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|
- '''
- =========================================================
- ______ ______
- /\ _ \ /\ _ \ __
- \ \ \/\_\ ____ ____ ___\ \ \_\ \/\_\
- \ \ \/_/_ / __ \ / __ \ / __'\ \ __/\/_/_
- \ \ \_\ \/\ \_\ \/\ \__//\ \_\ \ \ \/ /\ \
- \ \____/\ \____/\ \____\ \____/\ \_\ \ \_\
- \/___/ \/___/ \/____/\/___/ \/_/ \/_/
- __
- /\ \ __ ----------------
- \ \ \ /\_\ ____ __ __ __ _ pi.cocorobo.cn
- \ \ \ \/_/_ / _ \/\ \/\ \/\ \/ \ ----------------
- \ \ \____ /\ \/\ \/\ \ \ \_\ \/> </ SYSTEM VERSION
- \ \_____\\ \_\ \_\ \_\ \____//\_/\_\ -- 24.07.05 ---
- \/_____/ \/_/\/_/\/_/\/___/ \//\/_/ ----------------
- =========================================================
- '''
- #########################################################
- # ------------------------------------------------------
- #| 封装包内容: | 类名称: |
- #|-------------------------------|----------------------|
- #| 2023.02.16: | |
- #| 【添加】 | |
- #| 1、AHT20温湿度传感器 | AHT20 |
- #| 2、MPU6050陀螺仪六轴传感器 | MPU6050 |
- #| 3、板载4颗按钮A、B、C、D | BUTTON |
- #| 4、光线强度传感器 | LIGHTINTENSITY |
- #| 5、板载LED灯! | LED |
- #| 6、直流电机 | DCMOTOR |
- #| 7、模拟舵机 | SERVO |
- #|------------------------------------------------------|
- #| 2023.02.27: | |
- #| 【修复完善】 | BUTTON、LED |
- #| 【添加】 | WIFI |
- #|------------------------------------------------------|
- #| 2023.03.09: | |
- #| 【修复完善】 | LED |
- #|------------------------------------------------------|
- #| 2023.03.14: | |
- #| 【修复完善】 | SERVO |
- #|-------------------------------------------------------
- #| 2023.06.01: | |
- #| 【替换】 | BUTTON |
- #| 【替换】 | LED |
- #| 【替换】 | DCMOTOR |
- #| 【替换】 | SERVO |
- #| 【添加】 | RGB |
- #| 【添加】 | ADC |
- #| 【添加】 | DAC |
- #| 【添加】 | INPUT |
- #| 【添加】 | OUT |
- #| 【添加】 | UvcVideo |
- #|-------------------------------------------------------
- #| 2023.06.15: | |
- #| 【更改】 | STM8S |
- #|-------------------------------------------------------
- #| 2023.08.17: | |
- #| 【更改】 | DCMOTOR |
- #|-------------------------------------------------------
- #| 2023.08.25: | |
- #| 【更改】 | BUZZER |
- #|-------------------------------------------------------
- #| 2023.09.28: | |
- #| 【更改】 | QMI8658 |
- #########################################################
- #|-------------------------------------------------------
- #| 2024.02.22: | |
- #| 【更改】 | QMI8658 |
- #########################################################
- #| 2024.02.28: | |
- #| 【更改】 | STM8S |
- #########################################################
- #| 2024.03.07: | |
- #| 【添加】 | GPTrequest |
- #########################################################
- #| 2024.03.11: | |
- #| 【修改】 | LED |
- #| 【修改】 | DCMOTOR |
- #########################################################
- #| 2024.03.22: | |
- #| 【增加】 | RTC |
- #| 【增加】 | PCA9685 |
- #########################################################
- #| 2024.04.10: | |
- #| 【修改】 | GPTrequest |
- #########################################################
- #| 2024.07.05: | |
- #| 【增加】 | LazyImport |
- #| 【针对】 | GPTrequest |
- #| 【针对】 | uuid |
- #| 【针对】 | json |
- #| 【针对】 | base64 |
- #| 【修改】 | STM8S |
- #| 【修改】 | DCMOTOR |
- #| 【修改】 | multiFuncGpio |
- #| 【增加】 | DS3231 |
- #| 【增加】 | SPI_WS2812 |
- #| 【增加】 | HCSR04 |
- #| 【增加】 | extDcMotor |
- #| 【增加】 | extServo |
- #| 【增加】 | extGpio |
- #| 【拆分】 | GPTrequest |
- #########################################################
- from smbus2 import SMBus
- import time
- import math
- from maix import gpio
- import os
- import SUNXI_GPIO
- from maix import camera
- import time
- import sys
- #20240715
- import threading
- sys.path.append('/root/preset/server')
- ##################################
- # 1、AHT20温湿度传感器 #
- ##################################
- AHT20_I2CADDR = 0x38
- AHT20_CMD_SOFTRESET = [0xBA]
- AHT20_CMD_INITIALIZE = [0xBE, 0x08, 0x00]
- AHT20_CMD_MEASURE = [0xAC, 0x33, 0x00]
- AHT20_STATUSBIT_BUSY = 7 # The 7th bit is the Busy indication bit. 1 = Busy, 0 = not.
- AHT20_STATUSBIT_CALIBRATED = 3 # The 3rd bit is the CAL (calibration) Enable bit. 1 = Calibrated, 0 = not
- class AHT20:
- # Usage: AHT20 crc8 checker.
- # A total of 6 * 8 bits data need to check. G(x) = x8 + x5 + x4 + 1 -> 0x131(0x31), Initial value = 0xFF. No XOROUT.
- N_DATA = 6
- # 1 * 8 bits CRC
- N_CRC = 1
- # Initial value. Equal to bit negation the first data (status of AHT20)
- INIT = 0xFF
- # Useful value to help calculate
- LAST_8_bit = 0xFF
- # Devide number retrieve from CRC-8 MAXIM G(x) = x8 + x5 + x4 + 1
- CRC_DEVIDE_NUMBER = 0x131
-
- # I2C communication driver for AHT20, using only smbus2
- def __init__(self, BusNum=2):
- # Initialize AHT20
- self.BusNum = BusNum
- self.cmd_soft_reset()
- # Check for calibration, if not done then do and wait 10 ms
- if not self.get_status_calibrated == 1:
- self.cmd_initialize()
- while not self.get_status_calibrated() == 1:
- time.sleep(0.01)
-
- def get_normalized_bit(self,value, bit_index):
- # Return only one bit from value indicated in bit_index
- return (value >> bit_index) & 1
-
- def cmd_soft_reset(self):
- # Send the command to soft reset
- with SMBus(self.BusNum) as i2c_bus:
- i2c_bus.write_i2c_block_data(AHT20_I2CADDR, 0x0, AHT20_CMD_SOFTRESET)
- time.sleep(0.04) # Wait 40 ms after poweron
- return True
- def cmd_initialize(self):
- # Send the command to initialize (calibrate)
- with SMBus(self.BusNum) as i2c_bus:
- i2c_bus.write_i2c_block_data(AHT20_I2CADDR, 0x0 , AHT20_CMD_INITIALIZE)
- return True
- def cmd_measure(self):
- # Send the command to measure
- with SMBus(self.BusNum) as i2c_bus:
- i2c_bus.write_i2c_block_data(AHT20_I2CADDR, 0, AHT20_CMD_MEASURE)
- time.sleep(0.08) # Wait 80 ms after measure
- return True
- def get_status(self):
- # Get the full status byte
- with SMBus(self.BusNum) as i2c_bus:
- return i2c_bus.read_i2c_block_data(AHT20_I2CADDR, 0x0, 1)[0]
- return True
- def get_status_calibrated(self):
- # Get the calibrated bit
- return self.get_normalized_bit(self.get_status(), AHT20_STATUSBIT_CALIBRATED)
- def get_status_busy(self):
- # Get the busy bit
- return self.get_normalized_bit(self.get_status(), AHT20_STATUSBIT_BUSY)
-
- def get_measure(self):
- # Get the full measure
- # Command a measure
- self.cmd_measure()
- # Check if busy bit = 0, otherwise wait 80 ms and retry
- while self.get_status_busy() == 1:
- time.sleep(0.08) # Wait 80 ns
-
- # TODO: do CRC check
- # Read data and return it
- with SMBus(self.BusNum) as i2c_bus:
- return i2c_bus.read_i2c_block_data(AHT20_I2CADDR, 0x0, 7)
- def mod2_division_8bits(self,a, b, number_of_bytes, init_value):
- "calculate mod2 division in 8 bits. a mod b. init_value is for crc8 init value."
- head_of_a = 0x80
- # Processiong a
- a = a << 8
- # Preprocessing head_of_a
- for i in range(0, number_of_bytes):
- head_of_a = head_of_a << 8
- b = b << 8
- init_value = init_value << 8
- a = a ^ init_value
- while (head_of_a > 0x80):
- # Find a 1
- if (head_of_a & a):
- head_of_a = head_of_a >> 1
- b = b >> 1
- a = a ^ b
- else:
- head_of_a = head_of_a >> 1
- b = b >> 1
- # This will show calculate the remainder
- # print("a:{0}\thead of a:{1}\tb:{2}".format(
- # bin(a), bin(head_of_a), bin(b)))
- return a
- def AHT20_crc8_calculate(self,all_data_int):
- init_value = INIT
- # Preprocess all the data and CRCCode from AHT20
- data_from_AHT20 = 0x00
- # Preprocessing the first data (status)
- # print(bin(data_from_AHT20))
- for i_data in range(0, len(all_data_int)):
- data_from_AHT20 = (data_from_AHT20 << 8) | all_data_int[i_data]
- # print(bin(data_from_AHT20))
- mod_value = self.mod2_division_8bits(
- data_from_AHT20, CRC_DEVIDE_NUMBER, len(all_data_int), init_value)
- # print(mod_value)
- return mod_value
- def AHT20_crc8_check(self,all_data_int):
- """
- The input data shoule be:
- Status Humidity0 Humidity1 Humidity2|Temperature0 Temperature1 Temperature2 CRCCode.
- In python's int64.
- """
- mod_value = self.AHT20_crc8_calculate(all_data_int[:-1])
- if (mod_value == all_data_int[-1]):
- return True
- else:
- return False
- def get_measure_CRC8(self):
- """
- This function will calculate crc8 code with G(x) = x8 + x5 + x4 + 1 -> 0x131(0x31), Initial value = 0xFF. No XOROUT.
- return: all_data (1 bytes status + 2.5 byes humidity + 2.5 bytes temperature + 1 bytes crc8 code), isCRC8_pass
- """
- all_data = self.get_measure()
- isCRC8_pass = self.AHT20_crc8_check(all_data)
- return all_data, isCRC8_pass
- def get_temperature(self):
- # Get a measure, select proper bytes, return converted data
- measure = self.get_measure()
- measure = ((measure[3] & 0xF) << 16) | (measure[4] << 8) | measure[5]
- measure = measure / (pow(2,20))*200-50
- return measure
-
- def get_temperature_crc8(self):
- isCRC8Pass = False
- while (not isCRC8Pass):
- measure, isCRC8Pass = self.get_measure_CRC8()
- time.sleep(80 * 10**-3)
- measure = ((measure[3] & 0xF) << 16) | (measure[4] << 8) | measure[5]
- measure = measure / (pow(2,20))*200-50
- return measure
- def get_humidity(self):
- # Get a measure, select proper bytes, return converted data
- measure = self.get_measure()
- measure = (measure[1] << 12) | (measure[2] << 4) | (measure[3] >> 4)
- measure = measure * 100 / pow(2,20)
- return measure
- def get_humidity_crc8(self):
- isCRC8Pass = False
- while (not isCRC8Pass):
- measure, isCRC8Pass = self.get_measure_CRC8()
- time.sleep(80 * 10**-3)
- measure = (measure[1] << 12) | (measure[2] << 4) | (measure[3] >> 4)
- measure = measure * 100 / pow(2,20)
- return measure
- ##################################
- # 2、MPU6050陀螺仪六轴传感器 #
- ##################################
- SLAVE_ADDR = 0x68
- PWR_MGMT_1 = 0x6B
- PWR_MGMT_2 = 0x6C
- WHO_AM_I = 0x75
- GYRO_X = 0x43
- GYRO_Y = 0x45
- GYRO_Z = 0x47
- ACCL_X = 0x3B
- ACCL_Y = 0x3D
- ACCL_Z = 0x3F
- class MPU6050:
- def __init__(self, BusNum=2):
- # Initialize mpu6050
- self.BusNum = BusNum
- self.cmd_soft_reset()
-
- def cmd_soft_reset(self):
- # Send the command to soft reset
- with SMBus(self.BusNum) as bus:
- bus.write_byte_data(SLAVE_ADDR, PWR_MGMT_1, 0)
- time.sleep(0.04) # Wait 40 ms after poweron
- def read_byte(self,addr):
- with SMBus(self.BusNum) as bus:
- return bus.read_byte_data(SLAVE_ADDR,addr)
- def read_word(self,addr):
- with SMBus(self.BusNum) as bus:
- h = bus.read_byte_data(SLAVE_ADDR, addr)
- l = bus.read_byte_data(SLAVE_ADDR, addr+1)
- val = (h << 8) + l
- return val
- def read_word_i2c(self,addr):
- val = self.read_word(addr)
- if (val >= 0x8000):
- return -((65535 - val) + 1)
- else:
- return val
- def dist(self,x, y):
- return math.sqrt((x*x) + (y*y))
- def get_x_rotat(self,x,y, z):
- rad = math.atan2(y,self.dist(x, z))
- return math.degrees(rad)
- def get_y_rotat(self,x, y, z):
- rad = math.atan2(x,self.dist(y, z))
- return -math.degrees(rad)
- def read_gyro(self):
- GYR_X = self.read_word_i2c(GYRO_X)
- GYR_Y = self.read_word_i2c(GYRO_Y)
- GYR_Z = self.read_word_i2c(GYRO_Z)
- #print ("GYRO -> X:{:04.2f} Y:{:04.2f} Z:{:04.2f}".format((GYR_X/131), (GYR_Y/131), (GYR_Z/131)))
- return (GYR_X/131), (GYR_Y/131), (GYR_Z/131)
- def read_acc(self):
- ACC_X = self.read_word_i2c(ACCL_X)
- ACC_Y = self.read_word_i2c(ACCL_Y)
- ACC_Z = self.read_word_i2c(ACCL_Z)
- CALC_ACC_X = ACC_X/16384.0
- CALC_ACC_Y = ACC_Y/16384.0
- CALC_ACC_Z = ACC_Z/16384.0
- #print ("ACCL -> X:{:04.2f} Y:{:04.2f} Z:{:04.2f}".format(CALC_ACC_X, CALC_ACC_Y, CALC_ACC_Z))
- #print("ROTATE -> X:{:04.2f} Y:{:04.2f}\n".format(get_x_rotat(CALC_ACC_X, CALC_ACC_Y, CALC_ACC_Z), get_y_rotat(CALC_ACC_X, CALC_ACC_Y, CALC_ACC_Z)))
- return CALC_ACC_X, CALC_ACC_Y, CALC_ACC_Z,self.get_x_rotat(CALC_ACC_X, CALC_ACC_Y, CALC_ACC_Z),self.get_y_rotat(CALC_ACC_X, CALC_ACC_Y, CALC_ACC_Z)
-
- def get_gyro_x(self):
- return self.read_gyro()[0]
-
- def get_gyro_y(self):
- return self.read_gyro()[1]
-
- def get_gyro_z(self):
- return self.read_gyro()[2]
-
- def get_acc_x(self):
- return self.read_acc()[0]
-
- def get_acc_y(self):
- return self.read_acc()[1]
-
- def get_acc_z(self):
- return self.read_acc()[2]
-
- def get_angle_x(self):
- return self.read_acc()[3]
-
- def get_angle_y(self):
- return self.read_acc()[4]
- ##################################
- # 3、板载4颗按钮A、B、C、D #
- ##################################
- class BUTTON:
- def __init__(self, gpioId):
- self.gpio=224+gpioId
- SUNXI_GPIO.setcfg(self.gpio, SUNXI_GPIO.IN)
- def is_pressed(self):
- self.getValue=SUNXI_GPIO.input(self.gpio)
- if self.getValue != 1:
- return True
- else:
- return False
- ##################################
- # 4、光线强度传感器 #
- ##################################
- class LIGHTINTENSITY:
- def __init__(self, addr=b"0x05070080") -> None:
- self.addr = addr
- self.path = "/sys/class/sunxi_dump/dump"
- self.file = open(self.path, "wb+")
- self.last = self.value()
- def value(self):
- self.file.write(b"0x05070080")
- self.file.seek(0)
- return int(self.file.read()[:-1], 16)
- def __del__(self):
- try:
- if self.file:
- self.file.close()
- del self.file
- except Exception as e:
- pass
- ##################################
- # 5、板载LED灯 #
- ##################################
- class LED:
- def __init__(self, gpioId=69):
- self.gpioId=gpioId
- SUNXI_GPIO.setcfg(self.gpioId, SUNXI_GPIO.OUT)
- def out(self,value):
- if value==0 or value==1:
- self.value=1-value
- else:
- self.value=0
- SUNXI_GPIO.output(self.gpioId,self.value)
- ##################################
- # 6、QMI8658 #
- ##################################
- class QMI8658(object):
- def __init__(self, smbus=2, address=0X6B):
- self._address = address
- import smbus2
- self._bus = smbus2.SMBus(smbus)
- bRet = self.WhoAmI()
- if bRet:
- self.Read_Revision()
- else:
- return None
- self.Config_apply()
- def _read_byte(self, cmd):
- rec = self._bus.read_i2c_block_data(int(self._address), int(cmd), 1)
- return rec[0]
- def _read_block(self, reg, length=1):
- rec = self._bus.read_i2c_block_data(int(self._address), int(reg), length)
- return rec
- def _read_u16(self, cmd):
- LSB = self._bus.read_i2c_block_data(int(self._address), int(cmd), 1)
- MSB = self._bus.read_i2c_block_data(int(self._address), int(cmd)+1, 1)
- return (MSB[0] << 8) + LSB[0]
- def _write_byte(self, cmd, val):
- self._bus.write_i2c_block_data(int(self._address), int(cmd), bytes([int(val)]))
- def WhoAmI(self):
- bRet = False
- if (0x05) == self._read_byte(0x00):
- bRet = True
- return bRet
- def Read_Revision(self):
- return self._read_byte(0x01)
- def Config_apply(self):
- self._write_byte(0x02, 0x40)
- self._write_byte(0x08, 0x03)
- self._write_byte(0x03, 0x04)
- self._write_byte(0x04, 0x64)
- self._write_byte(0x06, 0x11)
- def Read_Raw_XYZ(self):
- xyz = [0, 0, 0, 0, 0, 0]
- vals={}
- raw_timestamp = self._read_block(0x30, 3)
- raw_acc_xyz = self._read_block(0x35, 6)
- raw_gyro_xyz = self._read_block(0x3b, 6)
- raw_xyz = self._read_block(0x35, 12)
- timestamp = (raw_timestamp[2] << 16) | (
- raw_timestamp[1] << 8) | (raw_timestamp[0])
- for i in range(6):
- xyz[i] = (raw_xyz[(i*2)+1] << 8) | (raw_xyz[i*2])
- if xyz[i] >= 32767:
- xyz[i] = xyz[i]-65535
- vals["AcX"]=xyz[0]
- vals["AcY"]=xyz[1]
- vals["AcZ"]=xyz[2]
- vals["GyX"]=xyz[3]
- vals["GyY"]=xyz[4]
- vals["GyZ"]=xyz[5]
- return vals
- def Read_XYZ(self):
- xyz = [0, 0, 0, 0, 0, 0]
- raw_xyz = self.Read_Raw_XYZ()
- #QMI8658AccRange_8g
- acc_lsb_div = (1 << 12)
- #QMI8658GyrRange_512dps
- gyro_lsb_div = 64
- for i in range(3):
- xyz[i] = raw_xyz[i]/acc_lsb_div # (acc_lsb_div/1000.0)
- xyz[i+3] = raw_xyz[i+3]*1.0/gyro_lsb_div
- return xyz
-
- def get_accel(self, samples=10, calibration=None):
- result = {}
- for _ in range(samples):
- v = self.Read_Raw_XYZ()
- for m in v.keys():
- result[m] = result.get(m, 0) + v[m] / samples
- if calibration:
- for m in calibration.keys():
- if m == "AcZ":
- pass
- else:
- result[m] -= calibration[m]
- return result
- def calibrate(self, threshold=50):
- print('Calibrating QMI8658... ', end='')
- while True:
- v1 = self.get_accel(100)
- v2 = self.get_accel(100)
- if all(abs(v1[m] - v2[m]) < threshold for m in v1.keys()):
- print('Done.')
- return v1
-
- def getPitchYawRollGxGyGz(self,calibration):
- caliData=self.get_accel(10, calibration)
- pitch=caliData["AcX"]/182.04
- yaw=caliData["AcY"]/182.04
- roll=caliData["AcZ"]/182.04
- groX=caliData["GyX"]
- groY=caliData["GyY"]
- groZ=caliData["GyZ"]
- if roll<0:
- if pitch >=0:
- pitch=180-pitch
- elif pitch <0:
- pitch=(180+pitch)*(-1)
- if yaw >=0:
- yaw=180-yaw
- elif pitch <0:
- yaw=(180+yaw)*(-1)
- return [pitch,yaw,roll,groX,groY,groZ]
- ##################################
- # 7、STM8S #
- ##################################
- import smbus2
- import time
- class stm8s(object):
- bus = smbus2.SMBus(2) # 2 indicates /dev/i2c-2
- address = 0x50
- # 0x00 # 触发配置
- # 0x01 # 重置配置
- # 0x02 # pwm0 历史配置
- # 0x03 # pwm1 历史配置
- # 引脚配置模式有 1. pwm 2. gpio ouput gpio input 3. adc 4.ws2812_singe 5 ws2812_multi
- def __init__(self):
- self.reset()
- time.sleep(0.05)
- pass
-
- def clear(self):
- self.write(1, 1)
- self.reset()
- time.sleep(0.05)
-
- def write(self, addr, val):
- for i in range(0, 3):
- try:
- self.bus.write_byte_data(self.address, addr, val)
- time.sleep(0.001) # 1ms
- # print(addr, val) # debug
- return True
- except Exception:
- time.sleep(0.01)
- continue
- return False
-
- def fastWrite(self,addr,valBlock):
- try:
- self.bus.write_i2c_block_data(self.address,addr,valBlock)
- return True
- except Exception:
- return False
- def read(self, addr):
- for i in range(0, 3):
- try:
- tmp = self.bus.read_byte_data(self.address, addr)
- time.sleep(0.001) # 1ms
- # print(addr, tmp) # debug
- return tmp
- except Exception:
- time.sleep(0.01)
- continue
- return None
- def reset(self):
- self.write(0, 1)
- time.sleep(0.05) # 重启并配置需要时间
- def dump(self):
- for i in range(0, 32):
- print(i, self.read(i))
- class singleRgb(stm8s):
- def __init__(self):
- self.valR=0
- self.valG=0
- self.valB=0
- self.brightness=255
- self.show()
-
- def setColor(self,r,g,b):
- if(r>=0 and r<=255):
- self.valR=int(r*self.brightness/255)
- else:
- self.valR=0
- if(g>=0 and g<=255):
- self.valG=int(g*self.brightness/255)
- else:
- self.valG=0
- if(b>=0 and b<=255):
- self.valB=int(b*self.brightness/255)
- else:
- self.valB=0
-
- def setBrightness(self,brightness):
- if(brightness>=0 and brightness<=255):
- self.brightness=brightness
- else:
- self.brightness=0
-
- def show(self):
- self.write(31, self.valB)
- self.write(30, self.valG)
- self.write(29, self.valR)
- self.write(28, 6)
- class dcMotor(stm8s):
- def __init__(self,id):
- self.id=id
- def m1a(self,val=0):
- self.write(4,5) #M1A
- #self.write(5,0)
- #self.write(6,0)
- self.write(7,val)
-
- def m1b(self,val=0):
- self.write(8,5) #M1B
- #self.write(9,0)
- #self.write(10,0)
- self.write(11,val)
-
- def m2a(self,val=0):
- self.write(12,5) #M2A
- #self.write(13,0)
- #self.write(14,0)
- self.write(15,val)
-
- def m2b(self,val=0):
- self.write(16,5) #M2B
- #self.write(17,0)
- #self.write(18,0)
- self.write(19,val)
-
- def dcMotorCtrl(self,dir,speed):
- dir=1-dir
- if(0<speed and speed<255):
- if(self.id ==1): #Motor1
- if(dir==0):
- self.m1a(speed)
- self.m1b(255)
- else:
- self.m1a(255)
- self.m1b(speed)
- elif(self.id ==2):
- if(dir==0):
- self.m2a(speed)
- self.m2b(255)
- else:
- self.m2a(255)
- self.m2b(speed)
- elif(0==speed):
- if(self.id ==1): #Motor1
- if(dir==0):
- self.m1a(255)
- self.m1b(255)
- else:
- self.m1a(255)
- self.m1b(255)
- elif(self.id ==2):
- if(dir==0):
- self.m2a(255)
- self.m2b(255)
- else:
- self.m2a(255)
- self.m2b(255)
- elif(speed==255):
- if(self.id ==1): #Motor1
- if(dir==0):
- self.m1a(0)
- self.m1b(255)
- else:
- self.m1a(255)
- self.m1b(0)
- elif(self.id ==2):
- if(dir==0):
- self.m2a(0)
- self.m2b(255)
- else:
- self.m2a(255)
- self.m2b(0)
- else:
- pass
-
- class multiFuncGpio(stm8s):
- def __init__(self,id=0,mode=0):
- self.id=id
- self.rgbId=0
- self.brightness=255
- self.mode=mode
- self.write(20+self.id*4,self.mode)
- self.rgbSerial=[0,0,0]*10
- time.sleep(0.05)
- ##################################################
- # mode | 0 | 1 | 2 | 3 | 4 | 5 | 6 |
- #-------------------------------------------------
- # Func |free |servo|INPUT| OUT | ADC | PWM | BEEP|
- ##################################################
- # mode=0,为空闲状态,引脚不执行任何功能
- # mode=1,为控制舵机模式,值控制范围为0°~180°
- # mode=2,为数字输入模式,返回值0或1
- # mode=3,为数字输出模式,输出值为0或1
- # mode=4,为ADC采样模式,返回值为0~1023
- # mode=5,为PWM输出模式,输出值范围为0~255
- # mode=6,为控制蜂鸣器模式,控制范围为20hz~12000hz
- # mode=7,为控制灯带模式,暂未实现
- # id=0,控制多功能引脚1,向20号寄存器写入模式数据
- # id=1,控制多功能引脚2,向24号寄存器写入模式数据
-
- def servoCtrl(self,angle):
- if ((angle>=0) and (angle<=180)):
- self.write(23+self.id*4,angle)
- else:
- pass
-
- def digitalRead(self):
- try:
- self.gpioVal= self.read(23+ self.id*4)
- if(self.gpioVal != None):
- return self.gpioVal
- except:
- print("ERROR 233")
-
- def digitalWrite(self,val):
- if ((val>=0) and (val<=1)):
- self.write(23+self.id*4,val)
- else:
- pass
-
- def analogRead(self):
- try:
- self.adcValH= self.read(22+ self.id*4)
- self.adcValL= self.read(23+ self.id*4)
- if (self.adcValH != None and self.adcValL != None):
- # adcValH adcValL 大小端合并 16bit
- self.adcVal = self.adcValL + (self.adcValH << 8)
- return self.adcVal
- except:
- print("ERROR 2333")
-
- def analogWrite(self,val):
- if ((val>=0) and (val<=255)):
- self.write(23+self.id*4,val)
- else:
- pass
-
-
- def beep(self,frequency):
- if ((frequency>=20) and (frequency<=12000)):
- self.write(22+self.id*4,frequency>>8)
- self.write(23+self.id*4,frequency&0b11111111)
- else:
- pass
-
- def pixelInit_(self):
- for i in range(16):
- self.setPixelColor(i,0,0,0)
- self.pixelShow()
- self.write(23+self.id*4,1)
-
- def setBrightness(self,brightness):
- if(brightness>=0 and brightness<=255):
- self.brightness=brightness
- else:
- self.brightness=0
-
- def setPixelColor(self,rgbId,r,g,b):
- if(rgbId >=0 and rgbId <=15):
- self.rgbId=rgbId #rgbId范围:0~15
- else:
- self.rgbId=0
- if(r>=0 and r<=255):
- self.valR=int(r*self.brightness/255)
- else:
- self.valR=0
- if(g>=0 and g<=255):
- self.valG=int(g*self.brightness/255)
- else:
- self.valG=0
- if(b>=0 and b<=255):
- self.valB=int(b*self.brightness/255)
- else:
- self.valB=0
-
- #self.id的值为0或1,用于控制灯带缓冲区(S1或者S2引脚)
- def pixelShow(self):
- self.write(32+ self.id*48+self.rgbId*3, self.valR)
- self.write(33+ self.id*48+self.rgbId*3, self.valG)
- self.write(34+ self.id*48+self.rgbId*3, self.valB)
- def setRgbSerialColor(self,rgbId,r,g,b):
- if(rgbId >=0 and rgbId <=15):
- self.rgbId=rgbId #rgbId范围:0~15
- else:
- self.rgbId=0
- if(r>=0 and r<=255):
- self.valR=int(r*self.brightness/255)
- else:
- self.valR=0
- if(g>=0 and g<=255):
- self.valG=int(g*self.brightness/255)
- else:
- self.valG=0
- if(b>=0 and b<=255):
- self.valB=int(b*self.brightness/255)
- else:
- self.valB=0
- self.rgbSerial[self.rgbId*3]=self.valR
- self.rgbSerial[self.rgbId*3+1]=self.valG
- self.rgbSerial[self.rgbId*3+2]=self.valB
-
- def rgbSerialShow(self):
- self.fastWrite(32+self.id*48,self.rgbSerial)
- self.write(23+self.id*4,1)
-
- ##################################
- # 8、UvcVideo #
- ##################################
- class UvcVideo(camera.MaixVideo):
- def __init__(self, source="/dev/videoX"):
- self.source = source
- super(UvcVideo, self).__init__()
- import os, time
- usb_path = '/sys/devices/platform/soc/usbc0/otg_role'
- # 确认 usb_path 内容为 usb_host 如果不是,自动设置为 usb_host
- if os.popen('cat %s' % usb_path).read().strip() != 'usb_host':
- os.system('echo "usb_host" > %s' % usb_path)
- time.sleep(2) # 要设置 2s 左右才能初始化工作,否则会报 VIDIOC_S_FMT 失败。
- def config(self, size=None, video=2, horizontal=0, vertical=0):
- if size == None:
- size = (320, 240)
- super(UvcVideo, self).config(size)
- print('[camera] config input size(%d, %d, %d)' %
- (self.width(), self.height(), video))
- if self.cam:
- self.cam = None
- try:
- import _coco_camera
- self.cam = _coco_camera.Camera(self.width(), self.height(), video, horizontal, vertical)
- except Exception as e:
- print(e)
- self.cam = None
- def read(self):
- if self.cam == None:
- self.config()
- if self.cam:
- ret, frame = self.cam.read()
- if ret:
- return frame # bytes
- else:
- try:
- self.config()
- except Exception as e:
- print(e)
- return None
- def __del__(self):
- if self.cam:
- self.cam = None
- ##################################
- # 9、DS3231 #
- ##################################
- from math import floor
- class DS3231(object):
- # create RTC instance
- def __init__(self):
- self.bus = smbus2.SMBus(2) # 2 indicates /dev/i2c-2
- self.address = 0x68
-
- def bcd_to_int(self,bcd, n=2):
- """Decode n least significant packed binary coded decimal digits to binary.
- Return binary result.
- n defaults to 2 (BCD digits).
- n=0 decodes all digits.
- """
- return int(('%x' % bcd)[-n:])
- def int_to_bcd(self,x, n=2):
- """
- Encode the n least significant decimal digits of x
- to packed binary coded decimal (BCD).
- Return packed BCD value.
- n defaults to 2 (digits).
- n=0 encodes all digits.
- """
- return int(str(x)[-n:], 0x10)
-
-
- def read(self, addr):
- for i in range(0, 3):
- try:
- tmp = self.bus.read_byte_data(self.address, addr)
- time.sleep(0.001) # 1ms
- # print(addr, tmp) # debug
- return tmp
- except Exception:
- time.sleep(0.01)
- continue
- return None
- def write(self, addr, val):
- for i in range(0, 3):
- try:
- self.bus.write_byte_data(self.address, addr, val)
- #time.sleep(0.001) # 1ms
- # print(addr, val) # debug
- return True
- except Exception:
- time.sleep(0.001)
- continue
- return False
- # set times functions ----------------------------------------
- def setYear(self, year):
- # only last two digits (last two digits are used if longer)
- self.write(0x06, self.int_to_bcd(year%100))
- def setMonth(self, month):
- if not 1 <= month <= 12:
- raise ValueError('Month is out of range [1,12].')
- self.write(0x05,self.int_to_bcd(month))
-
- def setDay(self, day):
- if not 1 <= day <= 31:
- raise ValueError('Day is out of range [1,31].')
- self.write(0x04,self.int_to_bcd(day))
-
- def setDayOfWeek(self, dayOfWeek):
- if not 1 <= dayOfWeek <= 7:
- raise ValueError('Day of week is out of range [1,7].')
- self.write(0x03,self.int_to_bcd(dayOfWeek))
-
- def setHour(self, hour):
- if not 0 <= hours < 24:
- raise ValueError('Hours is out of range [0,23].')
- self.write(0x02,self.int_to_bcd(hour)& 0x3F)
-
- def setMinutes(self, minutes):
- if not 0 <= minutes < 59:
- raise ValueError('Minutes is out of range [0,59].')
- self.write(0x01,self.int_to_bcd(minutes))
-
- def setSeconds(self, seconds):
- if not 0 <= seconds < 60:
- raise ValueError('Seconds is out of range [0,59].')
- self.write(0x00,self.int_to_bcd(seconds))
-
- def setDateTime(self, year, month, day, dayOfWeek, hour, minutes, seconds):
- # set all the date and times (year is last two digits of year)
- self.setYear(year)
- self.setMonth(month)
- self.setDay(day)
- self.setDayOfWeek(dayOfWeek)
- self.setHour(hour)
- self.setMinutes(minutes)
- self.setSeconds(seconds)
- # get times functions -------------------------------------------------
- def getYear(self):
- return self.bcd_to_int(self.read(0x06))
-
- def getMonth(self):
- temp = self.read(0x05)
- return self.bcd_to_int((temp<<4>>4) &0x7F)
- #return temp[0] & 0x7F
-
- def getDay(self):
- # 0 - 31
- return self.bcd_to_int(self.read(0x04))
-
- def getDayOfWeek(self):
- # 1 - 7
- return self.bcd_to_int(self.read(0x03))
-
- def getHour(self):
- temp = self.read(0x02)
- if temp==0x64: #if hour is 24:00,convert it to 00:00
- temp=0x40
- return self.bcd_to_int((temp<< 4 >>4)& 0x3F)
- #return temp[0] & 0x3F
-
- def getMinutes(self):
- return self.bcd_to_int(self.read(0x01))
-
- def getSeconds(self):
- return self.bcd_to_int(self.read(0x00))
-
- def getDateTime(self):
- # returns whole date and time as list
- # (last two digits of year, month, day, day of week, hour, minutes, seconds)
- dateTime = [0, 0, 0, 0, 0, 0, 0]
- dateTime[0] = self.getYear()
- dateTime[1] = self.getMonth()
- dateTime[2] = self.getDay()
- dateTime[3] = self.getDayOfWeek()
- dateTime[4] = self.getHour()
- dateTime[5] = self.getMinutes()
- dateTime[6] = self.getSeconds()
- return dateTime
- def convertToByteType(self,number):
- return bytes([number])
- def decodeToDec(self,byte):
- return ((byte[0] >> 4) * 10) + (byte[0] & 0x0F)
- def encodeToByte(self,dec):
- tens = floor(dec / 10)
- ones = dec - tens*10
- return (tens << 4) + ones
- def decodeAlarmType(self,alarmTime):
- if(len(alarmTime) > 4):
- m1Bit = (alarmTime[3] & 0x80) >> 7
- else:
- m1Bit = False
- m2Bit = (alarmTime[2] & 0x80) >> 7
- m3Bit = (alarmTime[1] & 0x80) >> 7
- m4Bit = (alarmTime[0] & 0x80) >> 7
- dayBit = (alarmTime[0] & 0x40) >> 6
-
- if(m1Bit and m2Bit and m3Bit and m4Bit):
- return "everySecond"
- elif(not m1Bit and m2Bit and m3Bit and m4Bit):
- return "everyMinute"
- elif(not m1Bit and not m2Bit and m3Bit and m4Bit):
- return "everyHour"
- elif(not m1Bit and not m2Bit and not m3Bit and m4Bit):
- return "everyDay"
- elif(not dayBit and not m1Bit and not m2Bit and not m3Bit and not m4Bit):
- return "everyMonth"
- elif(dayBit and not m1Bit and not m2Bit and not m3Bit and not m4Bit):
- return "everyWeek"
- else:
- return "noValidAlarmType"
-
- def decodeAlarmTime(self,alarmTime):
- alarmTime[0] = decodeToDec(convertToByteType(alarmTime[0] & 0x3F))
- alarmTime[1] = decodeToDec(convertToByteType(alarmTime[1] & 0x3F))
- alarmTime[2] = decodeToDec(convertToByteType(alarmTime[2] & 0x7F))
- if(len(alarmTime) > 4):
- alarmTime[3] = decodeToDec(convertToByteType(alarmTime[3] & 0x7F))
- return alarmTime
- def encodeAlarmType(self,alarmType):
- if(alarmType == "everySecond"):
- return 15 #0b01111
- elif(alarmType == "everyMinute"):
- return 14 #0b01110
- elif(alarmType == "everyHour"):
- return 12 #0b01100
- elif(alarmType == "everyDay"):
- return 8 #0b01000
- elif(alarmType == "everyMonth"):
- return 0 #0b00000
- elif(alarmType == "everyWeek"):
- return 16 #0b10000
- else:
- raise ValueError("""Not a supported alarmType. Options are:
- 'everySecond' (only Alarm 1), 'everyMinute', 'everyHour', 'everyDay', 'everyMonth', 'everyWeek'""")
- def encodeDateTime(self,day, hour, minutes, seconds, alarmType):
- alarmBits = encodeAlarmType(alarmType)
- alarmTime = [0, 0, 0, 0]
- alarmTime[0] = (encodeToByte(day) & 0x3F) | ((alarmBits & 0x10) << 2) | ((alarmBits & 0x08) << 4)
- alarmTime[1] = (encodeToByte(hour) & 0x3F) | ((alarmBits & 0x04) << 5)
- alarmTime[2] = (encodeToByte(minutes) & 0x7F) | ((alarmBits & 0x02) << 6)
- alarmTime[3] = (encodeToByte(seconds) & 0x7F) | ((alarmBits & 0x01) << 7)
- return alarmTime
- ##################################
- # 10、SPI_WS2812 #
- ##################################
- class SPI_WS2812(object):
- from maix import spi
- spi = spi.SpiDev()
-
- def __init__(self,num):
- self.num=num
- self.spi.open(0, 0)
- self.spi.mode = 3
- self.spi.bits_per_word = 8
- self.spi.max_speed_hz = 20000000
- self.data=[[0,0,0]]*self.num
- self.brightness=255
-
- def setRgbColor(self,id,r,g,b):
- if id>(self.num-1):
- raise ValueError("Out of range!")
- else:
- self.data[id]=[int(g*self.brightness/255),int(r*self.brightness/255),int(b*self.brightness/255)]
- #print("set complete!")
-
- def setBrightness(self,brightness):
- if brightness>255 or brightness<0:
- raise ValueError("Out of range!")
- self.brightness=brightness
-
- def rgbShow(self):
- tx=[]
- for rgb in self.data:
- for byte in rgb:
- for ibit in range(3,-1,-1):
- tx.append(((byte>>(2*ibit+1))&1)*0x60 +
- ((byte>>(2*ibit+0))&1)*0x06 +
- 0x88)
- print([hex(v) for v in tx])
- tx[0]=0b1000000
- tx.append(0b1000000)
- self.spi.xfer(tx,int(4/1.05e-6))
- def __del__(self):
- self.data=[[0,0,0]]*self.num
- self.rgbShow()
- ##################################
- # 11、HCSR04 #
- ##################################
- class HCSR04:
-
- def __init__(self,Trig,Echo):
- pinNum={"TXD":"198","RXD":"199","CLK":"224","MOSI":"225","MISO":"226","CS":"227"}
- os.system("insmod /home/drivers/hcsr04.ko")
- pinCmd=pinNum.get(Trig)+","+pinNum.get(Echo)+",23200,0"
- os.system('echo "'+pinCmd+'" > /sys/class/hcsr04/value')
-
- def getDistance(self):
- startTime=round(time.time(),3)
- #print("startTime:"+str(startTime))
- while True:
- dis=os.popen("cat /sys/class/hcsr04/value").read()
- #print("dis:"+str(dis)+" len:"+str(len(dis)))
- if "-1" in dis:
- pass
- else:
- dis=round(int(dis)/58,2)
- if dis<250:
- return dis
- else:
- pass
- if((round(time.time(),3)-startTime)>=1.200):#超时时间
- return -1
-
- def __del__(self):
- os.system("rmmod /home/drivers/hcsr04.ko")
-
- import struct
- import math
- import os
- ##################################
- # 12、MCP23017 #
- ##################################
- class MCP23017(object):
- bus = smbus2.SMBus(2) # 2 indicates /dev/i2c-2
- address = 0x20
-
- iodira=0x00 #A引脚方向寄存器地址。初始值为0xFF,输入模式
- iodirb=0x01 #B引脚方向寄存器地址。初始值为0xFF,输入模式
- gppua=0x0c #A引脚上拉电阻配置寄存器地址。初始值为0x00,无上拉
- gppub=0x0d #B引脚上拉电阻配置寄存器地址,初始值为0x00,无上拉
- gpioa=0x12 #A端口寄存器,初始值为0x00,低电平
- gpiob=0x13 #B端口寄存器,初始值为0x00,低电平
- DIR_A_V=0xff #A引脚方向初始值
- DIR_B_V=0xff #B引脚方向初始值
- GPPU_A_V=0x00 #A引脚上拉设定初始值
- GPPU_B_V=0x00 #B引脚上拉设定初始值
- GPIO_A_V=0x00 #A引脚电平初始值
- GPIO_B_V=0x00 #B引脚电平初始值
- def __init__(self):
- self.reset()
-
- def reset(self):
- self.DIR_A=self.DIR_A_V
- self.DIR_B=self.DIR_B_V
- self.GPPU_A=self.GPPU_A_V
- self.GPPU_B=self.GPPU_B_V
- self.GPIO_A=self.GPIO_A_V
- self.GPIO_B=self.GPIO_B_V
- self.byteWrite(self.iodira,self.DIR_A_V)
- self.byteWrite(self.iodirb,self.DIR_B_V)
- self.byteWrite(self.gppua,self.GPPU_A_V)
- self.byteWrite(self.gppub,self.GPPU_B_V)
- self.byteWrite(self.gpioa,self.GPIO_A_V)
- self.byteWrite(self.gpiob,self.GPIO_B_V)
- print("mcp23017 reset completed!")
-
- def byteWrite(self, addr, val):
- try:
- self.bus.write_byte_data(self.address, addr, val)
- return True
- except Exception:
- pass
-
- def byteRead(self,addr):
- tmp = self.bus.read_byte_data(self.address, addr)
- return tmp
-
- def bitWrite(self,reg,num,val): #寄存器值(byte类型),寄存器第...位(0-7),该位的值(0/1)
- return (reg>>(num+1)<<(num+1))|(val << num)|(reg<<(8-num)&0xFF)>>(8-num)
-
- def bitRead(self,reg,num): #寄存器值(byte类型),寄存器第...位(0-7)
- return ((reg<<(7-num)&0xFF)>>7)
-
- def setGpioDir(self,channel,pinId,direction): #set gpio direction
- #channel:"A" or "B"
- #pinId:0~7
- #direction:[0:output],[1:input(default)]
- if channel=="A":
- self.DIR_A=self.bitWrite(self.DIR_A,pinId,direction)
- print("Dir_A="+str(self.DIR_A))
- self.byteWrite(self.iodira,self.DIR_A)
- elif channel=="B":
- self.DIR_B=self.bitWrite(self.DIR_B,pinId,direction)
- self.byteWrite(self.iodirb,self.DIR_B)
- else:
- raise ValueError("Error Channel!")
-
- def setGppuEnable(self,channel,pinId,pullup): #set gpio pullup on or off
- #channel:"A" or "B"
- #pinId:0~7
- #pullup:[0:disable],[1:enable(default)]
- if channel=="A":
- self.GPPU_A=self.bitWrite(self.GPPU_A,pinId,pullup)
- self.byteWrite(self.gppua,self.GPPU_A)
- elif channel=="B":
- self.GPPU_B=self.bitWrite(self.GPPU_B,pinId,pullup)
- self.byteWrite(self.gppub,self.GPPU_B)
- else:
- raise ValueError("Error Channel!")
-
- def setGpioLevel(self,channel,pinId,level): #set gpio volt level
- #channel:"A" or "B"
- #pinId:0~7
- #level:[0:low(default)],[1:high]
- if channel=="A":
- self.GPIO_A=self.bitWrite(self.GPIO_A,pinId,level)
- self.byteWrite(self.gpioa,self.GPIO_A)
- elif channel=="B":
- self.GPIO_B=self.bitWrite(self.GPIO_B,pinId,level)
- self.byteWrite(self.gpiob,self.GPIO_B)
- else:
- raise ValueError("Error Channel!")
-
- def getGpioLevel(self,channel,pinId): #get gpio volt level
- #channel:"A" or "B"
- #pinId:0~7
- #level:[0:low(default)],[1:high]
- if channel=="A":
- return self.bitRead(self.byteRead(self.gpioa),pinId)
- elif channel=="B":
- return self.bitRead(self.byteRead(self.gpiob),pinId)
- else:
- raise ValueError("Error Channel!")
-
- def __del__(self):
- self.reset()
- time.sleep(0.001)
- print("del mcp23017")
-
-
- class ADS1115(object):
-
- bus = smbus2.SMBus(2) # 2 indicates /dev/i2c-2
- # Registers in the ADS1115,设备的4个寄存器
- DEVICE_REG_CONVERSION = 0x00 #转换寄存器
- DEVICE_REG_CONFIG = 0x01 #配置寄存器
- DEVICE_REG_LO_THRESH = 0x02 #最低阈值寄存器
- DEVICE_REG_HI_THRESH = 0x03 #最高阈值寄存器
- # Configuration register fields #配置寄存器展开,共16bit
- # Operational Status #操作状态,在第15位
- CONFIG_OS = 0X8000 #无效
- CONFIG_OS_START = 0X8000 #开始单次转换(处于掉电状态)
- CONFIG_OS_PERFORMING_CONVERSION = 0X0000 #转换进行中
- CONFIG_OS_NOT_PERFORMING_OPERATION = 0X8000 #转换闲置
- # Differential measurements #测量模式设置,在第12-14位
- CONFIG_MUX_AIN0P_AIN1N = 0X0000 # (default) #AIN0差分输入,AIN1作为参考
- CONFIG_MUX_AIN1P_AIN3N = 0X1000 #AIN1差分输入,AIN3作为参考
- CONFIG_MUX_AIN2P_AIN3N = 0X2000 #AIN2差分输入,AIN3作为参考
- CONFIG_MUX_AIN3P_AIN3N = 0X3000 #AIN3差分输入,AIN3作为参考
- # Single ended measurements #单端测量
- CONFIG_MUX_AIN0P_GNDN = 0X4000 #AIN0单端输入
- CONFIG_MUX_AIN1P_GNDN = 0X5000 #AIN1单端输入
- CONFIG_MUX_AIN2P_GNDN = 0X6000 #AIN2单端输入
- CONFIG_MUX_AIN3P_GNDN = 0X7000 #AIN3单端输入
- # Programmable gain amplifier configuration #可编程增益放大器(量程选择)FSR:Feedback Shift Register,反馈移位寄存器,在第9-11位
- CONFIG_FSR_6V144 = 0X0000 #CocoPi 需选择
- CONFIG_FSR_4V096 = 0X0200
- CONFIG_FSR_2V048 = 0X0400 # (default)
- CONFIG_FSR_1V024 = 0X0600
- CONFIG_FSR_0V512 = 0X0800
- CONFIG_FSR_0V256 = 0X0A00
- CONFIG_FSR_0V256 = 0X0C00
- CONFIG_FSR_0V256 = 0X0E00
- # Continuous or single shot mode #设备运行模式:持续转换或者单次转换,在第8位
- CONFIG_MODE_CONTINUOUS = 0X0000 #持续转换
- CONFIG_MODE_SINGLE_SHOT = 0X0100 # (default) #单次转换
- # Data rate #转换速率,第5-7位
- CONFIG_DATA_RATE_8SPS = 0X0000 #SPS:Samples Per Second,每秒8次采样
- CONFIG_DATA_RATE_16SPS = 0X0020
- CONFIG_DATA_RATE_32SPS = 0X0040
- CONFIG_DATA_RATE_64SPS = 0X0060
- CONFIG_DATA_RATE_128SPS = 0X0080 #(default)
- CONFIG_DATA_RATE_2508SPS = 0X00A0
- CONFIG_DATA_RATE_475SPS = 0X00C0
- CONFIG_DATA_RATE_860SPS = 0X00E0
- # Comparitor mode #比较器模式,第4位
- CONFIG_COMP_MODE_TRADITIONAL = 0X0000 #(default) #传统比较器
- CONFIG_COMP_MODE_WINDOW = 0X0010 #窗口模式
- # Comparitor polarity #比较器集型,第3位,控制ALRET/RDY引脚极性
- CONFIG_COMP_POL_ACTIVE_LOW = 0X0000 #(default) #低电平有效(默认)
- CONFIG_COMP_POL_ACTIVE_HIGH = 0X0008 #高电平有效
- # Comparitor latching #锁存比较器,第2位,该位控制ALERT/RDY引脚在被置为有效后锁存,还是在转换后处于上限和下限阈值范围内清零
- CONFIG_COMP_LAT = 0X0004
- CONFIG_COMP_LAT_NON_LATCHING = 0X0000 #(default) #默认不锁存
- CONFIG_COMP_LAT_LATCHING = 0X0004
- # comparitor queue and disable #比较器置位和禁用
- CONFIG_COMP_QUE = 0X0003 #默认禁用比较器并将ALERT/RDY引脚设置为高阻抗
- CONFIG_COMP_QUE_1_CONV = 0X0000 #一次转换后断言
- CONFIG_COMP_QUE_2_CONV = 0X0001 #两次转换后置位
- CONFIG_COMP_QUE_4_CONV = 0X0002 #四次转换后置位
- CONFIG_COMP_QUE_DISABLE = 0X0003 #(default) #默认禁用比较器并将ALERT/RDY引脚设置为高阻抗
-
- # Address for the device ,设备地址选择
- #addr=0x48 # ADDR tied to GND
- addr=0x49 # ADDR tied to VDD
- #addr=0x4A # ADDR tied to SDA
- #addr=0x4B # ADDR tied to SCL
-
- def __init__(self):
- self.address=0x49
- self.config=0x0000
- #time.sleep(0.05)
- pass
-
- def swap(self,val):
- return (((val&0xff00)>>8)|((val&0x00ff)<<8)) #交换高8位与低8位
- ###
- def readAdc(self,channel):
- if (channel>3) or (channel<0):
- return False
- self.config=(self.CONFIG_OS_START + # start conversion
- #self.CONFIG_MUX_AIN0P_GNDN + # single ended conversion
- ((channel+4)<<12) + # select channel
- self.CONFIG_FSR_6V144 + # (5v signal)
- self.CONFIG_MODE_SINGLE_SHOT + # single conversion and shutdown
- self.CONFIG_DATA_RATE_128SPS + # data rate
- self.CONFIG_COMP_MODE_TRADITIONAL + # comp conventional
- self.CONFIG_COMP_POL_ACTIVE_LOW + # comp active low
- self.CONFIG_COMP_LAT_NON_LATCHING + # comp non latching
- self.CONFIG_COMP_QUE_DISABLE ) # comp disabled
- ###
- self.bus.write_word_data(self.address, self.DEVICE_REG_CONFIG, self.swap(self.config))
- while True:
- # read status (note byte swap)
- status=self.swap(self.bus.read_word_data(self.address,self.DEVICE_REG_CONFIG))
- #print("status:"+str(status))
- # when the Operational Status is no longer performing a conversion
- # we can break out of this wait loop
- if (status & self.CONFIG_OS) != self.CONFIG_OS_PERFORMING_CONVERSION:
- break
- # read result (note byte swap)
- result=self.swap(self.bus.read_word_data(self.address,self.DEVICE_REG_CONVERSION))
- # return 16 bit integer A2D result for the specified channel
- volt=round((result*6.144/32768),3)
- return [result,volt]
- class PCA9685(object):
- bus=smbus2.SMBus(2)
- def __init__(self,freq=400,min_us=460,max_us=2400,address=0x40,degrees=180):
- self.address=address
- self.period=1000000/freq
- self.min_duty = self._us2duty(min_us)
- self.max_duty = self._us2duty(max_us)
- self.freq(freq)
- self.reset()
- #for i in range(0,16):
- #self.duty(i,0)
- print("Pca9685 init")
-
- def write(self, addr, val):
- for i in range(0, 2):
- try:
- self.bus.write_byte_data(self.address, addr, val)
- #time.sleep(0.001) # 1ms
- # print(addr, val) # debug
- return True
- except Exception:
- time.sleep(0.001)
- continue
- return False
-
- def read(self,addr):
- for i in range(0, 3):
- try:
- tmp = self.bus.read_byte_data(self.address, addr)
- #time.sleep(0.001) # 1ms
- # print(addr, tmp) # debug
- return tmp
- except Exception:
- time.sleep(0.01)
- continue
- return None
-
- def reset(self):
- self.write(0x00,0x00) #初始化
-
- def freq(self,freq=None):
- if freq is None:
- return int(25000000.0/4096/(self.read(0xfe)-0.5))
- #设定频率freq,预分频prescale=int(25000000.0 / (4096.0 * freq) + 0.5)
- prescale=int(25000000.0/4096/freq+0.5)
- self.write(0x00,0x10) #设定pca9685为睡眠模式
- self.write(0xfe,prescale) #设定频率
- self.reset()
- time.sleep(0.01)
- self.write(0x00,0xa1) #设定pca9685为活跃模式
-
- def pwm(self,index,on=None,off=None): #on和off来调节PWM的占空比
- if not 0<= index <=15:
- raise ValueError("Pin ID out of range!")
- if on is None or off is None:
- data = self.bus.read_i2c_block_data(self.address,0x06+index*4,4)
- return data
- data= [0]*4
- data[0]=int(hex(on & 0xff),16)
- data[1]=int(hex((on >> 8) & 0xff),16)
- data[2]=int(hex(off & 0xff),16)
- data[3]=int(hex((off >> 8) & 0xff),16)
- print(data)
- for i in range(0,4):
- self.write(0x06+i+index*4,data[i])
-
- def duty(self,index,value=None):
- if value == None:
- return self.pwm(index)
- elif not 0 <= value <=4095:
- raise ValueError("Out of range!")
- elif value==0:
- self.pwm(index,0,4096)
- elif value == 4095:
- self.pwm(index,4096,0)
- else:
- self.pwm(index,0,value)
- def _us2duty(self,value):
- return 4095*value/self.period
-
- def __del__():
- print("del pac9685")
- time.sleep(1)
- for i in range(0,16):
- self.duty(i,0)
- time.sleep(0.001)
-
- class extDcMotor(PCA9685):
- def __init__(self,motorId):
- PCA9685.__init__(self)
- self.motorPin=[11,12,13,10,9,8,5,6,7,4,3,2]
- self.motorId=motorId
- pass
-
- def speedControl(self,speed):
- self.speed=abs(speed)
- if not -255<= speed<=255:
- raise ValueError("Out of range!")
- if self.motorId == "C":
- if speed<0:
- self.duty(self.motorPin[0],4095)
- self.duty(self.motorPin[1],0)
- self.duty(self.motorPin[2],int(self.speed*16))
- else:
- self.duty(self.motorPin[0],0)
- self.duty(self.motorPin[1],4095)
- self.duty(self.motorPin[2],int(self.speed*16))
- elif self.motorId == "D":
- if speed<0:
- self.duty(self.motorPin[3],4095)
- self.duty(self.motorPin[4],0)
- self.duty(self.motorPin[5],int(self.speed*16))
- else:
- self.duty(self.motorPin[3],0)
- self.duty(self.motorPin[4],4095)
- self.duty(self.motorPin[5],int(self.speed*16))
- elif self.motorId == "E":
- if speed<0:
- self.duty(self.motorPin[6],4095)
- self.duty(self.motorPin[7],0)
- self.duty(self.motorPin[8],int(self.speed*16))
- else:
- self.duty(self.motorPin[6],0)
- self.duty(self.motorPin[7],4095)
- self.duty(self.motorPin[8],int(self.speed*16))
- elif self.motorId == "F":
- if speed<0:
- self.duty(self.motorPin[9],4095)
- self.duty(self.motorPin[10],0)
- self.duty(self.motorPin[11],int(self.speed*16))
- else:
- self.duty(self.motorPin[9],0)
- self.duty(self.motorPin[10],4095)
- self.duty(self.motorPin[11],int(self.speed*16))
- else:
- pass
-
-
- def __del__(self):
- if self.motorId == "C":
- self.duty(self.motorPin[0],0)
- self.duty(self.motorPin[1],0)
- self.duty(self.motorPin[2],0)
- elif self.motorId == "D":
- self.duty(self.motorPin[3],0)
- self.duty(self.motorPin[4],0)
- self.duty(self.motorPin[5],0)
- elif self.motorId == "E":
- self.duty(self.motorPin[6],0)
- self.duty(self.motorPin[7],0)
- self.duty(self.motorPin[8],0)
- elif self.motorId == "F":
- self.duty(self.motorPin[9],0)
- self.duty(self.motorPin[10],0)
- self.duty(self.motorPin[11],0)
- else:
- pass
- time.sleep(0.001)
-
- class extServo(PCA9685):
- def __init__(self,servoId):
- PCA9685.__init__(self)
- self.servoId=servoId
- self.servoPin=[14,15,1,0]
- self.degrees=180
- pass
-
- def position(self,degrees=None): #index:0,1,2,3
- span = self.max_duty - self.min_duty
- duty = self.min_duty + span * degrees / self.degrees
- duty = int(min(self.max_duty, max(self.min_duty, int(duty))))
- self.duty(self.servoPin[self.servoId], duty)
-
- def release(self):
- self.duty(self.servoPin[self.servoId],0)
-
- def __del__(self):
- self.duty(self.servoPin[self.servoId],0)
-
-
- class extOutputPin(PCA9685):
- def __init__(self):
- PCA9685.__init__(self)
- self.pin=[14,15,1,0]
- self.pinId=0
- pass
-
- def digitalSet(self,pinId,val): #val:0/1
- self.pinId=pinId
- if val==0:
- self.duty(self.pin[self.pinId],0)
- else:
- self.duty(self.pin[self.pinId],4095)
-
- def pwmWrite(self,pinId,val): #val:0~255
- self.pinId=pinId
- print("pinid"+str(self.pin[self.pinId]))
- self.duty(self.pin[self.pinId],val*16)
-
- def __del__(self):
- self.duty(self.pin[self.pinId],0)
- print("del extPin")
-
- class extGpio(MCP23017,ADS1115,extOutputPin):
- def __init__(self):
- MCP23017.__init__(self)
- ADS1115.__init__(self)
- extOutputPin.__init__(self)
- self.address=0x20 #初始默认为mcp23017的地址
-
- def pinMode(self,pinId,mode): #控制mcp23017
- self.address=0x20
- #----------
- #pinId:
- #p0~p3:0~3
- #a0~a3:4~7
- #---------
- #mode:
- #output:1
- #input:0
- if pinId>=0 and pinId<=3:
- if mode==0:
- if pinId==0: #p0
- self.setGpioDir("B",2,0) #output
- self.setGpioLevel("B",2,1) #high
- self.setGpioDir("B",3,1) #input
- elif pinId==1: #p1
- self.setGpioDir("B",1,0)
- self.setGpioLevel("B",1,1)
- self.setGpioDir("B",0,1)
- elif pinId==2: #p2
- self.setGpioDir("B",6,0)
- self.setGpioLevel("B",6,1)
- self.setGpioDir("A",1,1)
- elif pinId==3: #p3
- self.setGpioDir("B",5,0)
- self.setGpioLevel("B",5,1)
- self.setGpioDir("B",4,1)
- else:
- pass
- elif mode==1:
- if pinId==0:
- self.setGpioDir("B",2,0) #output
- self.setGpioLevel("B",2,1) #high
- self.setGpioDir("B",3,0) #output
- elif pinId==1:
- self.setGpioDir("B",1,0)
- self.setGpioLevel("B",1,1)
- self.setGpioDir("B",0,0)
- elif pinId==2:
- self.setGpioDir("B",6,0)
- self.setGpioLevel("B",6,1)
- self.setGpioDir("A",1,0)
- elif pinId==3:
- self.setGpioDir("B",5,0)
- self.setGpioLevel("B",5,1)
- self.setGpioDir("B",4,0)
- print("a")
- time.sleep(1)
- else:
- pass
- else:
- pass
- elif pinId>=4 and pinId<=7:
- if mode==0:
- if pinId==4: #a0
- self.setGpioDir("A",4,0) #output
- self.setGpioLevel("A",4,1) #high
- self.setGpioDir("A",5,1) #input
- elif pinId==5: #a1
- self.setGpioDir("A",3,0)
- self.setGpioLevel("A",3,1)
- self.setGpioDir("A",7,1)
- elif pinId==6: #a2
- self.setGpioDir("A",2,0)
- self.setGpioLevel("A",2,1)
- self.setGpioDir("A",6,1)
- elif pinId==7: #a3
- self.setGpioDir("B",7,0)
- self.setGpioLevel("B",7,1)
- self.setGpioDir("A",0,1)
- else:
- pass
- elif mode==1:
- if pinId==4: #a0
- self.setGpioDir("A",4,0) #output
- self.setGpioLevel("A",4,1) #high
- self.setGpioDir("A",5,0) #output
- elif pinId==5: #a1
- self.setGpioDir("A",3,0)
- self.setGpioLevel("A",3,1)
- self.setGpioDir("A",7,0)
- elif pinId==6: #a2
- self.setGpioDir("A",2,0)
- self.setGpioLevel("A",2,1)
- self.setGpioDir("A",6,0)
- elif pinId==7: #a3
- self.setGpioDir("B",7,0)
- self.setGpioLevel("B",7,1)
- self.setGpioDir("A",0,0)
- else:
- pass
- else:
- pass
- def digitalWrite(self,pinId,level): #控制mcp23017
- #----------
- #pinId:
- #p0~p3:0~3
- #a0~a3:4~7
- #---------
- #level:
- #5v:1
- #0v:0
- self.address=0x20
- if pinId>=0 and pinId<=3:
- if pinId==0:
- print("digital write level")
- self.setGpioLevel("B",3,level)
- elif pinId==1:
- self.setGpioLevel("B",0,level)
- elif pinId==2:
- self.setGpioLevel("A",1,level)
- elif pinId==3:
- self.setGpioLevel("B",4,level)
- else:
- pass
- elif pinId>=4 and pinId<=7:
- if pinId==4: #a0
- self.setGpioLevel("A",5,level)
- elif pinId==5: #a1
- self.setGpioLevel("A",7,level)
- elif pinId==6: #a2
- self.setGpioLevel("A",6,level)
- elif pinId==7: #a3
- self.setGpioLevel("A",0,level)
- else:
- pass
- else:
- pass
-
- def digitalRead(self,pinId): #控制mcp23017
- self.address=0x20
- #----------
- #pinId:
- #p0~p3:0~3
- #a0~a3:4~7
- if pinId>=0 and pinId<=3:
- if pinId==0:
- print("get digital write level")
- return self.getGpioLevel("B",3)
- elif pinId==1:
- return self.getGpioLevel("B",0)
- elif pinId==2:
- return self.getGpioLevel("A",1)
- elif pinId==3:
- return self.getGpioLevel("B",4)
- else:
- pass
- elif pinId>=4 and pinId<=7:
- if pinId==4: #a0
- return self.getGpioLevel("A",5)
- elif pinId==5: #a1
- return self.getGpioLevel("A",7)
- elif pinId==6: #a2
- return self.getGpioLevel("A",6)
- elif pinId==7: #a3
- return self.getGpioLevel("A",0)
- else:
- pass
- else:
- pass
-
- def analogWrite(self,pinId,pwm): #控制PCA9685,但是需要Mcp23017进行通道选择
- self.address=0x20 #先用mcp23017进行通道选择
- #select X channel
- if pinId==0: #p0
- self.setGpioDir("B",2,1) #output
- self.setGpioLevel("B",2,0) #low
- elif pinId==1: #p1
- self.setGpioDir("B",1,1)
- self.setGpioLevel("B",1,0)
- elif pinId==2: #p2
- self.setGpioDir("B",6,1)
- self.setGpioLevel("B",6,0)
- elif pinId==3: #p3
- self.setGpioDir("B",5,1)
- self.setGpioLevel("B",5,0)
- else:
- pass
- self.address=0x40 #再用PCA9685进行控制
- self.pwmWrite(pinId,pwm)
-
- def analogRead(self,pinId): #控制ADS1115,但是需要Mcp23017进行通道选择
- self.adcPin=[3,1,0,2]
- self.address=0x20 #先用mcp23017进行通道选择
- #select X channel
- if pinId==4: #a0
- self.setGpioDir("A",4,1) #input
- self.setGpioLevel("A",4,0) #low
- elif pinId==5: #a1
- self.setGpioDir("A",3,1)
- self.setGpioLevel("A",3,0)
- elif pinId==6: #a2
- self.setGpioDir("A",2,1)
- self.setGpioLevel("A",2,0)
- elif pinId==7: #a3
- self.setGpioDir("B",7,0)
- self.setGpioLevel("B",7,0)
- else:
- pass
- self.address=0x49 #再用Ads1115进行ADC读取
- return self.readAdc(self.adcPin[pinId-4])
- def __del__(self):
- self.address=0x40
- extOutputPin.__del__(self)
- self.address=0x20
- MCP23017.__del__(self) #最先init的配置最后再del
- print("del finished!")
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