Ejemplo n.º 1
0
def zero(channel):
    gf.zero(channel)
    # Change 'Zeroed' indicator color
    if channel == 1:
        app.btnZeroed1.config(bg="#1cb251")
    elif (channel == 2):
        app.btnZeroed2.config(bg="#1cb251")
    elif (channel == 3):
        app.btnZeroed3.config(bg="#1cb251")
Ejemplo n.º 2
0
def closeMode(channel):
    gf.closeLoop(channel)
    # Change calling button's color to show what mode the piezo controller is in.
    # #1cb251 is a darkish green
    if channel == 1:
        app.btnOLoop1.config(bg="gray")
        app.btnCLoop1.config(bg="#1cb251")
    elif channel == 2:
        app.btnOLoop2.config(bg="gray")
        app.btnCLoop2.config(bg="#1cb251")
    elif channel == 3:
        app.btnOLoop3.config(bg="gray")
        app.btnCLoop3.config(bg="#1cb251")
Ejemplo n.º 3
0
def updatePosition():
    position_um = gf.getPosition()
    # The round function is rounding to the nearest thousandth.
    app.txtPos1.delete(0, Tkinter.END)
    app.txtPos1.insert(0, str(round(position_um[0], 3)))
    app.txtPos2.delete(0, Tkinter.END)
    app.txtPos2.insert(0, str(round(position_um[1], 3)))
    app.txtPos3.delete(0, Tkinter.END)
    app.txtPos3.insert(0, str(round(position_um[2], 3)))
    #print position_um[0]
    app.after(200, updatePosition)
Ejemplo n.º 4
0
# Imports for plotting path
import matplotlib as mpl
from mpl_toolkits.mplot3d import Axes3D
import matplotlib.pyplot as plt

#def sphere(x):
#    print x[0]
#    print x[1]
#    print x[2]
#    print ""
#    return sum((x[0:])**2.0)
#def rosen(x):
#    return sum(100.0*(x[1:]-x[:-1]**2.0)**2.0 + (1-x[:-1])**2.0)
#bnds = ((2,5),(-2,0))
x0 = numpy.array([10, 10])
gf.connect()
sleep(3)  # Gives piezo enough time to initialize
res = minimize(daq.J,
               x0,
               method='nelder-mead',
               options={
                   'xatol': 0.2,
                   'fatol': 10,
                   'disp': True
               })
print(res.x)
course = daq.getPath()

# Plot the course
fig = plt.figure()
ax = fig.gca(projection='3d')
Ejemplo n.º 5
0
def setTarget3():
    position = float(app.txtTarget3.get())
    gf.setPosition(position, 3)
    app.txtTarget3.delete(0, Tkinter.END)
    app.txtTarget3.insert(0, "")
Ejemplo n.º 6
0
def down(step, channel):
    step = float(step)
    gf.stepDown(step, channel)
Ejemplo n.º 7
0
def up(step, channel):
    step = float(step)
    gf.stepUp(step, channel)
Ejemplo n.º 8
0
def on_closing():
    gf.disconnect()
    app.destroy()
    print "NOTE: \nUntil a bug fix is found, please use the key combination \"Ctrl + C\" to terminate the program.\n"
Ejemplo n.º 9
0
 def initialize(self):
     self.grid()
     # CHANNEL LABELS
     # Channel 1 label
     self.lblCh1 = Tkinter.Label(self, text="Ch 1:")
     self.lblCh1.grid(column=0, row=0, rowspan=2, sticky='EW')
     # Channel 2 Label
     self.lblCh2 = Tkinter.Label(self, text="Ch 2:")
     self.lblCh2.grid(column=0, row=2, rowspan=2, sticky='EW')
     # Channel 3 Label
     self.lblCh3 = Tkinter.Label(self, text="Ch 3:")
     self.lblCh3.grid(column=0, row=4, rowspan=2, sticky='EW')
     # IDENT BUTTONS
     # Chanel 1 IDENT
     self.btnId1 = Tkinter.Button(self,
                                  text="IDENT",
                                  bg="#f4a641",
                                  command=lambda: gf.identify(1))
     self.btnId1.grid(column=1, row=0, rowspan=2, sticky='EW')
     # Chanel 2 IDENT
     self.btnId2 = Tkinter.Button(self,
                                  text="IDENT",
                                  bg="#f4a641",
                                  command=lambda: gf.identify(2))
     self.btnId2.grid(column=1, row=2, rowspan=2, sticky='EW')
     # Chanel 3 IDENT
     self.btnId3 = Tkinter.Button(self,
                                  text="IDENT",
                                  bg="#f4a641",
                                  command=lambda: gf.identify(3))
     self.btnId3.grid(column=1, row=4, rowspan=2, sticky='EW')
     # POSITION DISPLAY
     # Chanel 1 Position
     self.frmPos1 = Tkinter.Frame(self)
     self.frmPos1.grid(column=2, row=0, rowspan=2, sticky='EW')
     self.grpPos1 = Tkinter.LabelFrame(self.frmPos1,
                                       text="Position (um)",
                                       padx=5,
                                       pady=5)
     self.grpPos1.grid(column=0, row=0, sticky='EW')
     self.txtPos1 = Tkinter.Entry(self.grpPos1, text="this")
     self.txtPos1.grid(column=0, row=0, sticky='EW')
     # Chanel 2 Position
     self.frmPos2 = Tkinter.Frame(self)
     self.frmPos2.grid(column=2, row=2, rowspan=2, sticky='EW')
     self.grpPos2 = Tkinter.LabelFrame(self.frmPos2,
                                       text="Position (um)",
                                       padx=5,
                                       pady=5)
     self.grpPos2.grid(column=0, row=0, sticky='EW')
     self.txtPos2 = Tkinter.Entry(self.grpPos2)
     self.txtPos2.grid(column=0, row=0, sticky='EW')
     # Chanel 3 Position
     self.frmPos3 = Tkinter.Frame(self)
     self.frmPos3.grid(column=2, row=4, rowspan=2, sticky='EW')
     self.grpPos3 = Tkinter.LabelFrame(self.frmPos3,
                                       text="Position (um)",
                                       padx=5,
                                       pady=5)
     self.grpPos3.grid(column=0, row=0, sticky='EW')
     self.txtPos3 = Tkinter.Entry(self.grpPos3)
     self.txtPos3.grid(column=0, row=0, sticky='EW')
     # LOOP MODE BUTTONS
     # Chanel 1 Mode
     self.btnOLoop1 = Tkinter.Button(
         self, text="Open Loop", bg="gray",
         command=lambda: openMode(1))  #gf.openLoop1)
     self.btnOLoop1.grid(column=3, row=0, sticky='SEW')
     self.btnCLoop1 = Tkinter.Button(
         self,
         text="Closed Loop",
         bg="#1cb251",
         command=lambda: closeMode(1))  #gf.closeLoop1)
     self.btnCLoop1.grid(column=3, row=1, sticky='NEW')
     # Chanel 2 Mode
     self.btnOLoop2 = Tkinter.Button(self,
                                     text="Open Loop",
                                     bg="gray",
                                     command=lambda: openMode(2))
     self.btnOLoop2.grid(column=3, row=2, sticky='SEW')
     self.btnCLoop2 = Tkinter.Button(self,
                                     text="Closed Loop",
                                     bg="#1cb251",
                                     command=lambda: closeMode(2))
     self.btnCLoop2.grid(column=3, row=3, sticky='NEW')
     # Chanel 3 Mode
     self.btnOLoop3 = Tkinter.Button(self,
                                     text="Open Loop",
                                     bg="gray",
                                     command=lambda: openMode(3))
     self.btnOLoop3.grid(column=3, row=4, sticky='SEW')
     self.btnCLoop3 = Tkinter.Button(self,
                                     text="Closed Loop",
                                     bg="#1cb251",
                                     command=lambda: closeMode(3))
     self.btnCLoop3.grid(column=3, row=5, sticky='NEW')
     # TARGET VALUE TEXT BOX
     # Chanel 1 Target
     self.lblInfo1 = Tkinter.Label(self, text="Range 0.0 to 20 um")
     self.lblInfo1.grid(column=4, row=0, sticky='SEW')
     self.txtTarget1 = Tkinter.Entry(self)
     self.txtTarget1.bind("<Return>", setTargetEvent1)
     self.txtTarget1.grid(column=4, row=1, sticky='NEW')
     # Chanel 2 Target
     self.lblInfo2 = Tkinter.Label(self, text="Range 0.0 to 20 um")
     self.lblInfo2.grid(column=4, row=2, sticky='SEW')
     self.txtTarget2 = Tkinter.Entry(self)
     self.txtTarget2.bind("<Return>", setTargetEvent2)
     self.txtTarget2.grid(column=4, row=3, sticky='NEW')
     # Chanel 3 Target
     self.lblInfo3 = Tkinter.Label(self, text="Range 0.0 to 20 um")
     self.lblInfo3.grid(column=4, row=4, sticky='SEW')
     self.txtTarget3 = Tkinter.Entry(self)
     self.txtTarget3.bind("<Return>", setTargetEvent3)
     self.txtTarget3.grid(column=4, row=5, sticky='NEW')
     # SET TARGET BUTTON
     # Chanel 1 Set Button
     self.btnSetTarget1 = Tkinter.Button(self,
                                         text="SET TARGET",
                                         bg="#4286f4",
                                         command=setTarget1)
     self.btnSetTarget1.grid(column=5, row=0, rowspan=2, sticky='EW')
     # Chanel 2 Set Button
     self.btnSetTarget2 = Tkinter.Button(self,
                                         text="SET TARGET",
                                         bg="#4286f4",
                                         command=setTarget2)
     self.btnSetTarget2.grid(column=5, row=2, rowspan=2, sticky='EW')
     # Chanel 3 Set Button
     self.btnSetTarget3 = Tkinter.Button(self,
                                         text="SET TARGET",
                                         bg="#4286f4",
                                         command=setTarget3)
     self.btnSetTarget3.grid(column=5, row=4, rowspan=2, sticky='EW')
     # STEP SIZE LABEL
     # Chanel 1 Label
     self.lblStepSize1 = Tkinter.Label(self, text="STEP\nSIZE")
     self.lblStepSize1.grid(column=6, row=0, rowspan=2, sticky='EW')
     # Chanel 2 Label
     self.lblStepSize2 = Tkinter.Label(self, text="STEP\nSIZE")
     self.lblStepSize2.grid(column=6, row=2, rowspan=2, sticky='EW')
     # Chanel 3 Label
     self.lblStepSize3 = Tkinter.Label(self, text="STEP\nSIZE")
     self.lblStepSize3.grid(column=6, row=4, rowspan=2, sticky='EW')
     # STEP VALUE TEXT BOX
     # Chanel 1 Step
     self.lblStepInfo1 = Tkinter.Label(self, text="Range 0.005 to 20 um")
     self.lblStepInfo1.grid(column=7, row=0, sticky='SEW')
     self.txtStepVal1 = Tkinter.Spinbox(self,
                                        from_=.005,
                                        to=7.5,
                                        increment=.005)
     self.txtStepVal1.grid(column=7, row=1, sticky='NEW')
     # Chanel 2 Step
     self.lblStepInfo2 = Tkinter.Label(self, text="Range 0.005 to 20 um")
     self.lblStepInfo2.grid(column=7, row=2, sticky='SEW')
     self.txtStepVal2 = Tkinter.Spinbox(self,
                                        from_=.005,
                                        to=7.5,
                                        increment=.005)
     self.txtStepVal2.grid(column=7, row=3, sticky='NEW')
     # Chanel 3 Step
     self.lblStepInfo3 = Tkinter.Label(self, text="Range 0.005 to 20 um")
     self.lblStepInfo3.grid(column=7, row=4, sticky='SEW')
     self.txtStepVal3 = Tkinter.Spinbox(self,
                                        from_=.005,
                                        to=7.5,
                                        increment=.005)
     self.txtStepVal3.grid(column=7, row=5, sticky='NEW')
     # STEP BUTTONS
     # Chanel 1 Mode
     self.btnStepUp1 = Tkinter.Button(
         self,
         text="UP",
         bg="#1cb251",
         command=lambda: up(self.txtStepVal1.get(), 1))
     self.btnStepUp1.grid(column=8, row=0, sticky='SEW')
     self.btnStepDown1 = Tkinter.Button(
         self,
         text="DOWN",
         bg="#d83e3e",
         command=lambda: down(self.txtStepVal1.get(), 1))
     self.btnStepDown1.grid(column=8, row=1, sticky='NEW')
     # Chanel 2 Mode
     self.btnStepUp2 = Tkinter.Button(
         self,
         text="UP",
         bg="#1cb251",
         command=lambda: up(self.txtStepVal2.get(), 2))
     self.btnStepUp2.grid(column=8, row=2, sticky='SEW')
     self.btnStepDown2 = Tkinter.Button(
         self,
         text="DOWN",
         bg="#d83e3e",
         command=lambda: down(self.txtStepVal2.get(), 2))
     self.btnStepDown2.grid(column=8, row=3, sticky='NEW')
     # Chanel 3 Mode
     self.btnStepUp3 = Tkinter.Button(
         self,
         text="UP",
         bg="#1cb251",
         command=lambda: up(self.txtStepVal3.get(), 3))
     self.btnStepUp3.grid(column=8, row=4, sticky='SEW')
     self.btnStepDown3 = Tkinter.Button(
         self,
         text="DOWN",
         bg="#d83e3e",
         command=lambda: down(self.txtStepVal3.get(), 3))
     self.btnStepDown3.grid(column=8, row=5, sticky='NEW')
     # ZERO BUTTONS
     # Chanel 1 Zeroes
     self.btnZero1 = Tkinter.Button(self,
                                    text="Zero",
                                    command=lambda: zero(1))
     self.btnZero1.grid(column=9, row=0, sticky='SEW')
     self.btnZeroed1 = Tkinter.Button(self,
                                      text="Zeroed",
                                      bg="#1cb251",
                                      state="disabled")  #bg="gray"
     self.btnZeroed1.grid(column=9, row=1, sticky='NEW')
     # Chanel 2 Zeroes
     self.btnZero2 = Tkinter.Button(self,
                                    text="Zero",
                                    command=lambda: zero(2))
     self.btnZero2.grid(column=9, row=2, sticky='SEW')
     self.btnZeroed2 = Tkinter.Button(self,
                                      text="Zeroed",
                                      bg="#1cb251",
                                      state="disabled")  #bg="gray"
     self.btnZeroed2.grid(column=9, row=3, sticky='NEW')
     # Chanel 3 Zeroes
     self.btnZero3 = Tkinter.Button(self,
                                    text="Zero",
                                    command=lambda: zero(3))
     self.btnZero3.grid(column=9, row=4, sticky='SEW')
     self.btnZeroed3 = Tkinter.Button(self,
                                      text="Zeroed",
                                      bg="#1cb251",
                                      state="disabled")  #bg="gray"
     self.btnZeroed3.grid(column=9, row=5, sticky='NEW')
     # STATUS BAR
     self.statusLbl = Tkinter.Label(self, text="STATUS:")
     self.statusLbl.grid(column=1, row=6, sticky='W')
     self.status = Tkinter.Label(self, text="READY")
     self.status.grid(column=2, row=6, sticky='EW')
     # OPEN GRAPH BUTTON
     self.oscopeBtn = Tkinter.Button(self,
                                     text="Start Oscilloscope",
                                     command=lambda: openScope(self))
     self.oscopeBtn.grid(column=3, row=6, sticky='EW')
     # GRAPH
     self.fig = plt.figure()
     self.ax1 = self.fig.add_subplot(1, 1, 1)
     #self.ani = animation.FuncAnimation(self.fig, animate, interval=20)
     self.canvas = FigureCanvasTkAgg(self.fig, self)
     self.canvas.draw()
     self.canvas.get_tk_widget().grid(column=10,
                                      row=0,
                                      rowspan=7,
                                      sticky='EW')
Ejemplo n.º 10
0
 def __init__(self, parent):
     gf.connect()
     Tkinter.Tk.__init__(self, parent)
     self.parent = parent
     self.initialize()