def setUpClass(cls): global hg if socketPath: hg = Homegear(socketPath) else: hg = Homegear("/var/run/homegear/homegearIPC.sock") global testValues, input testValues = [5, 10, 42, 20, 37, 2, 4, 0.2, 4.2, 42.42] input = "fixedInput"
def setUpClass(cls): global hg, path if socketPath: hg = Homegear(socketPath) else: hg = Homegear("/var/run/homegear/homegearIPC.sock") path = os.getcwd() + "/testingDirectory" if not os.path.exists(path): os.mkdir(path)
def main(): (args, parser) = parseOptions() hg = Homegear("/var/run/homegear/homegearIPC.sock", eventHandler) MODES = ['AUTO_MODE', 'MANU_MODE', 'PARTY_MODE', 'BOOST_MODE'] if args.mode: print(" Desired mode: {}".format(MODES[args.mode])) if (args.device != -1): devices = [args.device] else: devices = range(1, 8) print( "+-------+-----+-----------------+------------+------+-------+------+-----------------------+" ) print( "| State | Dev#| Name | Mode | Temp | Valve | Bat | |" ) print( "+-------+-----+-----------------+------------+------+-------+------+-----------------------+" ) for device in devices: try: mode = hg.getValue(device, 4, "CONTROL_MODE") temp = hg.getValue(device, 4, "SET_TEMPERATURE") name = hg.getName(device).lstrip('"').rstrip('"') valv = hg.getValue(device, 4, "VALVE_STATE") bat = hg.getValue(device, 4, "BATTERY_STATE") except: continue pass if mode != 2: # All modes but PARTY: print( "| Curr | {: ^3} | {: <15} | {: <10} | {: <4} | {: >4}% | {: <4} | |" .format(device, name, MODES[mode], temp, valv, bat)) else: # PARTY party_temperature = hg.getValue(device, 4, 'PARTY_TEMPERATURE') ps_time = hg.getValue(device, 4, 'PARTY_START_TIME') ps_day = hg.getValue(device, 4, 'PARTY_START_DAY') ps_month = hg.getValue(device, 4, 'PARTY_START_MONTH') ps_year = hg.getValue(device, 4, 'PARTY_START_YEAR') px_time = hg.getValue(device, 4, 'PARTY_STOP_TIME') px_day = hg.getValue(device, 4, 'PARTY_STOP_DAY') px_month = hg.getValue(device, 4, 'PARTY_STOP_MONTH') px_year = hg.getValue(device, 4, 'PARTY_STOP_YEAR') ps_h = int(ps_time / 60) ps_min = ps_time - ps_h * 60 px_h = int(px_time / 60) px_min = px_time - px_h * 60 px_date = F"{px_day}.{px_month}.{px_year}" print("| Curr | {: ^3} | {: <15} | {: <10} | {: <4} | {: >4}% | {: <4} | Until: {} {:0>2}:{:0<2} |"\ .format(device, name, MODES[mode], temp, valv, bat, px_date, px_h, px_min)) sth_changed = False if args.mode is not None: sth_changed = True if args.mode == 0: if args.verbose: print('Setting mode: AUTO') hg.setValue(device, 4, MODES[args.mode], True) if args.mode == 1: if args.verbose: print('Setting mode: MANUAL') hg.setValue(device, 4, MODES[args.mode], True) if args.mode == 2: ## Party Mode if args.verbose: print('Setting mode: PARTY ') p_temp = args.temp (px_day, px_month, px_year_time) = args.until.split(".") (px_year, px_h, px_min) = px_year_time.split(":") now = datetime.datetime.now() ps_day = int(now.day) ps_month = int(now.month) ps_year = int(now.year) if ps_year > 1000: ps_year -= 2000 ps_h = int(now.hour) if args.start_in: ps_h += int(args.start_in) ps_min = int(now.minute) px_day = int(px_day) px_month = int(px_month) px_year = int(px_year) px_h = int(px_h) px_min = int(px_min) ps_time = 60 * ps_h + ps_min px_time = 60 * px_h + px_min if args.verbose: print(F''' party_temperature {p_temp} ps_h {ps_h} ps_min {ps_min} ps_time {ps_time} ps_month {ps_month} ps_year {ps_year} px_h {px_h} px_min {px_min} px_time {px_time} px_day {px_day} px_month {px_month} px_year {px_year} ''') hg.setValue( device, 4, 'PARTY_MODE_SUBMIT', F"{p_temp},{ps_time},{ps_day},{ps_month},{ps_year},{px_time},{px_day},{px_month},{px_year}" ) # F"8.5,1200,23,11,19,1380,26,11,19") party_temperature = hg.getValue(device, 4, 'PARTY_TEMPERATURE') ps_time = hg.getValue(device, 4, 'PARTY_START_TIME') ps_day = hg.getValue(device, 4, 'PARTY_START_DAY') ps_month = hg.getValue(device, 4, 'PARTY_START_MONTH') ps_year = hg.getValue(device, 4, 'PARTY_START_YEAR') px_time = hg.getValue(device, 4, 'PARTY_STOP_TIME') px_day = hg.getValue(device, 4, 'PARTY_STOP_DAY') px_month = hg.getValue(device, 4, 'PARTY_STOP_MONTH') px_year = hg.getValue(device, 4, 'PARTY_STOP_YEAR') ps_h = int(ps_time / 60) ps_min = ps_time - ps_h * 60 px_h = int(px_time / 60) px_min = px_time - px_h * 60 if args.verbose: print(F''' party_temperature {p_temp} ps_h {ps_h} ps_min {ps_min} ps_time {ps_time} ps_month {ps_month} ps_year {ps_year} px_h {px_h} px_min {px_min} px_time {px_time} px_day {px_day} px_month {px_month} px_year {px_year} ''') # PARTY_TEMPERATURE PARTY_START_TIME PARTY_START_DAY PARTY_START_MONTH PARTY_START_YEAR PARTY_STOP_TIME PARTY_STOP_DAY PARTY_STOP_MONTH PARTY_STOP_YEAR if args.mode == 3: ## Boost Mode if args.verbose: print('Setting mode: BOOST') hg.setValue(device, 4, MODES[args.mode], True) if args.temp is not None and temp != args.temp: sth_changed = True hg.setValue(device, 4, "SET_TEMPERATURE", args.temp) if sth_changed: mode = hg.getValue(device, 4, "CONTROL_MODE") temp = hg.getValue(device, 4, "SET_TEMPERATURE") valv = hg.getValue(device, 4, "VALVE_STATE") bat = hg.getValue(device, 4, "BATTERY_STATE") if mode != 2: # All modes but PARTY: print( "| Curr | {: ^3} | {: <15} | {: <10} | {: <4} | {: >4}% | {: <4} | |" .format(device, name, MODES[mode], temp, valv, bat)) else: px_date = F"{px_day}.{px_month}.{px_year}" print("| Curr | {: ^3} | {: <15} | {: <10} | {: <4} | {: >4}% | {: <4} | Until: {} {:0>2}:{:0<2} |"\ .format(device, name, MODES[mode], temp, valv, bat, px_date, px_h, px_min)) if device != devices[-1]: print ("+.......+.....+.................+............+......+.......+......+.......................+" ) print( "+-------+-----+-----------------+------------+------+-------+------+-----------------------+" )
if value == values[0]: self.assertIsNone( inputHistory, f"No message expected. Length is {inputHistory}") else: self.assertIsNotNone(inputHistory, "No message was passed on.") self.assertEqual( inputHistory[0][1]['payload'], value, f"Payload is {inputHistory[0][1]['payload']}, but should be {value}, input {i}" ) if __name__ == '__main__': global socketPath global hg socketPath = '' if len(sys.argv) > 1: for arg in sys.argv: if arg.startswith("/") and not arg == sys.argv[0]: socketPath = arg sys.argv.remove(arg) break if socketPath: hg = Homegear(socketPath) else: hg = Homegear("/var/run/homegear/homegearIPC.sock") unittest.main()
def main(): dry_run = False try: from homegear import Homegear except: logger.info( 'homegear python module not found; running in dry profile_name') dry_run = True #################################################################################################### # defaults: device_name = "" if not dry_run: hg = Homegear("/var/run/homegear/homegearIPC.sock", eventHandler) MODES = ['AUTO_MODE', 'MANU_MODE', 'PARTY_MODE', 'BOOST_MODE'] FAULTS = [ 'NO_FAULT', 'VALVE_TIGHT', 'ADJUSTING_RANGE_TOO_LARGE', 'ADJUSTING_RANGE_TOO_SMALL', 'COMMUNICATION_ERROR', 'UNDFINED', 'LOWBAT', 'VALVE_ERROR_POSITION' ] # 0 = NO_FAULT (Standard) # 1 = VALVE_TIGHT # 2 = ADJUSTING_RANGE_TOO_LARGE # 3 = ADJUSTING_RANGE_TOO_SMALL # 4 = COMMUNICATION_ERROR # 5 = UNDFINED # 6 = LOWBAT # 7 = VALVE_ERROR_POSITION #################### # Normalise device names: device_names = {} device_mode = {} device_temp = {} device_valv = {} device_bat = {} device_fault = {} if not dry_run: for i in range(1, args.max_devices): device = i try: device_names[i] = hg.getName(device).lstrip('"').rstrip('"') # device_name[i] = hg.getName(device).lstrip('"').rstrip('"') device_mode[i] = hg.getValue(device, 4, "CONTROL_MODE") device_temp[i] = hg.getValue(device, 4, "SET_TEMPERATURE") device_valv[i] = hg.getValue(device, 4, "VALVE_STATE") device_bat[i] = hg.getValue(device, 4, "BATTERY_STATE") device_fault[i] = hg.getValue(device, 4, "FAULT_REPORTING") except: pass else: for i in range(1, 10): device_names[i] = F"device_{i}" device_mode[i] = 1 device_temp[i] = 2 device_valv[i] = 3 device_bat[i] = 4 device_fault[i] = 5 device_names[1] = "test" def device_name_to_num(dev_name_or_num, device_names): '''return a numerical version of a device specification''' try: return int(dev_name_or_num) except: pass if type(device_name) == type( "" ): # we have a named device, lets replace it with the correct number: for cmplen in range(len(dev_name_or_num), 0, -1): for (d_num, d_nam) in device_names.items(): if dev_name_or_num[0:cmplen].lower( ) == d_nam[0:cmplen].lower(): return (d_num) print("Unable to find specified device '{dev_name_or_num}'") exit(5) return (False) if args.device: args.device = device_name_to_num(args.device, device_names) if args.todev: args.todev = device_name_to_num(args.todev, device_names) if args.temp: if not args.device: print("Device not specified device") exit(6) return (False) hg.setValue(args.device, 4, "SET_TEMPERATURE", args.temp) if args.mode is not None: if not args.device: print("Device not specified device") exit(6) return (False) hg.setValue(args.device, 4, MODES[args.mode], True) device_mode[args.device] = hg.getValue(args.device, 4, "CONTROL_MODE") args.list = True #################### # list only (taken from modesetter) if args.list: print( "+-----+-----------------+------------+------+-------+------+---------------------------+" ) print( "| Dev#| Name | Mode | Temp | Valve | Bat | |" ) print( "+-----+-----------------+------------+------+-------+------+---------------------------+" ) for i in range(1, args.max_devices): device = i try: name = device_names[i] mode = device_mode[i] temp = device_temp[i] valv = device_valv[i] bat = device_bat[i] comment = "" fault = device_fault[i] if fault != 0: comment = F"{FAULTS[fault]}" except: continue pass if device == args.device: stdout.write("|<<{:<^2} |".format(device)) comment = "Selected Input" elif device == args.todev: stdout.write("|>>{:>^2} |".format(device)) comment = "Output" else: stdout.write("| {: ^2} |".format(device)) if mode != 2: # All modes but PARTY: print(" {: <15} | {: <10} | {: <4} | {: >4}% | {: <4} | {: <25} |".\ format(name, MODES[mode], temp, valv, bat, comment)) else: # PARTY if not dry_run: party_temperature = hg.getValue(device, 4, 'PARTY_TEMPERATURE') ps_time = hg.getValue(device, 4, 'PARTY_START_TIME') ps_day = hg.getValue(device, 4, 'PARTY_START_DAY') ps_month = hg.getValue(device, 4, 'PARTY_START_MONTH') ps_year = hg.getValue(device, 4, 'PARTY_START_YEAR') px_time = hg.getValue(device, 4, 'PARTY_STOP_TIME') px_day = hg.getValue(device, 4, 'PARTY_STOP_DAY') px_month = hg.getValue(device, 4, 'PARTY_STOP_MONTH') px_year = hg.getValue(device, 4, 'PARTY_STOP_YEAR') ps_h = int(ps_time / 60) ps_min = ps_time - ps_h * 60 px_h = int(px_time / 60) px_min = px_time - px_h * 60 px_date = F"{px_day}.{px_month}.{px_year}" print(" {: <15} | {: <10} | {: <4} | {: >4}% | {: <4} | Until: {} {:0>2}:{:0<2} |"\ .format(name, MODES[mode], temp, valv, bat, px_date, px_h, px_min)) print( "+-----+-----------------+------------+------+-------+------+---------------------------+\n" ) #################### # Read data if args.readfromfile: hm_profile = HomematicProfile() hm_profile.read_from_file(args.readfromfile) device_name = F'Input from file "{args.readfromfile}"' args.copy = True elif not dry_run: if not args.device: # print ("You should specify a device (or a file)") # without a device specified there's not more we can do here exit(0) device_profile = hg.getParamset(args.device, 0, "MASTER") device_name = hg.getName(args.device).lstrip('"').rstrip('"') hm_profile = HomematicProfile(device_profile) else: device_profile = get_fake_paramset() device_name = "testing" hm_profile = HomematicProfile(device_profile) print(F" {device_name}\n" + ("{:=^%d}" % (len(device_name) + 2)).format('')) if args.dump: # raw dump # print (json.dumps(device_profile, sort_keys=True, indent=4, separators=(',', ': '))) print(hm_profile.__repr_dump__()) exit(0) if args.table: # print (hm_profile.__repr_table__(days=args.day)) print(hm_profile.__repr_tables_multi__()) if args.table_dedup: print(hm_profile.__repr_table_dedup__()) if args.plot: if args.day: print(hm_profile.__repr_plot__(width=args.width, days=args.day)) else: print(hm_profile.__repr_plots_multi__(width=args.width)) if args.writetofile: with open(args.writetofile, "w") as file: file.write(hm_profile.__repr_table_dedup_all__()) exit(0) if args.copy: # copy from one device to another if not args.todev: print("No target device specified") exit(2) if not dry_run: target_device_name = hg.getName(args.todev).lstrip('"').rstrip('"') else: target_device_name = "Testing-Target" # print (F"Copy from zargs.device} to {args.todev}") print(F"Copying from {device_name} to {target_device_name}") if not args.fromday: # copy all days print("All days") target_device_profile = hm_profile.__repr_dump__() temp_profile = HomematicProfile(target_device_profile) # print (temp_profile.__repr_table__(days=args.fromday)) # print (temp_profile.__repr_plots_multi__(width=args.width)) elif not args.today: print("You must specify --today if you specify --fromday") exit(3) if args.today: if not args.fromday: print("You must specify --fromday if you specify --today") exit(3) print(F"{args.fromday} => {args.today}") target_device_profile = hm_profile.__repr_dump__( args.fromday, args.today) temp_profile = HomematicProfile(profile=target_device_profile, days=args.today) # print (temp_profile.__repr_table__(days=args.today)) print(temp_profile.__repr_plot__(days=args.today)) # print (json.dumps(target_device_profile, sort_keys=True, indent=4, separators=(',', ': '))) if (args.device == args.todev) and (args.fromday == args.today) and args.today is not None: print("Cowardly refusing to use target with identical destination") exit(6) if not dry_run: hg.putParamset(args.todev, 0, "MASTER", target_device_profile) # pass print("Copy complete")
def setUpClass(cls): global hg if socketPath: hg = Homegear(socketPath) else: hg = Homegear("/var/run/homegear/homegearIPC.sock")
device_listener = DeviceNodeOutput() push_listener = PushNodeOutput(atv) atv.power.listener = power_listener atv.listener = device_listener atv.push_updater.listener = push_listener atv.push_updater.start() await atv.power.turn_off() #Turn off Apple TV after reconnect hg.nodeOutput(0, {"payload": True}) while hg.connected(): await asyncio.sleep(1) finally: atv.close() return 0 # hg waits until the connection is established (but for a maximum of 2 seonds). # The socket path is passed in sys.argv[1], the node's ID in sys.argv[2] hg = Homegear(sys.argv[1], eventHandler, sys.argv[2], nodeInput); # Wait for the flows to start. startUpComplete.acquire() while hg.connected(): if startUpComplete.wait(1) == True: break startUpComplete.release() # The node is now fully started. Start event loop. loop.run_until_complete(appstart(loop, hg))
import time from homegear import Homegear # This callback method is called on Homegear variable changes def eventHandler(peerId, channel, variableName, value): # Note that the event handler is called by a different thread than the main thread. I. e. thread synchronization is # needed when you access non local variables. print("Event handler called with arguments: peerId: " + str(peerId) + "; channel: " + str(channel) + "; variable name: " + variableName + "; value: " + str(value)) hg = Homegear("/var/run/homegear/homegearIPC.sock", eventHandler) # hg waits until the connection is established (but for a maximum of 2 seonds). hg.setSystemVariable("TEST", 6) print("getSystemVariable(\"TEST\") after setting \"TEST\" to 6: ", hg.getSystemVariable("TEST")) hg.setSystemVariable("TEST", ["One", 2, 3.3]) print("getSystemVariable(\"TEST\") after setting \"TEST\" to an array: ", hg.getSystemVariable("TEST")) hg.setSystemVariable("TEST", { "One": 1, 2: "Two", 3: [3, 3, 3] }) print("getSystemVariable(\"TEST\") after setting \"TEST\" to a struct: ",