def over():
Snake.timer.deinit()
lcd.clear()
lcd.text(lcd.CENTER, lcd.CENTER, "GAME OVER")
lcd.text(lcd.CENTER, 10, "score: " + repr(len(Snake.tail)))
while btnA.isPressed():
pass
while True:
if btnA.isPressed():
Snake.reset()
Game.prepareField()
return 0
def loop(self):
self.callback(self)
while True:
if btnA.isPressed():
while btnA.isPressed():
pass
return self.sel
if btnB.isPressed():
self.sel = self.sel + 1 if self.sel < self.total - 1 else 0
while btnB.isPressed():
pass
self.callback(self)
def loop(self):
self._render()
while btnA.isPressed():
pass
while True:
if btnB.isPressed():
self.selection = (self.selection +
1) if self.selection < self.total else 1
while True:
if not btnB.isPressed():
break
self._render()
if btnA.isPressed():
return self.callback(self.selection - 1)
def pressLoop():
while True:
if btnA.isPressed():
lcd.clear()
statusText("taking\nphoto")
uart.uart.write(b'takePhoto')
while not btnA.isReleased():
pass
def dirChange():
if btnB.isPressed():
Snake.dr += 1
if btnA.isPressed():
Snake.dr -= 1
if Snake.dr > 3:
Snake.dr = 0
if Snake.dr < 0:
Snake.dr = 3
def loop(self):
from libs.imu import IMU #from hardware import mpu6050
mpu = IMU() #mpu = mpu6050.MPU6050()
maxX = 80.0
maxY = 160.0
accel = [0.0, 0.0]
accelSense = self.sensitivity
curSize = self.cursorSize
curPos = [40.0, 40.0]
self._drawInputForm()
self._drawLayoutBG()
while True:
self._showLayout()
self._drawSelectedLetter(curPos)
if curPos[1] <= 21:
self._drawInputForm()
self._drawInputText()
accelX = mpu.acceleration[0] * accelSense * -1
accelY = mpu.acceleration[1] * accelSense
lcd.fillRect(round(curPos[0]), round(curPos[1]), curSize, curSize,
self.topBG if curPos[1] < 104 else self.keyboardBG)
if curPos[0] + accelX < 80 - curSize and curPos[0] + accelX > 0:
curPos[0] += accelX
if curPos[1] + accelY < 160 - curSize and curPos[1] + accelY > 0:
curPos[1] += accelY
lcd.fillRect(round(curPos[0]), round(curPos[1]), curSize, curSize,
self.cursorColor)
if btnA.isPressed():
key = self._getLetter(curPos)
if key == '>':
self._hide()
return self.input
else:
self.input += key
self._drawInputText()
while btnA.isPressed():
pass
if btnB.isPressed():
if len(self.input) > 0:
self.input = self.input[:-1]
self._drawInputText()
while btnB.isPressed():
pass
def search():
from accelKeyboard import Keyboard
from geolocate import findPlace
inputText = Keyboard().loop()
coords = findPlace(inputText)
del Keyboard
del inputText
del findPlace
if coords:
gc.collect()
return mapView(coords[0], coords[1], 14 if coords[2] != 'city' else 8)
else:
lcd.clear()
lcd.text(0, 20, 'Place not Found')
lcd.text(lcd.CENTER, 100, 'ok')
while not btnA.isPressed() or btnB.isPressed():
while btnA.isPressed() or btnB.isPressed():
pass
return search
def BSIApp():
from m5stack import lcd, btnA, btnB, rtc
from machine import Timer
import _thread
lcd.font(lcd.FONT_Small)
info = False
xCenter = (0, 9, 5, 0, -4, -4)
order = False
mode = 1
def updateBusDataThreaded(tmr=False):
_thread.start_new_thread(updateBusData, tuple())
def updateBusData():
nonlocal info
info = False
print('updating')
info = getBusStopInfo(BUS_STOP)
drawBusData()
gc.collect()
def drawBusData():
if not info:
return
lcd.clear(0xffffff)
offsetY = 2
offsetX = 35
info['data']['transports'].sort(reverse=order, key= \
lambda x: int(getBusTimeData(x['times'][0])['value']) if len(x['times']) > 0 else float('inf'))
for i, t in enumerate(info['data']['transports']):
lcd.fillRoundRect(2, offsetY, 30, 12, 2,
getVehicleColor(t['type']))
lcd.text(6 + xCenter[len(t['name'])], offsetY, t['name'], 0xffffff)
if len(t['times']) > 0:
if mode == 0:
target = getBusTimeData(t['times'][0])
lcd.text(38, offsetY, target['text'], 0)
else:
currentTime = info['data']['currentTime'] // 1000 + info[
'data']['tzOffset']
for k, v in enumerate(t['times']):
target = getBusTimeData(v)
arrivalTime = int(target['value']) + int(
target['tzOffset'])
waitTime = str(
getMinuteWaitTime(currentTime, arrivalTime))
lcd.fillRoundRect(1 + offsetX, offsetY, 20, 12, 2,
getWaitTimeColor(int(waitTime)))
if len(waitTime) > 2:
waitTime = str(int(waitTime) // 60 + 1) + 'H'
lcd.text(offsetX + xCenter[len(waitTime)], offsetY,
waitTime, 0xffffff)
offsetX += 22
if k == 1:
break
offsetX = 35
offsetY += 13
if i == 10:
break
displayTime()
def getBusTimeData(src):
return src['Estimated' if 'Estimated' in src else 'Scheduled']
def getMinuteWaitTime(currentTime, busTime):
return round((busTime - currentTime) / 60)
def getWaitTimeColor(wt: int) -> int:
return 0x3cb300 * int(wt <= 10) + 0xfce513 * int(
wt > 10 and wt <= 16) + 0xfe7613 * (
wt > 16 and wt <= 25) + 0xff2812 * int(wt > 25)
def getVehicleColor(vtype):
return int(vtype == 'bus' or vtype == 'trolleybus') * 0x3377e4 + int(vtype == 'minibus') * 0xb43dcc \
+ int(vtype == 'tramway') * 0xf43000 + int(vtype == 'suburban') * 0x777000
def displayTimeThreaded(tmr=False):
_thread.start_new_thread(displayTime, tuple())
@micropython.native
def displayTime():
time = rtc.now()
txt = '{:02d}:{:02d}:{:02d}'.format(*time[-3:])
lcd.textClear(9, 148, txt, 0xFFFFFF)
lcd.text(9, 148, txt, 0)
syncTime()
updateBusData()
timeTimer = Timer(8005)
updateTimer = Timer(8006)
timeTimer.init(period=1000,
mode=Timer.PERIODIC,
callback=displayTimeThreaded)
updateTimer.init(period=30000,
mode=Timer.PERIODIC,
callback=updateBusDataThreaded)
while True:
if btnA.isPressed():
order = not order
drawBusData()
while btnA.isPressed():
pass
if btnB.isPressed():
mode = not mode
drawBusData()
while btnB.isPressed():
pass
