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metronome/pico-cp/README.md
Me Here 88104e3d5c PM_K-1 0.0.7: perform tempo ramps + gap trainer, show their indicators, log bars 
Device parser now reads the rmp<start>/<amt>/<every> and tr<play>/<mute> tokens it
previously ignored, and the firmware performs them:
- Tempo ramp: steps bpm by <amt> every <every> bars (resets to the start at each b<n>
  segment boundary). Shows an amber ramp arrow + "+amt/everyb" (up/down by sign; no
  starting bpm, per request).
- Gap trainer: cycles <play> audible bars then <mute> silent bars (no click/MIDI/LED;
  playheads keep moving). Shows a play|rest symbol + "play/muteb".
- Practice log entries now record + show bars played.

Verified in the CPython harness: ramp 92->96->100->104->108 (+4 every 2 bars), gap
mute cycle play,play,mute,mute, and the on-screen ramp indicator renders.

Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>
2026-05-29 11:43:54 -05:00

7.1 KiB
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PM_K1 "Kit" — CircuitPython edition (USB drive · push programming · MIDI audio · practice log)

The CircuitPython firmware for the 52Pi EP0172 Pico kit, set up as a selfcontained appliance. It runs the same programstring language as https://metronome.varasys.io. The simpler MicroPython firmware (../pico/main.py) stays as a rocksolid fallback — and the Pico can't be bricked (BOOTSEL → drag a MicroPython .uf2 back).

What it does: drives the 3.5″ touchscreen with a lanes/pads display + antialiased text, plays the buzzer + RGB beat light, logs your practice to /history.json, accepts new set lists pushed from the web editor over USBMIDI, and plays through your computer's speakers over USBMIDI.

Two poweron modes (set by boot.py)

  • Appliance mode — default (just plug in / power up). The firmware owns the filesystem, so it saves your practice log and writes set lists the editor pushes over USBMIDI. The drive is then readonly to the computer — which also protects the firmware from accidental deletion.
  • Editor mode — hold BUTTON A while plugging in. The drive is writable by the computer, so you can drag programs.json / code.py / fonts on from any OS or browser (the universal fallback). Reset afterwards to return to appliance mode.

Install

  1. Flash CircuitPython: hold BOOTSEL, plug in, drop the CircuitPython .uf2 onto RPIRP2 (https://circuitpython.org/board/raspberry_pi_pico/ — Pico 2 / W builds also fine). A CIRCUITPY drive appears.
  2. Copy the whole bundle onto CIRCUITPY: boot.py, code.py (loader) + app.py (the application), programs.json, font_s.bin / font_m.bin / font_l.bin, logo.bin / midi.bin / usb.bin (the on-screen logo + MIDI/USB status icons), editor.html (offline editor), and the helper scripts. (code.py is a tiny stable loader; app.py is what firmware updates replace. The .bin assets — like the fonts — ride in the bundle, since the one-click updater only pushes app.py; if a .bin is missing the firmware just falls back to text and never fails to boot.)
  3. Powercycle (so boot.py takes effect). It boots into appliance mode and runs.

Program it from the web (push over USBMIDI)

In the editor (Chrome / Edge / Firefox), build a set list → setlist menu → 📟 Save to device. The editor sends it to the Pico over USBMIDI (SysEx); the firmware writes /programs.json, reloads, and acknowledges — the editor shows Saved ✓. 📥 Load from device reads it back.

Universal fallback (any browser / OS, even Safari): Save to device downloads programs.json when no device answers — boot the Pico in editor mode (hold A) and drag the file onto the CIRCUITPY drive.

Firmware updates (oneclick, A/B with autorollback)

code.py is a small stable loader; the application is app.py (it carries APP_VERSION). To update: the editor's ⋯ menu → ⬆ Update firmware… queries the device's version, fetches the latest from the site, shows device vs latest, and on confirm pushes the new app.py over USBMIDI. The device installs it to a trial slot (keeping the old build as app.bak) and reboots; if the new build doesn't boot, the loader automatically rolls back to app.bak. A build that runs cleanly for ~5 s is confirmed. No BOOTSEL, no dragging. (Updating CircuitPython itself still uses BOOTSEL + a .uf2, but that's rare. And the Pico is unbrickable as the ultimate backstop.)

Play through the computer's speakers

The Pico is a USBMIDI device and sends a note per click (GM drum note per lane, velocity by accent). In the editor click 🎹 Device audio, grant MIDI access, and press play on the device — the editor voices the groove through its full synth, out your speakers, locked to the device's clock. While a host is listening the screen shows a green MIDI badge and the buzzer automutes (the computer plays instead). The editor also syncs the device clock, so the practice log gets real wallclock timestamps.

Controls & the practice log

  • Joystick: up/down = tempo, left/right = previous/next groove.
  • Button A (GP15): play / stop. Button B (GP14): tap tempo.
  • Screen: VARASYS logo + firmware version + MIDI/USB status icons up top. Running time and bar count show of the segment total when the track has a bar length (b<n>), e.g. 1:23 of 2:00 and bar 3 of 16. A track with a tempo ramp (rmp) shows a ramp arrow + amount/every-bars (e.g. +4/2b); a gap-trainer track (tr) shows a play|rest symbol + bars (e.g. 2/2b). Main beats are squares, subdivisions are circles, with vertical gridlines lining the beats up across lanes.
  • RGB LED = run state: dim green when stopped ("on"), dim red while playing, with the beat pulsing brighter on top. (The screen background stays black — recoloring it forces a full-screen repaint.)
  • The firmware performs ramps (tempo steps every N bars) and gap-trainer cycles (silent rest bars).
  • Touchscreen: the bottom shows the practice log for the current track (time · BPM · duration · bars) — newest first. Plays under 5 s aren't logged. Tap a row to arm it (turns amber), tap again to delete.
  • RGB LED flashes the beat (amber accent / cyan normal / violet ghost); the buzzer clicks to match.
  • The log is saved to /history.json (next to programs.json) in appliance mode and survives powercycles.

programs.json

{ "title": "PolyMeter",
  "programs": [ { "name": "Four on the floor", "prog": "t120;kick:4;snare:4=.x.x;hatClosed:4/2" } ] }

Each prog is a program string from the editor (tempo, lanes, patterns, /2 subdivision, /2s swing, (3,8) Euclid, ~ polymeter, @-3 dB). The push above is the easy way to update it.

Calibration (flags at the top of code.py)

  • Red/blue swapped: flip MADCTL between 0x48 (default) and 0x40.
  • Colours look negative: toggle INVERT_COLORS.
  • Taps land wrong: set TOUCH_DEBUG = True, read the raw coords over USB serial, then set TOUCH_SWAP_XY / TOUCH_INVERT_X / TOUCH_INVERT_Y.
  • Joystick reversed: toggle JOY_INVERT_X / JOY_INVERT_Y.
  • Computer audio: MIDI_ENABLED (default on); MUTE_BUZZER forces the buzzer off even standalone.
  • LED too bright/dim: LED_BRIGHTNESS (0..1, default 0.15).
  • Screen tearing: SPI panels have no tearingeffect sync; SPI_BAUD (default 62.5 MHz) is pushed fast to minimise it — lower only if unstable.
  • Blank / garbled: the panel lot may differ; drop SPI_BAUD, and if it's a 240×320 ILI9341 rather than the 320×480 ST7796, the init/size need changing (this targets the 320×480 you have).
  • RGB LED uses the core neopixel_write (no library to install).

If code.py ever errors, CircuitPython prints the traceback on the screen and over USB serial — send me that. The fonts are the baked antialiased blobs from ../pico/gen_font.py. protect-firmware.sh (hide the firmware files) is mainly for editor mode — appliance mode already keeps the drive readonly.