [] |
| 31 | +for n in range(len(neosliders)): |
| 32 | + temp_analog_in = AnalogInput(neosliders[n], analogin_pin) |
| 33 | + analog_inputs.append(temp_analog_in) |
| 34 | + |
| 35 | +# --- Slider NeoPixels Setup |
| 36 | +PIX_PIN = 14 |
| 37 | +PIX_NUM = 4 |
| 38 | +pixels = [] |
| 39 | +for p in range(len(neosliders)): |
| 40 | + temp_pix = neopixel.NeoPixel(neosliders[p], PIX_PIN, PIX_NUM) |
| 41 | + pixels.append(temp_pix) |
| 42 | + pixels[p].brightness = 1.0 |
| 43 | + pixels[p].fill((20, 20, 0)) |
| 44 | + pixels[p].show() |
| 45 | + |
| 46 | +# --- NeoKey 1x4 Setup --- # |
| 47 | +neokey = NeoKey1x4(i2c, addr=0x38) |
| 48 | +amber = 0x300800 |
| 49 | +blue = 0x002040 |
| 50 | +red = 0x900000 |
| 51 | +neokey.pixels.fill(amber) |
| 52 | + |
| 53 | +keys = [ # neokey (adjust if multiple sets), key number, keypress color, MIDI note |
| 54 | + (neokey, 0, blue, 40), |
| 55 | + (neokey, 1, red, 42), |
| 56 | + (neokey, 2, blue, 43), |
| 57 | + (neokey, 3, red, 46), |
| 58 | +] |
| 59 | + |
| 60 | +# states for key presses |
| 61 | +key_states = [False, False, False, False] |
| 62 | + |
| 63 | + |
| 64 | +# --- MIDI setup |
| 65 | +midi = adafruit_midi.MIDI( |
| 66 | + midi_in=usb_midi.ports[0], |
| 67 | + in_channel=(0), |
| 68 | + midi_out=usb_midi.ports[1], |
| 69 | + out_channel=0 |
| 70 | +) |
| 71 | +cc_numbers = [48, 49, 50, 51] # pick the CC number for each slider to send over |
| 72 | + |
| 73 | +last_sliders = [0] * len(neosliders) # list to hold state variables |
| 74 | + |
| 75 | +while True: |
| 76 | + # check NeoKeys |
| 77 | + for k in range(len(keys)): |
| 78 | + neokey, key_number, color, midi_note = keys[k] |
| 79 | + if neokey[key_number] and not key_states[key_number]: |
| 80 | + midi.send(NoteOn(midi_note, 127)) |
| 81 | + key_states[key_number] = True |
| 82 | + neokey.pixels[key_number] = color |
| 83 | + if not neokey[key_number] and key_states[key_number]: |
| 84 | + midi.send(NoteOff(midi_note, 0)) |
| 85 | + neokey.pixels[key_number] = amber |
| 86 | + key_states[key_number] = False |
| 87 | + |
| 88 | + # check sliders |
| 89 | + for i in range(len(neosliders)): |
| 90 | + slider = analog_inputs[i].value |
| 91 | + if abs(slider - last_sliders[i]) > 1: |
| 92 | + cc_val = int(map_range(slider, 0, 1023, 0, 127)) |
| 93 | + midi.send(ControlChange(cc_numbers[i], cc_val)) |
| 94 | + color_val = int(map_range(slider, 0, 1023, 5, 255)) |
| 95 | + pixels[i].fill((color_val, color_val, 0)) |
| 96 | + last_sliders[i] = slider |
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