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mixly3/boards/default/micropython_esp32s3/build/lib/mixgo_sant.py
Irene-Maxine 6957182e71 修改 mixgo_sant
2025-01-09 12:42:14 +08:00

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Python
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"""
mixgo_sant Onboard resources
Micropython library for the mixgo_sant Onboard resources
=======================================================
@dahanzimin From the Mixly Team
"""
from machine import *
import time, gc, st7789_cf, math
'''RTC'''
rtc_clock = RTC()
'''I2C-onboard'''
#onboard_i2c = I2C(0)
onboard_i2c = SoftI2C(scl=Pin(47), sda=Pin(48), freq=400000)
'''SPI-onboard'''
onboard_spi = SPI(1, baudrate=50000000, polarity=0, phase=0)
'''TFT/320*240'''
onboard_tft = st7789_cf.ST7789(onboard_spi, 240, 240, dc_pin=40, cs_pin=None, bl_pin=None, font_address=0xE00000)
'''BOT035-Sensor'''
try :
import sant_bot
onboard_bot = sant_bot.BOT035(onboard_i2c)
except Exception as e:
print("Warning: Failed to communicate with BOT035 (Coprocessor) or",e)
'''ACC-Sensor'''
try :
import sc7a20
onboard_acc = sc7a20.SC7A20(onboard_i2c)
except Exception as e:
print("Warning: Failed to communicate with SC7A20H (ACC) or",e)
'''ALS_PS_CS-Sensor'''
try :
import mk_pb4023
onboard_als = mk_pb4023.MK_PB4023(onboard_i2c)
except Exception as e:
print("Warning: Failed to communicate with MK_PB4023 (ALS&PS&CS) or",e)
'''THS-Sensor'''
try :
import shtc3
onboard_ths = shtc3.SHTC3(onboard_i2c)
except Exception as e:
print("Warning: Failed to communicate with GXHTC3 (THS) or",e)
'''ASR-Sensor'''
try :
import ci130x
onboard_asr = ci130x.CI130X(onboard_i2c)
except Exception as e:
print("Warning: Failed to communicate with CI130X (ASR) or",e)
'''MGS-Sensor'''
try :
import mmc5603
onboard_mgs = mmc5603.MMC5603(onboard_i2c)
except Exception as e:
print("Warning: Failed to communicate with MMC5603 (MGS) or",e)
'''BPS-Sensor'''
try :
import spl06_001
onboard_bps = spl06_001.SPL06(onboard_i2c)
except Exception as e:
print("Warning: Failed to communicate with SPL06-001 (BPS) or",e)
'''2RGB_WS2812'''
from ws2812 import NeoPixel
onboard_rgb = NeoPixel(Pin(21), 4)
'''1Buzzer-Music'''
from music import MIDI
onboard_music =MIDI(16)
'''5KEY_Sensor'''
class KEYSensor:
def __init__(self, pin, range):
self.pin = pin
self.adc = ADC(Pin(pin), atten=ADC.ATTN_0DB)
self.range = range
self.flag = True
def _value(self):
values = []
for _ in range(50):
values.append(self.adc.read())
time.sleep_us(2)
return (self.range-200) < min(values) < (self.range+200)
def get_presses(self, delay = 1):
last_time,presses = time.time(), 0
while time.time() < last_time + delay:
time.sleep_ms(50)
if self.was_pressed():
presses += 1
return presses
def is_pressed(self):
return self._value()
def was_pressed(self):
if(self._value() != self.flag):
self.flag = self._value()
if self.flag :
return True
else:
return False
def irq(self, handler, trigger):
Pin(self.pin, Pin.IN).irq(handler = handler, trigger = trigger)
'''1KEY_Button'''
class Button(KEYSensor):
def __init__(self, pin):
self.pin = pin
self.key = Pin(pin, Pin.IN)
self.flag = True
def _value(self):
return not self.key.value()
B1key = Button(0)
B2key = KEYSensor(15,0)
A1key = KEYSensor(15,2900)
A2key = KEYSensor(15,2300)
A3key = KEYSensor(15,1650)
A4key = KEYSensor(15,850)
'''2-LED'''
class LED:
def __init__(self, pins=[]):
self._pins = [PWM(Pin(pin), duty_u16=0) for pin in pins]
self._brightness = [0 for _ in range(len(self._pins))]
def setbrightness(self, index, val):
if not 0 <= val <= 100:
raise ValueError("Brightness must be in the range: 0-100%")
self._brightness[index - 1] = val
self._pins[index - 1].duty_u16(val * 65535 // 100)
def getbrightness(self, index):
return self._brightness[index - 1]
def setonoff(self, index, val):
if val == -1:
self.setbrightness(index, 100) if self.getbrightness(index) < 50 else self.setbrightness(index, 0)
elif val == 1:
self.setbrightness(index, 100)
elif val == 0:
self.setbrightness(index, 0)
def getonoff(self, index):
return True if self.getbrightness(index) > 50 else False
onboard_led = LED(pins=[45, 46])
class Clock:
def __init__(self, x, y, radius, color, oled=onboard_tft): #定义时钟中心点和半径
self.display = oled
self.xc = x
self.yc = y
self.r = radius
self.color= color
self.hour = 0
self.min = 0
self.sec = 0
def set_time(self, h, m, s): #设定时间
self.hour = h
self.min = m
self.sec = s
def set_rtctime(self): #设定时间
t = rtc_clock.datetime()
self.hour = t[4]
self.min = t[5]
self.sec = t[6]
def drawDial(self,color): #画钟表刻度
r_tic1 = self.r - 1
r_tic2 = self.r - 2
self.display.ellipse(self.xc, self.yc, self.r,self.r, self.color)
self.display.ellipse(self.xc, self.yc, 2, 2, self.color,True)
for h in range(12):
at = math.pi * 2.0 * h / 12.0
x1 = round(self.xc + r_tic1 * math.sin(at))
x2 = round(self.xc + r_tic2 * math.sin(at))
y1 = round(self.yc - r_tic1 * math.cos(at))
y2 = round(self.yc - r_tic2 * math.cos(at))
self.display.line(x1, y1, x2, y2, color)
def drawHour(self,color): #画时针
r_hour = int(self.r / 10.0 * 5)
ah = math.pi * 2.0 * ((self.hour % 12) + self.min / 60.0) / 12.0
xh = int(self.xc + r_hour * math.sin(ah))
yh = int(self.yc - r_hour * math.cos(ah))
self.display.line(self.xc, self.yc, xh, yh, color)
def drawMin(self,color): #画分针
r_min = int(self.r / 10.0 * 7)
am = math.pi * 2.0 * self.min / 60.0
xm = round(self.xc + r_min * math.sin(am))
ym = round(self.yc - r_min * math.cos(am))
self.display.line(self.xc, self.yc, xm, ym, color)
def drawSec(self,color): #画秒针
r_sec = int(self.r / 10.0 * 9)
asec = math.pi * 2.0 * self.sec / 60.0
xs = round(self.xc + r_sec * math.sin(asec))
ys = round(self.yc - r_sec * math.cos(asec))
self.display.line(self.xc, self.yc, xs, ys, color)
def draw_clock(self): #画完整钟表
self.drawDial(self.color)
self.drawHour(self.color)
self.drawMin(self.color)
self.drawSec(self.color)
self.display.show()
def clear(self,color=0): #清除
self.drawHour(color)
self.drawMin(color)
self.drawSec(color)
'''Reclaim memory'''
gc.collect()
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