初始化提交
This commit is contained in:
王立帮
@@ -0,0 +1,72 @@
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from microbit import *
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class QJ00X_MP3:
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def __init__(self, mp3_rx=pin2, mp3_tx=pin16, volume=0x16, mode=0x01):
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uart.init(rx=mp3_rx, tx=mp3_tx, baudrate=9600)
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self.set_eq(1)
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self.set_vol(volume)
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self.set_mode(mode)
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self.pause()
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def _send_cmd(self, length, cmd, data_high=None, data_low=None):
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uart.write(b'\x7E')
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uart.write(bytes([length]))
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uart.write(bytes([cmd]))
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if data_high != None:
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uart.write(bytes([data_high]))
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if data_low != None:
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uart.write(bytes([data_low]))
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uart.write(b'\xEF')
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sleep(200)
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#下一曲
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def next_track(self):
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self._send_cmd(0x02, 0x03)
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#上一曲
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def prev_track(self):
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self._send_cmd(0x02, 0x04)
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#选择曲目
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def sel_track(self, track_index):
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self._send_cmd(0x03, track_index)
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#音量+
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def inc_vol(self):
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self._send_cmd(0x02, 0x05)
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#音量-
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def dec_vol(self):
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self._send_cmd(0x02, 0x06)
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#设置音量
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def set_vol(self, volume):
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self._send_cmd(0x03, 0x31, data_high=volume)
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#设置音效
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def set_eq(self, equalizer):
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self._send_cmd(0x03, 0x32, data_high=equalizer)
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#设置播放设备
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def set_mode(self, mode):
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self._send_cmd(0x03, 0x35, data_high=mode)
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#播放
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def play(self):
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self._send_cmd(0x02, 0x01)
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#终止播放
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def pause(self):
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self._send_cmd(0x02, 0x02)
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#设置文件夹播放
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def set_folder(self, folder_index, music_index):
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self._send_cmd(0x04, 0x42, data_high=folder_index, data_low=music_index)
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#设置曲目播放
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def playFileByIndexNumber(self, music_index):
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self._send_cmd(0x04, 0x41, data_high=0x00, data_low=music_index)
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#设置循环
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def set_loop(self, mode):
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self._send_cmd(0x03, 0x33, data_high=mode)
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@@ -0,0 +1,128 @@
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from microbit import *
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DS1307_I2C_ADDRESS = (104)
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DS1307_REG_SECOND = (0)
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DS1307_REG_MINUTE = (1)
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DS1307_REG_HOUR = (2)
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DS1307_REG_WEEKDAY = (3)
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DS1307_REG_DAY = (4)
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DS1307_REG_MONTH = (5)
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DS1307_REG_YEAR = (6)
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DS1307_REG_CTRL = (7)
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DS1307_REG_RAM = (8)
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class DS1307():
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# set reg
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def setReg(self, reg, dat):
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i2c.write(DS1307_I2C_ADDRESS, bytearray([reg, dat]))
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# get reg
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def getReg(self, reg):
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i2c.write(DS1307_I2C_ADDRESS, bytearray([reg]))
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t = i2c.read(DS1307_I2C_ADDRESS, 1)
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return t[0]
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def start(self):
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t = self.getReg(DS1307_REG_SECOND)
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self.setReg(DS1307_REG_SECOND, t&0x7F)
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def stop(self):
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t = self.getReg(DS1307_REG_SECOND)
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self.setReg(DS1307_REG_SECOND, t|0x80)
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def DecToHex(self, dat):
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return (dat//10) * 16 + (dat%10)
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def HexToDec(self, dat):
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return (dat//16) * 10 + (dat%16)
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def DateTime(self, DT=None):
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if DT == None:
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i2c.write(DS1307_I2C_ADDRESS, bytearray([0]))
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buf = i2c.read(DS1307_I2C_ADDRESS, 7)
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DT = [0] * 8
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DT[0] = self.HexToDec(buf[6]) + 2000
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DT[1] = self.HexToDec(buf[5])
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DT[2] = self.HexToDec(buf[4])
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DT[3] = self.HexToDec(buf[3])
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DT[4] = self.HexToDec(buf[2])
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DT[5] = self.HexToDec(buf[1])
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DT[6] = self.HexToDec(buf[0])
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DT[7] = 0
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return DT
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else:
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buf = bytearray(8)
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buf[0] = 0
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buf[1] = self.DecToHex(DT[6]%60) # second
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buf[2] = self.DecToHex(DT[5]%60) # minute
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buf[3] = self.DecToHex(DT[4]%24) # hour
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buf[4] = self.DecToHex(DT[3]%8) # week day
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buf[5] = self.DecToHex(DT[2]%32) # date
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buf[6] = self.DecToHex(DT[1]%13) # month
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buf[7] = self.DecToHex(DT[0]%100) # year
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i2c.write(DS1307_I2C_ADDRESS, buf)
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def Year(self, year = None):
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if year == None:
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return self.HexToDec(self.getReg(DS1307_REG_YEAR)) + 2000
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else:
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self.setReg(DS1307_REG_YEAR, self.DecToHex(year%100))
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def Month(self, month = None):
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if month == None:
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return self.HexToDec(self.getReg(DS1307_REG_MONTH))
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else:
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self.setReg(DS1307_REG_MONTH, self.DecToHex(month%13))
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def Day(self, day = None):
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if day == None:
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return self.HexToDec(self.getReg(DS1307_REG_DAY))
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else:
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self.setReg(DS1307_REG_DAY, self.DecToHex(day%32))
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def Weekday(self, weekday = None):
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if weekday == None:
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return self.HexToDec(self.getReg(DS1307_REG_WEEKDAY))
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else:
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self.setReg(DS1307_REG_WEEKDAY, self.DecToHex(weekday%8))
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def Hour(self, hour = None):
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if hour == None:
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return self.HexToDec(self.getReg(DS1307_REG_HOUR))
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else:
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self.setReg(DS1307_REG_HOUR, self.DecToHex(hour%24))
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def Minute(self, minute = None):
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if minute == None:
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return self.HexToDec(self.getReg(DS1307_REG_MINUTE))
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else:
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self.setReg(DS1307_REG_MINUTE, self.DecToHex(minute%60))
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def Second(self, second = None):
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if second == None:
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return self.HexToDec(self.getReg(DS1307_REG_SECOND))
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else:
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self.setReg(DS1307_REG_SECOND, self.DecToHex(second%60))
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def ram(self, reg, dat = None):
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if dat == None:
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return self.getReg(DS1307_REG_RAM + (reg%56))
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else:
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self.setReg(DS1307_REG_RAM + (reg%56), dat)
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def get_time(self):
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return self.Hour() + self.Minute() + self.Second()
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def get_date(self):
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return self.Year() + self.Month() + self.Day()
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def set_time(self, hour, minute, second):
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self.Hour(hour)
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self.Minute(minute)
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self.Second(second)
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def set_date(self, year, month, day):
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self.Year(year)
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self.Month(month)
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self.Day(day)
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ds = DS1307()
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@@ -0,0 +1,6 @@
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from microbit import *
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def angle(pin, angle):
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pin.set_analog_period(round((1/50) * 1000))
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duty = 26 + (angle * 102) / 180
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pin.write_analog(duty)
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@@ -0,0 +1,148 @@
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from microbit import *
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class TCS34725():
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TCS34725_ADDRESS = 0x29
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TCS34725_COMMAND_BIT = 0x80
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TCS34725_ENABLE = 0x00
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TCS34725_ENABLE_AIEN = 0x10 # RGBC Interrupt Enable
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TCS34725_ENABLE_WEN = 0x08 # Wait enable - Writing 1 activates the wait timer
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TCS34725_ENABLE_AEN = 0x02 # RGBC Enable - Writing 1 actives the ADC, 0 disables it
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TCS34725_ENABLE_PON = 0x01 # Power on - Writing 1 activates the internal oscillator, 0 disables it
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TCS34725_ATIME = 0x01 # Integration time
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TCS34725_WTIME = 0x03 # Wait time (if TCS34725_ENABLE_WEN is asserted
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TCS34725_WTIME_2_4MS = 0xFF # WLONG0 = 2.4ms WLONG1 = 0.029s
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TCS34725_WTIME_204MS = 0xAB # WLONG0 = 204ms WLONG1 = 2.45s
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TCS34725_WTIME_614MS = 0x00 # WLONG0 = 614ms WLONG1 = 7.4s
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TCS34725_AILTL = 0x04 # Clear channel lower interrupt threshold
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TCS34725_AILTH = 0x05
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TCS34725_AIHTL = 0x06 # Clear channel upper interrupt threshold
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TCS34725_AIHTH = 0x07
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TCS34725_PERS = 0x0C # Persistence register - basic SW filtering mechanism for interrupts
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TCS34725_PERS_NONE = 0b0000 # Every RGBC cycle generates an interrupt
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TCS34725_PERS_1_CYCLE = 0b0001 # 1 clean channel value outside threshold range generates an interrupt
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TCS34725_PERS_2_CYCLE = 0b0010 # 2 clean channel values outside threshold range generates an interrupt
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TCS34725_PERS_3_CYCLE = 0b0011 # 3 clean channel values outside threshold range generates an interrupt
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TCS34725_PERS_5_CYCLE = 0b0100 # 5 clean channel values outside threshold range generates an interrupt
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TCS34725_PERS_10_CYCLE = 0b0101 # 10 clean channel values outside threshold range generates an interrupt
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TCS34725_PERS_15_CYCLE = 0b0110 # 15 clean channel values outside threshold range generates an interrupt
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TCS34725_PERS_20_CYCLE = 0b0111 # 20 clean channel values outside threshold range generates an interrupt
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TCS34725_PERS_25_CYCLE = 0b1000 # 25 clean channel values outside threshold range generates an interrupt
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TCS34725_PERS_30_CYCLE = 0b1001 # 30 clean channel values outside threshold range generates an interrupt
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TCS34725_PERS_35_CYCLE = 0b1010 # 35 clean channel values outside threshold range generates an interrupt
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TCS34725_PERS_40_CYCLE = 0b1011 # 40 clean channel values outside threshold range generates an interrupt
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TCS34725_PERS_45_CYCLE = 0b1100 # 45 clean channel values outside threshold range generates an interrupt
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TCS34725_PERS_50_CYCLE = 0b1101 # 50 clean channel values outside threshold range generates an interrupt
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TCS34725_PERS_55_CYCLE = 0b1110 # 55 clean channel values outside threshold range generates an interrupt
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TCS34725_PERS_60_CYCLE = 0b1111 # 60 clean channel values outside threshold range generates an interrupt
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TCS34725_CONFIG = 0x0D
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TCS34725_CONFIG_WLONG = 0x02 # Choose between short and long (12x wait times via TCS34725_WTIME
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TCS34725_CONTROL = 0x0F # Set the gain level for the sensor
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TCS34725_ID = 0x12 # 0x44 = TCS34721/TCS34725, 0x4D = TCS34723/TCS34727
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TCS34725_STATUS = 0x13
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TCS34725_STATUS_AINT = 0x10 # RGBC Clean channel interrupt
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TCS34725_STATUS_AVALID = 0x01 # Indicates that the RGBC channels have completed an integration cycle
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TCS34725_CDATAL = 0x14 # Clear channel data
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TCS34725_CDATAH = 0x15
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TCS34725_RDATAL = 0x16 # Red channel data
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TCS34725_RDATAH = 0x17
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TCS34725_GDATAL = 0x18 # Green channel data
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TCS34725_GDATAH = 0x19
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TCS34725_BDATAL = 0x1A # Blue channel data
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TCS34725_BDATAH = 0x1B
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# TCS34725_INTEGRATIONTIME_2_4MS = 0xFF, /**< 2.4ms - 1 cycle - Max Count: 1024
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# TCS34725_INTEGRATIONTIME_24MS = 0xF6, /**< 24ms - 10 cycles - Max Count: 10240
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# TCS34725_INTEGRATIONTIME_50MS = 0xEB, /**< 50ms - 20 cycles - Max Count: 20480
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# TCS34725_INTEGRATIONTIME_101MS = 0xD5, /**< 101ms - 42 cycles - Max Count: 43008
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# TCS34725_INTEGRATIONTIME_154MS = 0xC0, /**< 154ms - 64 cycles - Max Count: 65535
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# TCS34725_INTEGRATIONTIME_700MS = 0x00 /**< 700ms - 256 cycles - Max Count: 65535
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_tcs34725Initialised = False
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_tcs34725Gain = 0
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_tcs34725IntegrationTime = 0x00
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def __init__(self, i2c):
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self.i2c = i2c
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#pass
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def write8(self, reg, val):
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self.i2c.write(self.TCS34725_ADDRESS, bytearray([self.TCS34725_COMMAND_BIT | reg, val & 0xFF]))
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def read16(self, reg):
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self.i2c.write(self.TCS34725_ADDRESS, bytearray([self.TCS34725_COMMAND_BIT | reg]))
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list_bytes = self.i2c.read(self.TCS34725_ADDRESS, 2)
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bytes = list_bytes[1]<<8 | list_bytes[0]
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#return [ hex(x) for x in bytes ][0]
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return bytes
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def read8(self, reg):
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self.i2c.write(self.TCS34725_ADDRESS, bytearray([self.TCS34725_COMMAND_BIT | reg]))
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return i2c.read(self.TCS34725_ADDRESS, 1)[0] - 0
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def begin(self):
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x = self.read8(self.TCS34725_ID)
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#print(x)
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if x != 68: # code I was basing this on expects 0x44, not sure why. Got 0x12
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print('did not get the expected response from sensor: ', x)
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return False
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self._tcs34725Initialised = True
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self.setIntegrationTime(self._tcs34725IntegrationTime)
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self.setGain(0)
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self.enable()
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return True
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def setIntegrationTime(self, theTime):
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if theTime not in [0xFF,0xF6,0xEB,0xD5,0xC0,0x00]:
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print('setting integration time to 0x00, %s is illegal' % theTime)
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theTime = 0x00
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self.write8(self.TCS34725_ATIME, theTime)
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# self.i2c.write8(self.TCS34725_ATIME, theTime)
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self._tcs34725IntegrationTime = theTime
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def setGain(self, gain):
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# TCS34725_GAIN_1X = 0x00, /**< No gain
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# TCS34725_GAIN_4X = 0x01, /**< 2x gain
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# TCS34725_GAIN_16X = 0x02, /**< 16x gain
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# TCS34725_GAIN_60X = 0x03 /**< 60x gain
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if gain not in [0,1,2,3]:
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print('setting gain to 0, %s is illegal' % gain)
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gain = 0
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self.write8(self.TCS34725_CONTROL, gain)
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self._tcs34725Gain = gain
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def enable(self):
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self.write8(self.TCS34725_ENABLE, self.TCS34725_ENABLE_PON)
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sleep(0.003)
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self.write8(self.TCS34725_ENABLE, (self.TCS34725_ENABLE_PON | self.TCS34725_ENABLE_AEN))
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def getRawRGBData(self, type):
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if not self._tcs34725Initialised:
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self.begin()
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r = self.read16(self.TCS34725_RDATAL)
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g = self.read16(self.TCS34725_GDATAL)
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b = self.read16(self.TCS34725_BDATAL)
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if self._tcs34725IntegrationTime == 0xFF:
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sleep(0.0024)
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elif self._tcs34725IntegrationTime == 0xF6:
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sleep(0.024)
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elif self._tcs34725IntegrationTime == 0xEB:
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sleep(0.050)
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elif self._tcs34725IntegrationTime == 0xD5:
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sleep(0.101)
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elif self._tcs34725IntegrationTime == 0xC0:
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sleep(0.154)
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elif self._tcs34725IntegrationTime == 0x00:
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sleep(0.700)
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else:
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sleep(0.700)
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if type == 0:
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return r
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elif type == 1:
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return g
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else:
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return b
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tcs = TCS34725(i2c)
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@@ -0,0 +1,86 @@
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from microbit import *
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class LCD1602():
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def __init__(self, lcd_i2c_addr):
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self.buf = bytearray(1)
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self.BK = 0x08
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self.RS = 0x00
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self.E = 0x04
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self.setcmd(0x33)
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sleep(5)
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self.send(0x30)
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sleep(5)
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self.send(0x20)
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sleep(5)
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self.setcmd(0x28)
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self.setcmd(0x0C)
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self.setcmd(0x06)
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self.setcmd(0x01)
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self.version='1.0'
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self.lcd_i2c_addr=lcd_i2c_addr
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def setReg(self, dat):
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self.buf[0] = dat
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i2c.write(self.lcd_i2c_addr, self.buf)
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sleep(1)
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def send(self, dat):
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d=dat&0xF0
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d|=self.BK
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d|=self.RS
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self.setReg(d)
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self.setReg(d|0x04)
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self.setReg(d)
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def setcmd(self, cmd):
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self.RS=0
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self.send(cmd)
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self.send(cmd<<4)
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def setdat(self, dat):
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self.RS=1
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self.send(dat)
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self.send(dat<<4)
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def clear(self):
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self.setcmd(1)
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def backlight(self, on):
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if on:
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self.BK=0x08
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else:
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self.BK=0
|
||||
self.setdat(0)
|
||||
|
||||
def on(self):
|
||||
self.setcmd(0x0C)
|
||||
|
||||
def off(self):
|
||||
self.setcmd(0x08)
|
||||
|
||||
def char(self, ch, x=-1, y=0):
|
||||
if x>=0:
|
||||
a=0x80
|
||||
if y>0:
|
||||
a=0xC0
|
||||
a+=x
|
||||
self.setcmd(a)
|
||||
self.setdat(ch)
|
||||
|
||||
def puts(self, s, x=0, y=0):
|
||||
if len(s)>0:
|
||||
self.char(ord(s[0]),x,y)
|
||||
for i in range(1, len(s)):
|
||||
self.char(ord(s[i]))
|
||||
|
||||
def mixly_puts(self, s, x=1, y=1):
|
||||
s = str(s)
|
||||
x = x - 1
|
||||
y = y - 1
|
||||
self.puts(self, s, x, y)
|
||||
|
||||
def mixly_puts_two_lines(self, line1, line2):
|
||||
line1 = str(line1)
|
||||
line2 = str(line2)
|
||||
self.puts(self, line1, 0, 0)
|
||||
self.puts(self, line2, 0, 1)
|
||||
@@ -0,0 +1,59 @@
|
||||
import math
|
||||
|
||||
def math_map(v, al, ah, bl, bh):
|
||||
return bl + (bh - bl) * (v - al) / (ah - al)
|
||||
|
||||
def math_mean(myList):
|
||||
localList = [e for e in myList if type(e) == int or type(e) == float]
|
||||
if not localList: return
|
||||
return float(sum(localList)) / len(localList)
|
||||
|
||||
def math_median(myList):
|
||||
localList = sorted([e for e in myList if type(e) == int or type(e) == float])
|
||||
if not localList: return
|
||||
if len(localList) % 2 == 0:
|
||||
return (localList[len(localList) // 2 - 1] + localList[len(localList) // 2]) / 2.0
|
||||
else:
|
||||
return localList[(len(localList) - 1) // 2]
|
||||
|
||||
def math_modes(some_list):
|
||||
modes = []
|
||||
# Using a lists of [item, count] to keep count rather than dict
|
||||
# to avoid "unhashable" errors when the counted item is itself a list or dict.
|
||||
counts = []
|
||||
maxCount = 1
|
||||
for item in some_list:
|
||||
found = False
|
||||
for count in counts:
|
||||
if count[0] == item:
|
||||
count[1] += 1
|
||||
maxCount = max(maxCount, count[1])
|
||||
found = True
|
||||
if not found:
|
||||
counts.append([item, 1])
|
||||
for counted_item, item_count in counts:
|
||||
if item_count == maxCount:
|
||||
modes.append(counted_item)
|
||||
return modes
|
||||
|
||||
def math_standard_deviation(numbers):
|
||||
n = len(numbers)
|
||||
if n == 0: return
|
||||
mean = float(sum(numbers)) / n
|
||||
variance = sum((x - mean) ** 2 for x in numbers) / n
|
||||
return math.sqrt(variance)
|
||||
|
||||
def lists_sort(my_list, type, reverse):
|
||||
def try_float(s):
|
||||
try:
|
||||
return float(s)
|
||||
except:
|
||||
return 0
|
||||
key_funcs = {
|
||||
"NUMERIC": try_float,
|
||||
"TEXT": str,
|
||||
"IGNORE_CASE": lambda s: str(s).lower()
|
||||
}
|
||||
key_func = key_funcs[type]
|
||||
list_cpy = list(my_list)
|
||||
return sorted(list_cpy, key=key_func, reverse=reverse)
|
||||
@@ -0,0 +1,65 @@
|
||||
from microbit import *
|
||||
|
||||
def initPCA9685():
|
||||
i2c.write(0x40, bytearray([0x00, 0x00]))
|
||||
setFreq(50)
|
||||
for idx in range(0, 16, 1):
|
||||
setPwm(idx, 0 ,0)
|
||||
def MotorRun(Motors, speed):
|
||||
speed = speed * 16
|
||||
if (speed >= 4096):
|
||||
speed = 4095
|
||||
if (speed <= -4096):
|
||||
speed = -4095
|
||||
if (Motors <= 4 and Motors > 0):
|
||||
pp = (Motors - 1) * 2
|
||||
pn = (Motors - 1) * 2 + 1
|
||||
if (speed >= 0):
|
||||
setPwm(pp, 0, speed)
|
||||
setPwm(pn, 0, 0)
|
||||
else :
|
||||
setPwm(pp, 0, 0)
|
||||
setPwm(pn, 0, -speed)
|
||||
def Servo(Servos, degree):
|
||||
v_us = (degree * 1800 / 180 + 600)
|
||||
value = int(v_us * 4096 / 20000)
|
||||
setPwm(Servos + 7, 0, value)
|
||||
def setFreq(freq):
|
||||
prescaleval = int(25000000/(4096*freq)) - 1
|
||||
i2c.write(0x40, bytearray([0x00]))
|
||||
oldmode = i2c.read(0x40, 1)
|
||||
newmode = (oldmode[0] & 0x7F) | 0x10
|
||||
i2c.write(0x40, bytearray([0x00, newmode]))
|
||||
i2c.write(0x40, bytearray([0xfe, prescaleval]))
|
||||
i2c.write(0x40, bytearray([0x00, oldmode[0]]))
|
||||
sleep(4)
|
||||
i2c.write(0x40, bytearray([0x00, oldmode[0] | 0xa1]))
|
||||
def setPwm(channel, on, off):
|
||||
if (channel >= 0 and channel <= 15):
|
||||
buf = bytearray([0X06 + 4 * channel, on & 0xff, (on >> 8) & 0xff, off & 0xff, (off >> 8) & 0xff])
|
||||
i2c.write(0x40, buf)
|
||||
def setStepper(stpMotors, dir, speed):
|
||||
spd = speed
|
||||
setFreq(spd)
|
||||
if (stpMotors == 1):
|
||||
if (dir):
|
||||
setPwm(0, 2047, 4095)
|
||||
setPwm(1, 1, 2047)
|
||||
setPwm(2, 1023, 3071)
|
||||
setPwm(3, 3071, 1023)
|
||||
else:
|
||||
setPwm(3, 2047, 4095)
|
||||
setPwm(2, 1, 2047)
|
||||
setPwm(1, 1023, 3071)
|
||||
setPwm(0, 3071, 1023)
|
||||
elif (stpMotors == 2):
|
||||
if (dir):
|
||||
setPwm(4, 2047, 4095)
|
||||
setPwm(5, 1, 2047)
|
||||
setPwm(6, 1023, 3071)
|
||||
setPwm(7, 3071, 1023)
|
||||
else:
|
||||
setPwm(7, 2047, 4095)
|
||||
setPwm(6, 1, 2047)
|
||||
setPwm(4, 1023, 3071)
|
||||
setPwm(5, 3071, 1023)
|
||||
@@ -0,0 +1,27 @@
|
||||
from microbit import *
|
||||
import math
|
||||
|
||||
_VOLTAGE_POWER = 5
|
||||
_RS = 10
|
||||
_B = 3950
|
||||
_T1 = 273.15 + 25
|
||||
_R1 = 100
|
||||
|
||||
def read(pin, r1, b, rs):
|
||||
r1 = r1 / 1000
|
||||
rs = rs / 1000
|
||||
|
||||
# print("rs:" + str(rs))
|
||||
|
||||
_analogValue = pin.read_analog()
|
||||
_voltageValue = (_analogValue / 1545) * _VOLTAGE_POWER
|
||||
|
||||
# print("voltageValue:" + str(_voltageValue))
|
||||
|
||||
_rt = ((_VOLTAGE_POWER - _voltageValue) * rs) / _voltageValue
|
||||
|
||||
# print("rt:" + str(_rt))
|
||||
|
||||
_tempValue = (((_T1 * b) / (b + _T1 * math.log(_rt / r1))) - 273.15)
|
||||
|
||||
return _tempValue
|
||||
@@ -0,0 +1,105 @@
|
||||
from microbit import *
|
||||
|
||||
class OLED12864_I2C():
|
||||
def __init__(self):
|
||||
cmd = [
|
||||
[0xAE], # SSD1306_DISPLAYOFF
|
||||
[0xA4], # SSD1306_DISPLAYALLON_RESUME
|
||||
[0xD5, 0xF0], # SSD1306_SETDISPLAYCLOCKDIV
|
||||
[0xA8, 0x3F], # SSD1306_SETMULTIPLEX
|
||||
[0xD3, 0x00], # SSD1306_SETDISPLAYOFFSET
|
||||
[0 | 0x0], # line #SSD1306_SETSTARTLINE
|
||||
[0x8D, 0x14], # SSD1306_CHARGEPUMP
|
||||
[0x20, 0x00], # SSD1306_MEMORYMODE
|
||||
[0x21, 0, 127], # SSD1306_COLUMNADDR
|
||||
[0x22, 0, 63], # SSD1306_PAGEADDR
|
||||
[0xa0 | 0x1], # SSD1306_SEGREMAP
|
||||
[0xc8], # SSD1306_COMSCANDEC
|
||||
[0xDA, 0x12], # SSD1306_SETCOMPINS
|
||||
[0x81, 0xCF], # SSD1306_SETCONTRAST
|
||||
[0xd9, 0xF1], # SSD1306_SETPRECHARGE
|
||||
[0xDB, 0x40], # SSD1306_SETVCOMDETECT
|
||||
[0xA6], # SSD1306_NORMALDISPLAY
|
||||
[0xd6, 1], # zoom on
|
||||
[0xaf] # SSD1306_DISPLAYON
|
||||
]
|
||||
|
||||
for c in cmd:
|
||||
self.command(c)
|
||||
self._ZOOM = 1
|
||||
self.ADDR = 0x3C
|
||||
self.screen = bytearray(1025) # send byte plus pixels
|
||||
self.screen[0] = 0x40
|
||||
|
||||
def command(self, c):
|
||||
i2c.write(self.ADDR, b'·' + bytearray(c))
|
||||
|
||||
def set_pos(self, col=0, page=0):
|
||||
self.command([0xb0 | page]) # page number
|
||||
# take upper and lower value of col * 2
|
||||
c = col * (self._ZOOM+1)
|
||||
c1, c2 = c & 0x0F, c >> 4
|
||||
self.command([0x00 | c1]) # lower start column address
|
||||
self.command([0x10 | c2]) # upper start column address
|
||||
|
||||
def pixel(self, x, y, color=1, draw=1):
|
||||
page, shift_page = divmod(y, 8)
|
||||
ind = x * (self._ZOOM+1) + page * 128 + 1
|
||||
b = self.screen[ind] | (1 << shift_page) if color else self.screen[ind] & ~ (1 << shift_page)
|
||||
self.screen[ind] = b
|
||||
self.set_pos(x, page)
|
||||
if self._ZOOM:
|
||||
self.screen[ind+1]=b
|
||||
i2c.write(0x3c, bytearray([0x40, b, b]))
|
||||
else:
|
||||
i2c.write(0x3c, bytearray([0x40, b]))
|
||||
|
||||
def zoom(self, d=1):
|
||||
self._ZOOM = 1 if d else 0
|
||||
self.command([0xd6, self._ZOOM])
|
||||
|
||||
def invert(self, v=1):
|
||||
n = 0xa7 if v else 0xa6
|
||||
self.command([n])
|
||||
|
||||
def clear(self, c=0):
|
||||
for i in range(1, 1025):
|
||||
self.screen[i] = 0
|
||||
self.draw()
|
||||
|
||||
def draw(self):
|
||||
self.set_pos()
|
||||
i2c.write(self.ADDR, self.screen)
|
||||
|
||||
def text(self, x, y, s, draw=1):
|
||||
for i in range(0, min(len(s), 12 - x)):
|
||||
for c in range(0, 5):
|
||||
col = 0
|
||||
for r in range(1, 6):
|
||||
p = Image(s[i]).get_pixel(c, r - 1)
|
||||
col = col | (1 << r) if (p != 0) else col
|
||||
ind = (x + i) * 5 * (self._ZOOM+1) + y * 128 + c*(self._ZOOM+1) + 1
|
||||
self.screen[ind] = col
|
||||
if self._ZOOM:
|
||||
self.screen[ind + 1] = col
|
||||
self.set_pos(x * 5, y)
|
||||
ind0 = x * 5 * (self._ZOOM+1) + y * 128 + 1
|
||||
i2c.write(self.ADDR, b'@' + self.screen[ind0:ind + 1])
|
||||
|
||||
def hline(self, x, y, l,c=1):
|
||||
d = 1 if l>0 else -1
|
||||
for i in range(x, x+l, d):
|
||||
self.pixel(i,y,c)
|
||||
|
||||
def vline(self, x, y, l,c=1):
|
||||
d = 1 if l>0 else -1
|
||||
for i in range(y, y+l,d):
|
||||
self.pixel(x,i,c,0)
|
||||
|
||||
def rect(self, x1,y1,x2,y2,c=1):
|
||||
self.hline(x1,y1,x2-x1+1,c)
|
||||
self.hline(x1,y2,x2-x1+1,c)
|
||||
self.vline(x1,y1,y2-y1+1,c)
|
||||
self.vline(x2,y1,y2-y1+1,c)
|
||||
|
||||
oled = OLED12864_I2C()
|
||||
@@ -0,0 +1,5 @@
|
||||
from microbit import *
|
||||
|
||||
def show(object, led, r, g, b):
|
||||
object[led] = (r, g, b)
|
||||
object.show()
|
||||
@@ -0,0 +1,32 @@
|
||||
from microbit import *
|
||||
|
||||
def distance_mm(tpin=pin16, epin=pin15):
|
||||
spi.init(baudrate=125000, sclk=pin13,
|
||||
mosi=tpin, miso=epin)
|
||||
pre = 0
|
||||
post = 0
|
||||
k = -1
|
||||
length = 500
|
||||
resp = bytearray(length)
|
||||
resp[0] = 0xFF
|
||||
spi.write_readinto(resp, resp)
|
||||
# find first non zero value
|
||||
try:
|
||||
i, value = next((ind, v) for ind, v in enumerate(resp) if v)
|
||||
except StopIteration:
|
||||
i = -1
|
||||
if i > 0:
|
||||
pre = bin(value).count("1")
|
||||
# find first non full high value afterwards
|
||||
try:
|
||||
k, value = next((ind, v)
|
||||
for ind, v in enumerate(resp[i:length - 2]) if resp[i + ind + 1] == 0)
|
||||
post = bin(value).count("1") if k else 0
|
||||
k = k + i
|
||||
except StopIteration:
|
||||
i = -1
|
||||
dist= -1 if i < 0 else round((pre + (k - i) * 8. + post) * 8 * 0.172)
|
||||
return dist
|
||||
|
||||
def distance_cm(t_pin=pin16, e_pin=pin15):
|
||||
return distance_mm(tpin=t_pin, epin=e_pin) / 10.0
|
||||
File diff suppressed because it is too large
Load Diff
File diff suppressed because it is too large
Load Diff
File diff suppressed because it is too large
Load Diff
File diff suppressed because it is too large
Load Diff
@@ -0,0 +1,65 @@
|
||||
{
|
||||
"board": {
|
||||
"micro:bit v1": "micropython:nrf51822:v1",
|
||||
"micro:bit v2": "micropython:nrf51822:v2"
|
||||
},
|
||||
"language": "MicroPython",
|
||||
"burn": {
|
||||
"type": "volume",
|
||||
"volumeName": "MICROBIT",
|
||||
"micropython:nrf51822:v1": {
|
||||
"filePath": "{indexPath}/build/microbit-micropython-v1.hex"
|
||||
},
|
||||
"micropython:nrf51822:v2": {
|
||||
"filePath": "{indexPath}/build/microbit-micropython-v2.hex"
|
||||
}
|
||||
},
|
||||
"upload": {
|
||||
"type": "command",
|
||||
"portSelect": [
|
||||
{
|
||||
"vendorId": "0D28",
|
||||
"productId": "0204"
|
||||
}
|
||||
],
|
||||
"libPath": [
|
||||
"{indexPath}/build/lib"
|
||||
],
|
||||
"command": "\"{ampy}\" -p {com} -d 1 -r \"{reset}\" put \"{indexPath}/build/upload\"",
|
||||
"filePath": "{indexPath}/build/upload/main.py",
|
||||
"copyLib": true,
|
||||
"reset": []
|
||||
},
|
||||
"nav": {
|
||||
"burn": true,
|
||||
"upload": true,
|
||||
"save": {
|
||||
"py": true
|
||||
},
|
||||
"setting": {
|
||||
"pythonToBlockly": true
|
||||
}
|
||||
},
|
||||
"serial": {
|
||||
"ctrlCBtn": true,
|
||||
"ctrlDBtn": true,
|
||||
"baudRates": 115200,
|
||||
"yMax": 100,
|
||||
"yMin": 0,
|
||||
"pointNum": 100,
|
||||
"rts": true,
|
||||
"dtr": true
|
||||
},
|
||||
"pythonToBlockly": false,
|
||||
"web": {
|
||||
"com": "usb",
|
||||
"burn": {
|
||||
"micropython:nrf51822:v1": {
|
||||
"filePath": "./build/microbit-micropython-v1-lib.hex"
|
||||
},
|
||||
"micropython:nrf51822:v2": {
|
||||
"filePath": "./build/microbit-micropython-v2-lib.hex"
|
||||
}
|
||||
}
|
||||
}
|
||||
}
|
||||
@@ -0,0 +1 @@
|
||||
{}
|
||||
Binary file not shown.
|
After Width: | Height: | Size: 72 KiB |
Reference in New Issue
Block a user