Python client for GEX
You can not select more than 25 topics Topics must start with a letter or number, can include dashes ('-') and can be up to 35 characters long.
gex-client-py/examples/test_onewire.py

81 lines
2.4 KiB

#!/bin/env python3
import time
import gex
with gex.Client(gex.TrxRawUSB()) as client:
ow = gex.OneWire(client, 'ow')
# print("Presence: ", ow.test_presence())
print("Devices:", ow.search())
def meas(addr):
ow.write([0x44], addr=addr)
ow.wait_ready()
data = ow.query([0xBE], 9, addr=addr)
pp = gex.PayloadParser(data)
return pp.i16() * 0.0625
def meas2(addr, addr2):
ow.write([0x44], addr=addr)
ow.write([0x44], addr=addr2)
ow.wait_ready()
data = ow.query([0xBE], 9, addr=addr)
pp = gex.PayloadParser(data)
a = pp.i16() * 0.0625
data = ow.query([0xBE], 9, addr=addr2)
pp = gex.PayloadParser(data)
b = pp.i16() * 0.0625
return a, b
while True:
(a, b) = meas2(6558392391241695016, 1802309978572980008)
# a = meas(6558392391241695016)
# b = meas(1802309978572980008)
print("in: %.2f °C, out: %f °C" % (a, b))
# # search the bus for alarm
# if False:
# ow = gex.OneWire(client, 'ow')
# print("Presence: ", ow.test_presence())
# print("Devices w alarm:", ow.search(alarm=True))
#
# # simple 1w check
# if False:
# ow = gex.OneWire(client, 'ow')
# print("Presence: ", ow.test_presence())
# print("ROM: 0x%016x" % ow.read_address())
# print("Scratch:", ow.query([0xBE], rcount=9, addr=0x7100080104c77610, as_array=True))
#
# # testing ds1820 temp meas without polling
# if False:
# ow = gex.OneWire(client, 'ow')
# print("Presence: ", ow.test_presence())
# print("Starting measure...")
# ow.write([0x44])
# time.sleep(1)
# print("Scratch:", ow.query([0xBE], 9))
#
# # testing ds1820 temp meas with polling
# if False:
# ow = gex.OneWire(client, 'ow')
# print("Presence: ", ow.test_presence())
# print("Starting measure...")
# ow.write([0x44])
# ow.wait_ready()
# data = ow.query([0xBE], 9)
#
# pp = gex.PayloadParser(data)
#
# temp = pp.i16()/2.0
# th = pp.i8()
# tl = pp.i8()
# reserved = pp.i16()
# remain = float(pp.u8())
# perc = float(pp.u8())
#
# realtemp = temp - 0.25+(perc-remain)/perc
# print("Temperature = %f °C (th %d, tl %d)" % (realtemp, th, tl))