mirror of
https://github.com/cmur2/python-bme280.git
synced 2024-11-14 16:56:15 +01:00
263 lines
9.2 KiB
Python
263 lines
9.2 KiB
Python
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import time
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import smbus # pylint: disable=import-error
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ADDR = 0x76 # 7bit address of the BME280 for SDO=0, else 0x77
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REGISTER_ID = 0xD0
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REGISTER_RESET = 0xE0
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REGISTER_CTRL_HUM = 0xF2
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REGISTER_STATUS = 0xF3
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REGISTER_CTRL_MEAS = 0xF4
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REGISTER_CONFIG = 0xF5
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HO_SKIPPED = 0x00
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HO_1 = 0x01
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HO_2 = 0x02
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HO_4 = 0x03
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HO_8 = 0x04
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HO_16 = 0x05 # and all higher
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PO_SKIPPED = 0x00
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PO_1 = 0x01
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PO_2 = 0x02
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PO_4 = 0x03
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PO_8 = 0x04
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PO_16 = 0x05 # and all higher
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TO_SKIPPED = 0x00
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TO_1 = 0x01
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TO_2 = 0x02
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TO_4 = 0x03
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TO_8 = 0x04
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TO_16 = 0x05 # and all higher
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MODE_SLEEP = 0x00
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MODE_FORCED = 0x01 # and 0x02
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MODE_NORMAL = 0x03
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TSTANDBY_0_5 = 0x00
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TSTANDBY_62_5 = 0x01
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TSTANDBY_125 = 0x02
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TSTANDBY_250 = 0x03
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TSTANDBY_500 = 0x04
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TSTANDBY_1000 = 0x05
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TSTANDBY_10 = 0x06
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TSTANDBY_20 = 0x07
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FILTER_OFF = 0x00
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FILTER_2 = 0x01
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FILTER_4 = 0x02
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FILTER_8 = 0x03
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FILTER_16 = 0x04 # and all higher
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class Bme280(object):
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def __init__(self, i2c_bus=1, sensor_address=ADDR):
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self.bus = smbus.SMBus(i2c_bus)
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self.sensor_address = sensor_address
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self.ho = HO_1
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self.po = PO_1
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self.to = TO_1
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self.mode = MODE_SLEEP
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self.tstandy = TSTANDBY_1000
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self.filter = FILTER_OFF
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self.read_calibration_parameters()
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# initialize once
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self.bus.write_byte_data(self.sensor_address, REGISTER_CTRL_HUM, self.get_reg_ctrl_hum())
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self.bus.write_byte_data(self.sensor_address, REGISTER_CTRL_MEAS, self.get_reg_ctrl_meas())
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self.bus.write_byte_data(self.sensor_address, REGISTER_CONFIG, self.get_reg_config())
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def get_chip_id(self):
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return self.bus.read_byte_data(self.sensor_address, REGISTER_ID)
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def reset(self):
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self.bus.write_byte_data(self.sensor_address, REGISTER_RESET, 0xB6)
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def is_status_measuring(self):
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return (self.bus.read_byte_data(self.sensor_address, REGISTER_STATUS) & 0x08) != 0x00
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def is_status_image_register_updating(self):
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return (self.bus.read_byte_data(self.sensor_address, REGISTER_STATUS) & 0x01) != 0x00
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def set_humidity_oversampling(self, ho):
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self.ho = ho
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self.bus.write_byte_data(self.sensor_address, REGISTER_CTRL_HUM, self.get_reg_ctrl_hum())
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# flush (unchanged) CTRL_MEAS to make CTRL_HUM effective!
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self.bus.write_byte_data(self.sensor_address, REGISTER_CTRL_MEAS, self.get_reg_ctrl_meas())
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def get_humidity_oversampling(self):
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return self.ho
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def set_temperature_oversampling(self, to):
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self.to = to
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self.bus.write_byte_data(self.sensor_address, REGISTER_CTRL_MEAS, self.get_reg_ctrl_meas())
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def get_temperature_oversampling(self):
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return self.to
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def set_pressure_oversampling(self, po):
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self.po = po
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self.bus.write_byte_data(self.sensor_address, REGISTER_CTRL_MEAS, self.get_reg_ctrl_meas())
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def get_pressure_oversampling(self):
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return self.po
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def set_mode(self, mode):
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self.mode = mode
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self.bus.write_byte_data(self.sensor_address, REGISTER_CTRL_MEAS, self.get_reg_ctrl_meas())
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def get_mode(self):
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return self.mode
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def set_tstandy(self, tstandy):
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self.tstandy = tstandy
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self.bus.write_byte_data(self.sensor_address, REGISTER_CONFIG, self.get_reg_config())
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def get_tstandy(self):
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return self.tstandy
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def set_filter(self, fil):
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self.filter = fil
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self.bus.write_byte_data(self.sensor_address, REGISTER_CONFIG, self.get_reg_config())
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def get_filter(self):
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return self.filter
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def get_data(self):
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if self.get_mode() == MODE_FORCED:
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t_measure_max = 1.25 + (2.3 * self.to) + (2.3 * self.po + 0.575) + (2.3 * self.ho + 0.575)
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time.sleep(t_measure_max/1000.0)
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data = []
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for i in range(0xF7, 0xF7+8):
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data.append(self.bus.read_byte_data(self.sensor_address, i))
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pressure_raw = (data[0] << 12) | (data[1] << 4) | (data[2] >> 4)
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temperature_raw = (data[3] << 12) | (data[4] << 4) | (data[5] >> 4)
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humidity_raw = (data[6] << 8) | data[7]
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t_fine = self.calc_t_fine(temperature_raw)
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t = self.calc_compensated_temperature(t_fine)
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p = self.calc_compensated_pressure(t_fine, pressure_raw)
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h = self.calc_compensated_humidity(t_fine, humidity_raw)
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if self.get_mode() == MODE_FORCED:
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# chip returns to sleep after data readout automatically, mirror it
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self.mode = MODE_SLEEP
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return (t, p, h)
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def get_reg_ctrl_hum(self):
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"""
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returns the bit pattern for CTRL_HUM corresponding to the desired state of this class
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"""
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return self.ho & 0x07
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def get_reg_ctrl_meas(self):
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"""
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returns the bit pattern for CTRL_MEAS corresponding to the desired state of this class
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"""
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return ((self.to & 0x07) << 5) | ((self.po & 0x07) << 2) | self.mode
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def get_reg_config(self):
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"""
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returns the bit pattern for CONFIG corresponding to the desired state of this class
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"""
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# SPI permanently disabled
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return ((self.tstandy & 0x07) << 5) | ((self.filter & 0x07) << 2) | 0x00
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# Bug-fixed code, originally from https://github.com/SWITCHSCIENCE/BME280
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def read_calibration_parameters(self):
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# read all calibration registers from chip NVM
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calibration_regs = []
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for i in range(0x88, 0x88+24):
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calibration_regs.append(self.bus.read_byte_data(self.sensor_address, i))
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calibration_regs.append(self.bus.read_byte_data(self.sensor_address, 0xA1))
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for i in range(0xE1, 0xE1+7):
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calibration_regs.append(self.bus.read_byte_data(self.sensor_address, i))
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# pylint: disable=bad-whitespace
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# reorganize 8-bit words into compensation words (without correct sign)
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self.digT = []
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self.digT.append((calibration_regs[1] << 8) | calibration_regs[0])
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self.digT.append((calibration_regs[3] << 8) | calibration_regs[2])
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self.digT.append((calibration_regs[5] << 8) | calibration_regs[4])
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self.digP = []
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self.digP.append((calibration_regs[7] << 8) | calibration_regs[6])
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self.digP.append((calibration_regs[9] << 8) | calibration_regs[8])
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self.digP.append((calibration_regs[11]<< 8) | calibration_regs[10])
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self.digP.append((calibration_regs[13]<< 8) | calibration_regs[12])
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self.digP.append((calibration_regs[15]<< 8) | calibration_regs[14])
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self.digP.append((calibration_regs[17]<< 8) | calibration_regs[16])
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self.digP.append((calibration_regs[19]<< 8) | calibration_regs[18])
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self.digP.append((calibration_regs[21]<< 8) | calibration_regs[20])
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self.digP.append((calibration_regs[23]<< 8) | calibration_regs[22])
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self.digH = []
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self.digH.append( calibration_regs[24] )
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self.digH.append((calibration_regs[26]<< 8) | calibration_regs[25])
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self.digH.append( calibration_regs[27] )
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self.digH.append((calibration_regs[28]<< 4) | (0x0F & calibration_regs[29]))
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self.digH.append((calibration_regs[30]<< 4) | ((calibration_regs[29] >> 4) & 0x0F))
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self.digH.append( calibration_regs[31] )
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# fix sign for integers in two's complement
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for i in [1,2]:
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if self.digT[i] & 0x8000:
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self.digT[i] = (-self.digT[i] ^ 0xFFFF) + 1
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for i in [1,2,3,4,5,6,7,8]:
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if self.digP[i] & 0x8000:
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self.digP[i] = (-self.digP[i] ^ 0xFFFF) + 1
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for i in [1]:
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if self.digH[i] & 0x8000:
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self.digH[i] = (-self.digH[i] ^ 0xFFFF) + 1
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for i in [3,4]:
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if self.digH[i] & 0x0800:
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self.digH[i] = (-self.digH[i] ^ 0x0FFF) + 1
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for i in [5]:
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if self.digH[i] & 0x0080:
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self.digH[i] = (-self.digH[i] ^ 0x00FF) + 1
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# Code from Bosch datasheet translated to Python
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def calc_t_fine(self, adc_T):
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var1 = (adc_T / 16384.0 - self.digT[0] / 1024.0) * self.digT[1]
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var2 = (adc_T / 131072.0 - self.digT[0] / 8192.0) * (adc_T / 131072.0 - self.digT[0] / 8192.0) * self.digT[2]
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return var1 + var2
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def calc_compensated_temperature(self, t_fine):
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return t_fine / 5120.0
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def calc_compensated_pressure(self, t_fine, adc_P):
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var1 = (t_fine/2.0) - 64000.0
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var2 = var1 * var1 * (self.digP[5]) / 32768.0
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var2 = var2 + var1 * (self.digP[4]) * 2.0
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var2 = (var2/4.0)+(self.digP[3] * 65536.0)
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var1 = (self.digP[2] * var1 * var1 / 524288.0 + self.digP[1] * var1) / 524288.0
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var1 = (1.0 + var1 / 32768.0)*self.digP[0]
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if var1 == 0.0:
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return 0 # avoid exception caused by division by zero
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p = 1048576.0 - adc_P
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p = (p - (var2 / 4096.0)) * 6250.0 / var1
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var1 = self.digP[8] * p * p / 2147483648.0
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var2 = p * self.digP[7] / 32768.0
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return p + (var1 + var2 + self.digP[6]) / 16.0
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def calc_compensated_humidity(self, t_fine, adc_H):
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var_H = t_fine - 76800.0
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var_H = (adc_H - (self.digH[3] * 64.0 + self.digH[4] / 16384.0 * var_H)) * (self.digH[1] / 65536.0 * (1.0 + self.digH[5] / 67108864.0 * var_H * (1.0 + self.digH[2] / 67108864.0 * var_H)))
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var_H = var_H * (1.0 - self.digH[0] * var_H / 524288.0)
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if var_H > 100.0:
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var_H = 100.0
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elif var_H < 0.0:
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var_H = 0.0
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return var_H
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