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technicalkiwi:beta-1.03 technicalkiwi:beta-1.01
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compare: technicalkiwi:main
Branches Tags
technicalkiwi:main technicalkiwi:beta-1.0 technicalkiwi:preset
technicalkiwi:beta-1.03 technicalkiwi:beta-1.01

9 Commits
preset ... main

Author SHA1 Message Date
Jimmy
2a768376d0 chore(release): beta-1.03 
Co-authored-by: Cursor <cursoragent@cursor.com>
 2026-05-10 16:13:59 +12:00
Jimmy
170a0e05ab feat(patterns): align manual and auto behaviour 
Unify manual/auto timing semantics for key patterns, add preset background support, and improve runtime observability while keeping the driver responsive under beat-triggered selects.

Co-authored-by: Cursor <cursoragent@cursor.com>
 2026-05-09 20:07:58 +12:00
Jimmy
4879fcfe90 fix(patterns): use preset background fallback across animations 
Align pattern background rendering to use preset.background_or(...) and update pulse/radiate single-step behaviour to preserve visible frames and step progression.
 2026-05-09 14:28:05 +12:00
Jimmy
fbebe9f4f9 fix(patterns): correct non-blocking timing and blink off phase 
Co-authored-by: Cursor <cursoragent@cursor.com>
 2026-05-06 20:28:52 +12:00
Jimmy
a79c6f4dd3 fix(patterns): remove blocking sleeps from pattern loops 
Replace sleep-based timing in pattern generators with non-blocking tick checks so long delays do not block the main loop and risk watchdog resets.

Co-authored-by: Cursor <cursoragent@cursor.com>
 2026-05-04 22:37:33 +12:00
pi
2fcaf2f064 fix(driver): persist brightness when message includes save and b 
Co-authored-by: Cursor <cursoragent@cursor.com>
 2026-05-03 22:15:23 +12:00
pi
3b38264b70 chore(wifi): log connecting while waiting for STA 
Co-authored-by: Cursor <cursoragent@cursor.com>
 2026-05-03 21:27:29 +12:00
Jimmy
3ee89ce3b4 feat(driver): add HTTP routes, startup split, and binary envelope support 
Wire controller messages through new modules (background tasks, runtime state,
startup) and add binary envelope handling.

Co-authored-by: Cursor <cursoragent@cursor.com>
 2026-05-03 14:54:12 +12:00
Jimmy
74b4b495f9 feat(patterns): add expanded animation pack with smoke tests 
Add a broad set of new pattern modules and matching pattern smoke scripts so the new effects can be validated directly on-device.
 2026-04-23 20:10:01 +12:00
61 changed files with 2656 additions and 221 deletions
Expand all files Collapse all files

59
src/background_tasks.py Normal file
View File

@@ -0,0 +1,59 @@
import asyncio
import gc
import utime
from hello import broadcast_hello_udp
from wifi_sta import try_reconnect
_UDP_HELLO_ATTEMPT = 0
async def presets_loop(presets, wdt):
last_mem_log = utime.ticks_ms()
while True:
presets.tick()
wdt.feed()
if bool(getattr(presets, "debug", False)):
now = utime.ticks_ms()
if utime.ticks_diff(now, last_mem_log) >= 5000:
gc.collect()
print("mem runtime:", {"free": gc.mem_free(), "alloc": gc.mem_alloc()})
last_mem_log = now
# tick() does not await; yield so UDP hello and HTTP/WebSocket can run.
await asyncio.sleep(0)
async def udp_hello_loop_after_http_ready(sta_if, settings, wdt, runtime_state):
"""UDP hello on cadence; if STA drops, one reconnect campaign per iteration."""
global _UDP_HELLO_ATTEMPT
await asyncio.sleep(1)
started_ms = utime.ticks_ms()
while True:
try:
wifi_ok = sta_if.isconnected()
except Exception:
wifi_ok = False
if not wifi_ok:
ssid = settings.get("ssid") or ""
if ssid:
try_reconnect(sta_if, ssid, settings.get("password") or "", wdt)
try:
wifi_ok = sta_if.isconnected()
except Exception:
wifi_ok = False
if wifi_ok and runtime_state.hello:
_UDP_HELLO_ATTEMPT += 1
print("UDP hello broadcast attempt", _UDP_HELLO_ATTEMPT)
try:
broadcast_hello_udp(
sta_if,
settings.get("name", ""),
wait_reply=False,
wdt=wdt,
dual_destinations=True,
)
except Exception as ex:
print("UDP hello broadcast failed:", ex)
elapsed_ms = utime.ticks_diff(utime.ticks_ms(), started_ms)
interval_s = 10 if elapsed_ms < 120000 else 30
await asyncio.sleep(interval_s)

209
src/binary_envelope.py Normal file
View File

@@ -0,0 +1,209 @@
"""Decode compact binary controller envelopes — v2 native binary, v1 legacy JSON blobs."""
import json
import struct
BINARY_ENVELOPE_VERSION_1 = 1
BINARY_ENVELOPE_VERSION_2 = 2
HEADER_LEN = 5
def _brightness_0_255_from_wire(wire):
w = max(0, min(127, int(wire)))
return min(255, (w * 255) // 127)
def _decode_preset_record(buf, off):
nl = buf[off]
off += 1
name = buf[off : off + nl].decode("utf-8")
off += nl
pl = buf[off]
off += 1
pattern = buf[off : off + pl].decode("utf-8")
off += pl
nc = buf[off]
off += 1
colors = []
for _ in range(nc):
r, g, b = buf[off], buf[off + 1], buf[off + 2]
off += 3
colors.append("#%02x%02x%02x" % (r, g, b))
if off + 16 > len(buf):
raise ValueError("truncated")
delay, br, auto, n1, n2, n3, n4, n5, n6 = struct.unpack_from(
"<HBBhhhhhh", buf, off
)
off += 16
preset = {
"p": pattern,
"c": colors,
"d": delay,
"b": br,
"a": bool(auto),
"n1": n1,
"n2": n2,
"n3": n3,
"n4": n4,
"n5": n5,
"n6": n6,
}
return name, preset, off
def _decode_presets_blob(chunk):
if not chunk:
return {}
off = 0
count = chunk[off]
off += 1
out = {}
for _ in range(count):
name, preset, off = _decode_preset_record(chunk, off)
out[name] = preset
if off != len(chunk):
raise ValueError("presets blob mismatch")
return out
def _decode_select_blob(chunk):
if not chunk:
return {}
off = 0
count = chunk[off]
off += 1
out = {}
for _ in range(count):
dl = chunk[off]
off += 1
device = chunk[off : off + dl].decode("utf-8")
off += dl
pl = chunk[off]
off += 1
pname = chunk[off : off + pl].decode("utf-8")
off += pl
has_step = chunk[off]
off += 1
if has_step:
step = struct.unpack_from("<H", chunk, off)[0]
off += 2
out[device] = [pname, step]
else:
out[device] = [pname]
if off != len(chunk):
raise ValueError("select blob mismatch")
return out
def _decode_default_blob(chunk):
if not chunk:
return "", []
off = 0
nl = chunk[off]
off += 1
default_name = chunk[off : off + nl].decode("utf-8") if nl else ""
off += nl
nt = chunk[off]
off += 1
targets = []
for _ in range(nt):
tl = chunk[off]
off += 1
targets.append(chunk[off : off + tl].decode("utf-8"))
off += tl
if off != len(chunk):
raise ValueError("default blob mismatch")
return default_name, targets
def parse_binary_envelope_v2(buf):
if not isinstance(buf, (bytes, bytearray)) or len(buf) < HEADER_LEN:
return None
if buf[0] != BINARY_ENVELOPE_VERSION_2:
return None
lp = buf[2]
ls = buf[3]
ld = buf[4]
need = HEADER_LEN + lp + ls + ld
if len(buf) != need:
return None
off = HEADER_LEN
presets_chunk = buf[off : off + lp]
off += lp
select_chunk = buf[off : off + ls]
off += ls
default_chunk = buf[off : off + ld]
data = {"v": "1"}
br = buf[1]
if br < 128:
data["b"] = _brightness_0_255_from_wire(br)
try:
if lp:
data["presets"] = _decode_presets_blob(presets_chunk)
if ls:
data["select"] = _decode_select_blob(select_chunk)
if ld:
dname, targets = _decode_default_blob(default_chunk)
data["default"] = dname
data["targets"] = targets
except (ValueError, UnicodeError, TypeError, struct.error):
return None
return data
def parse_binary_envelope_v1(buf):
if not isinstance(buf, (bytes, bytearray)) or len(buf) < HEADER_LEN:
return None
if buf[0] != BINARY_ENVELOPE_VERSION_1:
return None
lp = buf[2]
ls = buf[3]
ld = buf[4]
need = HEADER_LEN + lp + ls + ld
if len(buf) != need:
return None
off = HEADER_LEN
presets_chunk = buf[off : off + lp]
off += lp
select_chunk = buf[off : off + ls]
off += ls
default_chunk = buf[off : off + ld]
data = {"v": "1"}
br = buf[1]
if br < 128:
data["b"] = _brightness_0_255_from_wire(br)
if lp:
try:
data["presets"] = json.loads(presets_chunk.decode("utf-8"))
except (ValueError, UnicodeError):
return None
if ls:
try:
data["select"] = json.loads(select_chunk.decode("utf-8"))
except (ValueError, UnicodeError):
return None
if ld:
try:
extra = json.loads(default_chunk.decode("utf-8"))
except (ValueError, UnicodeError):
return None
if isinstance(extra, dict):
for k, v in extra.items():
data[k] = v
return data
def parse_binary_envelope(buf):
d = parse_binary_envelope_v2(buf)
if d is not None:
return d
return parse_binary_envelope_v1(buf)

151
src/controller_messages.py
View File

@@ -3,6 +3,7 @@
import json
import socket
from binary_envelope import parse_binary_envelope
from utils import convert_and_reorder_colors
try:
@@ -11,15 +12,54 @@ except ImportError:
import os
def process_data(payload, settings, presets, controller_ip=None):
"""Read one controller message; json.loads (bytes or str), then apply fields."""
def _log_rx(payload) -> None:
"""Serial log when led-controller sends a message into ``process_data``."""
try:
data = json.loads(payload)
print(payload)
if data.get("v", "") != "1":
if isinstance(payload, (bytes, bytearray)):
n = len(payload)
if n == 0:
print("rx 0 B")
return
cap = 160
chunk = payload if n <= cap else payload[:cap]
try:
txt = bytes(chunk).decode("utf-8")
except Exception:
txt = str(chunk)
if n > cap:
txt = txt + "..."
print("rx", n, "B", txt)
else:
s = str(payload)
cap = 200
if len(s) <= cap:
print("rx", len(s), "C", s)
else:
print("rx", len(s), "C", s[:cap] + "...")
except Exception:
print("rx (logging failed)")
def process_data(payload, settings, presets, controller_ip=None):
"""Read one controller message; binary v1 envelope or JSON v1, then apply fields."""
_log_rx(payload)
data = None
if isinstance(payload, (bytes, bytearray)):
data = parse_binary_envelope(payload)
if data is None:
try:
data = json.loads(payload)
except (ValueError, TypeError):
return
else:
try:
data = json.loads(payload)
except (ValueError, TypeError):
return
except (ValueError, TypeError):
if data.get("v", "") != "1":
return
if "device_config" in data:
apply_device_config(data, settings, presets)
if "b" in data:
apply_brightness(data, settings, presets)
if "presets" in data:
@@ -36,6 +76,90 @@ def process_data(payload, settings, presets, controller_ip=None):
presets.save()
if "save" in data and "clear_presets" in data:
presets.save()
if "save" in data and "b" in data:
settings.save()
if "save" in data and "device_config" in data:
settings.save()
_VALID_DEVICE_COLOR_ORDERS = frozenset({"rgb", "rbg", "grb", "gbr", "brg", "bgr"})
_STARTUP_MODES = frozenset({"default", "last", "off"})
_MAX_DEVICE_LEDS = 2048
def apply_startup_pattern(settings, presets):
"""Apply power-on behaviour from ``startup_mode`` (default / last / off)."""
mode = str(settings.get("startup_mode", "default")).lower().strip()
if mode not in _STARTUP_MODES:
mode = "default"
if mode == "off":
if presets.select("off"):
return
presets.fill((0, 0, 0))
return
if mode == "last":
lp = settings.get("last_preset") or ""
if isinstance(lp, str) and lp.strip() and lp.strip() in presets.presets:
if presets.select(lp.strip()):
return
dp = settings.get("default", "")
if dp and dp in presets.presets:
if not presets.select(dp):
print("Startup preset failed (invalid pattern?):", dp)
def apply_device_config(data, settings, presets):
"""Apply fields from v1 ``device_config``; reload presets when strip length or colour order changes."""
dc = data.get("device_config")
if not isinstance(dc, dict):
return
strip_changed = False
meta_changed = False
if "name" in dc:
n = dc["name"]
if isinstance(n, str) and n.strip():
settings["name"] = n.strip()
meta_changed = True
if "num_leds" in dc:
try:
n = int(dc["num_leds"])
if 1 <= n <= _MAX_DEVICE_LEDS:
settings["num_leds"] = n
presets.update_num_leds(settings["led_pin"], n)
strip_changed = True
except (TypeError, ValueError):
pass
if "color_order" in dc:
co = str(dc["color_order"]).lower().strip()
if co in _VALID_DEVICE_COLOR_ORDERS:
settings["color_order"] = co
settings.color_order = settings.get_color_order(co)
strip_changed = True
if "startup_mode" in dc:
sm = str(dc["startup_mode"]).lower().strip()
if sm in _STARTUP_MODES:
settings["startup_mode"] = sm
meta_changed = True
if not strip_changed and not meta_changed:
return
if strip_changed:
prev = presets.selected
try:
presets.load(settings)
except Exception as e:
print("device_config: presets.load failed:", e)
if prev and prev in presets.presets:
presets.select(prev)
elif settings.get("default") and settings["default"] in presets.presets:
presets.select(settings["default"])
def record_last_preset(settings, preset_name):
"""Persist the last selected preset id (single entry in flash)."""
if not isinstance(preset_name, str) or not preset_name:
return
settings["last_preset"] = preset_name.strip()
settings.save()
def apply_brightness(data, settings, presets):
@@ -59,8 +183,14 @@ def apply_presets(data, settings, presets):
)
except (TypeError, ValueError, KeyError):
continue
if "bg" in preset_data:
try:
bg_color = convert_and_reorder_colors([preset_data["bg"]], settings)
if bg_color:
preset_data["bg"] = bg_color[0]
except (TypeError, ValueError, KeyError):
pass
presets.edit(id, preset_data)
print(f"Edited preset {id}: {preset_data.get('name', '')}")
def apply_select(data, settings, presets):
@@ -71,7 +201,8 @@ def apply_select(data, settings, presets):
return
preset_name = select_list[0]
step = select_list[1] if len(select_list) > 1 else None
presets.select(preset_name, step=step)
if presets.select(preset_name, step=step):
record_last_preset(settings, preset_name)
def apply_clear_presets(data, presets):
@@ -87,7 +218,6 @@ def apply_clear_presets(data, presets):
if not should_clear:
return
presets.delete_all()
print("Cleared all presets.")
def apply_default(data, settings, presets):
@@ -232,8 +362,5 @@ def apply_patterns_ota(data, presets, controller_ip=None):
updated += 1
if updated > 0:
presets.reload_patterns()
print("patterns_ota: updated", updated, "pattern file(s)")
else:
print("patterns_ota: no valid files downloaded")
except Exception as e:
print("patterns_ota failed:", e)

23
src/hello.py
View File

@@ -92,7 +92,6 @@ def broadcast_hello_udp(
"""
ip, mask, _gw, _dns = sta.ifconfig()
msg = pack_hello_line(sta, device_name)
print("hello:", msg)
sock = socket.socket(socket.AF_INET, socket.SOCK_DGRAM)
try:
@@ -121,11 +120,9 @@ def broadcast_hello_udp(
for dest_ip, dest_port in targets:
if wdt is not None:
wdt.feed()
label = "%s:%s" % (dest_ip, dest_port)
target = (dest_ip, dest_port)
try:
sock.sendto(msg, target)
print("sent hello ->", target)
except OSError as e:
print("sendto failed:", e)
continue
@@ -134,20 +131,12 @@ def broadcast_hello_udp(
if wdt is not None:
wdt.feed()
try:
data, addr = sock.recvfrom(2048)
print("reply from", addr, ":", data)
_data, addr = sock.recvfrom(2048)
remote_ip = addr[0]
if data != msg:
print("(warning: reply payload differs from hello; still using source IP.)")
discovered = remote_ip
print("Discovered controller at", remote_ip)
break
except OSError as e:
print("recv (no reply):", e, "via", label)
if dest_ip == "255.255.255.255":
print(
"(hint: many APs drop Wi-Fi client broadcast; try wired server or AP without client isolation.)"
)
except OSError:
pass
sock.close()
return discovered
@@ -171,18 +160,12 @@ def discover_controller_udp(device_name="", wdt=None):
print("hello: STA has no IP address.")
raise SystemExit(1)
print("STA IP:", ip, "mask:", mask)
discovered = broadcast_hello_udp(
sta,
device_name,
wait_reply=True,
wdt=wdt,
)
if discovered:
print("discover done; controller =", repr(discovered))
else:
print("discover done; controller not found")
return discovered

107
src/http_routes.py Normal file
View File

@@ -0,0 +1,107 @@
import json
from controller_messages import process_data
from microdot.websocket import WebSocketError, with_websocket
try:
import uos as os
except ImportError:
import os
def _safe_pattern_filename(name):
if not isinstance(name, str):
return False
if not name.endswith(".py"):
return False
if "/" in name or "\\" in name or ".." in name:
return False
return True
def register_routes(app, settings, presets, runtime_state):
@app.route("/ws")
@with_websocket
async def ws_handler(request, ws):
runtime_state.ws_connected()
controller_ip = None
try:
client_addr = getattr(request, "client_addr", None)
if isinstance(client_addr, (tuple, list)) and client_addr:
controller_ip = client_addr[0]
elif isinstance(client_addr, str):
controller_ip = client_addr
except Exception:
controller_ip = None
try:
while True:
data = await ws.receive()
if not data:
break
process_data(data, settings, presets, controller_ip=controller_ip)
except WebSocketError as e:
print("WS client disconnected:", e)
except OSError as e:
print("WS client dropped (OSError):", e)
finally:
runtime_state.ws_disconnected()
@app.post("/patterns/upload")
async def upload_pattern(request):
"""Receive one pattern file body from led-controller and reload patterns."""
raw_name = request.args.get("name")
reload_raw = request.args.get("reload", "1")
reload_patterns = str(reload_raw).strip().lower() not in ("0", "false", "no", "off")
if not isinstance(raw_name, str) or not raw_name.strip():
return json.dumps({"error": "name is required"}), 400, {"Content-Type": "application/json"}
body = request.body
if not isinstance(body, (bytes, bytearray)) or not body:
return json.dumps({"error": "code is required"}), 400, {"Content-Type": "application/json"}
try:
code = body.decode("utf-8")
except UnicodeError:
return json.dumps({"error": "body must be utf-8 text"}), 400, {"Content-Type": "application/json"}
if not code.strip():
return json.dumps({"error": "code is required"}), 400, {"Content-Type": "application/json"}
name = raw_name.strip()
if not name.endswith(".py"):
name += ".py"
if not _safe_pattern_filename(name) or name in ("__init__.py", "main.py"):
return json.dumps({"error": "invalid pattern filename"}), 400, {"Content-Type": "application/json"}
try:
os.mkdir("patterns")
except OSError:
pass
path = "patterns/" + name
try:
with open(path, "w") as f:
f.write(code)
if reload_patterns:
presets.reload_patterns()
except OSError as e:
print("patterns/upload failed:", e)
return json.dumps({"error": str(e)}), 500, {"Content-Type": "application/json"}
return json.dumps(
{
"message": "pattern uploaded",
"name": name,
"reloaded": reload_patterns,
}
), 201, {"Content-Type": "application/json"}
@app.post("/presets/upload")
async def upload_presets(request):
"""Receive v1 JSON with ``presets`` and apply/save on the driver."""
body = request.body
if not isinstance(body, (bytes, bytearray)) or not body:
return json.dumps({"error": "body is required"}), 400, {"Content-Type": "application/json"}
try:
process_data(body, settings, presets)
except Exception as e:
return json.dumps({"error": str(e)}), 400, {"Content-Type": "application/json"}
return json.dumps({"message": "presets applied"}), 200, {"Content-Type": "application/json"}

87
src/main.py
View File

@@ -8,38 +8,34 @@ import gc
from microdot import Microdot
from microdot.websocket import WebSocketError, with_websocket
from presets import Presets
from controller_messages import process_data
from hello import broadcast_hello_udp
from controller_messages import apply_startup_pattern, process_data
from runtime_state import RuntimeState
from background_tasks import udp_hello_loop_after_http_ready
from wifi_sta import connect_until_up
try:
import uos as os
except ImportError:
import os
wdt = machine.WDT(timeout=10000)
wdt.feed()
machine.freq(160000000)
settings = Settings()
print(settings)
wdt = machine.WDT(timeout=10000)
wdt.feed()
gc.collect()
print("mem before presets:", {"free": gc.mem_free(), "alloc": gc.mem_alloc()})
presets = Presets(settings["led_pin"], settings["num_leds"])
presets.load(settings)
presets.b = settings.get("brightness", 255)
presets.debug = bool(settings.get("debug", False))
gc.collect()
print("mem after presets:", {"free": gc.mem_free(), "alloc": gc.mem_alloc()})
default_preset = settings.get("default", "")
if default_preset and default_preset in presets.presets:
if presets.select(default_preset):
print(f"Selected startup preset: {default_preset}")
else:
print("Startup preset failed (invalid pattern?):", default_preset)
apply_startup_pattern(settings, presets)
# On ESP32-C3, soft reboots can leave Wi-Fi driver state allocated.
# Reset both interfaces and collect before bringing STA up.
@@ -52,12 +48,24 @@ utime.sleep_ms(100)
gc.collect()
sta_if.active(True)
sta_if.config(pm=network.WLAN.PM_NONE)
sta_if.connect(settings["ssid"], settings["password"])
while not sta_if.isconnected():
utime.sleep(1)
wdt.feed()
_boot_ssid = settings.get("ssid") or ""
if _boot_ssid:
connect_until_up(sta_if, _boot_ssid, settings.get("password") or "", wdt)
print(sta_if.ifconfig())
def _print_network_ips(controller_ip=None):
"""Always log STA address and led-controller (WS client) address when known."""
try:
led_ip = sta_if.ifconfig()[0]
except Exception:
led_ip = "?"
ctrl = controller_ip if controller_ip else "(not connected)"
print("led-driver IP:", led_ip, " led-controller IP:", ctrl)
_print_network_ips()
runtime_state = RuntimeState()
app = Microdot()
@@ -75,7 +83,7 @@ def _safe_pattern_filename(name):
@app.route("/ws")
@with_websocket
async def ws_handler(request, ws):
print("WS client connected")
runtime_state.ws_connected()
controller_ip = None
try:
client_addr = getattr(request, "client_addr", None)
@@ -85,20 +93,19 @@ async def ws_handler(request, ws):
controller_ip = client_addr
except Exception:
controller_ip = None
print("WS controller_ip:", controller_ip)
_print_network_ips(controller_ip)
try:
while True:
data = await ws.receive()
if not data:
print("WS client disconnected (closed)")
break
print("WS recv bytes:", len(data) if isinstance(data, (bytes, bytearray)) else len(str(data)))
print(data)
process_data(data, settings, presets, controller_ip=controller_ip)
except WebSocketError as e:
print("WS client disconnected:", e)
except OSError as e:
print("WS client dropped (OSError):", e)
finally:
runtime_state.ws_disconnected()
@app.post("/patterns/upload")
@@ -107,7 +114,6 @@ async def upload_pattern(request):
raw_name = request.args.get("name")
reload_raw = request.args.get("reload", "1")
reload_patterns = str(reload_raw).strip().lower() not in ("0", "false", "no", "off")
print("patterns/upload request:", {"name": raw_name, "reload": reload_patterns})
if not isinstance(raw_name, str) or not raw_name.strip():
return json.dumps({"error": "name is required"}), 400, {
@@ -115,15 +121,12 @@ async def upload_pattern(request):
}
body = request.body
if not isinstance(body, (bytes, bytearray)) or not body:
print("patterns/upload rejected: empty body")
return json.dumps({"error": "code is required"}), 400, {
"Content-Type": "application/json"
}
print("patterns/upload body_bytes:", len(body))
try:
code = body.decode("utf-8")
except UnicodeError:
print("patterns/upload rejected: body not utf-8")
return json.dumps({"error": "body must be utf-8 text"}), 400, {
"Content-Type": "application/json"
}
@@ -147,18 +150,15 @@ async def upload_pattern(request):
path = "patterns/" + name
try:
print("patterns/upload writing:", path)
with open(path, "w") as f:
f.write(code)
if reload_patterns:
print("patterns/upload reloading patterns")
presets.reload_patterns()
except OSError as e:
print("patterns/upload failed:", e)
return json.dumps({"error": str(e)}), 500, {
"Content-Type": "application/json"
}
print("patterns/upload success:", {"name": name, "reloaded": reload_patterns})
return json.dumps({
"message": "pattern uploaded",
@@ -172,35 +172,14 @@ async def presets_loop():
while True:
presets.tick()
wdt.feed()
if bool(getattr(presets, "debug", False)):
now = utime.ticks_ms()
if utime.ticks_diff(now, last_mem_log) >= 5000:
gc.collect()
print("mem runtime:", {"free": gc.mem_free(), "alloc": gc.mem_alloc()})
last_mem_log = now
# tick() does not await; yield so UDP hello and HTTP/WebSocket can run.
await asyncio.sleep(0)
async def _udp_hello_after_http_ready():
"""Hello must run after the HTTP server binds, or discovery clients time out on /ws."""
await asyncio.sleep(1)
print("UDP hello: broadcasting…")
try:
broadcast_hello_udp(
sta_if,
settings.get("name", ""),
wait_reply=False,
wdt=wdt,
dual_destinations=True,
)
except Exception as ex:
print("UDP hello broadcast failed:", ex)
async def main(port=80):
asyncio.create_task(presets_loop())
asyncio.create_task(_udp_hello_after_http_ready())
asyncio.create_task(
udp_hello_loop_after_http_ready(sta_if, settings, wdt, runtime_state)
)
await app.start_server(host="0.0.0.0", port=port)

31
src/patterns/aurora.py Normal file
View File

@@ -0,0 +1,31 @@
import utime
class Aurora:
def __init__(self, driver):
self.driver = driver
def run(self, preset):
colors = preset.c if preset.c else [(40, 200, 140), (80, 120, 255), (160, 80, 220)]
bands = max(1, int(preset.n1) if int(preset.n1) > 0 else 3)
shimmer = max(0, min(255, int(preset.n2) if int(preset.n2) > 0 else 40))
phase = self.driver.step % 256
last = utime.ticks_ms()
while True:
d = max(1, int(preset.d))
now = utime.ticks_ms()
if utime.ticks_diff(now, last) >= d:
for i in range(self.driver.num_leds):
idx = ((i * bands) // max(1, self.driver.num_leds) + (phase // 32)) % len(colors)
c = self.driver.apply_brightness(colors[idx], preset.b)
w = (255 - abs(128 - ((i * 8 + phase) & 255)) * 2)
w = max(0, min(255, w + shimmer))
self.driver.n[i] = ((c[0]*w)//255, (c[1]*w)//255, (c[2]*w)//255)
self.driver.n.write()
phase = (phase + 1) & 255
self.driver.step = phase
last = utime.ticks_add(last, d)
if not preset.a:
yield
return
yield

29
src/patterns/bar_graph.py Normal file
View File

@@ -0,0 +1,29 @@
import utime
class BarGraph:
def __init__(self, driver):
self.driver = driver
def run(self, preset):
colors = preset.c if preset.c else [(0, 255, 0), (255, 80, 0)]
last_update = utime.ticks_ms()
while True:
delay_ms = max(1, int(preset.d))
now = utime.ticks_ms()
if utime.ticks_diff(now, last_update) >= delay_ms:
level = max(0, min(100, int(preset.n1) if int(preset.n1) >= 0 else 50))
target = (self.driver.num_leds * level) // 100
lit = self.driver.apply_brightness(colors[0], preset.b)
unlit = self.driver.apply_brightness(
preset.background_or(colors),
preset.b,
)
for i in range(self.driver.num_leds):
self.driver.n[i] = lit if i < target else unlit
self.driver.n.write()
last_update = utime.ticks_add(last_update, delay_ms)
if not preset.a:
yield
return
yield

5
src/patterns/blink.py
View File

@@ -9,6 +9,7 @@ class Blink:
"""Blink pattern: toggles LEDs on/off using preset delay, cycling through colors."""
# Use provided colors, or default to white if none
colors = preset.c if preset.c else [(255, 255, 255)]
bg_color = self.driver.apply_brightness(preset.background_or(colors), preset.b)
color_index = 0
state = True # True = on, False = off
last_update = utime.ticks_ms()
@@ -25,8 +26,8 @@ class Blink:
# Advance to next color for the next "on" phase
color_index += 1
else:
# "Off" phase: turn all LEDs off
self.driver.fill((0, 0, 0))
# Inactive phase uses the preset background color.
self.driver.fill(bg_color)
state = not state
last_update = utime.ticks_add(last_update, delay_ms)
# Yield once per tick so other logic can run

40
src/patterns/breathing_dual.py Normal file
View File

@@ -0,0 +1,40 @@
import utime
class BreathingDual:
def __init__(self, driver):
self.driver = driver
def run(self, preset):
colors = preset.c if preset.c else [(255, 0, 140), (0, 120, 255)]
phase_offset = max(0, min(255, int(preset.n1)))
ease = max(1, int(preset.n2) if int(preset.n2) > 0 else 1)
phase = self.driver.step % 256
last = utime.ticks_ms()
while True:
d = max(1, int(preset.d))
now = utime.ticks_ms()
if utime.ticks_diff(now, last) >= d:
p1 = phase
p2 = (phase + phase_offset) & 255
t1 = 255 - abs(128 - p1) * 2
t2 = 255 - abs(128 - p2) * 2
if ease > 1:
t1 = (t1 * t1) // 255
t2 = (t2 * t2) // 255
c1 = self.driver.apply_brightness(colors[0], preset.b)
c2 = self.driver.apply_brightness(colors[1 % len(colors)] if len(colors) > 1 else colors[0], preset.b)
half = self.driver.num_leds // 2
for i in range(self.driver.num_leds):
if i < half:
self.driver.n[i] = ((c1[0]*t1)//255, (c1[1]*t1)//255, (c1[2]*t1)//255)
else:
self.driver.n[i] = ((c2[0]*t2)//255, (c2[1]*t2)//255, (c2[2]*t2)//255)
self.driver.n.write()
phase = (phase + 2) & 255
self.driver.step = phase
last = utime.ticks_add(last, d)
if not preset.a:
yield
return
yield

13
src/patterns/chase.py
View File

@@ -26,6 +26,7 @@ class Chase:
color0 = self.driver.apply_brightness(color0, preset.b)
color1 = self.driver.apply_brightness(color1, preset.b)
bg_color = self.driver.apply_brightness(preset.background_or(colors), preset.b)
n1 = max(1, int(preset.n1)) # LEDs of color 0
n2 = max(1, int(preset.n2)) # LEDs of color 1
@@ -35,7 +36,7 @@ class Chase:
segment_length = n1 + n2
# Calculate position from step_count
step_count = self.driver.step
step_count = int(self.driver.step) % 2
# Position alternates: step 0 adds n3, step 1 adds n4, step 2 adds n3, etc.
if step_count % 2 == 0:
# Even steps: (step_count//2) pairs of (n3+n4) plus one extra n3
@@ -53,7 +54,7 @@ class Chase:
# If auto is False, run a single step and then stop
if not preset.a:
# Clear all LEDs
self.driver.n.fill((0, 0, 0))
self.driver.n.fill(bg_color)
# Draw repeating pattern starting at position
for i in range(self.driver.num_leds):
@@ -69,9 +70,10 @@ class Chase:
self.driver.n[i] = color1
self.driver.n.write()
print("[chase] step", step_count)
# Increment step for next beat
self.driver.step = step_count + 1
self.driver.step = (step_count + 1) % 2
# Allow tick() to advance the generator once
yield
@@ -98,7 +100,7 @@ class Chase:
position += max_pos
# Clear all LEDs
self.driver.n.fill((0, 0, 0))
self.driver.n.fill(bg_color)
# Draw repeating pattern starting at position
for i in range(self.driver.num_leds):
@@ -114,9 +116,10 @@ class Chase:
self.driver.n[i] = color1
self.driver.n.write()
print("[chase] step", step_count)
# Increment step
step_count += 1
step_count = (step_count + 1) % 2
self.driver.step = step_count
last_update = utime.ticks_add(last_update, transition_duration)
transition_duration = max(10, int(preset.d))

6
src/patterns/circle.py
View File

@@ -31,10 +31,10 @@ class Circle:
base0 = base1 = (255, 255, 255)
elif len(colors) == 1:
base0 = colors[0]
base1 = (0, 0, 0)
base1 = preset.background_or(colors)
else:
base0 = colors[0]
base1 = colors[1]
base1 = preset.background_or(colors)
color0 = self.driver.apply_brightness(base0, preset.b)
color1 = self.driver.apply_brightness(base1, preset.b)
@@ -46,7 +46,7 @@ class Circle:
if phase == "off":
self.driver.n.fill(color1)
else:
self.driver.n.fill((0, 0, 0))
self.driver.n.fill(color1)
# Calculate segment length
segment_length = (head - tail) % self.driver.num_leds

33
src/patterns/clock_sweep.py Normal file
View File

@@ -0,0 +1,33 @@
import utime
class ClockSweep:
def __init__(self, driver):
self.driver = driver
def run(self, preset):
colors = preset.c if preset.c else [(255, 255, 255), (60, 60, 60)]
width = max(1, int(preset.n1) if int(preset.n1) > 0 else 1)
marker = max(0, int(preset.n2) if int(preset.n2) > 0 else 0)
pos = self.driver.step % max(1, self.driver.num_leds)
last = utime.ticks_ms()
while True:
d = max(1, int(preset.d))
now = utime.ticks_ms()
if utime.ticks_diff(now, last) >= d:
bg = self.driver.apply_brightness(preset.background_or(colors), preset.b)
fg = self.driver.apply_brightness(colors[0], preset.b)
for i in range(self.driver.num_leds):
self.driver.n[i] = bg
if marker > 0 and i % marker == 0:
self.driver.n[i] = ((bg[0]*2)//3, (bg[1]*2)//3, (bg[2]*2)//3)
for w in range(width):
self.driver.n[(pos + w) % self.driver.num_leds] = fg
self.driver.n.write()
pos = (pos + 1) % max(1, self.driver.num_leds)
self.driver.step = pos
last = utime.ticks_add(last, d)
if not preset.a:
yield
return
yield

44
src/patterns/comet_dual.py Normal file
View File

@@ -0,0 +1,44 @@
import utime
class CometDual:
def __init__(self, driver):
self.driver = driver
def run(self, preset):
colors = preset.c if preset.c else [(255, 255, 255)]
tail = max(1, int(preset.n1) if int(preset.n1) > 0 else 6)
speed = max(1, int(preset.n2) if int(preset.n2) > 0 else 1)
gap = max(0, int(preset.n3))
p1 = 0
p2 = self.driver.num_leds - 1 - gap
last = utime.ticks_ms()
while True:
d = max(1, int(preset.d))
now = utime.ticks_ms()
if utime.ticks_diff(now, last) >= d:
bg_color = self.driver.apply_brightness(preset.background_or(colors), preset.b)
for i in range(self.driver.num_leds):
self.driver.n[i] = bg_color
c1 = self.driver.apply_brightness(colors[0 % len(colors)], preset.b)
c2 = self.driver.apply_brightness(colors[1 % len(colors)] if len(colors) > 1 else colors[0], preset.b)
for t in range(tail):
i1 = p1 - t
if 0 <= i1 < self.driver.num_leds:
s = (255 * (tail - t)) // max(1, tail)
self.driver.n[i1] = ((c1[0]*s)//255, (c1[1]*s)//255, (c1[2]*s)//255)
i2 = p2 + t
if 0 <= i2 < self.driver.num_leds:
s = (255 * (tail - t)) // max(1, tail)
self.driver.n[i2] = ((c2[0]*s)//255, (c2[1]*s)//255, (c2[2]*s)//255)
self.driver.n.write()
p1 += speed
p2 -= speed
if p1 - tail > self.driver.num_leds and p2 + tail < 0:
p1 = 0
p2 = self.driver.num_leds - 1 - gap
last = utime.ticks_add(last, d)
if not preset.a:
yield
return
yield

35
src/patterns/fireflies.py Normal file
View File

@@ -0,0 +1,35 @@
import random
import utime
class Fireflies:
def __init__(self, driver):
self.driver = driver
def run(self, preset):
colors = preset.c if preset.c else [(255, 210, 80), (120, 255, 120)]
count = max(1, int(preset.n1) if int(preset.n1) > 0 else 6)
speed = max(1, int(preset.n2) if int(preset.n2) > 0 else 8)
bugs = [[random.randint(0, max(0, self.driver.num_leds - 1)), random.randint(0, 255)] for _ in range(count)]
last = utime.ticks_ms()
while True:
d = max(1, int(preset.d))
now = utime.ticks_ms()
if utime.ticks_diff(now, last) >= d:
bg_color = self.driver.apply_brightness(preset.background_or(colors), preset.b)
for i in range(self.driver.num_leds):
self.driver.n[i] = bg_color
for b in bugs:
idx, ph = b
tri = 255 - abs(128 - ph) * 2
c = self.driver.apply_brightness(colors[idx % len(colors)], preset.b)
self.driver.n[idx] = ((c[0]*tri)//255, (c[1]*tri)//255, (c[2]*tri)//255)
b[1] = (ph + speed) & 255
if random.randint(0, 31) == 0:
b[0] = random.randint(0, max(0, self.driver.num_leds - 1))
self.driver.n.write()
last = utime.ticks_add(last, d)
if not preset.a:
yield
return
yield

57
src/patterns/gradient_scroll.py Normal file
View File

@@ -0,0 +1,57 @@
import utime
class GradientScroll:
def __init__(self, driver):
self.driver = driver
def _render(self, colors, phase, brightness):
num_leds = self.driver.num_leds
color_count = len(colors)
if num_leds <= 0 or color_count <= 0:
return
if color_count == 1:
self.driver.fill(self.driver.apply_brightness(colors[0], brightness))
return
full_span = color_count * 256
phase_shift = (phase * full_span) // 256
for i in range(num_leds):
pos = ((i * full_span) // num_leds + phase_shift) % full_span
idx = pos // 256
frac = pos & 255
c1 = colors[idx]
c2 = colors[(idx + 1) % color_count]
blended = (
c1[0] + ((c2[0] - c1[0]) * frac) // 256,
c1[1] + ((c2[1] - c1[1]) * frac) // 256,
c1[2] + ((c2[2] - c1[2]) * frac) // 256,
)
self.driver.n[i] = self.driver.apply_brightness(blended, brightness)
self.driver.n.write()
def run(self, preset):
"""Scrolling blended gradient.
n1: phase step amount (default 1)
"""
colors = preset.c if preset.c else [(255, 0, 0), (0, 0, 255)]
phase = self.driver.step % 256
step_amount = max(1, int(preset.n1) if int(preset.n1) > 0 else 1)
last_update = utime.ticks_ms()
while True:
delay_ms = max(1, int(preset.d))
now = utime.ticks_ms()
if utime.ticks_diff(now, last_update) >= delay_ms:
self._render(colors, phase, preset.b)
phase = (phase + step_amount) % 256
self.driver.step = phase
last_update = utime.ticks_add(last_update, delay_ms)
if not preset.a:
yield
return
yield

36
src/patterns/heartbeat.py Normal file
View File

@@ -0,0 +1,36 @@
import utime
class Heartbeat:
def __init__(self, driver):
self.driver = driver
def run(self, preset):
colors = preset.c if preset.c else [(255, 0, 40)]
phase = 0
phase_start = utime.ticks_ms()
did_manual_pulse = False
while True:
p1 = max(20, int(preset.n1) if int(preset.n1) > 0 else 120)
p2 = max(20, int(preset.n2) if int(preset.n2) > 0 else 80)
pause = max(20, int(preset.n3) if int(preset.n3) > 0 else 500)
beat_gap = max(20, int(preset.d))
colors = preset.c if preset.c else [(255, 0, 40)]
lit_color = self.driver.apply_brightness(colors[0], preset.b)
bg_color = self.driver.apply_brightness(preset.background_or(colors), preset.b)
phase_durations = (p1, beat_gap, p2, pause)
phase_colors = (lit_color, bg_color, lit_color, bg_color)
now = utime.ticks_ms()
while utime.ticks_diff(now, phase_start) >= phase_durations[phase]:
phase_start = utime.ticks_add(phase_start, phase_durations[phase])
phase = (phase + 1) % 4
self.driver.fill(phase_colors[phase])
yield
if not preset.a:
if did_manual_pulse or phase == 0:
self.driver.fill(bg_color)
yield
return
did_manual_pulse = True

31
src/patterns/marquee.py Normal file
View File

@@ -0,0 +1,31 @@
import utime
class Marquee:
def __init__(self, driver):
self.driver = driver
def run(self, preset):
colors = preset.c if preset.c else [(255, 255, 255)]
on_len = max(1, int(preset.n1) if int(preset.n1) > 0 else 3)
off_len = max(1, int(preset.n2) if int(preset.n2) > 0 else 2)
step = max(1, int(preset.n3) if int(preset.n3) > 0 else 1)
phase = self.driver.step % (on_len + off_len)
last = utime.ticks_ms()
while True:
d = max(1, int(preset.d))
now = utime.ticks_ms()
if utime.ticks_diff(now, last) >= d:
c = self.driver.apply_brightness(colors[0], preset.b)
bg_color = self.driver.apply_brightness(preset.background_or(colors), preset.b)
for i in range(self.driver.num_leds):
m = (i + phase) % (on_len + off_len)
self.driver.n[i] = c if m < on_len else bg_color
self.driver.n.write()
phase = (phase + step) % (on_len + off_len)
self.driver.step = phase
last = utime.ticks_add(last, d)
if not preset.a:
yield
return
yield

62
src/patterns/meteor_rain.py Normal file
View File

@@ -0,0 +1,62 @@
import utime
class MeteorRain:
def __init__(self, driver):
self.driver = driver
def _fade(self, color, fade_amount):
return (
(color[0] * fade_amount) // 255,
(color[1] * fade_amount) // 255,
(color[2] * fade_amount) // 255,
)
def run(self, preset):
"""Single meteor with a fading tail.
n1: tail length (default 8)
n2: speed in LEDs per frame (default 1)
n3: fade amount per frame, 1..255 (default 192)
"""
colors = preset.c if preset.c else [(255, 255, 255)]
color_index = 0
head = 0
direction = 1
last_update = utime.ticks_ms()
while True:
delay_ms = max(1, int(preset.d))
tail_len = max(1, int(preset.n1) if int(preset.n1) > 0 else 8)
speed = max(1, int(preset.n2) if int(preset.n2) > 0 else 1)
fade_amount = int(preset.n3) if int(preset.n3) > 0 else 192
fade_amount = max(1, min(255, fade_amount))
now = utime.ticks_ms()
if utime.ticks_diff(now, last_update) >= delay_ms:
for i in range(self.driver.num_leds):
self.driver.n[i] = self._fade(self.driver.n[i], fade_amount)
base = colors[color_index % len(colors)]
lit = self.driver.apply_brightness(base, preset.b)
if 0 <= head < self.driver.num_leds:
self.driver.n[head] = lit
self.driver.n.write()
head += direction * speed
if head >= self.driver.num_leds + tail_len:
head = self.driver.num_leds - 1
direction = -1
color_index += 1
elif head < -tail_len:
head = 0
direction = 1
color_index += 1
last_update = utime.ticks_add(last_update, delay_ms)
if not preset.a:
yield
return
yield

31
src/patterns/orbit.py Normal file
View File

@@ -0,0 +1,31 @@
import utime
class Orbit:
def __init__(self, driver):
self.driver = driver
def run(self, preset):
colors = preset.c if preset.c else [(255, 255, 255), (0, 180, 255), (255, 0, 120)]
orbits = max(1, int(preset.n1) if int(preset.n1) > 0 else 3)
speed = max(1, int(preset.n2) if int(preset.n2) > 0 else 1)
phase = self.driver.step % 256
last = utime.ticks_ms()
while True:
d = max(1, int(preset.d))
now = utime.ticks_ms()
if utime.ticks_diff(now, last) >= d:
bg_color = self.driver.apply_brightness(preset.background_or(colors), preset.b)
for i in range(self.driver.num_leds):
self.driver.n[i] = bg_color
for k in range(orbits):
idx = ((phase * (k + 1)) // 8 + (k * self.driver.num_leds // max(1, orbits))) % max(1, self.driver.num_leds)
self.driver.n[idx] = self.driver.apply_brightness(colors[k % len(colors)], preset.b)
self.driver.n.write()
phase = (phase + speed) & 255
self.driver.step = phase
last = utime.ticks_add(last, d)
if not preset.a:
yield
return
yield

81
src/patterns/palette_morph.py Normal file
View File

@@ -0,0 +1,81 @@
import utime
class PaletteMorph:
def __init__(self, driver):
self.driver = driver
def _blend(self, c1, c2, t):
return (
c1[0] + ((c2[0] - c1[0]) * t) // 255,
c1[1] + ((c2[1] - c1[1]) * t) // 255,
c1[2] + ((c2[2] - c1[2]) * t) // 255,
)
def run(self, preset):
"""Living color field (non-scrolling palette warp).
Different from `colour_cycle`: this does not scroll a fixed gradient.
Instead, each LED breathes/warps through the palette with local phase
offsets so the strip looks alive.
n1: morph duration (ms)
n2: warp rate
n3: spatial turbulence amount
"""
colors = preset.c if preset.c else [(255, 0, 0), (0, 255, 0), (0, 0, 255)]
if len(colors) < 2:
while True:
self.driver.fill(self.driver.apply_brightness(colors[0], preset.b))
yield
morph = max(50, int(preset.n1) if int(preset.n1) > 0 else 1200)
warp_rate = max(1, int(preset.n2) if int(preset.n2) > 0 else 3)
turbulence = max(1, int(preset.n3) if int(preset.n3) > 0 else 24)
base_idx = 0
start = utime.ticks_ms()
phase = self.driver.step % 256
last_update = start
while True:
now = utime.ticks_ms()
delay_ms = max(1, int(preset.d))
if utime.ticks_diff(now, last_update) < delay_ms:
yield
continue
last_update = utime.ticks_add(last_update, delay_ms)
age = utime.ticks_diff(now, start)
if age < morph:
t = (age * 255) // morph
else:
t = 255
# Global morph anchor between neighboring palette colors.
a = colors[base_idx % len(colors)]
b = colors[(base_idx + 1) % len(colors)]
anchor = self._blend(a, b, t)
for i in range(self.driver.num_leds):
# Non-linear local warp per LED to create "living" motion.
pos = (i * 256) // max(1, self.driver.num_leds)
wobble = ((pos * turbulence) // 32 + phase + (t // 2)) & 255
breath = 255 - abs(128 - wobble) * 2
local = (pos + (breath // 3) + (t // 4)) % 256
idx = (base_idx + ((local * len(colors)) // 256)) % len(colors)
frac = (local * len(colors)) & 255
c1 = colors[idx]
c2 = colors[(idx + 1) % len(colors)]
grad = self._blend(c1, c2, frac)
# Blend with anchor to keep coherent palette morphing.
out = self._blend(grad, anchor, 80)
self.driver.n[i] = self.driver.apply_brightness(out, preset.b)
self.driver.n.write()
if age >= morph:
base_idx = (base_idx + 1) % len(colors)
start = now
if not preset.a:
yield
return
phase = (phase + warp_rate) & 255
self.driver.step = phase
yield

39
src/patterns/plasma.py Normal file
View File

@@ -0,0 +1,39 @@
import utime
class Plasma:
def __init__(self, driver):
self.driver = driver
def _wheel(self, pos):
if pos < 85:
return (pos * 3, 255 - pos * 3, 0)
if pos < 170:
pos -= 85
return (255 - pos * 3, 0, pos * 3)
pos -= 170
return (0, pos * 3, 255 - pos * 3)
def run(self, preset):
scale = max(1, int(preset.n1) if int(preset.n1) > 0 else 6)
speed = max(1, int(preset.n2) if int(preset.n2) > 0 else 2)
contrast = max(1, int(preset.n3) if int(preset.n3) > 0 else 2)
t = self.driver.step % 256
last = utime.ticks_ms()
while True:
d = max(1, int(preset.d))
now = utime.ticks_ms()
if utime.ticks_diff(now, last) >= d:
for i in range(self.driver.num_leds):
v = ((i * scale + t) & 255)
v2 = (((i * scale // max(1, contrast)) - (t * 2)) & 255)
c = self._wheel((v + v2) & 255)
self.driver.n[i] = self.driver.apply_brightness(c, preset.b)
self.driver.n.write()
t = (t + speed) % 256
self.driver.step = t
last = utime.ticks_add(last, d)
if not preset.a:
yield
return
yield

24
src/patterns/pulse.py
View File

@@ -6,18 +6,25 @@ class Pulse:
self.driver = driver
def run(self, preset):
self.driver.off()
# Get colors from preset
colors = preset.c
if not colors:
colors = [(255, 255, 255)]
bg_base = preset.background_or(colors)
self.driver.fill(self.driver.apply_brightness(bg_base, preset.b))
color_index = 0
color_index = self.driver.step % max(1, len(colors))
if not preset.a:
# Manual / beat trigger: each select restarts this generator and resets
# cycle_start below. Advancing step here makes each beat the next colour
# without requiring a full wall-clock cycle between beats.
nclr = max(1, len(colors))
self.driver.step = (color_index + 1) % nclr
cycle_start = utime.ticks_ms()
# State machine based pulse using a single generator loop
while True:
bg_color = self.driver.apply_brightness(bg_base, preset.b)
# Read current timing parameters from preset
attack_ms = max(0, int(preset.n1)) # Attack time in ms
hold_ms = max(0, int(preset.n2)) # Hold time in ms
@@ -49,14 +56,15 @@ class Pulse:
self.driver.fill(self.driver.apply_brightness(color, preset.b))
elif elapsed < total_ms:
# Delay phase: LEDs off between pulses
self.driver.fill((0, 0, 0))
self.driver.fill(bg_color)
else:
# End of cycle, move to next color and restart timing
color_index += 1
cycle_start = now
# End of cycle: auto advances colour and loops; manual already
# advanced step at run start for the next beat.
if not preset.a:
break
# Skip drawing this tick, start next cycle
color_index = (color_index + 1) % max(1, len(colors))
self.driver.step = color_index
cycle_start = now
yield
continue

113
src/patterns/radiate.py
View File

@@ -1,11 +1,13 @@
import utime
_RADIATE_DBG_INTERVAL_MS = 1000
# When ``driver.debug`` is True (``settings["debug"]``), log at most this often (ms).
_RADIATE_DBG_INTERVAL_MS = 800
class Radiate:
def __init__(self, driver):
self.driver = driver
self._color_step = 0
def run(self, preset):
"""Radiate from nodes every n1 LEDs, retriggering every delay (d).
@@ -16,15 +18,14 @@ class Radiate:
- d: retrigger interval in ms
"""
colors = preset.c if preset.c else [(255, 255, 255)]
base_on = colors[0]
base_off = colors[1] if len(colors) > 1 else (0, 0, 0)
base_off = preset.background_or(colors)
spacing = max(1, int(preset.n1))
outward_ms = max(1, int(preset.n2))
return_ms = max(1, int(preset.n3))
max_dist = spacing // 2
lit_color = self.driver.apply_brightness(base_on, preset.b)
lit_color = self.driver.apply_brightness(colors[self._color_step % max(1, len(colors))], preset.b)
off_color = self.driver.apply_brightness(base_off, preset.b)
now = utime.ticks_ms()
@@ -34,17 +35,70 @@ class Radiate:
dbg_banner = False
if not preset.a:
# Single-step render uses only the first instant pulse.
active_pulses = [utime.ticks_ms()]
# Manual mode: one-shot pulse using the same ms-based timing as auto.
cycle_start = utime.ticks_ms()
while True:
dbg = bool(getattr(self.driver, "debug", False))
spacing = max(1, int(preset.n1))
outward_ms = max(1, int(preset.n2))
return_ms = max(1, int(preset.n3))
max_dist = spacing // 2
on_color = colors[self._color_step % max(1, len(colors))]
lit_color = self.driver.apply_brightness(on_color, preset.b)
off_color = self.driver.apply_brightness(base_off, preset.b)
pulse_lifetime = outward_ms + return_ms
now = utime.ticks_ms()
age = utime.ticks_diff(now, cycle_start)
if age < 1:
age = 1
if age <= outward_ms:
front = (age * max_dist + outward_ms - 1) // outward_ms
elif age <= outward_ms + return_ms:
back_age = age - outward_ms
remaining = return_ms - back_age
front = (remaining * max_dist + return_ms - 1) // return_ms
else:
front = 0
lit_count = 0
for i in range(self.driver.num_leds):
offset = (i + (spacing // 2)) % spacing
dist = min(offset, spacing - offset)
lit = dist <= front
self.driver.n[i] = lit_color if lit else off_color
if lit:
lit_count += 1
self.driver.n.write()
if dbg:
if not dbg_banner:
dbg_banner = True
print(
"[radiate] debug on n1=%s n2=%s n3=%s d=%s auto=%s num_leds=%d"
% (preset.n1, preset.n2, preset.n3, preset.d, preset.a, self.driver.num_leds)
)
print(
"[radiate] manual frame age=%d/%d front=%d lit=%d"
% (age, pulse_lifetime, front, lit_count)
)
yield
if age >= pulse_lifetime:
self._color_step += 1
return
while True:
now = utime.ticks_ms()
dbg = bool(getattr(self.driver, "debug", False))
delay_ms = max(1, int(preset.d))
spacing = max(1, int(preset.n1))
outward_ms = max(1, int(preset.n2))
return_ms = max(1, int(preset.n3))
pulse_lifetime = outward_ms + return_ms
max_dist = spacing // 2
lit_color = self.driver.apply_brightness(base_on, preset.b)
on_color = colors[self._color_step % max(1, len(colors))]
lit_color = self.driver.apply_brightness(on_color, preset.b)
off_color = self.driver.apply_brightness(base_off, preset.b)
if preset.a and utime.ticks_diff(now, last_trigger) >= delay_ms:
@@ -52,33 +106,26 @@ class Radiate:
# prevents overlap from keeping color[0] continuously visible.
active_pulses = [now]
last_trigger = utime.ticks_add(last_trigger, delay_ms)
if bool(getattr(self.driver, "debug", False)):
print(
"[radiate] trigger spacing=%d out=%d in=%d delay=%d"
% (spacing, outward_ms, return_ms, delay_ms)
)
self._color_step += 1
# Drop pulses once their out-and-back lifetime ends.
pulse_lifetime = outward_ms + return_ms
kept = []
for start in active_pulses:
age = utime.ticks_diff(now, start)
if age < pulse_lifetime:
kept.append(start)
active_pulses = kept
debug_front = -1
lit_count = 0
lit_count = 0
for i in range(self.driver.num_leds):
# Nearest node distance for a repeating node grid every `spacing` LEDs.
offset = i % spacing
offset = (i + (spacing // 2)) % spacing
dist = min(offset, spacing - offset)
lit = False
for start in active_pulses:
age = utime.ticks_diff(now, start)
# Do not render on the exact trigger tick; this avoids
# node LEDs appearing "stuck on" between cycles.
# Auto: skip the exact trigger tick (age==0) so nodes are not stuck on.
if age <= 0:
continue
if age <= outward_ms:
@@ -94,8 +141,6 @@ class Radiate:
if dist <= front:
lit = True
if front > debug_front:
debug_front = front
break
self.driver.n[i] = lit_color if lit else off_color
@@ -104,33 +149,21 @@ class Radiate:
self.driver.n.write()
if bool(getattr(self.driver, "debug", False)):
if dbg:
if not dbg_banner:
dbg_banner = True
print(
"[radiate] debug on: spacing=%s out=%s in=%s d=%s num=%d"
% (
preset.n1,
preset.n2,
preset.n3,
preset.d,
self.driver.num_leds,
)
"[radiate] debug on n1=%s n2=%s n3=%s d=%s auto=%s num_leds=%d"
% (preset.n1, preset.n2, preset.n3, preset.d, preset.a, self.driver.num_leds)
)
pulse_age = -1
if active_pulses:
pulse_age = utime.ticks_diff(now, active_pulses[0])
if utime.ticks_diff(now, last_dbg) >= _RADIATE_DBG_INTERVAL_MS:
pulse_age = -1
if active_pulses:
pulse_age = utime.ticks_diff(now, active_pulses[0])
print(
"[radiate] age=%d front=%d max=%d active=%d lit=%d"
% (pulse_age, debug_front, max_dist, len(active_pulses), lit_count)
"[radiate] pulses=%d first_age=%d lit=%d lifetime=%d"
% (len(active_pulses), pulse_age, lit_count, pulse_lifetime)
)
if lit_count == 0:
print("[radiate] fully off")
last_dbg = now
if not preset.a:
yield
return
yield

41
src/patterns/rain_drops.py Normal file
View File

@@ -0,0 +1,41 @@
import random
import utime
class RainDrops:
def __init__(self, driver):
self.driver = driver
def run(self, preset):
colors = preset.c if preset.c else [(120, 180, 255)]
rate = max(1, int(preset.n1) if int(preset.n1) > 0 else 32)
width = max(1, int(preset.n2) if int(preset.n2) > 0 else 3)
drops = []
last = utime.ticks_ms()
while True:
d = max(1, int(preset.d))
now = utime.ticks_ms()
if utime.ticks_diff(now, last) >= d:
bg_color = self.driver.apply_brightness(preset.background_or(colors), preset.b)
for i in range(self.driver.num_leds):
self.driver.n[i] = bg_color
if random.randint(0, 255) < rate:
drops.append([random.randint(0, max(0, self.driver.num_leds - 1)), 0])
nd = []
for pos, age in drops:
for off in range(-width, width + 1):
idx = pos + off
if 0 <= idx < self.driver.num_leds:
s = 255 - min(255, abs(off) * 255 // max(1, width + 1) + age * 40)
base = self.driver.apply_brightness(colors[age % len(colors)], preset.b)
self.driver.n[idx] = ((base[0]*s)//255, (base[1]*s)//255, (base[2]*s)//255)
age += 1
if age < 8:
nd.append([pos, age])
drops = nd
self.driver.n.write()
last = utime.ticks_add(last, d)
if not preset.a:
yield
return
yield

67
src/patterns/scanner.py Normal file
View File

@@ -0,0 +1,67 @@
import utime
class Scanner:
def __init__(self, driver):
self.driver = driver
def run(self, preset):
"""Classic scanner eye with soft falloff.
n1: eye width (default 4)
n2: end pause in frames (default 0)
"""
colors = preset.c if preset.c else [(255, 0, 0)]
color_index = 0
center = 0
direction = 1
pause_frames = 0
last_update = utime.ticks_ms()
while True:
delay_ms = max(1, int(preset.d))
width = max(1, int(preset.n1) if int(preset.n1) > 0 else 4)
end_pause = max(0, int(preset.n2))
now = utime.ticks_ms()
if utime.ticks_diff(now, last_update) >= delay_ms:
base = colors[color_index % len(colors)]
base = self.driver.apply_brightness(base, preset.b)
bg_color = self.driver.apply_brightness(preset.background_or(colors), preset.b)
for i in range(self.driver.num_leds):
dist = i - center
if dist < 0:
dist = -dist
if dist > width:
self.driver.n[i] = bg_color
else:
scale = ((width - dist) * 255) // max(1, width)
self.driver.n[i] = (
(base[0] * scale) // 255,
(base[1] * scale) // 255,
(base[2] * scale) // 255,
)
self.driver.n.write()
if pause_frames > 0:
pause_frames -= 1
else:
center += direction
if center >= self.driver.num_leds - 1:
center = self.driver.num_leds - 1
direction = -1
pause_frames = end_pause
color_index += 1
elif center <= 0:
center = 0
direction = 1
pause_frames = end_pause
color_index += 1
last_update = utime.ticks_add(last_update, delay_ms)
if not preset.a:
yield
return
yield

45
src/patterns/segment_chase.py Normal file
View File

@@ -0,0 +1,45 @@
import utime
class SegmentChase:
def __init__(self, driver):
self.driver = driver
def run(self, preset):
"""Independent moving segments (distinct from classic two-color chase).
n1: segment size (LEDs per segment)
n2: step size (phase increment each frame)
n3: per-segment phase offset
n4: gap spacing inside segment (0 = solid segment)
"""
colors = preset.c if preset.c else [(255, 0, 0), (0, 0, 255)]
seg = max(1, int(preset.n1) if int(preset.n1) > 0 else 4)
phase_step = max(1, int(preset.n2) if int(preset.n2) > 0 else 1)
seg_offset = max(0, int(preset.n3))
gap = max(0, int(preset.n4))
phase = self.driver.step % 256
last = utime.ticks_ms()
while True:
d = max(1, int(preset.d))
now = utime.ticks_ms()
if utime.ticks_diff(now, last) >= d:
bg_color = self.driver.apply_brightness(preset.background_or(colors), preset.b)
for i in range(self.driver.num_leds):
seg_idx = i // seg
in_seg = i % seg
local_phase = (phase + seg_idx * seg_offset) % seg
lit_idx = (in_seg + local_phase) % seg
if gap > 0 and lit_idx >= max(1, seg - gap):
self.driver.n[i] = bg_color
else:
color_idx = seg_idx % len(colors)
self.driver.n[i] = self.driver.apply_brightness(colors[color_idx], preset.b)
self.driver.n.write()
phase = (phase + phase_step) % seg
self.driver.step = phase
last = utime.ticks_add(last, d)
if not preset.a:
yield
return
yield

37
src/patterns/snowfall.py Normal file
View File

@@ -0,0 +1,37 @@
import random
import utime
class Snowfall:
def __init__(self, driver):
self.driver = driver
def run(self, preset):
colors = preset.c if preset.c else [(255, 255, 255), (180, 220, 255)]
density = max(1, int(preset.n1) if int(preset.n1) > 0 else 20)
speed = max(1, int(preset.n2) if int(preset.n2) > 0 else 1)
flakes = []
last = utime.ticks_ms()
while True:
d = max(1, int(preset.d))
now = utime.ticks_ms()
if utime.ticks_diff(now, last) >= d:
bg_color = self.driver.apply_brightness(preset.background_or(colors), preset.b)
if random.randint(0, 255) < density:
flakes.append([self.driver.num_leds - 1, random.randint(0, len(colors)-1)])
for i in range(self.driver.num_leds):
self.driver.n[i] = bg_color
nf = []
for pos, ci in flakes:
if 0 <= pos < self.driver.num_leds:
self.driver.n[pos] = self.driver.apply_brightness(colors[ci], preset.b)
pos -= speed
if pos >= -1:
nf.append([pos, ci])
flakes = nf
self.driver.n.write()
last = utime.ticks_add(last, d)
if not preset.a:
yield
return
yield

31
src/patterns/sparkle_trail.py Normal file
View File

@@ -0,0 +1,31 @@
import random
import utime
class SparkleTrail:
def __init__(self, driver):
self.driver = driver
def run(self, preset):
colors = preset.c if preset.c else [(120, 120, 255)]
density = max(1, int(preset.n1) if int(preset.n1) > 0 else 24)
decay = max(1, min(255, int(preset.n2) if int(preset.n2) > 0 else 210))
last = utime.ticks_ms()
while True:
d = max(1, int(preset.d))
now = utime.ticks_ms()
if utime.ticks_diff(now, last) >= d:
for i in range(self.driver.num_leds):
r,g,b = self.driver.n[i]
self.driver.n[i] = ((r*decay)//255, (g*decay)//255, (b*decay)//255)
sparks = max(1, self.driver.num_leds * density // 255)
for _ in range(sparks):
idx = random.randint(0, max(0, self.driver.num_leds - 1))
c = self.driver.apply_brightness(colors[random.randint(0, len(colors)-1)], preset.b)
self.driver.n[idx] = c
self.driver.n.write()
last = utime.ticks_add(last, d)
if not preset.a:
yield
return
yield

45
src/patterns/strobe_burst.py Normal file
View File

@@ -0,0 +1,45 @@
import utime
class StrobeBurst:
def __init__(self, driver):
self.driver = driver
def run(self, preset):
colors = preset.c if preset.c else [(255, 255, 255)]
state = "flash_on"
flash_idx = 0
state_start = utime.ticks_ms()
while True:
count = max(1, int(preset.n1) if int(preset.n1) > 0 else 3)
gap = max(1, int(preset.n2) if int(preset.n2) > 0 else 60)
cooldown = max(1, int(preset.n3) if int(preset.n3) > 0 else 400)
on_ms = max(1, int(preset.d) // 2)
c = self.driver.apply_brightness(colors[0], preset.b)
bg_color = self.driver.apply_brightness(preset.background_or(colors), preset.b)
now = utime.ticks_ms()
if state == "flash_on":
self.driver.fill(c)
if utime.ticks_diff(now, state_start) >= on_ms:
state = "flash_off"
state_start = utime.ticks_add(state_start, on_ms)
elif state == "flash_off":
self.driver.fill(bg_color)
if utime.ticks_diff(now, state_start) >= gap:
flash_idx += 1
if flash_idx >= count:
if not preset.a:
return
state = "cooldown"
flash_idx = 0
state_start = utime.ticks_add(state_start, gap)
else:
state = "flash_on"
state_start = utime.ticks_add(state_start, gap)
else:
self.driver.fill(bg_color)
if utime.ticks_diff(now, state_start) >= cooldown:
state = "flash_on"
state_start = utime.ticks_add(state_start, cooldown)
yield

73
src/patterns/twinkle.py
View File

@@ -2,9 +2,6 @@ import random
import utime
# Default cool palette (icy blues, violet, mint) when preset has no colours.
# When `driver.debug` is True, print stats every N twinkle ticks (serial can be slow).
_TWINKLE_DBG_INTERVAL = 40
_DEFAULT_COOL = (
(120, 200, 255),
(80, 140, 255),
@@ -39,6 +36,7 @@ class Twinkle:
"""Twinkle: n1 activity, n2 density; n3/n4 min/max length of adjacent on/off runs."""
palette = self._palette(preset)
num = self.driver.num_leds
bg_color = self.driver.apply_brightness(preset.background_or(palette), preset.b)
if num <= 0:
while True:
yield
@@ -92,32 +90,6 @@ class Twinkle:
on = [random.randint(0, 255) < dens for _ in range(num)]
colour_i = [random.randint(0, len(palette) - 1) for _ in range(num)]
last_update = utime.ticks_ms()
dbg_tick = 0
dbg_banner = False
def on_run_min_max(bits):
"""Smallest and largest contiguous run of True in bits (0,0 if all off)."""
best_min = num + 1
best_max = 0
cur = 0
for j in range(num):
if bits[j]:
cur += 1
else:
if cur:
if cur < best_min:
best_min = cur
if cur > best_max:
best_max = cur
cur = 0
if cur:
if cur < best_min:
best_min = cur
if cur > best_max:
best_max = cur
if best_min == num + 1:
return 0, 0
return best_min, best_max
if not preset.a:
for i in range(num):
@@ -125,7 +97,7 @@ class Twinkle:
base = palette[colour_i[i] % len(palette)]
self.driver.n[i] = self.driver.apply_brightness(base, preset.b)
else:
self.driver.n[i] = (0, 0, 0)
self.driver.n[i] = bg_color
self.driver.n.write()
yield
return
@@ -136,15 +108,12 @@ class Twinkle:
if utime.ticks_diff(now, last_update) >= delay_ms:
rate = activity_rate()
dens = density255()
dbg = bool(getattr(self.driver, "debug", False))
dbg_tick += 1
# Snapshot for decisions; apply all darks then all lights so
# overlaps in the same tick favour lit runs (lights win).
prev_on = on[:]
prev_ci = colour_i[:]
next_on = list(prev_on)
next_ci = list(prev_ci)
dbg_ops = {"L": 0, "D": 0}
light_i = []
dark_i = []
@@ -159,7 +128,6 @@ class Twinkle:
dark_i.append(i)
def light_adjacent(start):
dbg_ops["L"] += 1
k = random_cluster_len()
b = cluster_base_index(start, k)
for dj in range(k):
@@ -168,7 +136,6 @@ class Twinkle:
next_ci[idx] = random.randint(0, len(palette) - 1)
def dark_adjacent(start):
dbg_ops["D"] += 1
k = random_cluster_len()
b = cluster_base_index(start, k)
for dj in range(k):
@@ -185,43 +152,9 @@ class Twinkle:
base = palette[next_ci[i] % len(palette)]
self.driver.n[i] = self.driver.apply_brightness(base, preset.b)
else:
self.driver.n[i] = (0, 0, 0)
self.driver.n[i] = bg_color
self.driver.n.write()
on = next_on
colour_i = next_ci
last_update = utime.ticks_add(last_update, delay_ms)
if dbg:
lo, hi = cluster_len_bounds()
if not dbg_banner:
dbg_banner = True
print(
"[twinkle] debug on: n1=%s n2=%s n3=%s n4=%s d=%s -> lo=%d hi=%d num=%d"
% (
preset.n1,
preset.n2,
preset.n3,
preset.n4,
preset.d,
lo,
hi,
num,
)
)
rmin, rmax = on_run_min_max(on)
bad = lo > 0 and rmin > 0 and rmin < lo and num >= lo
if bad or (dbg_tick % _TWINKLE_DBG_INTERVAL == 0):
print(
"[twinkle] tick=%d rate=%d dens=%d L=%d D=%d on_runs min=%d max=%d%s"
% (
dbg_tick,
rate,
dens,
dbg_ops["L"],
dbg_ops["D"],
rmin,
rmax,
" **run<lo**" if bad else "",
)
)
yield

32
src/patterns/wave.py Normal file
View File

@@ -0,0 +1,32 @@
import utime
class Wave:
def __init__(self, driver):
self.driver = driver
def run(self, preset):
colors = preset.c if preset.c else [(0, 180, 255)]
wavelength = max(2, int(preset.n1) if int(preset.n1) > 0 else 12)
amp = max(0, min(255, int(preset.n2) if int(preset.n2) > 0 else 180))
drift = max(1, int(preset.n3) if int(preset.n3) > 0 else 1)
phase = self.driver.step % 256
last = utime.ticks_ms()
while True:
d = max(1, int(preset.d))
now = utime.ticks_ms()
if utime.ticks_diff(now, last) >= d:
base = self.driver.apply_brightness(colors[0], preset.b)
for i in range(self.driver.num_leds):
x = (i * 256 // wavelength + phase) & 255
tri = 255 - abs(128 - x) * 2
s = (tri * amp) // 255
self.driver.n[i] = ((base[0]*s)//255, (base[1]*s)//255, (base[2]*s)//255)
self.driver.n.write()
phase = (phase + drift) % 256
self.driver.step = phase
last = utime.ticks_add(last, d)
if not preset.a:
yield
return
yield

29
src/preset.py
View File

@@ -12,6 +12,7 @@ class Preset:
self.n4 = 0
self.n5 = 0
self.n6 = 0
self.bg = (0, 0, 0)
# Override defaults with provided data
self.edit(data)
@@ -25,9 +26,10 @@ class Preset:
"delay": "d",
"brightness": "b",
"auto": "a",
"background": "bg",
}
int_fields = {"d", "b", "n1", "n2", "n3", "n4", "n5", "n6"}
allowed_fields = {"p", "c", "d", "b", "a", "n1", "n2", "n3", "n4", "n5", "n6"}
allowed_fields = {"p", "c", "d", "b", "a", "bg", "n1", "n2", "n3", "n4", "n5", "n6"}
for key, value in data.items():
key = aliases.get(key, key)
if key not in allowed_fields:
@@ -56,6 +58,21 @@ class Preset:
elif key == "c":
if isinstance(value, (list, tuple)):
self.c = value
elif key == "bg":
if isinstance(value, str) and value.startswith("#") and len(value) == 7:
try:
self.bg = (
int(value[1:3], 16),
int(value[3:5], 16),
int(value[5:7], 16),
)
except (TypeError, ValueError):
continue
elif isinstance(value, (list, tuple)) and len(value) == 3:
try:
self.bg = tuple(max(0, min(255, int(x))) for x in value)
except (TypeError, ValueError):
continue
else:
setattr(self, key, value)
return True
@@ -100,6 +117,15 @@ class Preset:
def auto(self, value):
self.a = value
def background_or(self, colors=None, default=(0, 0, 0)):
bg = getattr(self, "bg", None)
if isinstance(bg, (list, tuple)) and len(bg) == 3:
try:
return tuple(max(0, min(255, int(x))) for x in bg)
except (TypeError, ValueError):
return default
return default
def to_dict(self):
return {
"p": self.p,
@@ -107,6 +133,7 @@ class Preset:
"b": self.b,
"c": self.c,
"a": self.a,
"bg": self.bg,
"n1": self.n1,
"n2": self.n2,
"n3": self.n3,

24
src/presets.py
View File

@@ -106,10 +106,6 @@ class Presets:
preset_data[color_key], order
)
self.presets[name] = Preset(preset_data)
if self.presets:
print("Loaded presets:")
#for name in sorted(self.presets.keys()):
# print(f" {name}: {self.presets[name].to_dict()}")
return True
def edit(self, name, data):
@@ -117,6 +113,15 @@ class Presets:
if name in self.presets:
# Update existing preset
self.presets[name].edit(data)
# Editing the live preset (e.g. toggling auto/manual) must reset runtime
# state; re-select alone keeps step because preset name is unchanged.
if self.selected == name:
self.step = 0
self.generator = None
self.fill((0, 0, 0))
# Re-start pattern so manual/auto and other edits apply without a
# separate select message (controller usually sends both).
self.select(name)
else:
if len(self.presets) >= MAX_PRESETS and name not in ("on", "off"):
print("Preset limit reached:", MAX_PRESETS)
@@ -159,6 +164,16 @@ class Presets:
if preset_name in self.presets:
preset = self.presets[preset_name]
if preset.p in self.patterns:
# Manual single-shot patterns: if this select arrives before the main loop has
# tick()'d the previous frame, completing it first keeps step in sync with beats.
if (
preset_name == self.selected
and not preset.a
and preset.p == "chase"
and self.generator is not None
):
while self.generator is not None:
self.tick()
# Set step value if explicitly provided
if step is not None:
self.step = step
@@ -166,6 +181,7 @@ class Presets:
self.step = 0
self.generator = self.patterns[preset.p](preset)
self.selected = preset_name # Store the preset name, not the object
self.tick()
return True
print("select failed: pattern not found for preset", preset_name, "pattern=", preset.p)
return False

12
src/runtime_state.py Normal file
View File

@@ -0,0 +1,12 @@
class RuntimeState:
def __init__(self):
self.hello = True
self.ws_client_count = 0
def ws_connected(self):
self.ws_client_count += 1
self.hello = False
def ws_disconnected(self):
self.ws_client_count = max(0, self.ws_client_count - 1)
self.hello = self.ws_client_count == 0

16
src/settings.py
View File

@@ -27,6 +27,9 @@ class Settings(dict):
self["debug"] = False
self["default"] = "on"
self["last_preset"] = ""
# Power-on: "default" | "last" | "off"
self["startup_mode"] = "default"
self["brightness"] = 32
self["transport_type"] = "espnow"
self["wifi_channel"] = 1
@@ -39,7 +42,6 @@ class Settings(dict):
j = json.dumps(self)
with open(self.SETTINGS_FILE, 'w') as file:
file.write(j)
print("Settings saved successfully.")
except Exception as e:
print(f"Error saving settings: {e}")
@@ -48,7 +50,17 @@ class Settings(dict):
with open(self.SETTINGS_FILE, 'r') as file:
loaded_settings = json.load(file)
self.update(loaded_settings)
print("Settings loaded successfully.")
old_recent = self.pop("recent_presets", None)
if isinstance(old_recent, list) and old_recent and not self.get("last_preset"):
for x in reversed(old_recent):
if isinstance(x, str) and x.strip():
self["last_preset"] = x.strip()
break
if x is not None:
s = str(x).strip()
if s:
self["last_preset"] = s
break
except Exception as e:
print(f"Error loading settings")
self.set_defaults()

51
src/startup.py Normal file
View File

@@ -0,0 +1,51 @@
import gc
import machine
import network
import utime
from presets import Presets
from settings import Settings
from controller_messages import apply_startup_pattern
def initialize_runtime():
machine.freq(160000000)
settings = Settings()
wdt = machine.WDT(timeout=10000)
wdt.feed()
gc.collect()
presets = Presets(settings["led_pin"], settings["num_leds"])
presets.load(settings)
presets.b = settings.get("brightness", 255)
presets.debug = bool(settings.get("debug", False))
gc.collect()
apply_startup_pattern(settings, presets)
# On ESP32-C3, soft reboots can leave Wi-Fi driver state allocated.
# Reset both interfaces and collect before bringing STA up.
ap_if = network.WLAN(network.AP_IF)
ap_if.active(False)
sta_if = network.WLAN(network.STA_IF)
if sta_if.active():
sta_if.active(False)
utime.sleep_ms(100)
gc.collect()
sta_if.active(True)
sta_if.config(pm=network.WLAN.PM_NONE)
sta_if.connect(settings["ssid"], settings["password"])
while not sta_if.isconnected():
utime.sleep(1)
wdt.feed()
try:
led_ip = sta_if.ifconfig()[0]
except Exception:
led_ip = "?"
print("led-driver IP:", led_ip, " led-controller IP:", "(not connected)")
return settings, presets, wdt, sta_if

93
src/wifi_sta.py Normal file
View File

@@ -0,0 +1,93 @@
"""STA connect helpers aligned with tests/test_wifi.py (status polling, fatal codes)."""
import utime
import network
_CONNECT_TIMEOUT_S = 45
_RETRY_DELAY_S = 2
def _wifi_status_label(code):
names = {
getattr(network, "STAT_IDLE", 0): "idle",
getattr(network, "STAT_CONNECTING", 1): "connecting",
getattr(network, "STAT_WRONG_PASSWORD", -3): "wrong_password",
getattr(network, "STAT_NO_AP_FOUND", -2): "no_ap_found",
getattr(network, "STAT_CONNECT_FAIL", -1): "connect_fail",
getattr(network, "STAT_GOT_IP", 3): "got_ip",
}
return names.get(code, str(code))
# Only abort the wait loop immediately on wrong password. NO_AP_FOUND / CONNECT_FAIL are often
# transient while the radio is still scanning (ESP32-C3 may report them before the AP appears).
_ABORT_WAIT_IMMEDIATE = (
getattr(network, "STAT_WRONG_PASSWORD", -3),
)
def _one_association_campaign(sta_if, ssid, password, wdt):
"""disconnect → connect → wait until connected, wrong password, or timeout. Returns True if connected."""
try:
sta_if.disconnect()
except Exception:
pass
utime.sleep_ms(200)
try:
sta_if.connect(ssid, password)
except Exception as ex:
print("wifi_sta: connect raised:", ex)
return False
start = utime.time()
last_status = None
while not sta_if.isconnected():
status = sta_if.status()
if status != last_status:
print("wifi_sta: status", status, _wifi_status_label(status))
last_status = status
if status in _ABORT_WAIT_IMMEDIATE:
return False
if utime.time() - start >= _CONNECT_TIMEOUT_S:
print("wifi_sta: association timeout")
return False
utime.sleep(1)
if wdt is not None:
wdt.feed()
return True
def connect_until_up(sta_if, ssid, password, wdt):
"""Boot: repeat campaigns until STA has a route (same strategy as tests/test_wifi.py)."""
if not ssid:
print("wifi_sta: no ssid in settings")
return False
attempt = 0
while True:
attempt += 1
print("wifi_sta: boot attempt", attempt, "ssid=", repr(ssid))
if _one_association_campaign(sta_if, ssid, password, wdt):
try:
print("wifi_sta: connected", sta_if.ifconfig()[0])
except Exception:
print("wifi_sta: connected")
return True
print("wifi_sta: retry in", _RETRY_DELAY_S, "s")
for _ in range(_RETRY_DELAY_S):
utime.sleep(1)
if wdt is not None:
wdt.feed()
def try_reconnect(sta_if, ssid, password, wdt):
"""Runtime: single association campaign after link loss; non-looping."""
if not ssid:
return False
print("wifi_sta: reconnect")
ok = _one_association_campaign(sta_if, ssid, password, wdt)
if ok:
try:
print("wifi_sta: connected", sta_if.ifconfig()[0])
except Exception:
print("wifi_sta: connected")
return ok

31
tests/all.py
View File

@@ -184,6 +184,36 @@ def test_pattern_smoke():
ctx.tick_for_ms(120)
def test_patterns_do_not_use_blocking_sleep():
pattern_dir = "patterns"
offenders = []
try:
files = os.listdir(pattern_dir)
except OSError:
raise AssertionError("patterns directory is missing")
for filename in files:
if not filename.endswith(".py") or filename in ("__init__.py", "main.py"):
continue
path = pattern_dir + "/" + filename
try:
with open(path, "r") as f:
src = f.read()
except OSError:
offenders.append(filename + " (unreadable)")
continue
if (
"utime.sleep(" in src
or "utime.sleep_ms(" in src
or "time.sleep(" in src
or "time.sleep_ms(" in src
):
offenders.append(filename)
assert not offenders, "blocking sleep found in patterns: %s" % ", ".join(offenders)
def test_default_requires_existing_preset():
ctx = _TestContext()
_process_message(ctx, {"v": "1", "default": "missing"})
@@ -242,6 +272,7 @@ def run_all():
test_preset_edit_sanitization,
test_colour_conversion_and_transition,
test_pattern_smoke,
test_patterns_do_not_use_blocking_sleep,
test_default_requires_existing_preset,
test_default_targets_gate_by_device_name,
test_save_and_load_roundtrip,

40
tests/patterns/aurora.py Normal file
View File

@@ -0,0 +1,40 @@
#!/usr/bin/env python3
import utime
from machine import WDT
from settings import Settings
from presets import Presets, run_tick
def run_for(p, wdt, ms):
start = utime.ticks_ms()
while utime.ticks_diff(utime.ticks_ms(), start) < ms:
wdt.feed()
run_tick(p)
utime.sleep_ms(10)
def main():
s = Settings()
p = Presets(pin=s.get("led_pin", 10), num_leds=s.get("num_leds", 30))
wdt = WDT(timeout=10000)
p.edit("test_aurora", {
"p": "aurora",
"b": 200,
"d": 60,
"c": [(255, 0, 0), (0, 0, 255), (0, 255, 0)],
"n1": 4,
"n2": 2,
"n3": 120,
"a": True,
})
p.select("test_aurora")
run_for(p, wdt, 3000)
p.edit("cleanup_off", {"p": "off"})
p.select("cleanup_off")
run_for(p, wdt, 100)
if __name__ == "__main__":
main()

40
tests/patterns/bar_graph.py Normal file
View File

@@ -0,0 +1,40 @@
#!/usr/bin/env python3
import utime
from machine import WDT
from settings import Settings
from presets import Presets, run_tick
def run_for(p, wdt, ms):
start = utime.ticks_ms()
while utime.ticks_diff(utime.ticks_ms(), start) < ms:
wdt.feed()
run_tick(p)
utime.sleep_ms(10)
def main():
s = Settings()
p = Presets(pin=s.get("led_pin", 10), num_leds=s.get("num_leds", 30))
wdt = WDT(timeout=10000)
p.edit("test_bar_graph", {
"p": "bar_graph",
"b": 200,
"d": 60,
"c": [(255, 0, 0), (0, 0, 255), (0, 255, 0)],
"n1": 4,
"n2": 2,
"n3": 120,
"a": True,
})
p.select("test_bar_graph")
run_for(p, wdt, 3000)
p.edit("cleanup_off", {"p": "off"})
p.select("cleanup_off")
run_for(p, wdt, 100)
if __name__ == "__main__":
main()

40
tests/patterns/breathing_dual.py Normal file
View File

@@ -0,0 +1,40 @@
#!/usr/bin/env python3
import utime
from machine import WDT
from settings import Settings
from presets import Presets, run_tick
def run_for(p, wdt, ms):
start = utime.ticks_ms()
while utime.ticks_diff(utime.ticks_ms(), start) < ms:
wdt.feed()
run_tick(p)
utime.sleep_ms(10)
def main():
s = Settings()
p = Presets(pin=s.get("led_pin", 10), num_leds=s.get("num_leds", 30))
wdt = WDT(timeout=10000)
p.edit("test_breathing_dual", {
"p": "breathing_dual",
"b": 200,
"d": 60,
"c": [(255, 0, 0), (0, 0, 255), (0, 255, 0)],
"n1": 4,
"n2": 2,
"n3": 120,
"a": True,
})
p.select("test_breathing_dual")
run_for(p, wdt, 3000)
p.edit("cleanup_off", {"p": "off"})
p.select("cleanup_off")
run_for(p, wdt, 100)
if __name__ == "__main__":
main()

40
tests/patterns/clock_sweep.py Normal file
View File

@@ -0,0 +1,40 @@
#!/usr/bin/env python3
import utime
from machine import WDT
from settings import Settings
from presets import Presets, run_tick
def run_for(p, wdt, ms):
start = utime.ticks_ms()
while utime.ticks_diff(utime.ticks_ms(), start) < ms:
wdt.feed()
run_tick(p)
utime.sleep_ms(10)
def main():
s = Settings()
p = Presets(pin=s.get("led_pin", 10), num_leds=s.get("num_leds", 30))
wdt = WDT(timeout=10000)
p.edit("test_clock_sweep", {
"p": "clock_sweep",
"b": 200,
"d": 60,
"c": [(255, 0, 0), (0, 0, 255), (0, 255, 0)],
"n1": 4,
"n2": 2,
"n3": 120,
"a": True,
})
p.select("test_clock_sweep")
run_for(p, wdt, 3000)
p.edit("cleanup_off", {"p": "off"})
p.select("cleanup_off")
run_for(p, wdt, 100)
if __name__ == "__main__":
main()

40
tests/patterns/comet_dual.py Normal file
View File

@@ -0,0 +1,40 @@
#!/usr/bin/env python3
import utime
from machine import WDT
from settings import Settings
from presets import Presets, run_tick
def run_for(p, wdt, ms):
start = utime.ticks_ms()
while utime.ticks_diff(utime.ticks_ms(), start) < ms:
wdt.feed()
run_tick(p)
utime.sleep_ms(10)
def main():
s = Settings()
p = Presets(pin=s.get("led_pin", 10), num_leds=s.get("num_leds", 30))
wdt = WDT(timeout=10000)
p.edit("test_comet_dual", {
"p": "comet_dual",
"b": 200,
"d": 60,
"c": [(255, 0, 0), (0, 0, 255), (0, 255, 0)],
"n1": 4,
"n2": 2,
"n3": 120,
"a": True,
})
p.select("test_comet_dual")
run_for(p, wdt, 3000)
p.edit("cleanup_off", {"p": "off"})
p.select("cleanup_off")
run_for(p, wdt, 100)
if __name__ == "__main__":
main()

40
tests/patterns/fireflies.py Normal file
View File

@@ -0,0 +1,40 @@
#!/usr/bin/env python3
import utime
from machine import WDT
from settings import Settings
from presets import Presets, run_tick
def run_for(p, wdt, ms):
start = utime.ticks_ms()
while utime.ticks_diff(utime.ticks_ms(), start) < ms:
wdt.feed()
run_tick(p)
utime.sleep_ms(10)
def main():
s = Settings()
p = Presets(pin=s.get("led_pin", 10), num_leds=s.get("num_leds", 30))
wdt = WDT(timeout=10000)
p.edit("test_fireflies", {
"p": "fireflies",
"b": 200,
"d": 60,
"c": [(255, 0, 0), (0, 0, 255), (0, 255, 0)],
"n1": 4,
"n2": 2,
"n3": 120,
"a": True,
})
p.select("test_fireflies")
run_for(p, wdt, 3000)
p.edit("cleanup_off", {"p": "off"})
p.select("cleanup_off")
run_for(p, wdt, 100)
if __name__ == "__main__":
main()

39
tests/patterns/gradient_scroll.py Normal file
View File

@@ -0,0 +1,39 @@
#!/usr/bin/env python3
import utime
from machine import WDT
from settings import Settings
from presets import Presets, run_tick
def run_for(p, wdt, ms):
start = utime.ticks_ms()
while utime.ticks_diff(utime.ticks_ms(), start) < ms:
wdt.feed()
run_tick(p)
utime.sleep_ms(10)
def main():
s = Settings()
p = Presets(pin=s.get("led_pin", 10), num_leds=s.get("num_leds", 30))
wdt = WDT(timeout=10000)
print("Test gradient_scroll")
p.edit("gradient_test", {
"p": "gradient_scroll",
"b": 220,
"d": 60,
"c": [(255, 0, 0), (0, 255, 0), (0, 0, 255)],
"n1": 2,
"a": True,
})
p.select("gradient_test")
run_for(p, wdt, 4000)
p.edit("cleanup_off", {"p": "off"})
p.select("cleanup_off")
run_for(p, wdt, 100)
if __name__ == "__main__":
main()

40
tests/patterns/heartbeat.py Normal file
View File

@@ -0,0 +1,40 @@
#!/usr/bin/env python3
import utime
from machine import WDT
from settings import Settings
from presets import Presets, run_tick
def run_for(p, wdt, ms):
start = utime.ticks_ms()
while utime.ticks_diff(utime.ticks_ms(), start) < ms:
wdt.feed()
run_tick(p)
utime.sleep_ms(10)
def main():
s = Settings()
p = Presets(pin=s.get("led_pin", 10), num_leds=s.get("num_leds", 30))
wdt = WDT(timeout=10000)
p.edit("test_heartbeat", {
"p": "heartbeat",
"b": 200,
"d": 60,
"c": [(255, 0, 0), (0, 0, 255), (0, 255, 0)],
"n1": 4,
"n2": 2,
"n3": 120,
"a": True,
})
p.select("test_heartbeat")
run_for(p, wdt, 3000)
p.edit("cleanup_off", {"p": "off"})
p.select("cleanup_off")
run_for(p, wdt, 100)
if __name__ == "__main__":
main()

40
tests/patterns/marquee.py Normal file
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#!/usr/bin/env python3
import utime
from machine import WDT
from settings import Settings
from presets import Presets, run_tick
def run_for(p, wdt, ms):
start = utime.ticks_ms()
while utime.ticks_diff(utime.ticks_ms(), start) < ms:
wdt.feed()
run_tick(p)
utime.sleep_ms(10)
def main():
s = Settings()
p = Presets(pin=s.get("led_pin", 10), num_leds=s.get("num_leds", 30))
wdt = WDT(timeout=10000)
p.edit("test_marquee", {
"p": "marquee",
"b": 200,
"d": 60,
"c": [(255, 0, 0), (0, 0, 255), (0, 255, 0)],
"n1": 4,
"n2": 2,
"n3": 120,
"a": True,
})
p.select("test_marquee")
run_for(p, wdt, 3000)
p.edit("cleanup_off", {"p": "off"})
p.select("cleanup_off")
run_for(p, wdt, 100)
if __name__ == "__main__":
main()

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tests/patterns/meteor_rain.py Normal file
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#!/usr/bin/env python3
import utime
from machine import WDT
from settings import Settings
from presets import Presets, run_tick
def run_for(p, wdt, ms):
start = utime.ticks_ms()
while utime.ticks_diff(utime.ticks_ms(), start) < ms:
wdt.feed()
run_tick(p)
utime.sleep_ms(10)
def main():
s = Settings()
p = Presets(pin=s.get("led_pin", 10), num_leds=s.get("num_leds", 30))
wdt = WDT(timeout=10000)
print("Test meteor_rain")
p.edit("meteor_test", {
"p": "meteor_rain",
"b": 200,
"d": 40,
"c": [(255, 80, 0), (0, 120, 255)],
"n1": 10,
"n2": 1,
"n3": 200,
"a": True,
})
p.select("meteor_test")
run_for(p, wdt, 4000)
p.edit("cleanup_off", {"p": "off"})
p.select("cleanup_off")
run_for(p, wdt, 100)
if __name__ == "__main__":
main()

40
tests/patterns/orbit.py Normal file
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#!/usr/bin/env python3
import utime
from machine import WDT
from settings import Settings
from presets import Presets, run_tick
def run_for(p, wdt, ms):
start = utime.ticks_ms()
while utime.ticks_diff(utime.ticks_ms(), start) < ms:
wdt.feed()
run_tick(p)
utime.sleep_ms(10)
def main():
s = Settings()
p = Presets(pin=s.get("led_pin", 10), num_leds=s.get("num_leds", 30))
wdt = WDT(timeout=10000)
p.edit("test_orbit", {
"p": "orbit",
"b": 200,
"d": 60,
"c": [(255, 0, 0), (0, 0, 255), (0, 255, 0)],
"n1": 4,
"n2": 2,
"n3": 120,
"a": True,
})
p.select("test_orbit")
run_for(p, wdt, 3000)
p.edit("cleanup_off", {"p": "off"})
p.select("cleanup_off")
run_for(p, wdt, 100)
if __name__ == "__main__":
main()

40
tests/patterns/palette_morph.py Normal file
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#!/usr/bin/env python3
import utime
from machine import WDT
from settings import Settings
from presets import Presets, run_tick
def run_for(p, wdt, ms):
start = utime.ticks_ms()
while utime.ticks_diff(utime.ticks_ms(), start) < ms:
wdt.feed()
run_tick(p)
utime.sleep_ms(10)
def main():
s = Settings()
p = Presets(pin=s.get("led_pin", 10), num_leds=s.get("num_leds", 30))
wdt = WDT(timeout=10000)
p.edit("test_palette_morph", {
"p": "palette_morph",
"b": 200,
"d": 60,
"c": [(255, 0, 0), (0, 0, 255), (0, 255, 0)],
"n1": 4,
"n2": 2,
"n3": 120,
"a": True,
})
p.select("test_palette_morph")
run_for(p, wdt, 3000)
p.edit("cleanup_off", {"p": "off"})
p.select("cleanup_off")
run_for(p, wdt, 100)
if __name__ == "__main__":
main()

40
tests/patterns/plasma.py Normal file
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#!/usr/bin/env python3
import utime
from machine import WDT
from settings import Settings
from presets import Presets, run_tick
def run_for(p, wdt, ms):
start = utime.ticks_ms()
while utime.ticks_diff(utime.ticks_ms(), start) < ms:
wdt.feed()
run_tick(p)
utime.sleep_ms(10)
def main():
s = Settings()
p = Presets(pin=s.get("led_pin", 10), num_leds=s.get("num_leds", 30))
wdt = WDT(timeout=10000)
p.edit("test_plasma", {
"p": "plasma",
"b": 200,
"d": 60,
"c": [(255, 0, 0), (0, 0, 255), (0, 255, 0)],
"n1": 4,
"n2": 2,
"n3": 120,
"a": True,
})
p.select("test_plasma")
run_for(p, wdt, 3000)
p.edit("cleanup_off", {"p": "off"})
p.select("cleanup_off")
run_for(p, wdt, 100)
if __name__ == "__main__":
main()

52
tests/patterns/radiate.py Normal file
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#!/usr/bin/env python3
import utime
from machine import WDT
from settings import Settings
from presets import Presets
def main():
print("[test] radiate: start")
s = Settings()
p = Presets(pin=s.get("led_pin", 10), num_leds=s.get("num_leds", 30))
p.debug = True
wdt = WDT(timeout=10000)
print("[test] radiate: auto phase begin")
p.edit("test_pattern", {"p": "radiate", "b": 64, "a": True, "d": 3000, "c": [(255, 0, 0), (0, 0, 255)]})
if not p.select("test_pattern"):
raise Exception("radiate select failed in auto phase")
auto_start = utime.ticks_ms()
while utime.ticks_diff(utime.ticks_ms(), auto_start) < 2500:
wdt.feed()
p.run_step()
utime.sleep_ms(20)
remaining_ms = utime.ticks_diff(p.next_tick_ms, utime.ticks_ms())
if p.next_tick_ms == 0 or remaining_ms <= 0:
raise Exception("radiate delay scheduling invalid")
print("[test] radiate: auto phase end")
print("[test] radiate: manual phase begin")
p.edit("test_pattern", {"p": "radiate", "b": 64, "a": False, "d": 3000, "c": [(255, 0, 0), (0, 0, 255)]})
if not p.select("test_pattern", step=0):
raise Exception("radiate select failed in manual phase")
for _ in range(6):
current_step = int(p.step)
if not p.select("test_pattern", step=current_step):
raise Exception("radiate external select failed")
p.run_step()
wdt.feed()
if int(p.step) == current_step:
raise Exception("radiate external step did not advance")
if p.generator is not None:
raise Exception("radiate manual mode rescheduled generator")
hold_start = utime.ticks_ms()
while utime.ticks_diff(utime.ticks_ms(), hold_start) < 700:
wdt.feed()
utime.sleep_ms(20)
print("[test] radiate: manual phase end")
print("[test] radiate: pass")
if __name__ == "__main__":
main()

40
tests/patterns/rain_drops.py Normal file
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#!/usr/bin/env python3
import utime
from machine import WDT
from settings import Settings
from presets import Presets, run_tick
def run_for(p, wdt, ms):
start = utime.ticks_ms()
while utime.ticks_diff(utime.ticks_ms(), start) < ms:
wdt.feed()
run_tick(p)
utime.sleep_ms(10)
def main():
s = Settings()
p = Presets(pin=s.get("led_pin", 10), num_leds=s.get("num_leds", 30))
wdt = WDT(timeout=10000)
p.edit("test_rain_drops", {
"p": "rain_drops",
"b": 200,
"d": 60,
"c": [(255, 0, 0), (0, 0, 255), (0, 255, 0)],
"n1": 4,
"n2": 2,
"n3": 120,
"a": True,
})
p.select("test_rain_drops")
run_for(p, wdt, 3000)
p.edit("cleanup_off", {"p": "off"})
p.select("cleanup_off")
run_for(p, wdt, 100)
if __name__ == "__main__":
main()

40
tests/patterns/scanner.py Normal file
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#!/usr/bin/env python3
import utime
from machine import WDT
from settings import Settings
from presets import Presets, run_tick
def run_for(p, wdt, ms):
start = utime.ticks_ms()
while utime.ticks_diff(utime.ticks_ms(), start) < ms:
wdt.feed()
run_tick(p)
utime.sleep_ms(10)
def main():
s = Settings()
p = Presets(pin=s.get("led_pin", 10), num_leds=s.get("num_leds", 30))
wdt = WDT(timeout=10000)
print("Test scanner")
p.edit("scanner_test", {
"p": "scanner",
"b": 255,
"d": 30,
"c": [(255, 0, 0)],
"n1": 4,
"n2": 2,
"a": True,
})
p.select("scanner_test")
run_for(p, wdt, 4000)
p.edit("cleanup_off", {"p": "off"})
p.select("cleanup_off")
run_for(p, wdt, 100)
if __name__ == "__main__":
main()

40
tests/patterns/segment_chase.py Normal file
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#!/usr/bin/env python3
import utime
from machine import WDT
from settings import Settings
from presets import Presets, run_tick
def run_for(p, wdt, ms):
start = utime.ticks_ms()
while utime.ticks_diff(utime.ticks_ms(), start) < ms:
wdt.feed()
run_tick(p)
utime.sleep_ms(10)
def main():
s = Settings()
p = Presets(pin=s.get("led_pin", 10), num_leds=s.get("num_leds", 30))
wdt = WDT(timeout=10000)
p.edit("test_segment_chase", {
"p": "segment_chase",
"b": 200,
"d": 60,
"c": [(255, 0, 0), (0, 0, 255), (0, 255, 0)],
"n1": 4,
"n2": 2,
"n3": 120,
"a": True,
})
p.select("test_segment_chase")
run_for(p, wdt, 3000)
p.edit("cleanup_off", {"p": "off"})
p.select("cleanup_off")
run_for(p, wdt, 100)
if __name__ == "__main__":
main()

40
tests/patterns/snowfall.py Normal file
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#!/usr/bin/env python3
import utime
from machine import WDT
from settings import Settings
from presets import Presets, run_tick
def run_for(p, wdt, ms):
start = utime.ticks_ms()
while utime.ticks_diff(utime.ticks_ms(), start) < ms:
wdt.feed()
run_tick(p)
utime.sleep_ms(10)
def main():
s = Settings()
p = Presets(pin=s.get("led_pin", 10), num_leds=s.get("num_leds", 30))
wdt = WDT(timeout=10000)
p.edit("test_snowfall", {
"p": "snowfall",
"b": 200,
"d": 60,
"c": [(255, 0, 0), (0, 0, 255), (0, 255, 0)],
"n1": 4,
"n2": 2,
"n3": 120,
"a": True,
})
p.select("test_snowfall")
run_for(p, wdt, 3000)
p.edit("cleanup_off", {"p": "off"})
p.select("cleanup_off")
run_for(p, wdt, 100)
if __name__ == "__main__":
main()

40
tests/patterns/sparkle_trail.py Normal file
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#!/usr/bin/env python3
import utime
from machine import WDT
from settings import Settings
from presets import Presets, run_tick
def run_for(p, wdt, ms):
start = utime.ticks_ms()
while utime.ticks_diff(utime.ticks_ms(), start) < ms:
wdt.feed()
run_tick(p)
utime.sleep_ms(10)
def main():
s = Settings()
p = Presets(pin=s.get("led_pin", 10), num_leds=s.get("num_leds", 30))
wdt = WDT(timeout=10000)
p.edit("test_sparkle_trail", {
"p": "sparkle_trail",
"b": 200,
"d": 60,
"c": [(255, 0, 0), (0, 0, 255), (0, 255, 0)],
"n1": 4,
"n2": 2,
"n3": 120,
"a": True,
})
p.select("test_sparkle_trail")
run_for(p, wdt, 3000)
p.edit("cleanup_off", {"p": "off"})
p.select("cleanup_off")
run_for(p, wdt, 100)
if __name__ == "__main__":
main()

40
tests/patterns/strobe_burst.py Normal file
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#!/usr/bin/env python3
import utime
from machine import WDT
from settings import Settings
from presets import Presets, run_tick
def run_for(p, wdt, ms):
start = utime.ticks_ms()
while utime.ticks_diff(utime.ticks_ms(), start) < ms:
wdt.feed()
run_tick(p)
utime.sleep_ms(10)
def main():
s = Settings()
p = Presets(pin=s.get("led_pin", 10), num_leds=s.get("num_leds", 30))
wdt = WDT(timeout=10000)
p.edit("test_strobe_burst", {
"p": "strobe_burst",
"b": 200,
"d": 60,
"c": [(255, 0, 0), (0, 0, 255), (0, 255, 0)],
"n1": 4,
"n2": 2,
"n3": 120,
"a": True,
})
p.select("test_strobe_burst")
run_for(p, wdt, 3000)
p.edit("cleanup_off", {"p": "off"})
p.select("cleanup_off")
run_for(p, wdt, 100)
if __name__ == "__main__":
main()

52
tests/patterns/twinkle.py Normal file
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#!/usr/bin/env python3
import utime
from machine import WDT
from settings import Settings
from presets import Presets
def main():
print("[test] twinkle: start")
s = Settings()
p = Presets(pin=s.get("led_pin", 10), num_leds=s.get("num_leds", 30))
p.debug = True
wdt = WDT(timeout=10000)
print("[test] twinkle: auto phase begin")
p.edit("test_pattern", {"p": "twinkle", "b": 64, "a": True, "d": 3000, "c": [(255, 0, 0), (0, 0, 255)]})
if not p.select("test_pattern"):
raise Exception("twinkle select failed in auto phase")
auto_start = utime.ticks_ms()
while utime.ticks_diff(utime.ticks_ms(), auto_start) < 2500:
wdt.feed()
p.run_step()
utime.sleep_ms(20)
remaining_ms = utime.ticks_diff(p.next_tick_ms, utime.ticks_ms())
if p.next_tick_ms == 0 or remaining_ms <= 0:
raise Exception("twinkle delay scheduling invalid")
print("[test] twinkle: auto phase end")
print("[test] twinkle: manual phase begin")
p.edit("test_pattern", {"p": "twinkle", "b": 64, "a": False, "d": 3000, "c": [(255, 0, 0), (0, 0, 255)]})
if not p.select("test_pattern", step=0):
raise Exception("twinkle select failed in manual phase")
for _ in range(6):
current_step = int(p.step)
if not p.select("test_pattern", step=current_step):
raise Exception("twinkle external select failed")
p.run_step()
wdt.feed()
if int(p.step) == current_step:
raise Exception("twinkle external step did not advance")
if p.generator is not None:
raise Exception("twinkle manual mode rescheduled generator")
hold_start = utime.ticks_ms()
while utime.ticks_diff(utime.ticks_ms(), hold_start) < 700:
wdt.feed()
utime.sleep_ms(20)
print("[test] twinkle: manual phase end")
print("[test] twinkle: pass")
if __name__ == "__main__":
main()

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tests/patterns/wave.py Normal file
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#!/usr/bin/env python3
import utime
from machine import WDT
from settings import Settings
from presets import Presets, run_tick
def run_for(p, wdt, ms):
start = utime.ticks_ms()
while utime.ticks_diff(utime.ticks_ms(), start) < ms:
wdt.feed()
run_tick(p)
utime.sleep_ms(10)
def main():
s = Settings()
p = Presets(pin=s.get("led_pin", 10), num_leds=s.get("num_leds", 30))
wdt = WDT(timeout=10000)
p.edit("test_wave", {
"p": "wave",
"b": 200,
"d": 60,
"c": [(255, 0, 0), (0, 0, 255), (0, 255, 0)],
"n1": 4,
"n2": 2,
"n3": 120,
"a": True,
})
p.select("test_wave")
run_for(p, wdt, 3000)
p.edit("cleanup_off", {"p": "off"})
p.select("cleanup_off")
run_for(p, wdt, 100)
if __name__ == "__main__":
main()