Ejemplo n.º 1
0
 def _do_generate_cs(self, ip, line, numbers):
     self.net = BciNetwork(ip, bcinetwork.FC_PORT)
     self.signal = BciSignal(None, None, bcixml.CONTROL_SIGNAL)
     self.stopping = False
     self.t = threading.Thread(target=self._cs_loop, args=(numbers,))
     self.t.start()
     print("Enter: stop_cs to stop the signal.")
Ejemplo n.º 2
0
 def _do_generate_cs(self, line, numbers):
     self.net = BciNetwork("localhost", bcinetwork.FC_PORT)
     self.signal = BciSignal(None, None, bcixml.CONTROL_SIGNAL)
     self.stopping = False
     self.t = threading.Thread(target=self._cs_loop, args=(numbers,))
     self.t.start()
     print "Enter: stop_cs to stop the signal."
Ejemplo n.º 3
0
class Emulator(cmd.Cmd):

    prompt = "> "
    intro = "Welcome to the BCI emulator. Type help to see a list of available commands."

    def __init__(self):
        cmd.Cmd.__init__(self)
        self.stopping = True

    def do_quit(self, line):
        """Quit the Emulator."""
        return True

    def postloop(self):
        print()

    def do_generate_cs(self, line):
        """Generates a control signal and sends it to the Feedback Controller."""
        self._do_generate_cs(line, 1)

    def do_generate_cs2(self, line):
        """Generates a control signal and sends it to the Feedback Controller."""
        self._do_generate_cs(line, 2)

    def do_generate_cs3(self, line):
        """Generates a control signal and sends it to the Feedback Controller."""
        self._do_generate_cs(line, 3)

    def do_generate_cs4(self, line):
        """Generates a control signal and sends it to the Feedback Controller."""
        self._do_generate_cs(line, 4)

    def do_generate_cs5(self, line):
        """Generates a control signal and sends it to the Feedback Controller."""
        self._do_generate_cs(line, 5)

    def do_generate_cs6(self, line):
        """Generates a control signal and sends it to the Feedback Controller."""
        self._do_generate_cs(line, 6)


    def _do_generate_cs(self, ip, line, numbers):
        self.net = BciNetwork(ip, bcinetwork.FC_PORT)
        self.signal = BciSignal(None, None, bcixml.CONTROL_SIGNAL)
        self.stopping = False
        self.t = threading.Thread(target=self._cs_loop, args=(numbers,))
        self.t.start()
        print("Enter: stop_cs to stop the signal.")


    def _cs_loop(self, numbers=1):
        c = 0
        while not self.stopping:
            time.sleep(0.1)
            c += 0.2
            
            samples = c
            #sample2 = math.sin(r/2-90.0)
            #sample3 = math.sin(r/3-180.0)
            #sample4 = math.sin(r-270.0)
            #sample5 = math.sin(r-45.0)
            #sample6 = math.sin(r-135.0)

            #samples = [sample1, sample2, sample3, sample4, sample5, sample6]

            #self.signal.data = {"data" : [sample1, sample2, sample3]}
            if numbers == 1:
                self.signal.data = {"cl_output" : samples}
            elif numbers <= 6:
                self.signal.data = {"cl_output" : samples}
            else:
                print(("Error don't know how to handle %i numbers." % numbers))

            self.net.send_signal(self.signal)

    def do_stop_cs(self, line):
        """Stops the loop which sends data to the Feedback Controller."""
        self.stopping = True
        self.t.join()

    def do_status(self, line):
        """Get the status of the emulator."""
        for var, val in list(self.__dict__.items()):
            print((str(var), str(val)))
Ejemplo n.º 4
0
class Emulator(cmd.Cmd):
    
    prompt = "> "
    intro = "Welcome to the BCI emulator. Type help to see a list of available commands."
    
    def __init__(self):
        cmd.Cmd.__init__(self)
        self.stopping = True

    def do_quit(self, line):
        """Quit the Emulator."""
        return True
    
    def postloop(self):
        print

    def do_generate_cs(self, line):
        """Generates a control signal and sends it to the Feedback Controller."""
        self._do_generate_cs(line, 1)

    def do_generate_cs2(self, line):
        """Generates a control signal and sends it to the Feedback Controller."""
        self._do_generate_cs(line, 2)

    def do_generate_cs3(self, line):
        """Generates a control signal and sends it to the Feedback Controller."""
        self._do_generate_cs(line, 3)

    def do_generate_cs4(self, line):
        """Generates a control signal and sends it to the Feedback Controller."""
        self._do_generate_cs(line, 4)

    def do_generate_cs5(self, line):
        """Generates a control signal and sends it to the Feedback Controller."""
        self._do_generate_cs(line, 5)

    def do_generate_cs6(self, line):
        """Generates a control signal and sends it to the Feedback Controller."""
        self._do_generate_cs(line, 6)

        
    def _do_generate_cs(self, line, numbers):
        self.net = BciNetwork("localhost", bcinetwork.FC_PORT)
        self.signal = BciSignal(None, None, bcixml.CONTROL_SIGNAL)
        self.stopping = False
        self.t = threading.Thread(target=self._cs_loop, args=(numbers,))
        self.t.start()
        print "Enter: stop_cs to stop the signal."

        
    def _cs_loop(self, numbers=1):
        c = 0
        while not self.stopping:
            time.sleep(0.04)
            c += 1
            r = math.radians(c)
            sample1 = math.sin(r)
            sample2 = math.sin(r/2-90.0)
            sample3 = math.sin(r/3-180.0)
            sample4 = math.sin(r-270.0)
            sample5 = math.sin(r-45.0)
            sample6 = math.sin(r-135.0)
            
            samples = [sample1, sample2, sample3, sample4, sample5, sample6]

            #self.signal.data = {"data" : [sample1, sample2, sample3]}
            if numbers == 1: 
                self.signal.data = {"cl_output" : samples[0]}
            elif numbers <= 6:
                self.signal.data = {"cl_output" : samples[:numbers]}
            else:
                print "Error don't know how to handle %i numbers." % numbers
                
            self.net.send_signal(self.signal)

    def do_stop_cs(self, line):
        """Stops the loop which sends data to the Feedback Controller."""
        self.stopping = True
        self.t.join()
        
    def do_status(self, line):
        """Get the status of the emulator."""
        for var, val in self.__dict__.iteritems():
            print str(var), str(val)