def pick(self):
"""
Select points.
.. note:: Before selection points, a plot should
have been created from which points may
be selected.
Returns
-------
Points : List of tuples
A list of two-element tuples, holding the x and
y coordinates of the selected points.
"""
self.root.wm_title(self.windowTitle)
try:
self.canvas.show()
except AttributeError:
# Seems to be dispensable with newer (> about 3) matplotlib versions
pass
tk.mainloop()
# Prepare return value
self.points = []
for p in self.pointList:
self.points.append((p.xdata, p.ydata))
return self.points[:]
def pick(self):
"""
Select points.
.. note:: Before selection points, a plot should
have been created from which points may
be selected.
Returns
-------
Points : List of tuples
A list of two-element tuples, holding the x and
y coordinates of the selected points.
"""
self.root.wm_title(self.windowTitle)
try:
self.canvas.show()
except AttributeError:
# Seems to be dispensable with newer (> about 3) matplotlib versions
pass
tk.mainloop()
# Prepare return value
self.points = []
for p in self.pointList:
self.points.append((p.xdata, p.ydata))
return self.points[:]
def doGUI(self, hostname=None):
self.master = Tk()
self.master.title('Blessclient - MFA')
textmsg = 'Enter your AWS MFA code: '
if hostname:
textmsg = 'Enter your AWS MFA code to connect to {}: '.format(
hostname)
Label(self.master, text=textmsg).grid(row=0)
self.e1 = Entry(self.master)
self.e1.grid(row=0, column=1, padx=4)
Button(self.master,
text='OK',
command=self.show_entry_fields,
default=ACTIVE).grid(row=3, column=0, sticky=W, pady=4)
Button(self.master, text='Cancel', command=self.quit).grid(row=3,
column=1,
sticky=W,
pady=4)
self.center()
self.master.bind('<Return>', self.show_entry_fields)
self.master.lift()
self.master.attributes('-topmost', True)
self.master.focus_force()
self.e1.focus_set()
if platform.system() == 'Darwin':
# Hack to get the GUI dialog focused in OSX
# https://stackoverflow.com/questions/1892339/how-to-make-a-tkinter-window-jump-to-the-front/37235492#37235492
tmpl = 'tell application "System Events" to set frontmost of every process whose unix id is {} to true'
script = tmpl.format(os.getpid())
subprocess.check_call(['/usr/bin/osascript', '-e', script])
mainloop()
def doGUI(self, hostname=None):
self.master = Tk()
self.master.title('Blessclient - MFA')
textmsg = 'Enter your AWS MFA code: '
if hostname:
textmsg = 'Enter your AWS MFA code to connect to {}: '.format(
hostname)
Label(self.master, text=textmsg).grid(row=0)
self.e1 = Entry(self.master)
self.e1.grid(row=0, column=1, padx=4)
Button(self.master,
text='OK',
command=self.show_entry_fields,
default=ACTIVE).grid(row=3, column=0, sticky=W, pady=4)
Button(self.master, text='Cancel', command=self.quit).grid(row=3,
column=1,
sticky=W,
pady=4)
self.center()
self.master.bind('<Return>', self.show_entry_fields)
self.master.lift()
self.master.attributes('-topmost', True)
self.master.focus_force()
self.e1.focus_set()
if platform.system() == 'Darwin':
# Hack to get the GUI dialog focused in OSX
os.system(
'/usr/bin/osascript -e \'tell app "Finder" to set frontmost of process "python" to true\''
)
mainloop()
def show(self):
"""
Show the GUI.
"""
try:
self.canvas.show()
except AttributeError:
self.canvas.draw()
tk.mainloop()
def findContinuum(self):
"""
Interactively find the continuum estimate.
Returns
-------
State : dictionary
The following keys are defined:
- points: A list of two-float tuples holding the
x,y location of the selected points.
- continuum : Array holding the continuum estimate
at the given x-values.
- splineKind : A string specifying the selected
spline option.
- normalizedData : An array holding the normalized
data.
"""
self.root.wm_title(self.windowTitle)
self.canvas.show()
tk.mainloop()
return self._getState()
def findContinuum(self):
"""
Interactively find the continuum estimate.
Returns
-------
State : dictionary
The following keys are defined:
- points: A list of two-float tuples holding the
x,y location of the selected points.
- continuum : Array holding the continuum estimate
at the given x-values.
- splineKind : A string specifying the selected
spline option.
- normalizedData : An array holding the normalized
data.
"""
self.root.wm_title(self.windowTitle)
self.canvas.show()
tk.mainloop()
return self._getState()
def pick(self):
"""
Select points.
.. note:: Before selection points, a plot should
have been created from which points may
be selected.
Returns
-------
Points : List of tuples
A list of two-element tuples, holding the x and
y coordinates of the selected points.
"""
self.root.wm_title(self.windowTitle)
self.canvas.show()
tk.mainloop()
# Prepare return value
self.points = []
for p in self.pointList:
self.points.append((p.xdata, p.ydata))
return self.points[:]
def pick(self):
"""
Select points.
.. note:: Before selection points, a plot should
have been created from which points may
be selected.
Returns
-------
Points : List of tuples
A list of two-element tuples, holding the x and
y coordinates of the selected points.
"""
self.root.wm_title(self.windowTitle)
self.canvas.show()
tk.mainloop()
# Prepare return value
self.points = []
for p in self.pointList:
self.points.append((p.xdata, p.ydata))
return self.points[:]
def interactiveFit(self):
"""
Carry out the interactive fit
Returns
-------
Parameters : dict
Dictionary mapping parameter name to the value.
Active parameters : dict
Dictionary mapping active parameter names (not including
any numbers) to value
Active component : int
Number of the 'active component'. Counting starts at one.
"""
self.root.wm_title(self.windowTitle)
self.canvas.show()
tk.mainloop()
# Prepare return value
aps = {"off": self._model["off"]}
n = str(self._activeComponent)
for p in self._compPars:
aps[p] = self._model[p + n]
return self._model.parameters(), aps, self._activeComponent
def interactiveFit(self):
"""
Carry out the interactive fit
Returns
-------
Parameters : dict
Dictionary mapping parameter name to the value.
Active parameters : dict
Dictionary mapping active parameter names (not including
any numbers) to value
Active component : int
Number of the 'active component'. Counting starts at one.
"""
self.root.wm_title(self.windowTitle)
self.canvas.show()
tk.mainloop()
# Prepare return value
aps = {"off":self._model["off"]}
n = str(self._activeComponent)
for p in self._compPars:
aps[p] = self._model[p+n]
return self._model.parameters(), aps, self._activeComponent
def show(self):
"""
Show the GUI.
"""
self.canvas.show()
tk.mainloop()
canvas = FigureCanvasTkAgg(fig, master=root) # A tk.DrawingArea.
canvas.draw()
canvas.get_tk_widget().pack(side=Tk.TOP, fill=Tk.BOTH, expand=1)
toolbar = NavigationToolbar2TkAgg(canvas, root)
toolbar.update()
canvas._tkcanvas.pack(side=Tk.TOP, fill=Tk.BOTH, expand=1)
def on_key_press(event):
print("you pressed {}".format(event.key))
key_press_handler(event, canvas, toolbar)
canvas.mpl_connect("key_press_event", on_key_press)
def _quit():
root.quit() # stops mainloop
root.destroy() # this is necessary on Windows to prevent
# Fatal Python Error: PyEval_RestoreThread: NULL tstate
button = Tk.Button(master=root, text="Quit", command=_quit)
button.pack(side=Tk.BOTTOM)
Tk.mainloop()
# If you put root.destroy() here, it will cause an error if the window is
# closed with the window manager.
def mainloop(self):
Tk.mainloop()
def mainloop():
Tk.mainloop()
def mainloop():
Tk.mainloop()
filemenu = tk.Menu(menubar, tearoff=0)
filemenu.add_command(label='Open...', command=self.file_open)
filemenu.add_separator()
filemenu.add_command(label='Exit', command=root.quit)
menubar.add_cascade(label='File', menu=filemenu)
helpmenu = tk.Menu(menubar, tearoff=0)
helpmenu.add_command(label='About', command=self.show_about)
menubar.add_cascade(label='Help', menu=helpmenu)
self.master.config(menu=menubar)
def show_about(self):
"""
Display an About dialogue box.
"""
toplevel = tk.Toplevel(self.master, bg='white')
toplevel.transient(self.master)
toplevel.title('About')
tk.Label(toplevel, text='A simple iris viewer', fg='navy', bg='white').pack(pady=20)
tk.Label(toplevel, text="Based on Scitools' Iris", bg='white').pack()
tk.Button(toplevel, text='Close', command=toplevel.withdraw).pack(pady=30)
if __name__ == '__main__':
root = tk.Tk()
irisview_window = IrisView(root)
root.title('irisview')
tk.mainloop()
def mainloop(self):
Tk.mainloop()
def run(self):
Tk.mainloop()