Exemplo n.º 1
0
    def try_weight_sensor(self):
        print("Try Weight Sensor")
        try:
            # Allocate a new Phidget Channel object
            self.ch = VoltageRatioInput()
            self.do = DigitalOutput()

            self.ch.setChannel(0)
            self.do.setChannel(6)

            self.ch.setOnAttachHandler(onAttachHandler)
            self.ch.setOnDetachHandler(onDetachHandler)
            self.ch.setOnErrorHandler(onErrorHandler)
            self.ch.setOnVoltageRatioChangeHandler(onVoltageRatioChangeHandler)
            self.ch.setOnSensorChangeHandler(onSensorChangeHandler)
            # Open the channel with a timeout
            try:
                self.ch.openWaitForAttachment(5000)
                self.do.openWaitForAttachment(5000)
            except PhidgetException as e:
                # PrintOpenErrorMessage(e, self.ch)
                raise EndProgramSignal("Program Terminated: Open Failed")

            print("THREAD STARTING")

            weight_thread = threading.Thread(
                target=self.start_getting_weight_value)
            weight_thread.daemon = True
            weight_thread.start()

        except Exception as e:
            self.ch.close()
            self.try_conneting_again()
class DigitalOutputChannel():
    '''
    Class used to set high or low voltages on Digital Output channels on IO boards
    '''

    def __init__(self, deviceSN,channelNo):
        '''
        Constructor for Digital Output channels.
        '''
        #Attempt to attach tochannel
        self.deviceSN = deviceSN
        self.channelNo = channelNo
        self.attachChannel()

    def attachChannel(self):
        '''
        Connect to Digital output channel testing
        '''
        self.channel = DigitalOutput()
        self.channel.setDeviceSerialNumber(self.deviceSN)
        self.channel.setChannel(self.channelNo)
        self.channel.openWaitForAttachment(100)
        self.channel.setState(False)

    def setState(self,state):
        '''
        Changes the output state of the channel between high and low using True
        and False
        '''
        self.channel.setState(state)
 def attachChannel(self):
     '''
     Connect to Digital output channel testing
     '''
     self.channel = DigitalOutput()
     self.channel.setDeviceSerialNumber(self.deviceSN)
     self.channel.setChannel(self.channelNo)
     self.channel.openWaitForAttachment(100)
     self.channel.setState(False)
Exemplo n.º 4
0
 def __init__(self, hub_serial, hub_port, relay_channel):
     self.updated_n = 0
     self.relay = DigitalOutput()
     self.relay.setChannel(relay_channel)
     self.relay.setHubPort(hub_port)
     self.relay.setDeviceSerialNumber(hub_serial)
     self.relay_channel = relay_channel
     self.relay.openWaitForAttachment(5000)
     self.previous_duty_cycle = 100
Exemplo n.º 5
0
    def __init__(self, channel: int):
        self.io = DigitalOutput()
        self.queue = asyncio.Queue()
        self._io_handler_task: Optional[asyncio.Task] = None

        # Set addressing parameters to specify which channel to open (if any)
        self.io.setChannel(channel)
        # Assign any event handlers you need before calling open so that no events are missed.
        self.io.setOnAttachHandler(self.onAttach)
        self.io.setOnDetachHandler(self.onDetach)
        self.io.setOnErrorHandler(self.onError)
        # Open your Phidgets and wait for attachment
        self.io.openWaitForAttachment(5000)
Exemplo n.º 6
0
    def __init__(self, serial_num):
        logging.debug("Opening Phidget")
        self.popper_pump = DigitalOutput()
        self.popper_pump.setChannel(0)
        self.popper_pump.setDeviceSerialNumber(serial_num)
        self.popper_pump.openWaitForAttachment(5000)

        self.program_lock = threading.Lock()
        self.program_queue = queue.Queue()
        self.run_time = runMin
        self.sleep_time = sleepMin

        # Required for Kontroller
        self.kontrol = None
        self.channel = None
Exemplo n.º 7
0
 def __init__(self, provider, channel, defaultState):
     self._defaultState = defaultState
     self.do = DigitalOutput()
     self.do.setDeviceSerialNumber(provider)
     self.do.setChannel(channel)
     self.do.setOnAttachHandler(self._attached)
     self.do.openWaitForAttachment(1000)
Exemplo n.º 8
0
from Phidget22.Phidget import *
from Phidget22.Devices.DigitalOutput import *
from Phidget22.Devices.DigitalInput import *
import time

serial_number = 95358

digitalOutput = DigitalOutput()
digitalOutput.setChannel(4)
digitalOutput.openWaitForAttachment(5000)
digitalOutput.setState(0)
digitalOutput.setDeviceSerialNumber(serial_number)

while True:
    res = input()
    if (res == "on"):
        digitalOutput.setState(1)
    elif (res == "off"):
        digitalOutput.setState(0)
    elif (res == "quit"):
        break

digitalOutput.close()
Exemplo n.º 9
0
fstepper_accelleration = 1000
zstepper_accelleration = 1000

output_channels = [
    'output_filterDARK', 'output_filterGFP', 'output_filterRFP',
    'output_filterCFP', 'output_filterYFP', 'output_camera',
    'output_incubator', 'output_humidity'
]
input_channels = ['input_zLimitSwitch', 'input_fLimitSwitch']

########################## Initialize InterfaceKit

f_stepper = Stepper()
z_stepper = Stepper()

interfaceKit_output = [DigitalOutput() for i in range(0, len(output_channels))]
interfaceKit_input = [DigitalInput() for i in range(0, len(input_channels))]

########################## USER-DEFINED PARAMETERS

#MODIFY TO DEFINE SERIAL NUMBERS!!
z_stepper_serial = '506023'
f_stepper_serial = '522559'
interfaceKit_serial = '313877'
arduino_usbport = '/dev/ttyUSB0'

#DEFAULT VALUES
fpos_filterBRIGHT = -3250
fpos_filterDARK = -3250
fpos_filterGFP = -4994
fpos_filterRFP = -6555
Exemplo n.º 10
0
    def __init__(self, master, initial_name, top_name, color, sol, reg_pwr,
                 reg_set, reg_get, PSI):
        self.frame = Frame(master, borderwidth=2, relief=SUNKEN, bg=color)
        self.frame.pack()
        self.master = master
        self.frame_name = StringVar()
        self.frame_name.set(initial_name)
        self.state = 0
        self.fontType = "Comic Sans"
        self.activeColor = 'SpringGreen4'
        self.frameColor = color

        self.pressure = IntVar()
        self.lock_flag = IntVar()
        self.pressure.set("")

        self.power = Button(self.frame,
                            text="PWR",
                            activebackground=self.activeColor,
                            command=lambda: self.toggle_pwr())
        self.set_label = Button(self.frame,
                                text="SET LABEL",
                                font=(self.fontType, 7),
                                command=lambda: self.get_label_input())
        self.observed_pressure = Entry(self.frame,
                                       width=5,
                                       state="readonly",
                                       textvariable=self.pressure)
        if self.frame_name.get() == "Hydro":
            self.set_pressure_scale = Scale(self.frame,
                                            orient=HORIZONTAL,
                                            from_=0,
                                            to=92,
                                            resolution=0.5,
                                            bg=color,
                                            label="Set Pressure (PSI)",
                                            highlightthickness=0,
                                            command=self.set_pressure)
        else:
            self.set_pressure_scale = Scale(self.frame,
                                            orient=HORIZONTAL,
                                            from_=0,
                                            to=50,
                                            resolution=0.5,
                                            bg=color,
                                            label="Set Pressure (PSI)",
                                            highlightthickness=0,
                                            command=self.set_pressure)
        self.custom_label = Label(self.frame,
                                  textvariable=self.frame_name,
                                  font=(self.fontType, 14),
                                  bg=color)
        self.label = Label(self.frame, text=initial_name, bg=color)
        self.lock = Checkbutton(self.frame,
                                text="LOCK",
                                bg=color,
                                variable=self.lock_flag,
                                command=self.lock)
        self.frame_name.set(top_name)

        # Init the pressure scale to the default value.
        self.set_pressure_scale.set(PSI)
        # Lock hydo at startup
        if initial_name == "Hydro":
            self.lock.select()
            self.set_pressure_scale.config(state="disabled")
            self.power.config(state="disable")

        self.frame.rowconfigure(0, minsize=30)
        self.custom_label.grid(row=0, column=0, columnspan=2, sticky=S)
        self.set_label.grid(column=0, row=1, columnspan=2)
        self.frame.rowconfigure(2, minsize=50)
        self.power.grid(column=0, row=2)
        self.observed_pressure.grid(column=1, row=2)
        self.set_pressure_scale.grid(column=0, row=3, columnspan=2, padx=20)
        self.frame.rowconfigure(4, minsize=5)
        self.label.grid(column=0, row=5)
        self.lock.grid(column=1, row=5)

        # Connect to Phidget Solid State Relay for solinoid control
        if self.frame_name.get() == "Hydro":
            self.solenoid_switch = DigitalOutput()
            self.solenoid_switch.setDeviceSerialNumber(sol[0])
            self.solenoid_switch.setIsHubPortDevice(False)
            self.solenoid_switch.setHubPort(sol[1])
            self.solenoid_switch.setChannel(sol[2])
            self.solenoid_switch.openWaitForAttachment(5000)

        #Connect to Phidget Solid State Relay for regulator power control
        self.reg_switch = DigitalOutput()
        self.reg_switch.setDeviceSerialNumber(reg_pwr[0])
        self.reg_switch.setIsHubPortDevice(False)
        self.reg_switch.setHubPort(reg_pwr[1])
        self.reg_switch.setChannel(reg_pwr[2])
        self.reg_switch.openWaitForAttachment(5000)

        #Connect to Phidget Voltage Ouptut for pressure control
        self.pressure_ctrl = VoltageOutput()
        self.pressure_ctrl.setDeviceSerialNumber(reg_set[0])
        self.pressure_ctrl.setIsHubPortDevice(False)
        self.pressure_ctrl.setHubPort(reg_set[1])
        self.pressure_ctrl.setChannel(reg_set[2])
        self.pressure_ctrl.openWaitForAttachment(5000)

        #Connect to Phidget Analog Input for pressure reading
        self.pressure_reading = VoltageRatioInput()
        self.pressure_reading.setDeviceSerialNumber(reg_get[0])

        #One of the VINT Hubs on the SBC is used and needs special configuration
        if reg_get[0] == SBCH:
            self.pressure_reading.setIsHubPortDevice(True)
            self.pressure_reading.setHubPort(0)

        self.pressure_reading.setChannel(reg_get[1])
        self.pressure_reading.openWaitForAttachment(5000)
    def __init__(self, master, colorArray):
        frame1 = Frame(master, borderwidth=2, relief=SUNKEN)
        frame2 = Frame(master, borderwidth=2, relief=SUNKEN)
        frame3 = Frame(master, borderwidth=2, relief=SUNKEN)
        frame4 = Frame(master, borderwidth=2, relief=SUNKEN)
        frame5 = Frame(master, borderwidth=2, relief=SUNKEN)
        frame6 = Frame(master, borderwidth=2, relief=SUNKEN)
        frame7 = Frame(master, borderwidth=2, relief=SUNKEN)
        camera_frame = Frame(master, borderwidth=2, relief=SUNKEN)

        frame1.grid(row=1, column=0)
        frame2.grid(row=1, column=1)
        frame3.grid(row=1, column=2)
        frame4.grid(row=1, column=3)
        frame5.grid(row=1, column=4)
        frame6.grid(row=1, column=5)
        frame7.grid(row=1, column=6)
        camera_frame.grid(row=3, column=0, columnspan=7, sticky=W)

        self.out1 = AxisFrame(frame1, "BASE CIRC", "VESSEL RIGHT",
                              "VESSEL LEFT", HUB1, 5, colorArray[0], 3.3, 0.55)
        self.out2 = AxisFrame(frame2, "BASE AUX", "CW/IN", "CCW/OUT", HUB2, 0,
                              colorArray[1], 2.2, 0.11)
        self.out3 = AxisFrame(frame3, "VARD ROT", "CW", "CCW", HUB1, 3,
                              colorArray[2], 2.2, 0.15)
        self.out4 = AxisFrame(frame4, "VARD VERT", "UP", "DOWN", HUB1, 4,
                              colorArray[3], 7.8, 0.54)
        self.out5 = AxisFrame(frame5, "DA MAST", "UP", "DOWN", HUB1, 0,
                              colorArray[4], 8, 0.86)
        self.out6 = AxisFrame(frame6, "DA PAN", "CW", "CCW", HUB1, 2,
                              colorArray[5], 3.0, 0.30)
        self.out7 = AxisFrame(frame7, "DA TILT", "UP", "DOWN", HUB1, 1,
                              colorArray[6], 3.6, 0.57)

        #RJ Camera Control Code
        self.invert_tilt = BooleanVar()
        self.invert_pan = BooleanVar()
        self.btn_power = Button(camera_frame,
                                text="PWR",
                                font="Courier, 12",
                                command=self.toggle_power)
        self.btn_near = Button(camera_frame,
                               text="NEAR",
                               font="Courier, 12",
                               width=7)
        self.btn_far = Button(camera_frame,
                              text="FAR",
                              font="Courier, 12",
                              width=7)
        self.btn_wide = Button(camera_frame,
                               text="WIDE",
                               font="Courier, 12",
                               width=7)
        self.btn_tele = Button(camera_frame,
                               text="TELE",
                               font="Courier, 12",
                               width=7)
        self.btn_ms = Button(camera_frame,
                             text="MS",
                             font="Courier, 12",
                             width=7)
        self.left_light_scale = Scale(camera_frame,
                                      orient=VERTICAL,
                                      from_=0,
                                      to=0.45,
                                      resolution=0.01,
                                      command=self.update_left_intensity)
        self.right_light_scale = Scale(camera_frame,
                                       orient=VERTICAL,
                                       from_=0,
                                       to=0.45,
                                       resolution=0.01,
                                       command=self.update_right_intensity)
        self.label_lights = Label(camera_frame, text="  Light Intensity")
        self.btn_tilt_up = Button(camera_frame,
                                  text="TILT UP",
                                  font="Courier, 12",
                                  width=10)
        self.btn_tilt_down = Button(camera_frame,
                                    text="TILT DOWN",
                                    font="Courier, 12",
                                    width=10)
        self.btn_pan_right = Button(camera_frame,
                                    text="PAN RIGHT",
                                    font="Courier, 12",
                                    width=10)
        self.btn_pan_left = Button(camera_frame,
                                   text="PAN LEFT",
                                   font="Courier, 12",
                                   width=10)
        self.tilt_speed = Scale(camera_frame,
                                orient=HORIZONTAL,
                                from_=0.01,
                                to=.5,
                                resolution=0.01)
        self.pan_speed = Scale(camera_frame,
                               orient=HORIZONTAL,
                               from_=0.01,
                               to=.5,
                               resolution=0.01)
        self.ckbx_invert_tilt = Checkbutton(camera_frame,
                                            text="Invert Tilt",
                                            variable=self.invert_tilt)
        self.ckbx_invert_pan = Checkbutton(camera_frame,
                                           text="Invert Pan",
                                           variable=self.invert_pan)
        self.activeColor = 'SpringGreen4'

        self.tilt_speed.set(0.15)
        self.pan_speed.set(0.15)

        self.btn_power.grid(row=0, column=0, padx=60)
        self.btn_ms.grid(row=1, column=0, padx=5, pady=5)
        self.btn_near.grid(row=0, column=2, padx=20, pady=10)
        self.btn_far.grid(row=1, column=2, padx=20, pady=10)
        self.btn_tele.grid(row=0, column=3, padx=20, pady=10)
        self.btn_wide.grid(row=1, column=3, padx=20, pady=10)
        self.left_light_scale.grid(row=0, column=4, rowspan=3, padx=20, pady=5)
        self.right_light_scale.grid(row=0,
                                    column=5,
                                    rowspan=3,
                                    padx=45,
                                    pady=5)
        self.label_lights.grid(row=3,
                               column=4,
                               columnspan=2,
                               padx=45,
                               sticky=N)
        self.btn_tilt_up.grid(row=0, column=6, padx=20, pady=5)
        self.btn_tilt_down.grid(row=1, column=6, padx=20, pady=5)
        self.btn_pan_right.grid(row=0, column=8, padx=20, pady=5, rowspan=2)
        self.btn_pan_left.grid(row=0, column=7, padx=20, pady=5, rowspan=2)
        self.tilt_speed.grid(row=2, column=6)
        self.pan_speed.grid(row=2, column=7, columnspan=2)
        self.ckbx_invert_tilt.grid(row=3, column=6)
        self.ckbx_invert_pan.grid(row=3, column=7, columnspan=2)

        #Connect to Phidget Devices
        self.power = DigitalOutput()
        self.power.setDeviceSerialNumber(HUB2)
        self.power.setIsHubPortDevice(False)
        self.power.setHubPort(1)
        self.power.setChannel(0)
        self.power.openWaitForAttachment(5000)

        self.manual_select = DigitalOutput()
        self.manual_select.setDeviceSerialNumber(HUB2)
        self.manual_select.setIsHubPortDevice(False)
        self.manual_select.setHubPort(1)
        self.manual_select.setChannel(1)
        self.manual_select.openWaitForAttachment(5000)

        self.near = DigitalOutput()
        self.near.setDeviceSerialNumber(HUB2)
        self.near.setIsHubPortDevice(False)
        self.near.setHubPort(1)
        self.near.setChannel(2)
        self.near.openWaitForAttachment(5000)

        self.far = DigitalOutput()
        self.far.setDeviceSerialNumber(HUB2)
        self.far.setIsHubPortDevice(False)
        self.far.setHubPort(1)
        self.far.setChannel(3)
        self.far.openWaitForAttachment(5000)

        self.wide = DigitalOutput()
        self.wide.setDeviceSerialNumber(HUB2)
        self.wide.setIsHubPortDevice(False)
        self.wide.setHubPort(1)
        self.wide.setChannel(4)
        self.wide.openWaitForAttachment(5000)

        self.tele = DigitalOutput()
        self.tele.setDeviceSerialNumber(HUB2)
        self.tele.setIsHubPortDevice(False)
        self.tele.setHubPort(1)
        self.tele.setChannel(5)
        self.tele.openWaitForAttachment(5000)

        self.left_light = VoltageOutput()
        self.left_light.setDeviceSerialNumber(HUB2)
        self.left_light.setIsHubPortDevice(False)
        self.left_light.setHubPort(2)
        self.left_light.setChannel(0)
        self.left_light.openWaitForAttachment(5000)

        self.right_light = VoltageOutput()
        self.right_light.setDeviceSerialNumber(HUB2)
        self.right_light.setIsHubPortDevice(False)
        self.right_light.setHubPort(3)
        self.right_light.setChannel(0)
        self.right_light.openWaitForAttachment(5000)

        self.pan = VoltageOutput()
        self.pan.setDeviceSerialNumber(HUB2)
        self.pan.setIsHubPortDevice(False)
        self.pan.setHubPort(5)
        self.pan.setChannel(0)
        self.pan.openWaitForAttachment(5000)

        self.tilt = VoltageOutput()
        self.tilt.setDeviceSerialNumber(HUB2)
        self.tilt.setIsHubPortDevice(False)
        self.tilt.setHubPort(4)
        self.tilt.setChannel(0)
        self.tilt.openWaitForAttachment(5000)

        self.btn_near.bind('<ButtonPress-1>', lambda event: self.focus("+"))
        self.btn_near.bind('<ButtonRelease-1>', lambda event: self.focus("0"))
        self.btn_far.bind('<ButtonPress-1>', lambda event: self.focus("-"))
        self.btn_far.bind('<ButtonRelease-1>', lambda event: self.focus("0"))
        self.btn_wide.bind('<ButtonPress-1>', lambda event: self.zoom("-"))
        self.btn_wide.bind('<ButtonRelease-1>', lambda event: self.zoom("0"))
        self.btn_tele.bind('<ButtonPress-1>', lambda event: self.zoom("+"))
        self.btn_tele.bind('<ButtonRelease-1>', lambda event: self.zoom("0"))
        self.btn_ms.bind('<ButtonPress-1>',
                         lambda event: self.focus_type("ON"))
        self.btn_ms.bind('<ButtonRelease-1>',
                         lambda event: self.focus_type("OFF"))

        self.btn_tilt_up.bind('<ButtonPress-1>',
                              lambda event: self.tilt_move("-"))
        self.btn_tilt_up.bind('<ButtonRelease-1>',
                              lambda event: self.tilt_move("0"))
        self.btn_tilt_down.bind('<ButtonPress-1>',
                                lambda event: self.tilt_move("+"))
        self.btn_tilt_down.bind('<ButtonRelease-1>',
                                lambda event: self.tilt_move("0"))
        self.btn_pan_right.bind('<ButtonPress-1>',
                                lambda event: self.pan_move("R"))
        self.btn_pan_right.bind('<ButtonRelease-1>',
                                lambda event: self.pan_move("0"))
        self.btn_pan_left.bind('<ButtonPress-1>',
                               lambda event: self.pan_move("L"))
        self.btn_pan_left.bind('<ButtonRelease-1>',
                               lambda event: self.pan_move("0"))
Exemplo n.º 12
0
def main():
    # Relay Phidget setup
    try:
        relay = DigitalOutput()
    except RuntimeError as e:
        print("Runtime Exception: %s" % e.details)
        print("Exiting....")
        exit(1)

    def relayAttachHandler(e):

        ph = relay
        try:
            #If you are unsure how to use more than one Phidget channel with this event, we recommend going to
            #www.phidgets.com/docs/Using_Multiple_Phidgets for information

            print("\nAttach Event:")
            """
            * Get device information and display it.
            """
            serialNumber = ph.getDeviceSerialNumber()
            channelClass = ph.getChannelClassName()
            channel = ph.getChannel()

            deviceClass = ph.getDeviceClass()
            if (deviceClass != DeviceClass.PHIDCLASS_VINT):
                print("\n\t-> Channel Class: " + channelClass +
                      "\n\t-> Serial Number: " + str(serialNumber) +
                      "\n\t-> Channel " + str(channel) + "\n")
            else:
                hubPort = ph.getHubPort()
                print("\n\t-> Channel Class: " + channelClass +
                      "\n\t-> Serial Number: " + str(serialNumber) +
                      "\n\t-> Hub Port: " + str(hubPort) + "\n\t-> Channel " +
                      str(channel) + "\n")

        except PhidgetException as e:
            print("\nError in Attach Event:")
            DisplayError(e)
            traceback.print_exc()
            return

    def relayDetachHandler(e):

        ph = relay

        try:
            #If you are unsure how to use more than one Phidget channel with this event, we recommend going to
            #www.phidgets.com/docs/Using_Multiple_Phidgets for information

            print("\nDetach Event:")
            """
            * Get device information and display it.
            """
            serialNumber = ph.getDeviceSerialNumber()
            channelClass = ph.getChannelClassName()
            channel = ph.getChannel()

            deviceClass = ph.getDeviceClass()
            if (deviceClass != DeviceClass.PHIDCLASS_VINT):
                print("\n\t-> Channel Class: " + channelClass +
                      "\n\t-> Serial Number: " + str(serialNumber) +
                      "\n\t-> Channel " + str(channel) + "\n")
            else:
                hubPort = ph.getHubPort()
                print("\n\t-> Channel Class: " + channelClass +
                      "\n\t-> Serial Number: " + str(serialNumber) +
                      "\n\t-> Hub Port: " + str(hubPort) + "\n\t-> Channel " +
                      str(channel) + "\n")

        except PhidgetException as e:
            print("\nError in Detach Event:")
            DisplayError(e)
            traceback.print_exc()
            return

    def relayErrorHandler(button, errorCode, errorString):

        sys.stderr.write("[Phidget Error Event] -> " + errorString + " (" +
                         str(errorCode) + ")\n")

    try:
        relay.setOnAttachHandler(relayAttachHandler)
        relay.setOnDetachHandler(relayDetachHandler)
        relay.setOnErrorHandler(relayErrorHandler)
    except PhidgetException as e:
        print("Phidget Exception %i: %s" % (e.code, e.details))
        print("Exiting....")
        exit(1)

    try:
        relay.setDeviceSerialNumber(120683)
        relay.setChannel(0)
        relay.open()
        relay.openWaitForAttachment(5000)
    except PhidgetException as e:
        PrintOpenErrorMessage(e, ch)
        raise EndProgramSignal("Program Terminated: Digital Input Open Failed")

    total_time = sys.argv[1]
    interval = sys.argv[2]

    camera_ports = []

    ports_strings = subprocess.check_output(["gphoto2", "--auto-detect"])
    ports_strings_split = ports_strings.split()

    for item in ports_strings_split:
        item = item.decode('utf-8')
        if item[0] == 'u':
            camera_ports.append(item)

    number_of_cameras = len(camera_ports)

    number_of_photos = str(math.ceil(int(total_time) / int(interval)))

    processes = []
    i = 0
    x = 0
    while x < int(number_of_photos):
        i = 0
        time.sleep(int(interval))
        while i < number_of_cameras:
            print(i)
            process = subprocess.Popen([
                "python3",
                "/home/ryan/Documents/full_circle/timelapse/capture.py",
                str(i), number_of_photos, interval,
                str(x)
            ])
            processes.append(process)
            i = i + 1
        x = x + 1
        relay.setDutyCycle(1.0)
        time.sleep(3)
        relay.setDutyCycle(0.0)
        for proc in processes:
            os.killpg(os.getpgid(proc.pid), signal.SIGTERM)

    try:
        relay.close()
        exit(0)
    except PhidgetException as e:
        print("Phidget Exception %i: %s" % (e.code, e.details))
        print("Exiting....")
        exit(1)
Exemplo n.º 13
0
def main():
        digitalOutput0 = DigitalOutput()
        digitalOutput1 = DigitalOutput()
        digitalOutput2 = DigitalOutput()
        digitalOutput3 = DigitalOutput()
        digitalOutput4 = DigitalOutput()
        digitalOutput5 = DigitalOutput()
        digitalOutput6 = DigitalOutput()
        digitalOutput7 = DigitalOutput()

        digitalOutput0.setChannel(0)
        digitalOutput1.setChannel(1)
        digitalOutput2.setChannel(2)
        digitalOutput3.setChannel(3)
        digitalOutput4.setChannel(4)
        digitalOutput5.setChannel(5)
        digitalOutput6.setChannel(6)
        digitalOutput7.setChannel(7)

        digitalOutput0.openWaitForAttachment(5000)
        digitalOutput1.openWaitForAttachment(5000)
        digitalOutput2.openWaitForAttachment(5000)
        digitalOutput3.openWaitForAttachment(5000)
        digitalOutput4.openWaitForAttachment(5000)
        digitalOutput5.openWaitForAttachment(5000)
Exemplo n.º 14
0
def main():
    try:
        """
        * Allocate a new Phidget Channel object
        """
        ch = DigitalOutput()
        """
        * Set matching parameters to specify which channel to open
        """
        #You may remove this line and hard-code the addressing parameters to fit your application
        channelInfo = AskForDeviceParameters(ch)

        ch.setDeviceSerialNumber(channelInfo.deviceSerialNumber)
        ch.setHubPort(channelInfo.hubPort)
        ch.setIsHubPortDevice(channelInfo.isHubPortDevice)
        ch.setChannel(channelInfo.channel)

        if (channelInfo.netInfo.isRemote):
            ch.setIsRemote(channelInfo.netInfo.isRemote)
            if (channelInfo.netInfo.serverDiscovery):
                try:
                    Net.enableServerDiscovery(
                        PhidgetServerType.PHIDGETSERVER_DEVICEREMOTE)
                except PhidgetException as e:
                    PrintEnableServerDiscoveryErrorMessage(e)
                    raise EndProgramSignal(
                        "Program Terminated: EnableServerDiscovery Failed")
            else:
                Net.addServer("Server", channelInfo.netInfo.hostname,
                              channelInfo.netInfo.port,
                              channelInfo.netInfo.password, 0)
        """
        * Add event handlers before calling open so that no events are missed.
        """
        print("\n--------------------------------------")
        print("\nSetting OnAttachHandler...")
        ch.setOnAttachHandler(onAttachHandler)

        print("Setting OnDetachHandler...")
        ch.setOnDetachHandler(onDetachHandler)

        print("Setting OnErrorHandler...")
        ch.setOnErrorHandler(onErrorHandler)
        """
        * Open the channel with a timeout
        """

        print("\nOpening and Waiting for Attachment...")

        try:
            ch.openWaitForAttachment(5000)
        except PhidgetException as e:
            PrintOpenErrorMessage(e, ch)
            raise EndProgramSignal("Program Terminated: Open Failed")

        print(
            "--------------------\n"
            "\n  | The output of a DigitalOutput channel can be controlled by setting its Duty Cycle.\n"
            "  | The Duty Cycle can be a number from 0.0 or 1.0\n"
            "  | Some devices only accept Duty Cycles of 0 and 1.\n"
            "\nInput a desired duty cycle from 0.0 or 1.0 and press ENTER\n"
            "Input Q and press ENTER to quit\n")

        end = False
        state = False

        while (end != True):
            buf = sys.stdin.readline(100)
            if not buf:
                continue

            if (buf[0] == 'Q' or buf[0] == 'q'):
                end = True
                continue

            try:
                dutyCycle = float(buf)
            except ValueError as e:
                print("Input must be a number, or Q to quit.")
                continue

            if (dutyCycle > 1.0 or dutyCycle < 0.0):
                print("Duty Cycle must be between 0.0 and 1.0")
                continue

            print("Setting DigitalOutput DutyCycle to " + str(dutyCycle))
            ch.setDutyCycle(dutyCycle)

        print("Cleaning up...")
        ch.close()
        print("\nExiting...")
        return 0

    except PhidgetException as e:
        sys.stderr.write("\nExiting with error(s)...")
        DisplayError(e)
        traceback.print_exc()
        print("Cleaning up...")
        ch.close()
        return 1
    except EndProgramSignal as e:
        print(e)
        print("Cleaning up...")
        ch.close()
        return 1
    except RuntimeError as e:
        sys.stderr.write("Runtime Error: \n\t" + e)
        traceback.print_exc()
        return 1
    finally:
        print("Press ENTER to end program.")
        readin = sys.stdin.readline()
Exemplo n.º 15
0
def open_relay(channel):
    relay = DigitalOutput()
    relay.setOnAttachHandler(relayAttachHandler)
    relay.setOnDetachHandler(relayDetachHandler)
    relay.setOnErrorHandler(relayErrorHandler)

    try:
        relay.setDeviceSerialNumber(352936)
        relay.setChannel(channel)
        print('Wait for relay to attach...')
        relay.openWaitForAttachment(5000)
    except PhidgetException as e:
        print("Program Terminated: Relay Open Failed")
        return

    return relay
Exemplo n.º 16
0
class WeightSensor:
    def __init__(self):
        self.weight_value = -1
        self.has_ended = False
        self.try_weight_sensor()

    def try_weight_sensor(self):
        print("Try Weight Sensor")
        try:
            # Allocate a new Phidget Channel object
            self.ch = VoltageRatioInput()
            self.do = DigitalOutput()

            self.ch.setChannel(0)
            self.do.setChannel(6)

            self.ch.setOnAttachHandler(onAttachHandler)
            self.ch.setOnDetachHandler(onDetachHandler)
            self.ch.setOnErrorHandler(onErrorHandler)
            self.ch.setOnVoltageRatioChangeHandler(onVoltageRatioChangeHandler)
            self.ch.setOnSensorChangeHandler(onSensorChangeHandler)
            # Open the channel with a timeout
            try:
                self.ch.openWaitForAttachment(5000)
                self.do.openWaitForAttachment(5000)
            except PhidgetException as e:
                # PrintOpenErrorMessage(e, self.ch)
                raise EndProgramSignal("Program Terminated: Open Failed")

            print("THREAD STARTING")

            weight_thread = threading.Thread(
                target=self.start_getting_weight_value)
            weight_thread.daemon = True
            weight_thread.start()

        except Exception as e:
            self.ch.close()
            self.try_conneting_again()

    def start_getting_weight_value(self):
        while not self.has_ended:
            try:
                self.weight_value = self.ch.getVoltageRatio()
            except:
                self.ch.close()
                break
            time.sleep(0.25)
        self.try_conneting_again()

    def try_conneting_again(self):
        self.has_ended = True
        print(
            "Weight sensor failed! Trying to connect to the weight sensor again in 3 2 1..."
        )
        time.sleep(3)
        self.ch = None
        self.do = None
        self.has_ended = False
        self.weight_value = -1
        self.try_weight_sensor()

    def get_weight_value(self):
        return self.weight_value
Exemplo n.º 17
0
class jigOutput(object):
    '''generic digital output on the jig'''

    def __init__(self, provider, channel, defaultState):
        self._defaultState = defaultState
        self.do = DigitalOutput()
        self.do.setDeviceSerialNumber(provider)
        self.do.setChannel(channel)
        self.do.setOnAttachHandler(self._attached)
        self.do.openWaitForAttachment(1000)

    def _attached(self, event):
        self.set(self._defaultState)

    @property
    def state(self):
        return self.do.getState()

    def set(self, state):
        self.do.setState(state)

    def reset(self):
        self.set(self._defaultState)
Exemplo n.º 18
0
from Phidget22.Devices.DigitalInput import *

number_of_inputs = 4
number_of_outputs = 4
timeout_duration = 5 * 1000  # its in miliseconds
serial_number = 96781

# create input pins
input_pins = [DigitalInput() for each_index in range(number_of_inputs)]
for each_index, each in enumerate(input_pins):
    each.setChannel(each_index)
    each.setDeviceSerialNumber(serial_number)
    each.openWaitForAttachment(timeout_duration)

# create ouput pins
output_pins = [DigitalOutput() for each_index in range(number_of_outputs)]
for each_index, each in enumerate(output_pins):
    each.setChannel(each_index)
    each.setDeviceSerialNumber(serial_number)
    each.openWaitForAttachment(timeout_duration)


def which_key(input_pin, index_of_input):
    key_values = [["1", "2", "3", "A"], ["4", "5", "6", "B"],
                  ["7", "8", "9", "C"], ["*", "0", "#", "D"]]
    return_value = None

    # do trial-and-error to find which output pin
    for index_of_output, each_output in enumerate(output_pins):
        each_output.setState(1)
        time.sleep(0.05)
Exemplo n.º 19
0
    sys.stderr.write("[Phidget Error Event] -> " + errorString + " (" + str(errorCode) + ")\n")

def configChannel(phi, serial, channel):
    phi.setDeviceSerialNumber(serial)
    phi.setHubPort(-1)
    phi.setIsHubPortDevice(0)
    phi.setChannel(channel)
    phi.setOnAttachHandler(onAttachHandler)
    phi.setOnDetachHandler(onDetachHandler)
    phi.setOnErrorHandler(onErrorHandler)
    try:
        phi.openWaitForAttachment(5000)
    except PhidgetException as e:
        PrintOpenErrorMessage(e, phi)
        raise EndProgramSignal("Program Terminated: Open Failed")

if __name__ == "__main__":

    Phidget_serial = 383808
    Phidget_channel = 0
    phidget = DigitalOutput()
    configChannel(phidget, Phidget_serial, Phidget_channel)
    phidget.setDutyCycle(1)

    while True:
        time.sleep(5)
        phidget.setDutyCycle(0)
        time.sleep(5)
        phidget.setDutyCycle(1)

Exemplo n.º 20
0
class Multiplexer:
    def __init__(self):
        print('init mp')
        try:
            self.ch0 = DigitalOutput()
            self.ch1 = DigitalOutput()
            self.ch2 = DigitalOutput()
            self.ch3 = DigitalOutput()
            self.ch4 = DigitalOutput()
            self.ch5 = DigitalOutput()
            self.ch6 = DigitalOutput()
            self.ch7 = DigitalOutput()
        except RuntimeError as e:
            print("Runtime Exception %s" % e.details)
            print("Press Enter to Exit...\n")
            raise

        def ErrorEvent(self, e, eCode, description):
            print("Error %i : %s" % (eCode, description))

        try:
            self.ch0.setOnErrorHandler(ErrorEvent)
            self.ch1.setOnErrorHandler(ErrorEvent)
            self.ch2.setOnErrorHandler(ErrorEvent)
            self.ch3.setOnErrorHandler(ErrorEvent)
            self.ch4.setOnErrorHandler(ErrorEvent)
            self.ch5.setOnErrorHandler(ErrorEvent)
            self.ch6.setOnErrorHandler(ErrorEvent)
            self.ch7.setOnErrorHandler(ErrorEvent)
            self.ch0.setChannel(0)
            self.ch1.setChannel(1)
            self.ch2.setChannel(2)
            self.ch3.setChannel(3)
            self.ch4.setChannel(4)
            self.ch5.setChannel(5)
            self.ch6.setChannel(6)
            self.ch7.setChannel(7)
            print(
                "Waiting for the Phidget DigitalOutput Objects to be attached..."
            )
            self.ch0.openWaitForAttachment(5000)
            self.ch1.openWaitForAttachment(5000)
            self.ch2.openWaitForAttachment(5000)
            self.ch3.openWaitForAttachment(5000)
            self.ch4.openWaitForAttachment(5000)
            self.ch5.openWaitForAttachment(5000)
            self.ch6.openWaitForAttachment(5000)
            self.ch7.openWaitForAttachment(5000)
        except PhidgetException as e:
            print("Phidget Exception %i: %s" % (e.code, e.details))
            print("Press Enter to Exit...\n")
            raise

    def SelectChannel(self, channel):
        self.ch0.setState(0)
        self.ch1.setState(0)
        self.ch2.setState(0)
        self.ch3.setState(0)
        self.ch4.setState(0)
        self.ch5.setState(0)
        self.ch6.setState(0)
        self.ch7.setState(0)

        if channel < 0:
            return
        if channel == 0:
            self.ch0.setState(1)
        if channel == 1:
            self.ch1.setState(1)
        if channel == 2:
            self.ch2.setState(1)
        if channel == 3:
            self.ch3.setState(1)
        if channel == 4:
            self.ch4.setState(1)
        if channel == 5:
            self.ch5.setState(1)
        if channel == 6:
            self.ch6.setState(1)
        if channel == 7:
            self.ch7.setState(1)

        time.sleep(10)

    def ChannelsOff(self):
        self.SelectChannel(-1)

    def close(self):
        try:
            self.ch0.close()
            self.ch1.close()
            self.ch2.close()
            self.ch3.close()
            self.ch4.close()
            self.ch5.close()
            self.ch6.close()
            self.ch7.close()
        except PhidgetException as e:
            print("Phidget Exception %i: %s" % (e.code, e.details))
            print("Press Enter to Exit...\n")
            raise
        print("Closed DigitalOutput device")
Exemplo n.º 21
0
class MyRelay:
    def __init__(self, hub_serial, hub_port, relay_channel):
        self.updated_n = 0
        self.relay = DigitalOutput()
        self.relay.setChannel(relay_channel)
        self.relay.setHubPort(hub_port)
        self.relay.setDeviceSerialNumber(hub_serial)
        self.relay_channel = relay_channel
        self.relay.openWaitForAttachment(5000)
        self.previous_duty_cycle = 100

    def set_state(self, state):
        self.relay.setState(state)

    def set_duty_cycle(self, duty_cycle):
        try:
            diff = math.fabs(self.previous_duty_cycle - duty_cycle)
            if diff > 0.05:
                self.relay.setDutyCycle(duty_cycle)
                self.previous_duty_cycle = duty_cycle
                self.updated_n = self.updated_n + 1
        except PhidgetException as exception:
            print('Error on relay channel', self.relay_channel, exception)
            self.reconnect()

    def __del__(self):
        self.relay.close()
Exemplo n.º 22
0
    def __init__(self):
        print('init mp')
        try:
            self.ch0 = DigitalOutput()
            self.ch1 = DigitalOutput()
            self.ch2 = DigitalOutput()
            self.ch3 = DigitalOutput()
            self.ch4 = DigitalOutput()
            self.ch5 = DigitalOutput()
            self.ch6 = DigitalOutput()
            self.ch7 = DigitalOutput()
        except RuntimeError as e:
            print("Runtime Exception %s" % e.details)
            print("Press Enter to Exit...\n")
            raise

        def ErrorEvent(self, e, eCode, description):
            print("Error %i : %s" % (eCode, description))

        try:
            self.ch0.setOnErrorHandler(ErrorEvent)
            self.ch1.setOnErrorHandler(ErrorEvent)
            self.ch2.setOnErrorHandler(ErrorEvent)
            self.ch3.setOnErrorHandler(ErrorEvent)
            self.ch4.setOnErrorHandler(ErrorEvent)
            self.ch5.setOnErrorHandler(ErrorEvent)
            self.ch6.setOnErrorHandler(ErrorEvent)
            self.ch7.setOnErrorHandler(ErrorEvent)
            self.ch0.setChannel(0)
            self.ch1.setChannel(1)
            self.ch2.setChannel(2)
            self.ch3.setChannel(3)
            self.ch4.setChannel(4)
            self.ch5.setChannel(5)
            self.ch6.setChannel(6)
            self.ch7.setChannel(7)
            print(
                "Waiting for the Phidget DigitalOutput Objects to be attached..."
            )
            self.ch0.openWaitForAttachment(5000)
            self.ch1.openWaitForAttachment(5000)
            self.ch2.openWaitForAttachment(5000)
            self.ch3.openWaitForAttachment(5000)
            self.ch4.openWaitForAttachment(5000)
            self.ch5.openWaitForAttachment(5000)
            self.ch6.openWaitForAttachment(5000)
            self.ch7.openWaitForAttachment(5000)
        except PhidgetException as e:
            print("Phidget Exception %i: %s" % (e.code, e.details))
            print("Press Enter to Exit...\n")
            raise
Exemplo n.º 23
0
def main():
    try:
        # Create your Phidget channels
        digitalOutput0 = DigitalOutput()
        digitalOutput1 = DigitalOutput()
        digitalOutput2 = DigitalOutput()
        digitalOutput3 = DigitalOutput()

        # Set addressing parameters to specify which channel to open (if any)
        digitalOutput0.setChannel(0)
        digitalOutput1.setChannel(1)
        digitalOutput2.setChannel(2)
        digitalOutput3.setChannel(3)

        # Assign any event handlers you need before calling open so that no events are missed.
        digitalOutput0.setOnAttachHandler(onAttach)
        digitalOutput0.setOnDetachHandler(onDetach)
        digitalOutput0.setOnErrorHandler(onError)
        digitalOutput1.setOnAttachHandler(onAttach)
        digitalOutput1.setOnDetachHandler(onDetach)
        digitalOutput1.setOnErrorHandler(onError)
        digitalOutput2.setOnAttachHandler(onAttach)
        digitalOutput2.setOnDetachHandler(onDetach)
        digitalOutput2.setOnErrorHandler(onError)
        digitalOutput3.setOnAttachHandler(onAttach)
        digitalOutput3.setOnDetachHandler(onDetach)
        digitalOutput3.setOnErrorHandler(onError)

        # Open your Phidgets and wait for attachment
        digitalOutput0.openWaitForAttachment(5000)
        digitalOutput1.openWaitForAttachment(5000)
        digitalOutput2.openWaitForAttachment(5000)
        digitalOutput3.openWaitForAttachment(5000)

        # Do stuff with your Phidgets here or in your event handlers.
        digitalOutput0.setDutyCycle(1)
        digitalOutput1.setDutyCycle(1)
        digitalOutput2.setDutyCycle(1)
        digitalOutput3.setDutyCycle(1)

        with open("keys.txt", "r") as timing_file:
            try:
                state_str = timing_file.read(2)
                last_state = False
                elapsed_time = Decimal("0.00")
                while state_str:
                    state = bool(int(state_str[-1:]))
                    if state != last_state:
                        if state:
                            digitalOutput0.setDutyCycle(1)
                            digitalOutput1.setDutyCycle(1)
                            digitalOutput2.setDutyCycle(1)
                            digitalOutput3.setDutyCycle(1)
                        else:
                            digitalOutput0.setDutyCycle(0)
                            digitalOutput1.setDutyCycle(0)
                            digitalOutput2.setDutyCycle(0)
                            digitalOutput3.setDutyCycle(0)
                    print("                        ", end="\r")
                    print(f"State: {state}\tTime: {elapsed_time}", end="\r")
                    time.sleep(0.02)
                    elapsed_time += Decimal("0.02")
                    state_str = timing_file.read(2)
                    last_state = state
            except (Exception, KeyboardInterrupt):
                pass

        # Close your Phidgets once the program is done.
        digitalOutput0.close()
        digitalOutput1.close()
        digitalOutput2.close()
        digitalOutput3.close()

    except PhidgetException as ex:
        # We will catch Phidget Exceptions here, and print the error informaiton.
        traceback.print_exc()
        print("")
        print("PhidgetException " + str(ex.code) + " (" + ex.description +
              "): " + ex.details)
Exemplo n.º 24
0
    def __init__(self, master, colorArray):
        frame1 = Frame(master, borderwidth=2, relief=SUNKEN)
        frame2 = Frame(master, borderwidth=2, relief=SUNKEN)
        frame3 = Frame(master, borderwidth=2, relief=SUNKEN)
        frame4 = Frame(master, borderwidth=2, relief=SUNKEN)
        frame5 = Frame(master, borderwidth=2, relief=SUNKEN)
        frame6 = Frame(master, borderwidth=2, relief=SUNKEN)
        frame7 = Frame(master, borderwidth=2, relief=SUNKEN)
        camera_frame_1 = Frame(master, borderwidth=2, relief=SUNKEN, bg='LightSkyBlue2')
        camera_frame_2 = Frame(master, borderwidth=2, relief=SUNKEN, bg='light goldenrod yellow')

        frame1.grid(row=1, column=0)
        frame2.grid(row=1, column=1)
        frame3.grid(row=1, column=2)
        frame4.grid(row=1, column=3)
        frame5.grid(row=1, column=4)
        frame6.grid(row=1, column=5)
        frame7.grid(row=1, column=6)
        camera_frame_1.grid(row=3, column=0, columnspan=7, sticky=NSEW)
        camera_frame_2.grid(row=4, column=0, columnspan=7, sticky=NSEW)

        self.out1 = AxisFrame(frame1, "BASE CIRC", "VESSEL RIGHT", "VESSEL LEFT", HUB1, 5, colorArray[0], 3.3, 0.55)
        self.out2 = AxisFrame(frame2, "BASE AUX", "CW/IN", "CCW/OUT", HUB2, 0, colorArray[1], 2.2, 0.11)
        self.out3 = AxisFrame(frame3, "VARD ROT", "CW", "CCW", HUB1, 3, colorArray[2], 2.2, 0.15)
        self.out4 = AxisFrame(frame4, "VARD VERT", "UP", "DOWN", HUB1, 4, colorArray[3], 7.8, 0.54)
        self.out5 = AxisFrame(frame5, "DA MAST", "UP", "DOWN", HUB1, 0, colorArray[4], 8, 0.86)
        self.out6 = AxisFrame(frame6, "DA PAN", "CW", "CCW", HUB1, 2, colorArray[5], 3.0, 0.30)
        self.out7 = AxisFrame(frame7, "DA TILT", "UP", "DOWN", HUB1, 1, colorArray[6], 3.6, 0.57)

        # RJ Camera Control: Code Tool Camera
        self.invert_tilt_1 = BooleanVar()
        self.invert_pan_1 = BooleanVar()
        self.btn_power_1 = Button(camera_frame_1, text="PWR", font="Courier, 12", command=self.toggle_power_1)
        self.btn_near_1 = Button(camera_frame_1, text="NEAR", font="Courier, 12", width=7)
        self.btn_far_1 = Button(camera_frame_1, text="FAR", font="Courier, 12", width=7)
        self.btn_wide_1 = Button(camera_frame_1, text="WIDE", font="Courier, 12", width=7)
        self.btn_tele_1 = Button(camera_frame_1, text="TELE", font="Courier, 12", width=7)
        self.btn_ms_1 = Button(camera_frame_1, text="MS", font="Courier, 12", width=7)
        self.left_light_scale_1 = Scale(camera_frame_1, orient=VERTICAL, from_=0, to=0.45, resolution=0.01,
                                        command=self.update_left_intensity_1, bg='LightSkyBlue2', highlightthickness=0)
        self.right_light_scale_1 = Scale(camera_frame_1, orient=VERTICAL, from_=0, to=0.45, resolution=0.01,
                                         command=self.update_right_intensity_1, bg='LightSkyBlue2',
                                         highlightthickness=0)
        self.label_lights_1 = Label(camera_frame_1, text="  Light Intensity", bg='LightSkyBlue2')
        self.label_camera_type_1 = Label(camera_frame_1, text="TOOL CAMERA", font=("TkDefaultFont", 14),
                                         bg='LightSkyBlue2')
        self.btn_tilt_up_1 = Button(camera_frame_1, text="TILT UP", font="Courier, 12", width=10)
        self.btn_tilt_down_1 = Button(camera_frame_1, text="TILT DOWN", font="Courier, 12", width=10)
        self.btn_pan_right_1 = Button(camera_frame_1, text="PAN RIGHT", font="Courier, 12", width=10)
        self.btn_pan_left_1 = Button(camera_frame_1, text="PAN LEFT", font="Courier, 12", width=10)
        self.tilt_speed_1 = Scale(camera_frame_1, orient=HORIZONTAL, from_=0.01, to=.5, resolution=0.01,
                                  bg='LightSkyBlue2', highlightthickness=0)
        self.pan_speed_1 = Scale(camera_frame_1, orient=HORIZONTAL, from_=0.01, to=.5, resolution=0.01,
                                 bg='LightSkyBlue2', highlightthickness=0)
        self.ckbx_invert_tilt_1 = Checkbutton(camera_frame_1, text="Invert Tilt", variable=self.invert_tilt_1,
                                              bg='LightSkyBlue2')
        self.ckbx_invert_pan_1 = Checkbutton(camera_frame_1, text="Invert Pan", variable=self.invert_pan_1,
                                             bg='LightSkyBlue2')
        self.activeColor_1 = 'SpringGreen4'

        self.tilt_speed_1.set(0.15)
        self.pan_speed_1.set(0.15)

        # RJ Camera Control: Overview Camera
        self.invert_tilt_2 = BooleanVar()
        self.invert_pan_2 = BooleanVar()
        self.btn_power_2 = Button(camera_frame_2, text="PWR", font="Courier, 12", command=self.toggle_power_2)
        self.btn_near_2 = Button(camera_frame_2, text="NEAR", font="Courier, 12", width=7)
        self.btn_far_2 = Button(camera_frame_2, text="FAR", font="Courier, 12", width=7)
        self.btn_wide_2 = Button(camera_frame_2, text="WIDE", font="Courier, 12", width=7)
        self.btn_tele_2 = Button(camera_frame_2, text="TELE", font="Courier, 12", width=7)
        self.btn_ms_2 = Button(camera_frame_2, text="MS", font="Courier, 12", width=7)
        self.left_light_scale_2 = Scale(camera_frame_2, orient=VERTICAL, from_=0, to=0.45, resolution=0.01,
                                        command=self.update_left_intensity_2, bg='light goldenrod yellow',
                                        highlightthickness=0)
        self.right_light_scale_2 = Scale(camera_frame_2, orient=VERTICAL, from_=0, to=0.45, resolution=0.01,
                                         command=self.update_right_intensity_2, bg='light goldenrod yellow',
                                         highlightthickness=0)
        self.label_lights_2 = Label(camera_frame_2, text="  Light Intensity", bg='light goldenrod yellow')
        self.label_camera_type_2 = Label(camera_frame_2, text="OVERVIEW CAMERA", font=("TkDefaultFont", 14),
                                         bg='light goldenrod yellow')
        self.btn_tilt_up_2 = Button(camera_frame_2, text="TILT UP", font="Courier, 12", width=10)
        self.btn_tilt_down_2 = Button(camera_frame_2, text="TILT DOWN", font="Courier, 12", width=10)
        self.btn_pan_right_2 = Button(camera_frame_2, text="PAN RIGHT", font="Courier, 12", width=10)
        self.btn_pan_left_2 = Button(camera_frame_2, text="PAN LEFT", font="Courier, 12", width=10)
        self.tilt_speed_2 = Scale(camera_frame_2, orient=HORIZONTAL, from_=0.01, to=.5, resolution=0.01,
                                  bg='light goldenrod yellow', highlightthickness=0)
        self.pan_speed_2 = Scale(camera_frame_2, orient=HORIZONTAL, from_=0.01, to=.5, resolution=0.01,
                                 bg='light goldenrod yellow', highlightthickness=0)
        self.ckbx_invert_tilt_2 = Checkbutton(camera_frame_2, text="Invert Tilt", variable=self.invert_tilt_2,
                                              bg='light goldenrod yellow')
        self.ckbx_invert_pan_2 = Checkbutton(camera_frame_2, text="Invert Pan", variable=self.invert_pan_2,
                                             bg='light goldenrod yellow')
        self.activeColor_2 = 'SpringGreen4'

        self.tilt_speed_2.set(0.15)
        self.pan_speed_2.set(0.15)

        # Grid the Tool Camera Controls
        self.btn_power_1.grid(row=0, column=0, padx=60)
        self.btn_ms_1.grid(row=1, column=0, padx=5, pady=5)
        self.btn_near_1.grid(row=0, column=2, padx=20, pady=10)
        self.btn_far_1.grid(row=1, column=2, padx=20, pady=10)
        self.btn_tele_1.grid(row=0, column=3, padx=20, pady=10)
        self.btn_wide_1.grid(row=1, column=3, padx=20, pady=10)
        self.label_camera_type_1.grid(row=2, column=0, columnspan=4)
        self.left_light_scale_1.grid(row=0, column=4, rowspan=3, padx=20, pady=5)
        self.right_light_scale_1.grid(row=0, column=5, rowspan=3, padx=45, pady=5)
        self.label_lights_1.grid(row=3, column=4, columnspan=2, padx=45, sticky=N)
        self.btn_tilt_up_1.grid(row=0, column=6, padx=20, pady=5)
        self.btn_tilt_down_1.grid(row=1, column=6, padx=20, pady=5)
        self.btn_pan_right_1.grid(row=0, column=8, padx=20, pady=5, rowspan=2)
        self.btn_pan_left_1.grid(row=0, column=7, padx=20, pady=5, rowspan=2)
        self.tilt_speed_1.grid(row=2, column=6)
        self.pan_speed_1.grid(row=2, column=7, columnspan=2)
        self.ckbx_invert_tilt_1.grid(row=3, column=6)
        self.ckbx_invert_pan_1.grid(row=3, column=7, columnspan=2)

        # Grid the Overview Camera Controls
        self.btn_power_2.grid(row=0, column=0, padx=60)
        self.btn_ms_2.grid(row=1, column=0, padx=5, pady=5)
        self.btn_near_2.grid(row=0, column=2, padx=20, pady=10)
        self.btn_far_2.grid(row=1, column=2, padx=20, pady=10)
        self.btn_tele_2.grid(row=0, column=3, padx=20, pady=10)
        self.btn_wide_2.grid(row=1, column=3, padx=20, pady=10)
        self.label_camera_type_2.grid(row=2, column=0, columnspan=4)
        self.left_light_scale_2.grid(row=0, column=4, rowspan=3, padx=20, pady=5)
        self.right_light_scale_2.grid(row=0, column=5, rowspan=3, padx=45, pady=5)
        self.label_lights_2.grid(row=3, column=4, columnspan=2, padx=45, sticky=N)
        self.btn_tilt_up_2.grid(row=0, column=6, padx=20, pady=5)
        self.btn_tilt_down_2.grid(row=1, column=6, padx=20, pady=5)
        self.btn_pan_right_2.grid(row=0, column=8, padx=20, pady=5, rowspan=2)
        self.btn_pan_left_2.grid(row=0, column=7, padx=20, pady=5, rowspan=2)
        self.tilt_speed_2.grid(row=2, column=6)
        self.pan_speed_2.grid(row=2, column=7, columnspan=2)
        self.ckbx_invert_tilt_2.grid(row=3, column=6)
        self.ckbx_invert_pan_2.grid(row=3, column=7, columnspan=2)

        # Connect to Phidget Devices for Tool Camera
        self.power_1 = DigitalOutput()
        self.power_1.setDeviceSerialNumber(HUB2)
        self.power_1.setIsHubPortDevice(False)
        self.power_1.setHubPort(1)
        self.power_1.setChannel(0)
        try:
            self.power_1.openWaitForAttachment(1000)
        except PhidgetException as e:
            print("Failed to open (CAM POWER): " + e.details)

        self.manual_select_1 = DigitalOutput()
        self.manual_select_1.setDeviceSerialNumber(HUB2)
        self.manual_select_1.setIsHubPortDevice(False)
        self.manual_select_1.setHubPort(1)
        self.manual_select_1.setChannel(1)
        try:
            self.manual_select_1.openWaitForAttachment(1000)
        except PhidgetException as e:
            print("Failed to open (Manual Select): " + e.details)

        self.near_1 = DigitalOutput()
        self.near_1.setDeviceSerialNumber(HUB2)
        self.near_1.setIsHubPortDevice(False)
        self.near_1.setHubPort(1)
        self.near_1.setChannel(2)
        try:
            self.near_1.openWaitForAttachment(1000)
        except PhidgetException as e:
            print("Failed to open (NEAR): " + e.details)

        self.far_1 = DigitalOutput()
        self.far_1.setDeviceSerialNumber(HUB2)
        self.far_1.setIsHubPortDevice(False)
        self.far_1.setHubPort(1)
        self.far_1.setChannel(3)
        try:
            self.far_1.openWaitForAttachment(1000)
        except PhidgetException as e:
            print("Failed to open (FAR): " + e.details)

        self.wide_1 = DigitalOutput()
        self.wide_1.setDeviceSerialNumber(HUB2)
        self.wide_1.setIsHubPortDevice(False)
        self.wide_1.setHubPort(1)
        self.wide_1.setChannel(4)
        try:
            self.wide_1.openWaitForAttachment(1000)
        except PhidgetException as e:
            print("Failed to open (WIDE): " + e.details)

        self.tele_1 = DigitalOutput()
        self.tele_1.setDeviceSerialNumber(HUB2)
        self.tele_1.setIsHubPortDevice(False)
        self.tele_1.setHubPort(1)
        self.tele_1.setChannel(5)
        try:
            self.tele_1.openWaitForAttachment(1000)
        except PhidgetException as e:
            print("Failed to open (TELE): " + e.details)

        self.left_light_1 = VoltageOutput()
        self.left_light_1.setDeviceSerialNumber(HUB2)
        self.left_light_1.setIsHubPortDevice(False)
        self.left_light_1.setHubPort(2)
        self.left_light_1.setChannel(0)
        try:
            self.left_light_1.openWaitForAttachment(1000)
        except PhidgetException as e:
            print("Failed to open (LEFT LIGHT): " + e.details)

        self.right_light_1 = VoltageOutput()
        self.right_light_1.setDeviceSerialNumber(HUB2)
        self.right_light_1.setIsHubPortDevice(False)
        self.right_light_1.setHubPort(3)
        self.right_light_1.setChannel(0)
        try:
            self.right_light_1.openWaitForAttachment(1000)
        except PhidgetException as e:
            print("Failed to open (RIGHT LIGHT): " + e.details)

        self.pan_1 = VoltageOutput()
        self.pan_1.setDeviceSerialNumber(HUB2)
        self.pan_1.setIsHubPortDevice(False)
        self.pan_1.setHubPort(5)
        self.pan_1.setChannel(0)
        try:
            self.pan_1.openWaitForAttachment(1000)
        except PhidgetException as e:
            print("Failed to open (PAN): " + e.details)

        self.tilt_1 = VoltageOutput()
        self.tilt_1.setDeviceSerialNumber(HUB2)
        self.tilt_1.setIsHubPortDevice(False)
        self.tilt_1.setHubPort(4)
        self.tilt_1.setChannel(0)
        try:
            self.tilt_1.openWaitForAttachment(1000)
        except PhidgetException as e:
            print("Failed to open (TILT): " + e.details)

        self.btn_near_1.bind('<ButtonPress-1>', lambda event: self.focus_1("+"))
        self.btn_near_1.bind('<ButtonRelease-1>', lambda event: self.focus_1("0"))
        self.btn_far_1.bind('<ButtonPress-1>', lambda event: self.focus_1("-"))
        self.btn_far_1.bind('<ButtonRelease-1>', lambda event: self.focus_1("0"))
        self.btn_wide_1.bind('<ButtonPress-1>', lambda event: self.zoom_1("-"))
        self.btn_wide_1.bind('<ButtonRelease-1>', lambda event: self.zoom_1("0"))
        self.btn_tele_1.bind('<ButtonPress-1>', lambda event: self.zoom_1("+"))
        self.btn_tele_1.bind('<ButtonRelease-1>', lambda event: self.zoom_1("0"))
        self.btn_ms_1.bind('<ButtonPress-1>', lambda event: self.focus_type_1("ON"))
        self.btn_ms_1.bind('<ButtonRelease-1>', lambda event: self.focus_type_1("OFF"))

        self.btn_tilt_up_1.bind('<ButtonPress-1>', lambda event: self.tilt_move_1("-"))
        self.btn_tilt_up_1.bind('<ButtonRelease-1>', lambda event: self.tilt_move_1("0"))
        self.btn_tilt_down_1.bind('<ButtonPress-1>', lambda event: self.tilt_move_1("+"))
        self.btn_tilt_down_1.bind('<ButtonRelease-1>', lambda event: self.tilt_move_1("0"))
        self.btn_pan_right_1.bind('<ButtonPress-1>', lambda event: self.pan_move_1("R"))
        self.btn_pan_right_1.bind('<ButtonRelease-1>', lambda event: self.pan_move_1("0"))
        self.btn_pan_left_1.bind('<ButtonPress-1>', lambda event: self.pan_move_1("L"))
        self.btn_pan_left_1.bind('<ButtonRelease-1>', lambda event: self.pan_move_1("0"))

        # Connect to Phidget Devices for Overview Camera
        self.power_2 = DigitalOutput()
        self.power_2.setDeviceSerialNumber(HUB2)
        self.power_2.setIsHubPortDevice(False)
        self.power_2.setHubPort(1)
        self.power_2.setChannel(0)
        try:
            self.power_2.openWaitForAttachment(1000)
        except PhidgetException as e:
            print("Failed to open (CAM POWER): " + e.details)

        self.manual_select_2 = DigitalOutput()
        self.manual_select_2.setDeviceSerialNumber(HUB2)
        self.manual_select_2.setIsHubPortDevice(False)
        self.manual_select_2.setHubPort(1)
        self.manual_select_2.setChannel(1)
        try:
            self.manual_select_2.openWaitForAttachment(1000)
        except PhidgetException as e:
            print("Failed to open (Manual Select): " + e.details)

        self.near_2 = DigitalOutput()
        self.near_2.setDeviceSerialNumber(HUB2)
        self.near_2.setIsHubPortDevice(False)
        self.near_2.setHubPort(1)
        self.near_2.setChannel(2)
        try:
            self.near_2.openWaitForAttachment(1000)
        except PhidgetException as e:
            print("Failed to open (NEAR): " + e.details)

        self.far_2 = DigitalOutput()
        self.far_2.setDeviceSerialNumber(HUB2)
        self.far_2.setIsHubPortDevice(False)
        self.far_2.setHubPort(1)
        self.far_2.setChannel(3)
        try:
            self.far_2.openWaitForAttachment(1000)
        except PhidgetException as e:
            print("Failed to open (FAR): " + e.details)

        self.wide_2 = DigitalOutput()
        self.wide_2.setDeviceSerialNumber(HUB2)
        self.wide_2.setIsHubPortDevice(False)
        self.wide_2.setHubPort(1)
        self.wide_2.setChannel(4)
        try:
            self.wide_2.openWaitForAttachment(1000)
        except PhidgetException as e:
            print("Failed to open (WIDE): " + e.details)

        self.tele_2 = DigitalOutput()
        self.tele_2.setDeviceSerialNumber(HUB2)
        self.tele_2.setIsHubPortDevice(False)
        self.tele_2.setHubPort(1)
        self.tele_2.setChannel(5)
        try:
            self.tele_2.openWaitForAttachment(1000)
        except PhidgetException as e:
            print("Failed to open (TELE): " + e.details)

        self.left_light_2 = VoltageOutput()
        self.left_light_2.setDeviceSerialNumber(HUB2)
        self.left_light_2.setIsHubPortDevice(False)
        self.left_light_2.setHubPort(2)
        self.left_light_2.setChannel(0)
        try:
            self.left_light_2.openWaitForAttachment(1000)
        except PhidgetException as e:
            print("Failed to open (LEFT LIGHT): " + e.details)

        self.right_light_2 = VoltageOutput()
        self.right_light_2.setDeviceSerialNumber(HUB2)
        self.right_light_2.setIsHubPortDevice(False)
        self.right_light_2.setHubPort(3)
        self.right_light_2.setChannel(0)
        try:
            self.right_light_2.openWaitForAttachment(1000)
        except PhidgetException as e:
            print("Failed to open (RIGHT LIGHT): " + e.details)

        self.pan_2 = VoltageOutput()
        self.pan_2.setDeviceSerialNumber(HUB2)
        self.pan_2.setIsHubPortDevice(False)
        self.pan_2.setHubPort(5)
        self.pan_2.setChannel(0)
        try:
            self.pan_2.openWaitForAttachment(1000)
        except PhidgetException as e:
            print("Failed to open (PAN): " + e.details)

        self.tilt_2 = VoltageOutput()
        self.tilt_2.setDeviceSerialNumber(HUB2)
        self.tilt_2.setIsHubPortDevice(False)
        self.tilt_2.setHubPort(4)
        self.tilt_2.setChannel(0)
        try:
            self.tilt_2.openWaitForAttachment(1000)
        except PhidgetException as e:
            print("Failed to open (TILT): " + e.details)
Exemplo n.º 25
0
class PneumaticFrame2:
    def __init__(self, master, initial_name, top_name, color, sol, reg_pwr,
                 reg_set, reg_get, PSI):
        self.frame = Frame(master, borderwidth=2, relief=SUNKEN, bg=color)
        self.frame.pack()
        self.master = master
        self.frame_name = StringVar()
        self.frame_name.set(initial_name)
        self.state = 0
        self.fontType = "Comic Sans"
        self.activeColor = 'SpringGreen4'
        self.frameColor = color

        self.pressure = IntVar()
        self.lock_flag = IntVar()
        self.pressure.set("")

        self.power = Button(self.frame,
                            text="PWR",
                            activebackground=self.activeColor,
                            command=lambda: self.toggle_pwr())
        self.set_label = Button(self.frame,
                                text="SET LABEL",
                                font=(self.fontType, 7),
                                command=lambda: self.get_label_input())
        self.observed_pressure = Entry(self.frame,
                                       width=5,
                                       state="readonly",
                                       textvariable=self.pressure)
        if self.frame_name.get() == "Hydro":
            self.set_pressure_scale = Scale(self.frame,
                                            orient=HORIZONTAL,
                                            from_=0,
                                            to=92,
                                            resolution=0.5,
                                            bg=color,
                                            label="Set Pressure (PSI)",
                                            highlightthickness=0,
                                            command=self.set_pressure)
        else:
            self.set_pressure_scale = Scale(self.frame,
                                            orient=HORIZONTAL,
                                            from_=0,
                                            to=50,
                                            resolution=0.5,
                                            bg=color,
                                            label="Set Pressure (PSI)",
                                            highlightthickness=0,
                                            command=self.set_pressure)
        self.custom_label = Label(self.frame,
                                  textvariable=self.frame_name,
                                  font=(self.fontType, 14),
                                  bg=color)
        self.label = Label(self.frame, text=initial_name, bg=color)
        self.lock = Checkbutton(self.frame,
                                text="LOCK",
                                bg=color,
                                variable=self.lock_flag,
                                command=self.lock)
        self.frame_name.set(top_name)

        # Init the pressure scale to the default value.
        self.set_pressure_scale.set(PSI)
        # Lock hydo at startup
        if initial_name == "Hydro":
            self.lock.select()
            self.set_pressure_scale.config(state="disabled")
            self.power.config(state="disable")

        self.frame.rowconfigure(0, minsize=30)
        self.custom_label.grid(row=0, column=0, columnspan=2, sticky=S)
        self.set_label.grid(column=0, row=1, columnspan=2)
        self.frame.rowconfigure(2, minsize=50)
        self.power.grid(column=0, row=2)
        self.observed_pressure.grid(column=1, row=2)
        self.set_pressure_scale.grid(column=0, row=3, columnspan=2, padx=20)
        self.frame.rowconfigure(4, minsize=5)
        self.label.grid(column=0, row=5)
        self.lock.grid(column=1, row=5)

        # Connect to Phidget Solid State Relay for solinoid control
        if self.frame_name.get() == "Hydro":
            self.solenoid_switch = DigitalOutput()
            self.solenoid_switch.setDeviceSerialNumber(sol[0])
            self.solenoid_switch.setIsHubPortDevice(False)
            self.solenoid_switch.setHubPort(sol[1])
            self.solenoid_switch.setChannel(sol[2])
            self.solenoid_switch.openWaitForAttachment(5000)

        #Connect to Phidget Solid State Relay for regulator power control
        self.reg_switch = DigitalOutput()
        self.reg_switch.setDeviceSerialNumber(reg_pwr[0])
        self.reg_switch.setIsHubPortDevice(False)
        self.reg_switch.setHubPort(reg_pwr[1])
        self.reg_switch.setChannel(reg_pwr[2])
        self.reg_switch.openWaitForAttachment(5000)

        #Connect to Phidget Voltage Ouptut for pressure control
        self.pressure_ctrl = VoltageOutput()
        self.pressure_ctrl.setDeviceSerialNumber(reg_set[0])
        self.pressure_ctrl.setIsHubPortDevice(False)
        self.pressure_ctrl.setHubPort(reg_set[1])
        self.pressure_ctrl.setChannel(reg_set[2])
        self.pressure_ctrl.openWaitForAttachment(5000)

        #Connect to Phidget Analog Input for pressure reading
        self.pressure_reading = VoltageRatioInput()
        self.pressure_reading.setDeviceSerialNumber(reg_get[0])

        #One of the VINT Hubs on the SBC is used and needs special configuration
        if reg_get[0] == SBCH:
            self.pressure_reading.setIsHubPortDevice(True)
            self.pressure_reading.setHubPort(0)

        self.pressure_reading.setChannel(reg_get[1])
        self.pressure_reading.openWaitForAttachment(5000)

    def toggle_pwr(self):
        #Turn on air channel
        if self.state == 0:
            #Turn on power to regulator and show active button color
            self.power.config(bg=self.activeColor)
            self.reg_switch.setState(True)
            if self.frame_name.get() == "Hydro":
                self.solenoid_switch.setState(True)

            #Start monitoring air pressure
            self.update_pressure()

            #Change state of air channel
            self.state = 1

        #Turn off air channel
        elif self.state == 1:
            remember_state = self.set_pressure_scale.get()
            if self.frame_name.get() != "Hydro":
                messagebox.showinfo(
                    self.frame_name.get() + " Warning",
                    "Pressure will be set to zero. Acknowledge that " +
                    self.frame_name.get() + " is in a safe configuration")

            # Change pressure to zero
            self.set_pressure_scale.set(0)
            self.set_pressure(0)
            time.sleep(0.5)
            self.frame.update()
            self.reg_switch.setState(False)
            time.sleep(0.5)
            self.set_pressure_scale.set(remember_state)
            if self.frame_name.get() == "Hydro":
                self.solenoid_switch.setState(False)
                self.lock.select()
                self.set_pressure_scale.config(state="disabled")
                self.power.config(state="disable")

            #Turn off power to reguluator and remove active button color
            self.power.config(bg="SystemButtonFace")

            #Update air channel state
            self.state = 0

    def get_label_input(self):
        self.window = popupWindow(self.master)
        self.set_label.config(state=DISABLED)
        self.master.wait_window(self.window.top)
        self.set_label.config(state=NORMAL)

        #If the user does not enter a value exception will be produced
        try:
            if len(self.window.value) > 12:
                self.frame_name.set("SET ERROR")
            else:
                self.frame_name.set(self.window.value)
        except:
            self.frame_name.set("SET ERROR")

    def set_pressure(self, val):
        # Pressure Range
        range = MAXPR - MINPR
        # Calculate volts/PSI
        ratio = 5 / range
        self.pressure_ctrl.setVoltage(float(val) * ratio)

    def update_pressure(self):
        if self.reg_switch.getState():
            try:
                val = float(self.pressure_reading.getSensorValue())
                PSI = val * 165.63 - 30.855
                PSI = round(PSI, 2)
                self.pressure.set(PSI)
                #Low pressure check
                if PSI < (self.set_pressure_scale.get() - 3):
                    if self.frame.cget('bg') == "Red":
                        self.frame.config(bg=self.frameColor)
                        self.set_pressure_scale.config(bg=self.frameColor)
                        self.custom_label.config(bg=self.frameColor)
                        self.label.config(bg=self.frameColor)
                        self.lock.config(bg=self.frameColor)
                    else:
                        self.frame.config(bg='Red')
                        self.set_pressure_scale.config(bg="Red")
                        self.custom_label.config(bg="Red")
                        self.label.config(bg="Red")
                        self.lock.config(bg="Red")
                if PSI > (self.set_pressure_scale.get() - 3):
                    if self.frame.cget('bg') == "Red":
                        self.frame.config(bg=self.frameColor)
                        self.set_pressure_scale.config(bg=self.frameColor)
                        self.custom_label.config(bg=self.frameColor)
                        self.label.config(bg=self.frameColor)
                        self.lock.config(bg=self.frameColor)
            except:
                print("Init Air Pressure")
            root.after(200, self.update_pressure)
        else:
            self.pressure.set("")

    def lock(self):
        if self.lock_flag.get() == True:
            self.set_pressure_scale.config(state="disabled")
            self.power.config(state="disable")
        elif self.lock_flag.get() == False:
            self.set_pressure_scale.config(state="normal")
            self.power.config(state="normal")
Exemplo n.º 26
0
def open_menu():
    wait = 0.15
    for x in range(3):
        set("ON")
        time.sleep(wait)
        set("OFF")
        time.sleep(wait)
    zoom("+")
    time.sleep(wait)
    zoom("0")

#Line required to look for Phidget devices on the network
Net.enableServerDiscovery(PhidgetServerType.PHIDGETSERVER_DEVICEREMOTE)

#Setup Power Button
power = DigitalOutput()
power.setDeviceSerialNumber(540047)
power.setIsHubPortDevice(False)
power.setHubPort(1)
power.setChannel(3)
power.openWaitForAttachment(5000)

#Setup Focus, Zoom, and Manual Select:
focus_enable = DigitalOutput()
focus_enable.setDeviceSerialNumber(540047)
focus_enable.setIsHubPortDevice(False)
focus_enable.setHubPort(HUB_FOCUS_ENABLE)
focus_enable.setChannel(CH_FOCUS_ENABLE)
focus_enable.openWaitForAttachment(5000)

focus_select = DigitalOutput()
Exemplo n.º 27
0
#Open the channel
try:
    userMotor.openWaitForAttachment(5000)
    randomMotor.openWaitForAttachment(5000)
except PhidgetException as e:
    print("Phidget Exception %i: %s" % (e.code, e.details))

#Set both motors to a default position
randomMotor.setTargetPosition(90)
randomMotor.setEngaged(True)
userMotor.setTargetPosition(90)
userMotor.setEngaged(True)

#Create a led object
try:
    LED = DigitalOutput()
except RuntimeError as e:
    print("Runtime Error: %s" % e.message)
try:
    LED.setDeviceSerialNumber(437969)
except PhidgetException as e:
    print("Phidget Exception %i: %s" % (e.code, e.details))


def onAttachHandler(e):
    print("Phidget attached!")


LED.setOnAttachHandler(onAttachHandler)
LED.setChannel(0)
LED.openWaitForAttachment(5000)
Exemplo n.º 28
0
class PopperPump:
    def __init__(self, serial_num):
        logging.debug("Opening Phidget")
        self.popper_pump = DigitalOutput()
        self.popper_pump.setChannel(0)
        self.popper_pump.setDeviceSerialNumber(serial_num)
        self.popper_pump.openWaitForAttachment(5000)

        self.program_lock = threading.Lock()
        self.program_queue = queue.Queue()
        self.run_time = runMin
        self.sleep_time = sleepMin

        # Required for Kontroller
        self.kontrol = None
        self.channel = None

    def close(self):
        logging.debug("Closing Phidget")
        self.popper_pump.close()

    def program_is_running(self):
        return self.program_lock.locked()

    def set_run(self, value):
        if self.run_time != value:
            self.run_time = value
            logging.debug(f'PopperPump run time set to {value} seconds')

    def set_sleep(self, value):
        if self.sleep_time != value:
            self.sleep_time = value
            logging.debug(f'PopperPump sleep time set to {value} seconds')

    def start_program(self):
        threading.Thread(target=self._program, daemon=True).start()

    def stop_program(self):
        self.program_queue.put("stop")

    # Private Functions
    def _program(self):
        if not self.program_lock.acquire(False):
            logging.warning("popperpump program already running")
        else:
            logging.info("starting popperpump program")
            try:
                while True:
                    self.popper_pump.setDutyCycle(1)
                    self.kontrol.k_led_on(self.channel, 's')
                    try:
                        msg = self.program_queue.get(timeout=self.run_time)
                        # Message Received
                        self.popper_pump.setDutyCycle(0)
                        self.kontrol.k_led_off(self.channel, 's')
                        return
                    except queue.Empty:
                        pass

                    self.popper_pump.setDutyCycle(0)
                    self.kontrol.k_led_off(self.channel, 's')
                    try:
                        msg = self.program_queue.get(timeout=self.sleep_time)
                        # Message Received
                        self.popper_pump.setDutyCycle(0)
                        self.kontrol.k_led_off(self.channel, 's')
                        return
                    except queue.Empty:
                        pass
            finally:
                logging.info("popperpump program stopped")
                self.program_lock.release()

    # Kontrol Functions
    def k_attach(self, channel, k: Kontrol2):
        if self.kontrol is None:
            self.kontrol = k
            self.channel = channel
            logging.debug(f'PopperPump attached on channel {channel}')
        else:
            raise KontrolAlreadyAttachedError(
                f'cannot attach to channel {channel} already attached to {self.channel}'
            )

    def k_button_down(
        self,
        button,
    ):
        if self.kontrol is not None:
            if button == 'r':
                if self.program_is_running():
                    self.stop_program()
                    self.kontrol.k_led_off(self.channel, 'r')
                else:
                    self.start_program()
                    self.kontrol.k_led_on(self.channel, 'r')
        else:
            raise KontrolNotAttachedError(
                f'PopperPump not attached to Kontroller')

    def k_button_up(self, button):
        if self.kontrol is not None:
            pass  # Unused
        else:
            raise KontrolNotAttachedError(
                f'PopperPump not attached to Kontroller')

    def k_knob(self, level):
        if self.kontrol is not None:
            scale_level = int(util.scale(level, (0, 127),
                                         (sleepMin, sleepMax)))
            self.set_sleep(scale_level)
        else:
            raise KontrolNotAttachedError(
                f'PopperPump not attached to Kontroller')

    def k_slider(self, level):
        if self.kontrol is not None:
            scale_level = int(util.scale(level, (0, 127), (runMin, runMax)))
            self.set_run(scale_level)
        else:
            raise KontrolNotAttachedError(
                f'PopperPump not attached to Kontroller')
Exemplo n.º 29
0
def init_interface(interfaceKit_serial, hubPort, isHubPortDevice):

    if with_interface:

        try:

            print("Connecting Output Channels (%s): %s" %
                  (interfaceKit_serial, output_channels))
            for ich, this_channel in enumerate(output_channels):
                print("... %s: %s" % (ich, this_channel))
                ch = DigitalOutput()
                ch.setDeviceSerialNumber(interfaceKit_serial)

                ch.setHubPort(hubPort)
                ch.setIsHubPortDevice(isHubPortDevice)
                ch.setChannel(df_params.loc[1, this_channel])
                ch.setOnAttachHandler(onAttachHandler)
                ch.setOnDetachHandler(onDetachHandler)
                ch.setOnErrorHandler(onErrorHandler)

                ch.openWaitForAttachment(5000)

                interfaceKit_output[ich] = ch

                interfaceKit_output[ich].setState(False)  #init off

            print("Connecting Input Channels %s: %s" %
                  (interfaceKit_serial, input_channels))
            for ich, this_channel in enumerate(input_channels):

                ch = DigitalInput()

                if ich == 1:  # 'input_zLimitSwitch', 'input_fLimitSwitch']
                    ch.linkedOutput = f_stepper
                    ch.linkedOutput.setOnPositionChangeHandler(
                        fpositionChangeHandler)
                    ch.setOnStateChangeHandler(fonStateChangeHandler)
                else:
                    ch.linkedOutput = z_stepper
                    ch.linkedOutput.setOnPositionChangeHandler(
                        zpositionChangeHandler)
                    ch.setOnStateChangeHandler(zonStateChangeHandler)

                ch.setDeviceSerialNumber(interfaceKit_serial)
                ch.setHubPort(hubPort)
                ch.setIsHubPortDevice(isHubPortDevice)
                ch.setChannel(df_params.loc[1, this_channel])
                ch.setOnAttachHandler(onAttachHandler)
                ch.setOnDetachHandler(onDetachHandler)
                ch.setOnErrorHandler(onErrorHandler)

                ch.openWaitForAttachment(5000)

                interfaceKit_input[ich] = ch

        except PhidgetException as e:
            print("Attachment Terminated: Open Failed", e)
            print("Cleaning up...")
            for ch in interfaceKit_output:
                ch.close()
            return False
        except RuntimeError as e:
            print("Attachment Terminated: RunTimeError", e)
            sys.stderr.write("Runtime Error: \t")
            return False

    return [interfaceKit_output, interfaceKit_input]
Exemplo n.º 30
0
class PhidgetController:
    def __init__(self, channel: int):
        self.io = DigitalOutput()
        self.queue = asyncio.Queue()
        self._io_handler_task: Optional[asyncio.Task] = None

        # Set addressing parameters to specify which channel to open (if any)
        self.io.setChannel(channel)
        # Assign any event handlers you need before calling open so that no events are missed.
        self.io.setOnAttachHandler(self.onAttach)
        self.io.setOnDetachHandler(self.onDetach)
        self.io.setOnErrorHandler(self.onError)
        # Open your Phidgets and wait for attachment
        self.io.openWaitForAttachment(5000)

    async def start(self):
        try:
            while True:
                command = await self.queue.get()
                if self._io_handler_task:
                    self._io_handler_task.cancel()
                if command["mode"] == "end":
                    break
                self._io_handler_task = asyncio.get_event_loop().create_task(
                    self._io_handler(command))
        finally:
            print("Closing phidget")
            try:
                self.io.setDutyCycle(0)
                self.io.close()
            except PhidgetException:
                print("device not connected")
            # if self._io_handler_task:
            #     self._io_handler_task.cancel()

    async def _io_handler(self, command: dict):
        print(command)
        try:
            if command["mode"] == "wave":
                phase_s = (1 / command["frequency_hz"]) / 2
                while True:
                    self.io.setDutyCycle(0)
                    await asyncio.sleep(phase_s)
                    self.io.setDutyCycle(1)
                    await asyncio.sleep(phase_s)
            if command["mode"] == "pwm":
                period_s = 1 / command["frequency_hz"]
                on_phase_s = command["duty_cycle"] * period_s
                off_phase_s = period_s - on_phase_s
                while True:
                    self.io.setDutyCycle(0)
                    await asyncio.sleep(on_phase_s)
                    self.io.setDutyCycle(1)
                    await asyncio.sleep(off_phase_s)
            if command["mode"] == "off":
                self.io.setDutyCycle(0)
                while True:
                    await asyncio.sleep(3600)
            if command["mode"] == "on":
                self.io.setDutyCycle(1)
                while True:
                    await asyncio.sleep(3600)
        except asyncio.CancelledError:
            pass

    @staticmethod
    def onAttach(io):
        print("Attach [" + str(io.getChannel()) + "]!")

    @staticmethod
    def onDetach(io):
        print("Detach [" + str(io.getChannel()) + "]!")

    @staticmethod
    def onError(io, code, description):
        print("Code [" + str(io.getChannel()) + "]: " +
              ErrorEventCode.getName(code))
        print("Description [" + str(io.getChannel()) + "]: " +
              str(description))
        print("----------")