Exemplo n.º 1
0
 def inputInit(self):
     self.peds = []
     self.responses = []
     self.lock = thread.allocate_lock() #TODO: refactor to LockingInput
     self.sensors = []
     self.initPedestrians(self['NumPeds'], self['Velocity'], self['MaxX'])
     self.initSensors()
     self.dirPeds = SynchDirPeds({})
     self.sensNetLoc = SynchSenseNetLoc({'SensorSpacing':45})
Exemplo n.º 2
0
 def inputInit(self):
     HOST = ''  # Symbolic name meaning all available interfaces
     PORT = self.argDict['Port']  # Arbitrary non-privileged port
     self.sock = socket.socket(socket.AF_INET, socket.SOCK_DGRAM)
     self.sock.bind((HOST, PORT))
     self.dirPeds = SynchDirPeds({})
     self.sensNetLoc = SynchSenseNetLoc({
         'SensorSpacing': 45,
         'Mode': 'SensorNetwork',
         'IPIndexTable': self['IPIndexTable']
     })
Exemplo n.º 3
0
class UDPInputWithDirPeds(Input):
    """UDPInput is a barebones UDP Input class.  It takes any data it receives and adds it to the
    'data' element of the response dict.  It also notes the 'address'.  Specify:
    <Port> -- the Port to listen on.
    <Mode> -- [Raw] or JSON -- if the mode is set to JSON, packets will be parsed as JSON"""

    def inputInit(self):
        HOST = ''                 # Symbolic name meaning all available interfaces
        PORT = self.argDict['Port']              # Arbitrary non-privileged port
        self.sock = socket.socket(socket.AF_INET, socket.SOCK_DGRAM)
        self.sock.bind((HOST, PORT))
        self.dirPeds = SynchDirPeds({})
        self.sensNetLoc = SynchSenseNetLoc({'SensorSpacing':45, 'Mode':'SensorNetwork',
                                            'IPIndexTable':self['IPIndexTable']})
    def socketLoop(self):
        (data,address) = self.sock.recvfrom(1024)
        while data:
            if not self['Mode'] or self['Mode'] == 'Raw':
                dataDict = {'data':data, 'address':address}
            else:
                dataDict = json.loads(data)
                dataDict['Address'] = address
            pedData = self.processPed(dataDict)
            self.respond(pedData)
            #print 'data'
            (data, address) = self.sock.recvfrom(1024)
    
    def processPed(self, data):
        data = self.sensNetLoc.processInput(data)
        data = self.dirPeds.processInput(data)
        return data
    def run(self):
        self.socketLoop()
Exemplo n.º 4
0
 def inputInit(self):
     HOST = ''                 # Symbolic name meaning all available interfaces
     PORT = self.argDict['Port']              # Arbitrary non-privileged port
     self.sock = socket.socket(socket.AF_INET, socket.SOCK_DGRAM)
     self.sock.bind((HOST, PORT))
     self.dirPeds = SynchDirPeds({})
     self.sensNetLoc = SynchSenseNetLoc({'SensorSpacing':45, 'Mode':'SensorNetwork',
                                         'IPIndexTable':self['IPIndexTable']})
Exemplo n.º 5
0
class UDPInputWithDirPeds(Input):
    """UDPInput is a barebones UDP Input class.  It takes any data it receives and adds it to the
    'data' element of the response dict.  It also notes the 'address'.  Specify:
    <Port> -- the Port to listen on.
    <Mode> -- [Raw] or JSON -- if the mode is set to JSON, packets will be parsed as JSON"""
    def inputInit(self):
        HOST = ''  # Symbolic name meaning all available interfaces
        PORT = self.argDict['Port']  # Arbitrary non-privileged port
        self.sock = socket.socket(socket.AF_INET, socket.SOCK_DGRAM)
        self.sock.bind((HOST, PORT))
        self.dirPeds = SynchDirPeds({})
        self.sensNetLoc = SynchSenseNetLoc({
            'SensorSpacing': 45,
            'Mode': 'SensorNetwork',
            'IPIndexTable': self['IPIndexTable']
        })

    def socketLoop(self):
        (data, address) = self.sock.recvfrom(1024)
        while data:
            if not self['Mode'] or self['Mode'] == 'Raw':
                dataDict = {'data': data, 'address': address}
            else:
                dataDict = json.loads(data)
                dataDict['Address'] = address
            pedData = self.processPed(dataDict)
            self.respond(pedData)
            #print 'data'
            (data, address) = self.sock.recvfrom(1024)

    def processPed(self, data):
        data = self.sensNetLoc.processInput(data)
        data = self.dirPeds.processInput(data)
        return data

    def run(self):
        self.socketLoop()
Exemplo n.º 6
0
class PedestrianSimulator(Input):
    """Simulates pedestrians inputing to simulated motion sensors.
    Params:
        MaxX
        Velocity
        NumSensors
        SensorSpacing
        NumPeds
    """
    def inputInit(self):
        self.peds = []
        self.responses = []
        self.lock = thread.allocate_lock() #TODO: refactor to LockingInput
        self.sensors = []
        self.initPedestrians(self['NumPeds'], self['Velocity'], self['MaxX'])
        self.initSensors()
        self.dirPeds = SynchDirPeds({})
        self.sensNetLoc = SynchSenseNetLoc({'SensorSpacing':45})
        #TODO: homogenize 
    def initSensors(self):
        x = 0
        for i in range(self['NumSensors']):
            sensor = MotionSensorSimulator({'Id':str(i), 'parentScope':self,'DataHook':self,
                                            'RefreshInterval':500, 'Location':x})
            x += self['SensorSpacing']
            self.sensors.append(sensor)

        print 'max sensor x', x
        print 'maxx', self['MaxX']
    def initPedestrians(self,numPeds, vel, maxX):
        for i in xrange(numPeds):
            if random.random() > .5:
                vel *= -1
            self.peds.append({'Loc':random.randint(0, maxX), 'Vel':vel})
    def getLocs(self):
        return [ped['Loc'] for ped in self.peds]
    def addPedestrian(self, loc, vel):
        self.peds.append({'Loc':loc,'Vel':vel+random.randint(-5,5)})
    def evaluateSensors(self):
        for s in self.sensors:
            s.sensingLoop()
    def sensingLoop(self):
        self.evaluateSensors()
        self.movePedestrians(self['RefreshInterval'])
        if self.responses:
            pedData = self.processPed(self.responses)         
            self.respond(pedData)
        self.responses = []
    
    def processPed(self, data):
        data = self.sensNetLoc.processInput(data)
        data = self.dirPeds.processInput(data)
        return data
    
    def processResponse(self, sensorInput):
        """Queue up response""" 
        self.responses.append(sensorInput)
    def movePedestrians(self, dt):
        for ped in self.peds:
            ped['Vel'] += random.randint(-5,5) #random velocity changes
            ped['Loc'] += ped['Vel'] * dt/1000
            #Bounce pedestrians that turn
            if ped['Loc'] < 0:
                ped['Vel'] = -ped['Vel']
                ped['Loc'] = 0
            if ped['Loc'] > self['MaxX']:
                ped['Vel'] = -ped['Vel']
                ped['Loc'] = self['MaxX']