test/test-cyclingspeed - vendor/opensource/bluez - Git at Google

 #!/usr/bin/python

 from __future__ import absolute_import, print_function, unicode_literals

 '''
 Cycling Speed and Cadence test script
 '''

 from optparse import OptionParser, make_option
 import sys
 import dbus
 import dbus.service
 import dbus.mainloop.glib
 try:
   from gi.repository import GObject
 except ImportError:
   import gobject as GObject
 import bluezutils

 BUS_NAME = 'org.bluez'
 CYCLINGSPEED_MANAGER_INTERFACE = 'org.bluez.CyclingSpeedManager1'
 CYCLINGSPEED_WATCHER_INTERFACE = 'org.bluez.CyclingSpeedWatcher1'
 CYCLINGSPEED_INTERFACE = 'org.bluez.CyclingSpeed1'

 class MeasurementQ:
 	def __init__(self, wrap_v):
 		self._now = [None, None]
 		self._prev = [None, None]
 		self._wrap_v = wrap_v

 	def can_calc(self):
 		return ((self._now[0] is not None)
 			and (self._now[1] is not None)
 			and (self._prev[0] is not None)
 			and (self._prev[1] is not None))

 	def delta_v(self):
 		delta = self._now[0] - self._prev[0]
 		if (delta < 0) and (self._wrap_v):
 			delta = delta + 65536
 		return delta

 	def delta_t(self):
 		delta = self._now[1] - self._prev[1]
 		if delta < 0:
 			delta = delta + 65536
 		return delta

 	def put(self, data):
 		self._prev = self._now
 		self._now = data

 class Watcher(dbus.service.Object):
 	_wheel = MeasurementQ(False)
 	_crank = MeasurementQ(True)
 	_circumference = None

 	def enable_calc(self, v):
 		self._circumference = v

 	@dbus.service.method(CYCLINGSPEED_WATCHER_INTERFACE,
 					in_signature="oa{sv}", out_signature="")
 	def MeasurementReceived(self, device, measure):
 		print("Measurement received from %s" % device)

 		rev = None
 		evt = None
 		if "WheelRevolutions" in measure:
 			rev = measure["WheelRevolutions"]
 			print("WheelRevolutions: ", measure["WheelRevolutions"])
 		if "LastWheelEventTime" in measure:
 			evt = measure["LastWheelEventTime"]
 			print("LastWheelEventTime: ", measure["LastWheelEventTime"])
 		self._wheel.put( [rev, evt] )

 		rev = None
 		evt = None
 		if "CrankRevolutions" in measure:
 			rev = measure["CrankRevolutions"]
 			print("CrankRevolutions: ", measure["CrankRevolutions"])
 		if "LastCrankEventTime" in measure:
 			evt = measure["LastCrankEventTime"]
 			print("LastCrankEventTime: ", measure["LastCrankEventTime"])
 		self._crank.put( [rev, evt] )

 		if self._circumference is None:
 			return

 		if self._wheel.can_calc():
 			delta_v = self._wheel.delta_v()
 			delta_t = self._wheel.delta_t()

 			if (delta_v >= 0) and (delta_t > 0):
 				speed = delta_v * self._circumference * 1024 / delta_t # mm/s
 				speed = speed * 0.0036 # mm/s -> km/h
 				print("(calculated) Speed: %.2f km/h" % speed)

 		if self._crank.can_calc():
 			delta_v = self._crank.delta_v()
 			delta_t = self._crank.delta_t()

 			if delta_t > 0:
 				cadence = delta_v * 1024 / delta_t
 				print("(calculated) Cadence: %d rpm" % cadence)

 def properties_changed(interface, changed, invalidated):
 	if "Location" in changed:
 		print("Sensor location: %s" % changed["Location"])

 if __name__ == "__main__":
 	dbus.mainloop.glib.DBusGMainLoop(set_as_default=True)

 	bus = dbus.SystemBus()

 	option_list = [
 		make_option("-i", "--adapter", action="store",
 			type="string", dest="adapter"),
 		make_option("-b", "--device", action="store",
 			type="string", dest="address"),
 		make_option("-c", "--circumference", action="store",
 			type="int", dest="circumference"),
 		]

 	parser = OptionParser(option_list=option_list)

 	(options, args) = parser.parse_args()

 	if not options.address:
 		print("Usage: %s [-i <adapter>] -b <bdaddr> [-c <value>] [cmd]" % (sys.argv[0]))
 		print("Possible commands:")
 		print("\tShowSupportedLocations")
 		print("\tSetLocation <location>")
 		print("\tSetCumulativeWheelRevolutions <value>")
 		sys.exit(1)

 	managed_objects = bluezutils.get_managed_objects()
 	adapter = bluezutils.find_adapter_in_objects(managed_objects,
 								options.adapter)
 	adapter_path = adapter.object_path

 	device = bluezutils.find_device_in_objects(managed_objects,
 								options.address,
 								options.adapter)
 	device_path = device.object_path

 	cscmanager = dbus.Interface(bus.get_object(BUS_NAME, adapter_path),
 						CYCLINGSPEED_MANAGER_INTERFACE)

 	watcher_path = "/test/watcher"
 	watcher = Watcher(bus, watcher_path)
 	if options.circumference:
 		watcher.enable_calc(options.circumference)
 	cscmanager.RegisterWatcher(watcher_path)

 	csc = dbus.Interface(bus.get_object(BUS_NAME, device_path),
 							CYCLINGSPEED_INTERFACE)

 	bus.add_signal_receiver(properties_changed, bus_name=BUS_NAME,
 				path=device_path,
 				dbus_interface="org.freedesktop.DBus.Properties",
 				signal_name="PropertiesChanged")

 	device_prop = dbus.Interface(bus.get_object(BUS_NAME, device_path),
 					"org.freedesktop.DBus.Properties")

 	properties = device_prop.GetAll(CYCLINGSPEED_INTERFACE)

 	if "Location" in properties:
 		print("Sensor location: %s" % properties["Location"])
 	else:
 		print("Sensor location is not supported")

 	if len(args) > 0:
 		if args[0] == "ShowSupportedLocations":
 			if properties["MultipleLocationsSupported"]:
 				print("Supported locations: ", properties["SupportedLocations"])
 			else:
 				print("Multiple sensor locations not supported")

 		elif args[0] == "SetLocation":
 			if properties["MultipleLocationsSupported"]:
 				device_prop.Set(CYCLINGSPEED_INTERFACE, "Location", args[1])
 			else:
 				print("Multiple sensor locations not supported")

 		elif args[0] == "SetCumulativeWheelRevolutions":
 			if properties["WheelRevolutionDataSupported"]:
 				csc.SetCumulativeWheelRevolutions(dbus.UInt32(args[1]))
 			else:
 				print("Wheel revolution data not supported")

 		else:
 			print("Unknown command")
 			sys.exit(1)

 	mainloop = GObject.MainLoop()
 	mainloop.run()
	#!/usr/bin/python

	from __future__ import absolute_import, print_function, unicode_literals

	'''
	Cycling Speed and Cadence test script
	'''

	from optparse import OptionParser, make_option
	import sys
	import dbus
	import dbus.service
	import dbus.mainloop.glib
	try:
	from gi.repository import GObject
	except ImportError:
	import gobject as GObject
	import bluezutils

	BUS_NAME = 'org.bluez'
	CYCLINGSPEED_MANAGER_INTERFACE = 'org.bluez.CyclingSpeedManager1'
	CYCLINGSPEED_WATCHER_INTERFACE = 'org.bluez.CyclingSpeedWatcher1'
	CYCLINGSPEED_INTERFACE = 'org.bluez.CyclingSpeed1'

	class MeasurementQ:
	def __init__(self, wrap_v):
	self._now = [None, None]
	self._prev = [None, None]
	self._wrap_v = wrap_v

	def can_calc(self):
	return ((self._now[0] is not None)
	and (self._now[1] is not None)
	and (self._prev[0] is not None)
	and (self._prev[1] is not None))

	def delta_v(self):
	delta = self._now[0] - self._prev[0]
	if (delta < 0) and (self._wrap_v):
	delta = delta + 65536
	return delta

	def delta_t(self):
	delta = self._now[1] - self._prev[1]
	if delta < 0:
	delta = delta + 65536
	return delta

	def put(self, data):
	self._prev = self._now
	self._now = data

	class Watcher(dbus.service.Object):
	_wheel = MeasurementQ(False)
	_crank = MeasurementQ(True)
	_circumference = None

	def enable_calc(self, v):
	self._circumference = v

	@dbus.service.method(CYCLINGSPEED_WATCHER_INTERFACE,
	in_signature="oa{sv}", out_signature="")
	def MeasurementReceived(self, device, measure):
	print("Measurement received from %s" % device)

	rev = None
	evt = None
	if "WheelRevolutions" in measure:
	rev = measure["WheelRevolutions"]
	print("WheelRevolutions: ", measure["WheelRevolutions"])
	if "LastWheelEventTime" in measure:
	evt = measure["LastWheelEventTime"]
	print("LastWheelEventTime: ", measure["LastWheelEventTime"])
	self._wheel.put( [rev, evt] )

	rev = None
	evt = None
	if "CrankRevolutions" in measure:
	rev = measure["CrankRevolutions"]
	print("CrankRevolutions: ", measure["CrankRevolutions"])
	if "LastCrankEventTime" in measure:
	evt = measure["LastCrankEventTime"]
	print("LastCrankEventTime: ", measure["LastCrankEventTime"])
	self._crank.put( [rev, evt] )

	if self._circumference is None:
	return

	if self._wheel.can_calc():
	delta_v = self._wheel.delta_v()
	delta_t = self._wheel.delta_t()

	if (delta_v >= 0) and (delta_t > 0):
	speed = delta_v * self._circumference * 1024 / delta_t # mm/s
	speed = speed * 0.0036 # mm/s -> km/h
	print("(calculated) Speed: %.2f km/h" % speed)

	if self._crank.can_calc():
	delta_v = self._crank.delta_v()
	delta_t = self._crank.delta_t()

	if delta_t > 0:
	cadence = delta_v * 1024 / delta_t
	print("(calculated) Cadence: %d rpm" % cadence)

	def properties_changed(interface, changed, invalidated):
	if "Location" in changed:
	print("Sensor location: %s" % changed["Location"])

	if __name__ == "__main__":
	dbus.mainloop.glib.DBusGMainLoop(set_as_default=True)

	bus = dbus.SystemBus()

	option_list = [
	make_option("-i", "--adapter", action="store",
	type="string", dest="adapter"),
	make_option("-b", "--device", action="store",
	type="string", dest="address"),
	make_option("-c", "--circumference", action="store",
	type="int", dest="circumference"),
	]

	parser = OptionParser(option_list=option_list)

	(options, args) = parser.parse_args()

	if not options.address:
	print("Usage: %s [-i <adapter>] -b <bdaddr> [-c <value>] [cmd]" % (sys.argv[0]))
	print("Possible commands:")
	print("\tShowSupportedLocations")
	print("\tSetLocation <location>")
	print("\tSetCumulativeWheelRevolutions <value>")
	sys.exit(1)

	managed_objects = bluezutils.get_managed_objects()
	adapter = bluezutils.find_adapter_in_objects(managed_objects,
	options.adapter)
	adapter_path = adapter.object_path

	device = bluezutils.find_device_in_objects(managed_objects,
	options.address,
	options.adapter)
	device_path = device.object_path

	cscmanager = dbus.Interface(bus.get_object(BUS_NAME, adapter_path),
	CYCLINGSPEED_MANAGER_INTERFACE)

	watcher_path = "/test/watcher"
	watcher = Watcher(bus, watcher_path)
	if options.circumference:
	watcher.enable_calc(options.circumference)
	cscmanager.RegisterWatcher(watcher_path)

	csc = dbus.Interface(bus.get_object(BUS_NAME, device_path),
	CYCLINGSPEED_INTERFACE)

	bus.add_signal_receiver(properties_changed, bus_name=BUS_NAME,
	path=device_path,
	dbus_interface="org.freedesktop.DBus.Properties",
	signal_name="PropertiesChanged")

	device_prop = dbus.Interface(bus.get_object(BUS_NAME, device_path),
	"org.freedesktop.DBus.Properties")

	properties = device_prop.GetAll(CYCLINGSPEED_INTERFACE)

	if "Location" in properties:
	print("Sensor location: %s" % properties["Location"])
	else:
	print("Sensor location is not supported")

	if len(args) > 0:
	if args[0] == "ShowSupportedLocations":
	if properties["MultipleLocationsSupported"]:
	print("Supported locations: ", properties["SupportedLocations"])
	else:
	print("Multiple sensor locations not supported")

	elif args[0] == "SetLocation":
	if properties["MultipleLocationsSupported"]:
	device_prop.Set(CYCLINGSPEED_INTERFACE, "Location", args[1])
	else:
	print("Multiple sensor locations not supported")

	elif args[0] == "SetCumulativeWheelRevolutions":
	if properties["WheelRevolutionDataSupported"]:
	csc.SetCumulativeWheelRevolutions(dbus.UInt32(args[1]))
	else:
	print("Wheel revolution data not supported")

	else:
	print("Unknown command")
	sys.exit(1)

	mainloop = GObject.MainLoop()
	mainloop.run()