+import os
readyToReturn = 0
ToReturn = ""
+eventList = []
+eventAppList = [] # This list maps App1 or App2 to a specific event
+eventVarMap = {}
+eventVarCounterMap = {}
+capabilityMap = {}
+capabilityList = []
+app1Capabilities = []
+app2Capabilities = []
+app1Subscribe = False
+app2Subscribe = False
+
+# Mapping for event type and number of events
+# e.g., switch has 2 events: on and off
+eventTypeCounterMap = {'lock': 2,
+ 'unlock' : 1,
+ 'nfcTouch' : 1,
+ 'app' : 1,
+ 'button' : 2,
+ 'water' : 2,
+ 'water.dry' : 1,
+ 'water.wet' : 1,
+ 'presence' : 2,
+ 'doorState' : 2,
+ 'motion' : 2,
+ 'smoke' : 3,
+ 'carbonMonoxide' : 3,
+ 'battery' : 1,
+ 'thermostatMode' : 5,
+ 'thermostatFanMode' : 5,
+ 'thermostatOperatingState' : 5,
+ 'switch' : 2,
+ 'location' : 3,
+ 'mode' : 3,
+ 'sunset' : 1,
+ 'sunsetTime' : 1,
+ 'sunrise' : 1,
+ 'sunriseTime' : 1,
+ 'acceleration' : 2,
+ 'sleeping' : 2,
+ 'goal' : 1,
+ 'steps' : 1,
+ 'color' : 1,
+ 'colorTemperature' : 1,
+ 'hue' : 1,
+ 'saturation' : 1,
+ 'energy' : 1,
+ 'power' : 1,
+ 'illuminance' : 1,
+ 'humidity' : 1,
+ 'alarm' : 4,
+ 'contact' : 2,
+ 'status' : 3,
+ 'level' : 1,
+ 'trackDescription' : 1,
+ 'trackData' : 1,
+ 'mute' : 2,
+ 'temperature' : 1,
+ 'heatingSetpoint' : 1,
+ 'coolingSetpoint' : 1,
+ 'thermostatSetpoint' : 1}
+
+# Mapping for specific event types
+eventTypesMap = {'alarm.both': 'alarm',
+ 'alarm.siren' : 'alarm',
+ 'alarm.strobe' : 'alarm',
+ 'alarm.off' : 'alarm',
+ 'contact.open' : 'contact',
+ 'contact.closed' : 'contact',
+ 'tamper.tampered' : 'contact',
+ 'doorState.open' : 'doorState',
+ 'doorState.closed' : 'doorState',
+ 'mode' : 'location',
+ 'mode.away' : 'location',
+ 'mode.home' : 'location',
+ 'mode.night' : 'location',
+ 'lock.locked' : 'lock',
+ 'lock.unlocked' : 'lock',
+ 'motion.active' : 'motion',
+ 'motion.inactive' : 'motion',
+ 'status.playing' : 'status',
+ 'status.stopped' : 'status',
+ 'status.paused' : 'status',
+ 'mute.muted' : 'mute',
+ 'mute.unmuted' : 'mute',
+ 'presence.present' : 'presence',
+ 'presence.not present' : 'presence',
+ 'presence.not' : 'presence',
+ 'smoke.detected' : 'smoke',
+ 'smoke.clear' : 'smoke',
+ 'smoke.tested' : 'smoke',
+ 'carbonMonoxide.detected' : 'carbonMonoxide',
+ 'carbonMonoxide.clear' : 'carbonMonoxide',
+ 'carbonMonoxide.tested' : 'carbonMonoxide',
+ 'thermostatMode.cool' : 'thermostatMode',
+ 'thermostatMode.auto' : 'thermostatMode',
+ 'thermostatMode.emergencyHeat' : 'thermostatMode',
+ 'thermostatMode.heat' : 'thermostatMode',
+ 'thermostatMode.off' : 'thermostatMode',
+ 'thermostatFanMode.auto' : 'thermostatFanMode',
+ 'thermostatFanMode.fanCirculate' : 'thermostatFanMode',
+ 'thermostatFanMode.circulate' : 'thermostatFanMode',
+ 'thermostatFanMode.fanOn' : 'thermostatFanMode',
+ 'thermostatFanMode.on' : 'thermostatFanMode',
+ 'fanMode' : 'thermostatFanMode',
+ 'fanMode.auto' : 'thermostatFanMode',
+ 'fanMode.fanCirculate' : 'thermostatFanMode',
+ 'fanMode.circulate' : 'thermostatFanMode',
+ 'fanMode.fanOn' : 'thermostatFanMode',
+ 'fanMode.on' : 'thermostatFanMode',
+ 'switch.on' : 'switch',
+ 'switch.off' : 'switch',
+ 'button.pushed' : 'button',
+ 'button.held' : 'button',
+ 'acceleration.active' : 'acceleration',
+ 'acceleration.inactive' : 'acceleration',
+ 'sleeping.sleeping' : 'sleeping',
+ 'sleeping.not sleeping' : 'sleeping',
+ 'water.dry' : 'water',
+ 'water.wet' : 'water'}
def GetToken(f):
global readyToReturn
global ToReturn
- Skip = ["(", "\"", ":", ",", "{", "}", ")", '\n', '\t', ' ', "/"]
+ Skip = ['\n', '\t', ' ']
+ Special = ["(", "\"", ":", ",", "{", "}", ")", "/", "*"]
S = ""
if (readyToReturn):
readyToReturn = 0
ToReturn = ""
c = f.read(1)
while(True):
- if (c in Skip):
+ if (c in Special):
if (S != ""):
- if (c == "{" or c == "}"):
- readyToReturn = 1
- ToReturn = c
- return S
- else:
- return S
-
+ readyToReturn = 1
+ ToReturn = c
+ return S
else:
- if (c == "{" or c == "}"):
- return c
- else:
- c = f.read(1)
- continue
+ return c
+ elif (c in Skip):
+ if (S != ""):
+ return S
+ else:
+ c = f.read(1)
+ continue
S += c
c = f.read(1)
if not c:
return "EOF"
+
+def ExtractFunctions(F, appName):
+ global eventList
+ global eventAppList
+ global eventTypesMap
+ global app1Subscribe
+ global app2Subscribe
+ Temp = GetToken(F)
+ while (Temp != "EOF"):
+ if (Temp == "def" or Temp == "private"):
+ Temp = GetToken(F)
+ if (Temp == "def" or Temp == "private"):
+ Temp = GetToken(F)
+ NameofFunc = Temp
+ if (GetToken(F) == "("): #We have a function to create object for
+ if (appName == "App1"):
+ extractedFunctionsApp1.write("//Global Object for functions in subscribe method!\n")
+ extractedFunctionsApp1.write("def %s = this.&" % NameofFunc)
+ extractedFunctionsApp1.write("%s\n" % NameofFunc)
+ else:
+ extractedFunctionsApp2.write("//Global Object for functions in subscribe method!\n")
+ extractedFunctionsApp2.write("def %s = this.&" % NameofFunc)
+ extractedFunctionsApp2.write("%s\n" % NameofFunc)
+ #Check input capability
+ if (Temp == "input"):
+ while Temp != "\"":
+ Temp = GetToken(F)
+ variable = GetToken(F)
+ Temp = GetToken(F) #Get '"'
+ Temp = GetToken(F) #Get ','
+ while Temp != "\"":
+ Temp = GetToken(F)
+ capability = GetToken(F)
+ capabilityMap[variable] = capability
-
-
-
-F = open("Extractor/App.groovy", "r")
-Out = open("Extractor/ExtractedObjects.groovy", "w+")
-Temp = GetToken(F)
-
-Objects = []
-Functions = []
-
-
-while (Temp != "EOF"):
- #Extract the global objects for input
- if (Temp == "input"):
- Object = ""
- Type = ""
- Temp = GetToken(F) #name or "name"
- #input name: "name", type: "type",...
- if (Temp == "name"):
- Temp = GetToken(F) #"name"
- Object = Temp
- GetToken(F) #type
- Temp = GetToken(F) #"type"
- Type = Temp
- #input "name", "type",...
- else:
- Object = Temp
- Temp = GetToken(F) #"type"
- Type = Temp
- Temp = GetToken(F)
- Title = ""
- Required = ""
- Multiple = ""
- while (Temp != "input" and Temp != "}"):
- if (Temp == "title"):
+ #Check subscribed events
+ if (Temp == "subscribe"):
+ if (appName == "App1"):
+ app1Subscribe = True
+ else:
+ app2Subscribe = True
+ Temp = GetToken(F)
+ if (Temp == "("):
Temp = GetToken(F)
- Title = Temp
- elif (Temp == "required"):
+ variable = Temp
+ while (Temp != "\"" and Temp != "app" and Temp != "location"):
Temp = GetToken(F)
- Required = Temp
- elif (Temp == "multiple"):
+ if Temp == "location":
+ # See if we have another case for location
+ Temp = GetToken(F) # Get ','
+ Temp = GetToken(F) # Get '"'
+ if Temp == "\"":
+ Temp = GetToken(F)
+ else:
+ # This is the special case where we will see, e.g., sunset, sunrise, etc.
+ Temp = "location"
+ if Temp == "\"":
Temp = GetToken(F)
- Multiple = Temp
- Temp = GetToken(F)
- if (Type == "capability.lock"):
- if (Title != ""):
- print(Object+", "+Title)
- if (Multiple != "" and Multiple == "true"):
- g = raw_input("Enter the number of locks to control: (1, 2, or 3)\n")
- Out.write("//Global Object for class lock!\n")
- Out.write("@Field def %s = new locking(" % Object)
- Out.write("%s)\n" % g)
- elif (Multiple == "" or Multiple == "false"):
- Out.write("//Global Object for class lock!\n")
- Out.write("@Field def %s = new locking(1)\n" % Object)
- #elif (Type == "capability.alarm"):
-
- #elif (Type == "capability.battery"):
-
- #elif (Type == "capability.beacon"):
-
- #elif (Type == "capability.carbonMonoxideDetector"):
-
- #elif (Type == "capability.colorControl"):
-
- elif (Type == "capability.contactSensor"):
- if (Title != ""):
- print(Object+", "+Title)
- if (Multiple != "" and Multiple == "true"):
- g = raw_input("Enter the number of contactSensors to monitor: (1, 2, or 3)\n")
- Out.write("//Global Object for class contactSensor!\n")
- Out.write("@Field def %s = new contacting(" % Object)
- Out.write("%s)\n" % g)
- elif (Multiple == "" or Multiple == "false"):
- Out.write("//Global Object for class contactSensor!\n")
- Out.write("@Field def %s = new contacting(1)\n" % Object)
- #elif (Type == "capability.doorControl"):
-
- #elif (Type == "capability.energyMeter"):
-
- #elif (Type == "capability.illuminanceMeasurement"):
- #elif (Type == "capability.accelerationSensor"):
-
- #elif (Type == "capability.motionSensor"):
-
- #elif (Type == "capability.musicPlayer"):
-
- #elif (Type == "capability.powerMeter"):
-
- #elif (Type == "capability.presenceSensor"):
+ #print "DEBUG: %s - %s" % (variable, Temp)
+ #print capabilityMap
+ #print "DEBUG: location variable: %s" % Temp
+
+ #Translate and reduce through mapping
+ if Temp in eventTypesMap.keys():
+ Temp = eventTypesMap[Temp]
+ if Temp == "app" or Temp == "location" or Temp == "mode" or Temp == "sunset" or Temp == "sunrise" or Temp == "sunsetTime" or Temp == "sunriseTime":
+ if Temp not in eventList:
+ eventList.append(Temp)
+ if (appName == "App1"):
+ eventAppList.append("App1")
+ else:
+ eventAppList.append("App2")
+ elif Temp not in eventList or (variable in capabilityMap.keys() and capabilityMap[variable] not in capabilityList):
+ # We do not repeat the same capability twice
+ capability = capabilityMap[variable]
+ capabilityList.append(capability)
+ eventList.append(Temp)
+ if (appName == "App1"):
+ eventAppList.append("App1")
+ else:
+ eventAppList.append("App2")
+ if Temp in eventVarMap.keys():
+ listOfEvents = eventVarMap[Temp]
+ listOfEvents.append(variable)
+ else:
+ eventVarMap[Temp] = [variable]
+ #print "DEBUG: %s - %s" % (variable, Temp)
+ #print capabilityMap
+ #print eventList
- #elif (Type == "capability.relativeHumidityMeasurement"):
+ #Check and analyze capabilities for physical interaction
+ AnalyzeCapabilities(Temp, appName, F)
- #elif (Type == "capability.relaySwitch"):
+ Temp = GetToken(F)
+
+ #Warn if there is a potential for physical interaction
+ AnalyzePhysicalInteraction(app1Capabilities, app2Capabilities)
+ AnalyzePhysicalInteraction(app2Capabilities, app1Capabilities)
- #elif (Type == "capability.sleepSensor"):
+def AnalyzeCapabilities(Temp, appName, F):
+ #Illuminance related
+ if (Temp == "capability.switch" or
+ Temp == "capability.switchLevel" or
+ Temp == "capability.illuminanceMeasurement" or
+ Temp == "capability.colorControl" or
+ #Motion related
+ Temp == "capability.motionSensor" or
+ Temp == "capability.accelerationSensor" or
+ #Water related
+ Temp == "capability.valve" or
+ Temp == "capability.waterSensor" or
+ #Sound related
+ Temp == "capability.musicPlayer" or
+ Temp == "capability.alarm" or
+ Temp == "capability.speechSynthesis" or
+ Temp == "capability.soundSensor"):
+ if (appName == "App1"):
+ app1Capabilities.append(Temp)
+ else:
+ app2Capabilities.append(Temp)
+ if (Temp == "capability"):
+ Temp = GetToken(F) #Get '"'
+ Temp = GetToken(F) #Get 'Music'
+ Temp = Temp + GetToken(F) #Get 'Player'
+ if (Temp == "MusicPlayer"):
+ if (appName == "App1"):
+ app1Capabilities.append("capability.musicPlayer")
+ else:
+ app2Capabilities.append("capability.musicPlayer")
+
+def AnalyzePhysicalInteraction(app1Capab, app2Capab):
+ #Light
+ if ("capability.illuminanceMeasurement" in app1Capab) and ("capability.switch" in app2Capab or
+ "capability.switchLevel" in app2Capab or "capability.colorControl" in app2Capab):
+ print ("\nWARNING: Potential PHYSICAL CONFLICT (light) detected between App1 and App2!\n")
+ #Motion
+ # TODO: Technically this is not entirely precise since we need to be able to detect that the other app creates motion
+ if ("capability.motionSensor" in app1Capab) or ("capability.accelerationSensor" in app1Capab):
+ print ("\nWARNING: Potential PHYSICAL CONFLICT (motion) detected between App1 and App2!\n")
+ #Water
+ if ("capability.waterSensor" in app1Capab) and ("capability.valve" in app2Capab or
+ "capability.switch" in app2Capab):
+ print ("\nWARNING: Potential PHYSICAL CONFLICT (water) detected between App1 and App2!\n")
+ #Sound
+ if ("capability.soundSensor" in app1Capab) and ("capability.musicPlayer" in app2Capab or
+ "capability.alarm" in app2Capab or "capability.speechSynthesis" in app2Capab):
+ print ("\nWARNING: Potential PHYSICAL CONFLICT (sound) detected between App1 and App2!\n")
- #elif (Type == "capability.smokeDetector"):
+def CountEvents():
+ global eventList
+ numOfActualEvents = 0
+ #print "DEBUG: eventlist: %d" % len(eventList)
+ #print "DEBUG: eventlist: %s" % eventList
+ for event in eventList:
+ #print "DEBUG: Event: %s %d" % (event, eventTypeCounterMap[event])
+ numOfActualEvents = numOfActualEvents + eventTypeCounterMap[event]
+ return numOfActualEvents
- #elif (Type == "capability.stepSensor"):
+def ExtractEvents(extractedEvents):
+ global eventList
+ global eventAppList
+ global eventVarMap
+ global capabilityMap
+ global eventVarCounterMap
+ # Count the number of events
+ numOfActualEvents = CountEvents()
+ extractedEvents.write("while(true) {\n")
+ extractedEvents.write("\tdef eventNumber = Verify.getInt(0,%d)\n" % (numOfActualEvents - 1))
+ extractedEvents.write("\tswitch(eventNumber) {\n")
+ counter = 0
+ indexApp1 = 0
+ if "App2" in eventAppList:
+ indexApp2 = eventAppList.index("App2")
+ else:
+ indexApp2 = len(eventList)
+ indexApp2Start = indexApp2
+ #print "DEBUG: App1: %d" % indexApp1
+ #print "DEBUG: App2: %d" % indexApp2
+ #print "DEBUG: eventList: %d" % len(eventList)
+ isApp1 = True
+ while counter < numOfActualEvents:
+ # Interleave events from App1 and App2
+ if isApp1 is True:
+ i = indexApp1
+ indexApp1 = indexApp1 + 1
+ if indexApp2 < len(eventList):
+ isApp1 = False
+ else:
+ i = indexApp2
+ indexApp2 = indexApp2 + 1
+ if indexApp1 < indexApp2Start:
+ isApp1 = True
+ #print "DEBUG: i: %d" % i
+ extractedEvents.write("\t\tcase %d:\n" % counter)
+ if eventList[i] == "lock":
+ #Write two events subsequently
+ event = open("eventSimulator/lockLockedEvent.groovy", "r")
+ for line in event:
+ extractedEvents.write(line)
+ event.close()
+ extractedEvents.write("\n\t\t\tbreak\n")
+ counter = counter + 1
+ extractedEvents.write("\t\tcase %d:\n" % counter)
+ event = open("eventSimulator/lockUnlockedEvent.groovy", "r")
+ for line in event:
+ extractedEvents.write(line)
+ event.close()
+ elif eventList[i] == "unlock":
+ #Don't do anything for this case
+ counter = counter - 1
+ elif eventList[i] == "nfcTouch":
+ event = open("eventSimulator/nfcTouchEvent.groovy", "r")
+ for line in event:
+ extractedEvents.write(line)
+ event.close()
+ elif eventList[i] == "app": #Case for Touched event
+ event = open("eventSimulator/appTouchEvent.groovy", "r")
+ for line in event:
+ extractedEvents.write(line)
+ event.close()
+ elif eventList[i] == "button":
+ #Check which capability
+ variable = eventVarMap[eventList[i]]
+ if eventList[i] not in eventVarCounterMap.keys():
+ eventVarCounterMap[eventList[i]] = 1
+ eventVarCount = 0
+ else:
+ eventVarCount = eventVarCounterMap[eventList[i]]
+ eventVarCounterMap[eventList[i]] = eventVarCount + 1
+ capability = capabilityMap[variable[eventVarCount]]
+ #Write two events subsequently
+ if capability == "capability.button":
+ event = open("eventSimulator/buttonHeldEvent.groovy", "r")
+ elif capability == "device.aeonKeyFob":
+ event = open("eventSimulator/aeonKeyFobHeldEvent.groovy", "r")
+ for line in event:
+ extractedEvents.write(line)
+ event.close()
+ extractedEvents.write("\n\t\t\tbreak\n")
+ counter = counter + 1
+ extractedEvents.write("\t\tcase %d:\n" % counter)
+ if capability == "capability.button":
+ event = open("eventSimulator/buttonPushedEvent.groovy", "r")
+ elif capability == "device.aeonKeyFob":
+ event = open("eventSimulator/aeonKeyFobPushedEvent.groovy", "r")
+ for line in event:
+ extractedEvents.write(line)
+ event.close()
+ elif eventList[i] == "water":
+ #Write two events subsequently
+ event = open("eventSimulator/waterDryEvent.groovy", "r")
+ for line in event:
+ extractedEvents.write(line)
+ event.close()
+ extractedEvents.write("\n\t\t\tbreak\n")
+ counter = counter + 1
+ extractedEvents.write("\t\tcase %d:\n" % counter)
+ event = open("eventSimulator/waterWetEvent.groovy", "r")
+ for line in event:
+ extractedEvents.write(line)
+ event.close()
+ elif eventList[i] == "presence":
+ #Check which capability
+ variable = eventVarMap[eventList[i]]
+ if eventList[i] not in eventVarCounterMap.keys():
+ eventVarCounterMap[eventList[i]] = 1
+ eventVarCount = 0
+ else:
+ eventVarCount = eventVarCounterMap[eventList[i]]
+ eventVarCounterMap[eventList[i]] = eventVarCount + 1
+ capability = capabilityMap[variable[eventVarCount]]
+ #Write two events subsequently
+ if capability == "capability.presenceSensor":
+ event = open("eventSimulator/presencePresentEvent.groovy", "r")
+ elif capability == "capability.beacon":
+ event = open("eventSimulator/beaconPresentEvent.groovy", "r")
+ for line in event:
+ extractedEvents.write(line)
+ event.close()
+ extractedEvents.write("\n\t\t\tbreak\n")
+ counter = counter + 1
+ extractedEvents.write("\t\tcase %d:\n" % counter)
+ if capability == "capability.presenceSensor":
+ event = open("eventSimulator/presenceLeftEvent.groovy", "r")
+ elif capability == "capability.beacon":
+ event = open("eventSimulator/beaconLeftEvent.groovy", "r")
+ for line in event:
+ extractedEvents.write(line)
+ event.close()
+ elif eventList[i] == "doorState":
+ #Write two events subsequently
+ event = open("eventSimulator/doorOpenEvent.groovy", "r")
+ for line in event:
+ extractedEvents.write(line)
+ event.close()
+ extractedEvents.write("\n\t\t\tbreak\n")
+ counter = counter + 1
+ extractedEvents.write("\t\tcase %d:\n" % counter)
+ event = open("eventSimulator/doorClosedEvent.groovy", "r")
+ for line in event:
+ extractedEvents.write(line)
+ event.close()
+ elif eventList[i] == "motion":
+ #Write two events subsequently
+ event = open("eventSimulator/motionActiveEvent.groovy", "r")
+ for line in event:
+ extractedEvents.write(line)
+ event.close()
+ extractedEvents.write("\n\t\t\tbreak\n")
+ counter = counter + 1
+ extractedEvents.write("\t\tcase %d:\n" % counter)
+ event = open("eventSimulator/motionInactiveEvent.groovy", "r")
+ for line in event:
+ extractedEvents.write(line)
+ event.close()
+ elif eventList[i] == "smoke":
+ #Write three events subsequently
+ event = open("eventSimulator/smokeClearEvent.groovy", "r")
+ for line in event:
+ extractedEvents.write(line)
+ event.close()
+ extractedEvents.write("\n\t\t\tbreak\n")
+ counter = counter + 1
+ extractedEvents.write("\t\tcase %d:\n" % counter)
+ event = open("eventSimulator/smokeDetectedEvent.groovy", "r")
+ for line in event:
+ extractedEvents.write(line)
+ event.close()
+ extractedEvents.write("\n\t\t\tbreak\n")
+ counter = counter + 1
+ extractedEvents.write("\t\tcase %d:\n" % counter)
+ event = open("eventSimulator/smokeTestedEvent.groovy", "r")
+ for line in event:
+ extractedEvents.write(line)
+ event.close()
+ elif eventList[i] == "carbonMonoxide":
+ #Check which capability
+ variable = eventVarMap[eventList[i]]
+ if eventList[i] not in eventVarCounterMap.keys():
+ eventVarCounterMap[eventList[i]] = 1
+ eventVarCount = 0
+ else:
+ eventVarCount = eventVarCounterMap[eventList[i]]
+ eventVarCounterMap[eventList[i]] = eventVarCount + 1
+ capability = capabilityMap[variable[eventVarCount]]
+ #Write three events subsequently
+ if capability == "capability.smokeDetector":
+ event = open("eventSimulator/smokeCarbonMonoxideClearEvent.groovy", "r")
+ elif capability == "capability.carbonMonoxideDetector":
+ event = open("eventSimulator/carbonMonoxideClearEvent.groovy", "r")
+ for line in event:
+ extractedEvents.write(line)
+ event.close()
+ extractedEvents.write("\n\t\t\tbreak\n")
+ counter = counter + 1
+ extractedEvents.write("\t\tcase %d:\n" % counter)
+ if capability == "capability.smokeDetector":
+ event = open("eventSimulator/smokeCarbonMonoxideDetectedEvent.groovy", "r")
+ elif capability == "capability.carbonMonoxideDetector":
+ event = open("eventSimulator/carbonMonoxideDetectedEvent.groovy", "r")
+ for line in event:
+ extractedEvents.write(line)
+ event.close()
+ extractedEvents.write("\n\t\t\tbreak\n")
+ counter = counter + 1
+ extractedEvents.write("\t\tcase %d:\n" % counter)
+ if capability == "capability.smokeDetector":
+ event = open("eventSimulator/smokeCarbonMonoxideTestedEvent.groovy", "r")
+ elif capability == "capability.carbonMonoxideDetector":
+ event = open("eventSimulator/carbonMonoxideTestedEvent.groovy", "r")
+ for line in event:
+ extractedEvents.write(line)
+ event.close()
+ elif eventList[i] == "battery":
+ #Check which capability
+ variable = eventVarMap[eventList[i]]
+ if eventList[i] not in eventVarCounterMap.keys():
+ eventVarCounterMap[eventList[i]] = 1
+ eventVarCount = 0
+ else:
+ eventVarCount = eventVarCounterMap[eventList[i]]
+ eventVarCounterMap[eventList[i]] = eventVarCount + 1
+ capability = capabilityMap[variable[eventVarCount]]
+ if capability == "capability.smokeDetector":
+ event = open("eventSimulator/smokeDetectorBatteryEvent.groovy", "r")
+ elif capability == "capability.battery":
+ event = open("eventSimulator/batteryBatteryEvent.groovy", "r")
+ for line in event:
+ extractedEvents.write(line)
+ event.close()
+ elif eventList[i] == "thermostatMode":
+ #Write five events subsequently
+ event = open("eventSimulator/thermostatAutoModeEvent.groovy", "r")
+ for line in event:
+ extractedEvents.write(line)
+ event.close()
+ extractedEvents.write("\n\t\t\tbreak\n")
+ counter = counter + 1
+ extractedEvents.write("\t\tcase %d:\n" % counter)
+ event = open("eventSimulator/thermostatCoolModeEvent.groovy", "r")
+ for line in event:
+ extractedEvents.write(line)
+ event.close()
+ extractedEvents.write("\n\t\t\tbreak\n")
+ counter = counter + 1
+ extractedEvents.write("\t\tcase %d:\n" % counter)
+ event = open("eventSimulator/thermostatEmergencyHeatModeEvent.groovy", "r")
+ for line in event:
+ extractedEvents.write(line)
+ event.close()
+ extractedEvents.write("\n\t\t\tbreak\n")
+ counter = counter + 1
+ extractedEvents.write("\t\tcase %d:\n" % counter)
+ event = open("eventSimulator/thermostatHeatModeEvent.groovy", "r")
+ for line in event:
+ extractedEvents.write(line)
+ event.close()
+ extractedEvents.write("\n\t\t\tbreak\n")
+ counter = counter + 1
+ extractedEvents.write("\t\tcase %d:\n" % counter)
+ event = open("eventSimulator/thermostatOffModeEvent.groovy", "r")
+ for line in event:
+ extractedEvents.write(line)
+ event.close()
+ elif eventList[i] == "thermostatFanMode":
+ #Write five events subsequently
+ event = open("eventSimulator/thermostatAutoFanModeEvent.groovy", "r")
+ for line in event:
+ extractedEvents.write(line)
+ event.close()
+ extractedEvents.write("\n\t\t\tbreak\n")
+ counter = counter + 1
+ extractedEvents.write("\t\tcase %d:\n" % counter)
+ event = open("eventSimulator/thermostatFanCirculateFanModeEvent.groovy", "r")
+ for line in event:
+ extractedEvents.write(line)
+ event.close()
+ extractedEvents.write("\n\t\t\tbreak\n")
+ counter = counter + 1
+ extractedEvents.write("\t\tcase %d:\n" % counter)
+ event = open("eventSimulator/thermostatCirculateFanModeEvent.groovy", "r")
+ for line in event:
+ extractedEvents.write(line)
+ event.close()
+ extractedEvents.write("\n\t\t\tbreak\n")
+ counter = counter + 1
+ extractedEvents.write("\t\tcase %d:\n" % counter)
+ event = open("eventSimulator/thermostatFanOnFanModeEvent.groovy", "r")
+ for line in event:
+ extractedEvents.write(line)
+ event.close()
+ extractedEvents.write("\n\t\t\tbreak\n")
+ counter = counter + 1
+ extractedEvents.write("\t\tcase %d:\n" % counter)
+ event = open("eventSimulator/thermostatOnFanModeEvent.groovy", "r")
+ for line in event:
+ extractedEvents.write(line)
+ event.close()
+ elif eventList[i] == "thermostatOperatingState":
+ #Write five events subsequently
+ event = open("eventSimulator/thermostatOperatingStateAutoEvent.groovy", "r")
+ for line in event:
+ extractedEvents.write(line)
+ event.close()
+ extractedEvents.write("\n\t\t\tbreak\n")
+ counter = counter + 1
+ extractedEvents.write("\t\tcase %d:\n" % counter)
+ event = open("eventSimulator/thermostatOperatingStateCoolEvent.groovy", "r")
+ for line in event:
+ extractedEvents.write(line)
+ event.close()
+ extractedEvents.write("\n\t\t\tbreak\n")
+ counter = counter + 1
+ extractedEvents.write("\t\tcase %d:\n" % counter)
+ event = open("eventSimulator/thermostatOperatingStateOffEvent.groovy", "r")
+ for line in event:
+ extractedEvents.write(line)
+ event.close()
+ extractedEvents.write("\n\t\t\tbreak\n")
+ counter = counter + 1
+ extractedEvents.write("\t\tcase %d:\n" % counter)
+ event = open("eventSimulator/thermostatOperatingStateEmergencyHeatEvent.groovy", "r")
+ for line in event:
+ extractedEvents.write(line)
+ event.close()
+ extractedEvents.write("\n\t\t\tbreak\n")
+ counter = counter + 1
+ extractedEvents.write("\t\tcase %d:\n" % counter)
+ event = open("eventSimulator/thermostatOperatingStateHeatEvent.groovy", "r")
+ for line in event:
+ extractedEvents.write(line)
+ event.close()
+ elif eventList[i] == "switch":
+ #Check which capability
+ variable = eventVarMap[eventList[i]]
+ if eventList[i] not in eventVarCounterMap.keys():
+ eventVarCounterMap[eventList[i]] = 1
+ eventVarCount = 0
+ else:
+ eventVarCount = eventVarCounterMap[eventList[i]]
+ eventVarCounterMap[eventList[i]] = eventVarCount + 1
+ capability = capabilityMap[variable[eventVarCount]]
+ #Write two events subsequently
+ if capability == "capability.switch":
+ event = open("eventSimulator/switchOnEvent.groovy", "r")
+ elif capability == "capability.switchLevel":
+ event = open("eventSimulator/switchLevelOnEvent.groovy", "r")
+ elif capability == "capability.relaySwitch":
+ event = open("eventSimulator/relaySwitchOnEvent.groovy", "r")
+ elif capability == "capability.colorControl":
+ event = open("eventSimulator/colorControlSwitchOnEvent.groovy", "r")
+ elif capability == "capability.colorTemperature":
+ event = open("eventSimulator/colorTemperatureSwitchOnEvent.groovy", "r")
+ for line in event:
+ extractedEvents.write(line)
+ event.close()
+ extractedEvents.write("\n\t\t\tbreak\n")
+ counter = counter + 1
+ extractedEvents.write("\t\tcase %d:\n" % counter)
+ if capability == "capability.switch":
+ event = open("eventSimulator/switchOffEvent.groovy", "r")
+ elif capability == "capability.switchLevel":
+ event = open("eventSimulator/switchLevelOffEvent.groovy", "r")
+ elif capability == "capability.relaySwitch":
+ event = open("eventSimulator/relaySwitchOffEvent.groovy", "r")
+ elif capability == "capability.colorControl":
+ event = open("eventSimulator/colorControlSwitchOffEvent.groovy", "r")
+ elif capability == "capability.colorTemperature":
+ event = open("eventSimulator/colorTemperatureSwitchOffEvent.groovy", "r")
+ for line in event:
+ extractedEvents.write(line)
+ event.close()
+ elif eventList[i] == "location": #Case for Location event
+ #Write three events subsequently
+ event = open("eventSimulator/locationHomeEvent.groovy", "r")
+ for line in event:
+ extractedEvents.write(line)
+ event.close()
+ extractedEvents.write("\n\t\t\tbreak\n")
+ counter = counter + 1
+ extractedEvents.write("\t\tcase %d:\n" % counter)
+ event = open("eventSimulator/locationAwayEvent.groovy", "r")
+ for line in event:
+ extractedEvents.write(line)
+ event.close()
+ extractedEvents.write("\n\t\t\tbreak\n")
+ counter = counter + 1
+ extractedEvents.write("\t\tcase %d:\n" % counter)
+ event = open("eventSimulator/locationNightEvent.groovy", "r")
+ for line in event:
+ extractedEvents.write(line)
+ event.close()
+ elif eventList[i] == "sunrise":
+ event = open("eventSimulator/locationSunriseEvent.groovy", "r")
+ for line in event:
+ extractedEvents.write(line)
+ event.close()
+ elif eventList[i] == "sunset":
+ event = open("eventSimulator/locationSunsetEvent.groovy", "r")
+ for line in event:
+ extractedEvents.write(line)
+ event.close()
+ elif eventList[i] == "sunsetTime":
+ event = open("eventSimulator/locationSunsetTimeEvent.groovy", "r")
+ for line in event:
+ extractedEvents.write(line)
+ event.close()
+ elif eventList[i] == "sunriseTime":
+ event = open("eventSimulator/locationSunriseTimeEvent.groovy", "r")
+ for line in event:
+ extractedEvents.write(line)
+ event.close()
+ elif eventList[i] == "acceleration":
+ #Write two events subsequently
+ event = open("eventSimulator/accelerationActiveEvent.groovy", "r")
+ for line in event:
+ extractedEvents.write(line)
+ event.close()
+ extractedEvents.write("\n\t\t\tbreak\n")
+ counter = counter + 1
+ extractedEvents.write("\t\tcase %d:\n" % counter)
+ event = open("eventSimulator/accelerationInactiveEvent.groovy", "r")
+ for line in event:
+ extractedEvents.write(line)
+ event.close()
+ elif eventList[i] == "acceleration.active":
+ event = open("eventSimulator/accelerationDefaultActiveEvent.groovy", "r")
+ for line in event:
+ extractedEvents.write(line)
+ event.close()
+ elif eventList[i] == "acceleration.inactive":
+ event = open("eventSimulator/accelerationDefaultInactiveEvent.groovy", "r")
+ for line in event:
+ extractedEvents.write(line)
+ event.close()
+ elif eventList[i] == "sleeping":
+ #Write two events subsequently
+ event = open("eventSimulator/sleepSleepingEvent.groovy", "r")
+ for line in event:
+ extractedEvents.write(line)
+ event.close()
+ extractedEvents.write("\n\t\t\tbreak\n")
+ counter = counter + 1
+ extractedEvents.write("\t\tcase %d:\n" % counter)
+ event = open("eventSimulator/sleepNotSleepingEvent.groovy", "r")
+ for line in event:
+ extractedEvents.write(line)
+ event.close()
+ elif eventList[i] == "goal":
+ event = open("eventSimulator/stepGoalEvent.groovy", "r")
+ for line in event:
+ extractedEvents.write(line)
+ event.close()
+ elif eventList[i] == "steps":
+ event = open("eventSimulator/stepStepsEvent.groovy", "r")
+ for line in event:
+ extractedEvents.write(line)
+ event.close()
+ elif eventList[i] == "color":
+ event = open("eventSimulator/colorChangeEvent.groovy", "r")
+ for line in event:
+ extractedEvents.write(line)
+ event.close()
+ elif eventList[i] == "colorTemperature":
+ event = open("eventSimulator/colorTemperatureEvent.groovy", "r")
+ for line in event:
+ extractedEvents.write(line)
+ event.close()
+ elif eventList[i] == "hue":
+ event = open("eventSimulator/hueChangeEvent.groovy", "r")
+ for line in event:
+ extractedEvents.write(line)
+ event.close()
+ elif eventList[i] == "saturation":
+ event = open("eventSimulator/saturationChangeEvent.groovy", "r")
+ for line in event:
+ extractedEvents.write(line)
+ event.close()
+ elif eventList[i] == "energy":
+ event = open("eventSimulator/energyMeterEvent.groovy", "r")
+ for line in event:
+ extractedEvents.write(line)
+ event.close()
+ elif eventList[i] == "power":
+ event = open("eventSimulator/powerMeterEvent.groovy", "r")
+ for line in event:
+ extractedEvents.write(line)
+ event.close()
+ elif eventList[i] == "illuminance":
+ event = open("eventSimulator/illuminanceMeasurementEvent.groovy", "r")
+ for line in event:
+ extractedEvents.write(line)
+ event.close()
+ elif eventList[i] == "humidity":
+ event = open("eventSimulator/humidityMeasurementEvent.groovy", "r")
+ for line in event:
+ extractedEvents.write(line)
+ event.close()
+ elif eventList[i] == "alarm":
+ #Write four events subsequently
+ event = open("eventSimulator/alarmBothEvent.groovy", "r")
+ for line in event:
+ extractedEvents.write(line)
+ event.close()
+ extractedEvents.write("\n\t\t\tbreak\n")
+ counter = counter + 1
+ extractedEvents.write("\t\tcase %d:\n" % counter)
+ event = open("eventSimulator/alarmSirenEvent.groovy", "r")
+ for line in event:
+ extractedEvents.write(line)
+ event.close()
+ extractedEvents.write("\n\t\t\tbreak\n")
+ counter = counter + 1
+ extractedEvents.write("\t\tcase %d:\n" % counter)
+ event = open("eventSimulator/alarmStrobeEvent.groovy", "r")
+ for line in event:
+ extractedEvents.write(line)
+ event.close()
+ extractedEvents.write("\n\t\t\tbreak\n")
+ counter = counter + 1
+ extractedEvents.write("\t\tcase %d:\n" % counter)
+ event = open("eventSimulator/alarmOffEvent.groovy", "r")
+ for line in event:
+ extractedEvents.write(line)
+ event.close()
+ elif eventList[i] == "contact":
+ #Check which capability
+ variable = eventVarMap[eventList[i]]
+ if eventList[i] not in eventVarCounterMap.keys():
+ eventVarCounterMap[eventList[i]] = 1
+ eventVarCount = 0
+ else:
+ eventVarCount = eventVarCounterMap[eventList[i]]
+ eventVarCounterMap[eventList[i]] = eventVarCount + 1
+ capability = capabilityMap[variable[eventVarCount]]
+ #Write two events subsequently
+ if capability == "capability.contactSensor":
+ event = open("eventSimulator/contactDefaultClosedEvent.groovy", "r")
+ elif capability == "capability.valve":
+ event = open("eventSimulator/valveClosedEvent.groovy", "r")
+ for line in event:
+ extractedEvents.write(line)
+ event.close()
+ extractedEvents.write("\n\t\t\tbreak\n")
+ counter = counter + 1
+ extractedEvents.write("\t\tcase %d:\n" % counter)
+ if capability == "capability.contactSensor":
+ event = open("eventSimulator/contactDefaultOpenEvent.groovy", "r")
+ elif capability == "capability.valve":
+ event = open("eventSimulator/valveOpenEvent.groovy", "r")
+ for line in event:
+ extractedEvents.write(line)
+ event.close()
+ elif eventList[i] == "status":
+ #Write three events subsequently
+ event = open("eventSimulator/musicPlayerPlayingEvent.groovy", "r")
+ for line in event:
+ extractedEvents.write(line)
+ event.close()
+ extractedEvents.write("\n\t\t\tbreak\n")
+ counter = counter + 1
+ extractedEvents.write("\t\tcase %d:\n" % counter)
+ event = open("eventSimulator/musicPlayerStoppedEvent.groovy", "r")
+ for line in event:
+ extractedEvents.write(line)
+ event.close()
+ extractedEvents.write("\n\t\t\tbreak\n")
+ counter = counter + 1
+ extractedEvents.write("\t\tcase %d:\n" % counter)
+ event = open("eventSimulator/musicPlayerPausedEvent.groovy", "r")
+ for line in event:
+ extractedEvents.write(line)
+ event.close()
+ elif eventList[i] == "level":
+ #Check which capability
+ variable = eventVarMap[eventList[i]]
+ if eventList[i] not in eventVarCounterMap.keys():
+ eventVarCounterMap[eventList[i]] = 1
+ eventVarCount = 0
+ else:
+ eventVarCount = eventVarCounterMap[eventList[i]]
+ eventVarCounterMap[eventList[i]] = eventVarCount + 1
+ capability = capabilityMap[variable[eventVarCount]]
+ if capability == "capability.musicPlayer":
+ event = open("eventSimulator/musicPlayerLevelEvent.groovy", "r")
+ elif capability == "capability.switchLevel":
+ event = open("eventSimulator/switchLevelEvent.groovy", "r")
+ elif capability == "capability.colorControl":
+ event = open("eventSimulator/colorLevelChangeEvent.groovy", "r")
+ for line in event:
+ extractedEvents.write(line)
+ event.close()
+ elif eventList[i] == "trackDescription":
+ event = open("eventSimulator/musicPlayerTrackDescriptionEvent.groovy", "r")
+ for line in event:
+ extractedEvents.write(line)
+ event.close()
+ elif eventList[i] == "trackData":
+ event = open("eventSimulator/musicPlayerTrackDataEvent.groovy", "r")
+ for line in event:
+ extractedEvents.write(line)
+ event.close()
+ elif eventList[i] == "mute":
+ #Write two events subsequently
+ event = open("eventSimulator/musicPlayerUnmutedEvent.groovy", "r")
+ for line in event:
+ extractedEvents.write(line)
+ event.close()
+ extractedEvents.write("\n\t\t\tbreak\n")
+ counter = counter + 1
+ extractedEvents.write("\t\tcase %d:\n" % counter)
+ event = open("eventSimulator/musicPlayerMutedEvent.groovy", "r")
+ for line in event:
+ extractedEvents.write(line)
+ event.close()
+ elif eventList[i] == "temperature":
+ #Check which capability
+ variable = eventVarMap[eventList[i]]
+ if eventList[i] not in eventVarCounterMap.keys():
+ eventVarCounterMap[eventList[i]] = 1
+ eventVarCount = 0
+ else:
+ eventVarCount = eventVarCounterMap[eventList[i]]
+ eventVarCounterMap[eventList[i]] = eventVarCount + 1
+ capability = capabilityMap[variable[eventVarCount]]
+ if capability == "capability.thermostat":
+ event = open("eventSimulator/temperatureEvent.groovy", "r")
+ elif capability == "capability.temperatureMeasurement":
+ event = open("eventSimulator/temperatureMeasurementEvent.groovy", "r")
+ for line in event:
+ extractedEvents.write(line)
+ event.close()
+ elif eventList[i] == "heatingSetpoint":
+ event = open("eventSimulator/heatingSetpointEvent.groovy", "r")
+ for line in event:
+ extractedEvents.write(line)
+ event.close()
+ elif eventList[i] == "coolingSetpoint":
+ event = open("eventSimulator/coolingSetpointEvent.groovy", "r")
+ for line in event:
+ extractedEvents.write(line)
+ event.close()
+ elif eventList[i] == "thermostatSetpoint":
+ event = open("eventSimulator/thermostatSetpointEvent.groovy", "r")
+ for line in event:
+ extractedEvents.write(line)
+ event.close()
+
+ ###TODO: Add more events later
+ extractedEvents.write("\n\t\t\tbreak\n")
+ counter = counter + 1
+ extractedEvents.write("\t}\n")
+ extractedEvents.write("}\n")
+
+def CheckIfOnlyTouchEvents():
+ #Check and throw an error if it is all touch events
+ #This is called Direct-Direct interaction and we do not model-check for this case
+ onlyTouchEvents = True
+ for item in eventList:
+ if item != "nfcTouch" and item != "app":
+ onlyTouchEvents = False
+ if onlyTouchEvents is True and app1Subscribe is True and app2Subscribe is True:
+ # Write error log file
+ extractError = open("appCreationError.log", "w+")
+ extractError.write("Direct-Direct Interaction detected: we are skipping this pair...\n")
+ extractError.close()
+ raise Exception("\n\nDirect-Direct Interaction detected: we are skipping this pair...\n\n")
- elif (Type == "capability.switch"):
- if (Title != ""):
- print(Object+", "+Title)
- if (Multiple != "" and Multiple == "true"):
- g = raw_input("Enter the number of switches to control: (1, 2, or 3)\n")
- Out.write("//Global Object for class switch!\n")
- Out.write("@Field def %s = new switching(" % Object)
- Out.write("%s)\n" % g)
- elif (Multiple == "" or Multiple == "false"):
- Out.write("//Global Object for class switch!\n")
- Out.write("@Field def %s = new switching(1)\n" % Object)
- #elif (Type == "capability.switchLevel"):
- #elif (Type == "capability.temperatureMeasurement"):
-
- #elif (Type == "capability.thermostat"):
-
- #elif (Type == "capability.valve"):
+#Extract objects to call functions from App1
+F1 = open("Extractor/App1/App1.groovy", "r")
+extractedFunctionsApp1 = open("Extractor/App1/extractedFunctionsApp1.groovy", "w+")
+ExtractFunctions(F1, "App1")
+F1.close()
- #elif (Type == "capability.waterSensor"):
+#Extract objects to call functions from App2
+F2 = open("Extractor/App2/App2.groovy", "r")
+extractedFunctionsApp2 = open("Extractor/App2/extractedFunctionsApp2.groovy", "w+")
+ExtractFunctions(F2, "App2")
+F2.close()
- #elif (Type == "capability.touchSensor"):
+#Prepare eventSimulator file while parsing the App1 and App2 files
+extractedEvents = open("eventSimulator/eventSimulator.groovy", "w+")
+CheckIfOnlyTouchEvents()
+ExtractEvents(extractedEvents)
+extractedEvents.close()
- #elif (Type == "capability.imageCapture"):
+#Save the extracted methods and app1 in a same file to extract information
+extractorFile = open("Extractor/extractorFile.groovy", "w+")
+Extractor = open("Extractor/Extractor.groovy", "r")
+F1 = open("Extractor/App1/App1.groovy", "r")
- #elif (Type == "device.mobilePresence"):
+extractorFile.write("////////////////////\n")
+extractorFile.write("@Field App\n")
+extractorFile.write("App = \"App1\"")
+extractorFile.write("\n")
+for line in Extractor:
+ extractorFile.write(line)
+extractorFile.write("\n\n")
+for line in F1:
+ extractorFile.write(line)
+extractorFile.close()
+Extractor.close()
+F1.close()
+#Run the file to extract the objects
+os.system("groovy -classpath lib/jpf.jar Extractor/extractorFile.groovy")
- #elif (Type == "device.aeonKeyFob"):
- elif (Type == "mode"):
- if (Title != ""):
- print(Object+", "+Title)
- g = raw_input("Enter the mode: ")
- Out.write("//Global variable for mode!\n")
- Out.write("@Field def %s = " % Object)
- Out.write("\"%s\"\n" % g)
- #elif (Type == "decimal"):
+#Save the extracted methods and app2 in a same file to extract information
+extractorFile = open("Extractor/extractorFile.groovy", "w+")
+Extractor = open("Extractor/Extractor.groovy", "r")
+F2 = open("Extractor/App2/App2.groovy", "r")
- #elif (Type == "text"):
-
- elif (Type == "number"):
- if (Title != ""):
- print(Object+", "+Title)
- g = raw_input("Enter the number: ")
- Out.write("//Global variable for number!\n")
- Out.write("@Field def %s = " % Object)
- Out.write("%s\n" % g)
- #elif (Type == "time"):
-
- #elif (Type == "enum"):
-
- #elif (Type == "bool"):
-
- elif (Type == "phone"):
- if (Title != ""):
- print(Object+", "+Title)
- g = raw_input("Enter the number to send notification to:\n")
- Out.write("//Global variable for phone number!\n")
- Out.write("@Field def %s = " % Object)
- Out.write("%s\n" % g)
- elif (Type == "contact"):
- if (Title != ""):
- print(Object+", "+Title)
- g = raw_input("Enter the name of the recipients:\n")
- Out.write("//Global variable for recipients!\n")
- g = g.split()
- Out.write("@Field def %s = " % Object)
- Out.write("%s\n" % g)
- #Extract the global object for functions
- elif (Temp == "def"):
- Temp = GetToken(F)
- NameofFunc = Temp
- if (GetToken(F) != "="): #We have a function to create object for
- Out.write("//Global Object for functions in subscribe method!\n")
- Out.write("@Field def %s = this.&" % NameofFunc)
- Out.write("%s\n" % NameofFunc)
- if (Temp != "input"):
- Temp = GetToken(F)
+extractorFile.write("////////////////////\n")
+extractorFile.write("@Field App\n")
+extractorFile.write("App = \"App2\"")
+extractorFile.write("\n")
+for line in Extractor:
+ extractorFile.write(line)
+extractorFile.write("\n\n")
+for line in F2:
+ extractorFile.write(line)
+#Run the file to extract the objects
+extractorFile.close()
+Extractor.close()
+F2.close()
+os.system("groovy -classpath lib/jpf.jar Extractor/extractorFile.groovy")
-F.close()
-Out.close()