def test_menu(self):
items = ('a', 'b', 'c')
default = 'a'
optmenu = ttk.OptionMenu(None, self.textvar, default, *items)
found_default = False
for i in range(len(items)):
value = optmenu['menu'].entrycget(i, 'value')
self.assertEqual(value, items[i])
if value == default:
found_default = True
self.assertTrue(found_default)
optmenu.destroy()
# default shouldn't be in menu if it is not part of values
default = 'd'
optmenu = ttk.OptionMenu(None, self.textvar, default, *items)
curr = None
i = 0
while True:
last, curr = curr, optmenu['menu'].entryconfigure(i, 'value')
if last == curr:
# no more menu entries
break
self.assertFalse(curr == default)
i += 1
self.assertEqual(i, len(items))
# check that variable is updated correctly
optmenu.pack()
optmenu.wait_visibility()
optmenu['menu'].invoke(0)
self.assertEqual(optmenu._variable.get(), items[0])
# changing to an invalid index shouldn't change the variable
self.assertRaises(Tkinter.TclError, optmenu['menu'].invoke, -1)
self.assertEqual(optmenu._variable.get(), items[0])
optmenu.destroy()
# specifying a callback
success = []
def cb_test(item):
self.assertEqual(item, items[1])
success.append(True)
optmenu = ttk.OptionMenu(None,
self.textvar,
'a',
command=cb_test,
*items)
optmenu['menu'].invoke(1)
if not success:
self.fail("Menu callback not invoked")
optmenu.destroy()
def frame1(self):
self.frame1 = ttk.LabelFrame(self.master, text = "Parameters", borderwidth = 2, relief = "groove")
self.frame1.place(bordermode = "outside", relwidth = 0.99, relheight = 0.21, relx = 0, x = 5, y = 5, anchor = "nw")
self.frame1.first_run = True
# function
function_label = ttk.Label(self.frame1, text = "Function")
function_option_menu = ttk.OptionMenu(self.frame1, self.function, self.function.get(),
*sorted(self.FUNCOPT))
# max_iter
max_iter_label = ttk.Label(self.frame1, text = "Maximum number of iterations")
max_iter_spinbox = Spinbox(self.frame1, from_ = 2, to_ = 9999,
increment = 1, textvariable = self.max_iter,
width = 6, justify = "right", takefocus = True)
# fps
fps_label = ttk.Label(self.frame1, text = "Delay between frames (ms)")
fps_spinbox = Spinbox(self.frame1, from_ = 1, to_ = 1000,
increment = 1, textvariable = self.interval,
width = 6, justify = "right", takefocus = True)
# seed
seed_button = ttk.Checkbutton(self.frame1, text = "Fix seed",
variable = self.fix_seed, takefocus = False)
seed_spinbox = Spinbox(self.frame1, from_ = 0, to_ = self.MAX_SEED,
increment = 1, textvariable = self.seed,
width = 6, justify = "right", takefocus = True)
# solver
solver_label = ttk.Label(self.frame1, text = "Solver")
solver_option_menu = ttk.OptionMenu(self.frame1, self.solver_name, self.solver_name.get(),
*(self.EAOPT + self.MCOPT), command = self.select_widget)
# constrain
constrain_button = ttk.Checkbutton(self.frame1, text = "Constrain",
variable = self.constrain, takefocus = False)
# Layout
function_label.place(relx = 0., x = 5, y = 5, anchor = "nw")
function_option_menu.place(relx = 0., x = 75, y = 3, anchor = "nw")
max_iter_label.place(relx = 0., x = 5, y = 30, anchor = "nw")
max_iter_spinbox.place(width = 80, relx = 0., x = 220, y = 30, anchor = "nw")
fps_label.place(relx = 0., x = 5, y = 55, anchor = "nw")
fps_spinbox.place(width = 80, relx = 0., x = 220, y = 55, anchor = "nw")
seed_button.place(relx = 0., x = 5, y = 80, anchor = "nw")
seed_spinbox.place(width = 80, relx = 0., x = 220, y = 80, anchor = "nw")
solver_label.place(relx = 0.35, x = 0, y = 5, anchor = "nw")
solver_option_menu.place(relx = 0.35, x = 50, y = 3, anchor = "nw")
constrain_button.place(relx = 0.35, x = 0, y = 80, anchor = "nw")
def backup_time(*args):
def destroy():
if any(True for res in args if "move" == res):
move_backup_time_text.set(backuptime.get() + " " + ampm.get())
toplevel_t.destroy()
else:
backup_time_text.set(backuptime.get() + " " + ampm.get())
toplevel_t.destroy()
global toplevel_t # to destroy any toplevel previously raised
if toplevel_t:
toplevel_t.destroy()
toplevel_t = Toplevel()
#t.transient(root)
toplevel_t.wm_title("Window")
mainframe = ttk.Frame(toplevel_t, padding="1 1 1 1")
mainframe.grid(column=0, row=0, sticky=(N, W, E, S))
mainframe.columnconfigure(0, weight=1)
mainframe.rowconfigure(0, weight=1)
if any(True for res in args if "move" == res):
ttk.Label(mainframe, text="Move Backup Times").grid(column=1,
row=1,
sticky=W,
padx=10,
pady=1)
else:
ttk.Label(mainframe, text="Backup Times").grid(column=1,
row=1,
sticky=W,
padx=10,
pady=1)
backuptime = StringVar()
ampm = StringVar()
ttk.OptionMenu(mainframe, backuptime, "1", "2", "3", "4", "5", "6", "7",
"8", "9", "10", "11", "12").grid(column=2,
row=1,
sticky=W,
padx=0,
pady=1)
ttk.OptionMenu(mainframe, ampm, "PM", "AM").grid(column=3,
row=1,
sticky=W,
padx=0,
pady=1)
ttk.Button(mainframe, text="OK", command=destroy).grid(column=4,
row=1,
sticky=W,
padx=10,
pady=1)
def test_menu(self):
items = ('a', 'b', 'c')
default = 'a'
optmenu = ttk.OptionMenu(None, self.textvar, default, *items)
found_default = False
for i in range(len(items)):
value = optmenu['menu'].entrycget(i, 'value')
self.assertEqual(value, items[i])
if value == default:
found_default = True
self.assertTrue(found_default)
optmenu.destroy()
default = 'd'
optmenu = ttk.OptionMenu(None, self.textvar, default, *items)
curr = None
i = 0
while True:
last, curr = curr, optmenu['menu'].entryconfigure(i, 'value')
if last == curr:
break
self.assertNotEqual(curr, default)
i += 1
self.assertEqual(i, len(items))
optmenu.pack()
optmenu.wait_visibility()
optmenu['menu'].invoke(0)
self.assertEqual(optmenu._variable.get(), items[0])
self.assertRaises(Tkinter.TclError, optmenu['menu'].invoke, -1)
self.assertEqual(optmenu._variable.get(), items[0])
optmenu.destroy()
success = []
def cb_test(item):
self.assertEqual(item, items[1])
success.append(True)
optmenu = ttk.OptionMenu(None,
self.textvar,
'a',
command=cb_test,
*items)
optmenu['menu'].invoke(1)
if not success:
self.fail('Menu callback not invoked')
optmenu.destroy()
return
def __init__(self, parent, controller):
tk.Frame.__init__(self, parent)
tkvar = tk.StringVar()
label = tk.Label(self,
text=dict_questions["question_pstart"],
font=dict_features["large_font"]).place(relx=0.1,
rely=0.1)
popupMenu = ttk.OptionMenu(self, tkvar, "Options",
*dict_answ_choices["choice_startpg"]).place(
relx=0.1, rely=0.8)
self.button0 = ttk.Button(
self,
text=dict_bttns['next_bttn'],
command=lambda: controller.show_frame(PageOne)).place(relx=0.8,
rely=0.8)
def change_dropdown(*args):
if (tkvar.get() == 'Retrieve'):
retrieve_db()
elif (tkvar.get() == 'Additional information'):
info_on_metrics()
# link function to change dropdown
tkvar.trace('w', change_dropdown)
def __init__(self):
self.frame = ttk.LabelFrame(window, text='Conectar')
self.frame.pack(expand="yes", fill="both", padx=10, pady=10)
self.inFrameTop = ttk.Frame(self.frame)
self.inFrameBottom = ttk.Frame(self.frame)
self.inFrameTop.pack()
self.inFrameBottom.pack()
self.connection = serial.Serial()
self.ports = ['No hay puertos']
self.selectedPort = tk.StringVar()
self.portsLabel = ttk.Label(self.inFrameTop, text='Puerto: ')
self.portsLabel.pack(side=tk.LEFT)
self.select = ttk.OptionMenu(self.inFrameTop, self.selectedPort,
*self.ports)
self.select.pack(side=tk.LEFT)
self.reloadButton = ttk.Button(self.inFrameBottom,
text='Recargar puertos',
command=self.loadPorts)
self.reloadButton.pack(side=tk.LEFT)
self.connectButton = ttk.Button(self.inFrameBottom,
text='Conectar',
command=self.connect)
self.connectButton.pack(side=tk.LEFT)
self.disconnectButton = ttk.Button(self.inFrameBottom,
text='Desconectar',
command=self.disconnect)
self.disconnectButton.pack(side=tk.LEFT)
self.loadPorts()
self.onPortChanged = Event()
def SetFilters(self):
"""
############################################################
This Routine will make sure that the filters get contructed
properly...
############################################################
"""
try:
for Element in self.OptionMenuList:
Element.destroy()
except:
pass
self.OptionMenuList = []
self.Variables = []
self.ImagingTypeList = []
self.DefaultList = [
'', 'All Types', 'All Wavelength', 'All Powers', 'All Gratings',
'All Objectifs', 'All Durations', 'All N. Acquisis.',
'All Sample IDs', 'All Samples', 'All Substrates', 'All Sam. Info',
'All Sub. Info'
]
if not self.Condensensed == None:
for i in range(1, len(self.Condensensed)):
#create the variable for this drop down
self.Variables.append(StringVar())
#create the two lists
self.ImagingTypeList.append([self.DefaultList[i]])
for j in range(0, len(self.Condensensed[i])):
self.ImagingTypeList[-1].append(self.Condensensed[i][j][0])
#Create the two elements
self.OptionMenuList.append(
ttk.OptionMenu(self.FilterFrame,
self.Variables[-1],
self.ImagingTypeList[-1][0],
*self.ImagingTypeList[-1],
command=self.Filter))
#set it
self.OptionMenuList[-1].grid(column=(i - 1) % 6,
row=(i - 1) / 6,
sticky='ew')
for i in range(6):
self.FilterFrame.grid_columnconfigure(i, weight=1)
def test_initialization(self):
self.assertRaises(Tkinter.TclError, ttk.OptionMenu, None, self.textvar, invalid='thing')
optmenu = ttk.OptionMenu(None, self.textvar, 'b', 'a', 'b')
self.assertEqual(optmenu._variable.get(), 'b')
self.assertTrue(optmenu['menu'])
self.assertTrue(optmenu['textvariable'])
optmenu.destroy()
return
def add_optionmenu(self, optionmenu_variable):
optionmenu = ttk.OptionMenu(
self, optionmenu_variable, self.optionmenu_choices[0],
*self.optionmenu_choices
)
optionmenu.place(
x = self.label_x + self.horizontal_separation, y = self.label_y
)
def test_widget_destroy(self):
var = Tkinter.StringVar()
optmenu = ttk.OptionMenu(None, var)
name = var._name
optmenu.update_idletasks()
optmenu.destroy()
self.failUnlessEqual(optmenu.tk.globalgetvar(name), var.get())
del var
self.failUnlessRaises(Tkinter.TclError, optmenu.tk.globalgetvar, name)
def test_widget_destroy(self):
var = tkinter.StringVar(self.root)
optmenu = ttk.OptionMenu(self.root, var)
name = var._name
optmenu.update_idletasks()
optmenu.destroy()
self.assertEqual(optmenu.tk.globalgetvar(name), var.get())
del var
self.assertRaises(tkinter.TclError, optmenu.tk.globalgetvar, name)
def add_detection_method_optionmenu(self):
self.detection_method = Tkinter.StringVar(self.root)
available_detection_methods = [
'Modularity', 'RBConfiguration', 'RBER', 'CPM', 'Significance',
'Surprise'
]
self.detection_method_optionmenu = ttk.OptionMenu(
self, self.detection_method, available_detection_methods[0],
*available_detection_methods)
self.detection_method_optionmenu.place(
x=self.detection_method_label_x + 115,
y=self.detection_method_label_y)
def __init__(self, parent, controller):
tk.Frame.__init__(self, parent)
self.controller = controller
page_title = tk.Label(self, text="Edit Story Page", font=LARGE_FONT)
page_title.pack(side="top", pady=15)
textEditFrame = tk.Frame(self)
textEditFrame.pack(fill=tk.BOTH, expand=1, padx=30, pady=30)
scrollBar = ttk.Scrollbar(textEditFrame)
scrollBar.pack(side="right", fill="y")
self.aboutRoom = tk.Text(textEditFrame,
height=10,
yscrollcommand=scrollBar.set)
self.aboutRoom.insert(tk.END,
"Please select a script to view and edit it.")
self.aboutRoom.pack(fill=tk.BOTH, expand=1)
scrollBar.config(command=self.aboutRoom.yview)
commandWrapper = tk.Frame(self)
commandWrapper.pack()
self.storyFiles = tk.StringVar()
self.storyFiles.set(None)
files = self.controller.story_dict().keys()
self.storyDropDown = ttk.OptionMenu(commandWrapper, self.storyFiles,
self.storyFiles.get(), *files)
self.storyDropDown.pack(side='left', padx=5, pady=5)
openStoryButt = ttk.Button(
commandWrapper,
text="Open Scene",
command=lambda: self.open_files(self.storyFiles.get()))
openStoryButt.pack(side='left', padx=5, pady=5)
saveSceneButt = ttk.Button(commandWrapper,
text="Save Scene",
command=self.save_script)
saveSceneButt.pack(side='left', padx=5, pady=5)
""" Status Bar """
status_text = "Edit the screenplay for each scene"
self.statusBar = tk.Label(self,
bd=1,
text=status_text,
relief="sunken",
anchor="e")
# Status bar is copied for each page! TODO: Add it once for all pages!
self.statusBar.pack(side="bottom", fill="x")
""" Story Edit Update Function """
self.controller.currentGame.trace("w", callback=self.edit_update)
def makeLocaleSettings(self, root):
localeFrame = ttk.LabelFrame(root, text = Local('Localization'))
localeFrame.pack(side = 'top', fill = 'x', padx = 3, pady = 3)
langFrame = ttk.Frame(localeFrame)
langFrame.pack(side = 'top', fill = 'x')
ttk.Label(langFrame, text = Local('Language:')).pack(side = 'left', padx = 3, pady = 3)
def changeLang(x):
setLocale(x)
self.reload = True
if self.protScanTask is not None:
self.root.after_cancel(self.protScanTask)
self.root.destroy()
ttk.OptionMenu(langFrame, StringVar(), getCurrentLocale(), *getLocales(), command = changeLang).pack(side = 'left', padx = 3, pady = 3)
def __init__(self, base):
# Base Frame Configuration
self.base = base
base.title("PcapXray")
Label(base, text="PcapXray Tool - A LAN Network Analyzer")
# Style Configuration
style = ttk.Style()
style.configure("BW.TLabel", foreground="black")
style.configure("BW.TEntry", foreground="black")
# 1st Frame - Initial Frame
InitFrame = ttk.Frame(base, width=50, padding="10 10 10 10",relief= GROOVE)
InitFrame.grid(column=10, row=10, sticky=(N, W, E, S))
InitFrame.columnconfigure(10, weight=1)
InitFrame.rowconfigure(10, weight=1)
# Pcap File Entry
self.pcap_file = StringVar()
ttk.Label(InitFrame, text="Enter pcap file path: ",style="BW.TLabel").grid(column=0, row=0, sticky="W")
ttk.Entry(InitFrame, width=30, textvariable=self.pcap_file, style="BW.TEntry").grid(column=1, row=0, sticky="W, E")
self.progressbar = ttk.Progressbar(InitFrame, orient="horizontal", length=200,value=0, maximum=200, mode="indeterminate")
ttk.Button(InitFrame, text="Analyze!", command=self.pcap_analyse).grid(column=2, row=0, padx=10, pady=10,sticky="E")
self.progressbar.grid(column=3, row=0, padx=10, pady=10, sticky="E")
# Second Frame with Options
SecondFrame = ttk.Frame(base, width=50, padding="10 10 10 10",relief= GROOVE)
SecondFrame.grid(column=10, row=20, sticky=(N, W, E, S))
SecondFrame.columnconfigure(10, weight=1)
SecondFrame.rowconfigure(10, weight=1)
ttk.Label(SecondFrame, text="Options: ", style="BW.TLabel").grid(column=0, row=10, sticky="W")
self.option = StringVar()
self.options = {'All','HTTP','HTTPS','Tor','Malicious'}
#self.option.set('Tor')
ttk.OptionMenu(SecondFrame,self.option,"Select",*self.options).grid(column=1, row=10,sticky="W, E")
# Third Frame with Results and Descriptioms
self.ThirdFrame = ttk.Frame(base, width=100, height=100, padding="10 10 10 10",relief= GROOVE)
description = """It is a tool aimed to simplyfy the network analysis and speed the process of analysing the network traffic.\nThis prototype aims to accomplish 4 important modules,
\n 1. Web Traffic\n 2. Tor Traffic \n 3. Malicious Traffic \n 4. Device/Traffic Details\n\nPlease contact me @ [email protected] for any bugs or problems !
"""
self.label = ttk.Label(self.ThirdFrame, text="Description: \nPcapXray tools is an aid for Network Forensics or Any Network Analysis!\n"+description, style="BW.TLabel")
self.label.grid(column=10, row=10,sticky="W")
self.xscrollbar = Scrollbar(self.ThirdFrame, orient=HORIZONTAL)
self.xscrollbar.grid(row=100, column=0, sticky=E + W)
self.yscrollbar = Scrollbar(self.ThirdFrame, orient=VERTICAL)
self.yscrollbar.grid(row=0, column=100, sticky=N + S)
self.ThirdFrame.grid(column=10, row=30, sticky=(N, W, E, S))
self.ThirdFrame.columnconfigure(0, weight=1)
self.ThirdFrame.rowconfigure(0, weight=1)
self.name_servers = ""
def test_unique_radiobuttons(self):
# check that radiobuttons are unique across instances (bpo25684)
items = ('a', 'b', 'c')
default = 'a'
optmenu = ttk.OptionMenu(self.root, self.textvar, default, *items)
textvar2 = tkinter.StringVar(self.root)
optmenu2 = ttk.OptionMenu(self.root, textvar2, default, *items)
optmenu.pack()
optmenu.wait_visibility()
optmenu2.pack()
optmenu2.wait_visibility()
optmenu['menu'].invoke(1)
optmenu2['menu'].invoke(2)
optmenu_stringvar_name = optmenu['menu'].entrycget(0, 'variable')
optmenu2_stringvar_name = optmenu2['menu'].entrycget(0, 'variable')
self.assertNotEqual(optmenu_stringvar_name, optmenu2_stringvar_name)
self.assertEqual(self.root.tk.globalgetvar(optmenu_stringvar_name),
items[1])
self.assertEqual(self.root.tk.globalgetvar(optmenu2_stringvar_name),
items[2])
optmenu.destroy()
optmenu2.destroy()
def __init__(self,
parent,
labbook_dir=os.path.join(os.getcwd(), 'labbook'),
text="Labbook",
fExt='.txt',
font=("Helvetica", 16),
**kwargs):
tk.LabelFrame.__init__(self, parent, text=text, font=font, **kwargs)
self.parent = parent
self.textWid = ScrolledText.ScrolledText(self)
self.labbook_dir = labbook_dir
self.fExt = fExt
r = re.compile('\d{1,2}-\d{1,2}-\d{2,4}.*' + self.fExt)
self.dropdownOptions = self.sortDates([
y.group()
for y in [r.match(x) for x in os.listdir(self.labbook_dir)]
if y is not None
])
self.dropdownVar = tk.StringVar()
self.configureForCurrentDate()
topFrame = tk.Frame(self)
self.dropdown = ttk.OptionMenu(
topFrame,
self.dropdownVar,
self.dropdownVar.get(),
*self.dropdownOptions,
command=lambda x: self.labbookSelected(self.dropdownVar),
style='Files.TMenubutton')
icon = Image.open("icons/refresh_icon.png").resize((20, 20))
icon = ImageTk.PhotoImage(icon)
self.refreshButton = tk.Button(topFrame,
image=icon,
command=self.configureForCurrentDate,
height=20,
width=20)
self.refreshButton.image = icon # store the image as a variable in the widget to prevent garbage collection.
self.dropdown.pack(side=tk.LEFT)
self.refreshButton.pack(side=tk.RIGHT)
topFrame.pack(side=tk.TOP, fill=tk.X, padx=15, pady=5)
self.textWid.pack(expand=1)
def test_initialization(self):
self.failUnlessRaises(tkinter.TclError,
ttk.OptionMenu,
None,
self.textvar,
invalid='thing')
optmenu = ttk.OptionMenu(None, self.textvar, 'b', 'a', 'b')
self.failUnlessEqual(optmenu._variable.get(), 'b')
self.failUnless(optmenu['menu'])
self.failUnless(optmenu['textvariable'])
optmenu.destroy()
def run(self):
c = Tkinter.Canvas(width=self.width, height=self.height, bg=self.bg)
c.pack()
c.bind("<Button-1>", self.click1)
c.bind("<Button-2>", self.click2)
c.bind("<ButtonRelease-2>", self.release2)
c.bind("<B2-Motion>", self.drag2)
c.winfo_toplevel().resizable(0, 0)
frame = Tkinter.Frame()
self.player_var = Tkinter.StringVar(c)
self.player_select = ttk.OptionMenu(frame, self.player_var)
self.player_var.trace('w', self.set_current_player)
self.player_select.pack()
self.verb_var = Tkinter.StringVar(c)
self.verb_select = ttk.OptionMenu(frame, self.verb_var)
self.verb_var.trace('w', self.set_current_verb)
self.verb_select.pack()
self.get_menus()
self.undo_button = Tkinter.Button(frame,
text="Undo",
command=self.undo,
state=Tkinter.DISABLED)
self.undo_button.pack()
c.create_window(0, 0, window=frame, anchor=Tkinter.NW)
frame.pack
self.canvas = c
self.create_handles()
self.draw_all()
c.mainloop()
def _setup_widgets(self):
self.pack(fill='both', expand=True)
ttk.Label(self, text="Course").grid(row=0, column=0, sticky=W)
course_menu = ttk.OptionMenu(self, self.selected_course, courses[0].name, *[x.name for x in courses])
course_menu.grid(row=1, column=0, sticky='w')
self.selected_course.trace("w", self.course_changed)
self.assignment_tree = ttk.Treeview(self, columns=['Assignment'], selectmode='browse', show='headings')
self.assignment_tree.grid(row=2, column=0, sticky='wens')
self.assignment_tree.pack(fill='x')
self.load_assignment_tree()
ttk.Button(self, text="Create Files", command=generate_grade_files).grid(row=3, column=0, sticky="w")
for child in self.winfo_children(): child.grid_configure(padx=1, pady=1)
def makePortSettings(self, root):
connFrame = ttk.LabelFrame(root, text = Local('Connection'))
connFrame.pack(side = 'top', fill = 'x', padx = 3, pady = 3)
portFrame = ttk.Frame(connFrame)
portFrame.pack(side = 'top')
ttk.Label(portFrame, text = Local('Port')).pack(side = 'left', padx = 3, pady = 3)
self.port = StringVar()
self.portOpt = ttk.OptionMenu(portFrame, self.port)
self.portOpt.pack(side = 'left', padx = 3, pady = 3)
ttk.Button(portFrame, text = Local('Read'), command = lambda: self.readButton()).pack(side = 'left', padx = 3, pady = 3)
ttk.Button(portFrame, text = Local('Write'), command = lambda: self.writeButton()).pack(side = 'left', padx = 3, pady = 3)
self.readEventHist = IntVar(value = 1)
ttk.Checkbutton(connFrame, text = Local('Read event history'), variable=self.readEventHist).pack(side = 'top', anchor = 'w', padx = 3, pady = 3)
self.readTempStat = IntVar(value = 1)
ttk.Checkbutton(connFrame, text = Local('Read temperature statistics'), variable=self.readTempStat).pack(side = 'top', anchor = 'w', padx = 3, pady = 3)
self.infoLbl = StringVar()
ttk.Label(connFrame, textvariable=self.infoLbl, foreground = 'red').pack(side = 'top')
def __init__(self, master, controller, instruments):
tk.Frame.__init__(self, master)
#self.grid_rowconfigure(0,weight=1)
self.grid_rowconfigure(1,weight = 1)
self.grid_columnconfigure(0,weight = 1)
self.instruments = instruments
self.lakeshore = self.instruments['lakeshore']
self.fluke8808a = self.instruments['fluke8808a']
self.keithley = self.instruments['keithley']
self.selectedinstrument = self.lakeshore
self.instrument_frame = tk.Frame(self)
self.instrument_frame.grid(row = 0, column = 0, sticky = 'nsew')
self.instrument_frame.grid_rowconfigure(0,weight=1)
self.instrument_frame.grid_columnconfigure(0,weight=1)
self.instrumentstr = tk.StringVar()
self.instrumentlist = self.instruments.keys()
self.instrumentstr.set(self.instrumentlist[0])
self.instrumentmenu = ttk.OptionMenu(self.instrument_frame, self.instrumentstr, self.instrumentlist[0], *self.instrumentlist)
self.instrumentmenu.grid(row = 0, column = 0, sticky = 'nsew')
self.setinstrumentbtn = ttk.Button(self.instrument_frame, text = "Set Instrument", command = lambda: self.set_instrument())
self.setinstrumentbtn.grid(row = 0, column = 1, sticky = 'wns')
self.response_frame = tk.Frame(self)
self.response_frame.grid(row = 1, column = 0, sticky = 'nsew')
self.response_frame.grid_rowconfigure(0, weight = 1)
self.response_frame.grid_columnconfigure(0,weight = 1)
self.v = tk.StringVar()
self.response_txt = tk.Text(self.response_frame, background = "white", )
self.response_txt.grid(row = 0, column = 0, sticky = "nsew", padx = 5, pady = 5)
self.scrollb = ttk.Scrollbar(self.response_frame, command = self.response_txt.yview)
self.scrollb.grid(row = 0, column = 1, sticky = 'nsew')
self.response_txt['yscrollcommand'] = self.scrollb.set
self.entry_frame = tk.Frame(self)
self.entry_frame.grid(row = 2, column = 0, sticky = 'ew')
self.entry_frame.grid_rowconfigure(0, weight = 1)
self.entry_frame.grid_columnconfigure(0, weight = 1)
self.entry = ttk.Entry(self.entry_frame, background = "white")
self.entry.pack(side = "left", fill = tk.X, expand = True, padx = 5, pady = 5)
self.btn_send = ttk.Button(self.entry_frame, text = "Send", command = lambda: self.send_query())
self.btn_send.pack(side = "left")
def __init__(self, parent):
"""
Display Function 4 GUI.
:param ttk.Frame parent: Parent frame.
:rtype: Function4GUI
:return: Function 4 GUI.
"""
ttk.Frame.__init__(self, parent)
# Row 0
self.top_frame = ttk.Frame(self)
self.top_frame.grid(row=0, column=0, sticky=Tk.NSEW)
self.top_frame.grid_columnconfigure(0, weight=1)
self.option_menu = ttk.OptionMenu(self.top_frame, None)
self.option_menu.grid(row=0, column=1, sticky=Tk.NE)
self.back_button = ttk.Button(self.top_frame, text="Back")
self.back_button.grid(row=0, column=2, padx=(2, 0), sticky=Tk.NE)
# Row 1
self.label = ttk.Label(self, anchor=Tk.NW,
text="List of registered company that is awarded at least a procurement:")
self.label.grid(row=1, column=0, pady=(0, 4), sticky=Tk.NSEW)
self.bottom_frame = ttk.Frame(self)
self.bottom_frame.grid(row=2, column=0, columnspan=2, pady=(0, 2), sticky=Tk.NSEW)
self.bottom_frame.grid_rowconfigure(0, weight=1)
self.bottom_frame.grid_columnconfigure(0, weight=1)
self.registered_contractors_awarded_listbox = Tk.Listbox(self.bottom_frame, selectmode=Tk.SINGLE)
self.registered_contractors_awarded_listbox.grid(row=0, column=0, padx=2, sticky=Tk.NSEW)
self.registered_contractors_awarded_listbox_scrollbar_y = ttk.Scrollbar(self.bottom_frame,
command=self.registered_contractors_awarded_listbox.yview)
self.registered_contractors_awarded_listbox_scrollbar_y.grid(row=0, column=1, sticky=Tk.NSEW)
self.registered_contractors_awarded_listbox.configure(
yscrollcommand=self.registered_contractors_awarded_listbox_scrollbar_y.set)
self.grid_columnconfigure(0, weight=1)
self.grid_rowconfigure(2, weight=1)
def build_gui(self):
self.root.title('TITLE')
self.option_add('*tearOff', 'FALSE')
label = ttk.Label(self.root, text='text')
label.grid(column=0, row=0)
folders = ['folderA', 'folderB', 'folderC']
self.folder_var = tkinter.StringVar()
menu = ttk.OptionMenu(self.root,
self.folder_var,
*folders,
command=self.handle_cmd)
menu.config(width=50)
menu.grid(column=1, row=0, sticky='we')
end_row = self.build_radios(start_row=1)
label_entry_info = [
('local file path', '...this entry support drag file in'),
('run command', 'C:\\notepad2\\notepad2.exe'),
]
for text, default_value in label_entry_info:
label, entry = self.build_label_value_block(text,
default_value,
position=(end_row, 0),
entry_size=30)
self.widget_dict[text] = entry
end_row += 1
# 给 widget 添加拖放方法
local_path_entry = self.widget_dict['local file path']
self.add_drop_handle(local_path_entry,
self.handle_drop_on_local_path_entry)
self.main_button = ttk.Button(self.root,
text='text',
command=self.print_main_button_method)
self.main_button.grid(row=end_row + 1,
column=0,
columnspan=2,
sticky='we')
self.build_logger_panel(end_row + 2)
def de_widget(self):
# Initialize widget
self.init_widget()
# strategy
self.strategy_label = ttk.Label(self.frame1.sliders, text = "Strategy")
self.strategy_option_menu = ttk.OptionMenu(self.frame1.sliders, self.strategy, self.strategy.get(),
*sorted(self.STRATOPT))
self.strategy_label.place(relx = 0, x = 0, y = 5, anchor = "nw")
self.strategy_option_menu.place(relx = 0, x = 70, y = 3, anchor = "nw")
# CR
self._label("Crossover probability", 2)
self._scale(0., 1., 0.01, self.CR, 2)
self._entry(self.CR, 2)
# F
self._label("Differential weight", 4)
self._scale(0., 2., 0.01, self.F, 4)
self._entry(self.F, 4)
def __init__(self):
serial_list = ['None']
self.startTimer(1,False)
tk.Tk.__init__(self)
#self.server_running = False
f0 = ttk.Frame(self)
self.var = StringVar()
f0.pack()
self.dropdown = ttk.OptionMenu(f0, self.var, serial_list[0], *serial_list)
self.dropdown.pack()
self.dropdown.configure(state='normal')
f6 = ttk.Frame(self)
f7 = ttk.Frame(self)
f8 = ttk.Frame(self)
f9 = ttk.Frame(self)
self.start_serial_btn = ttk.Button(f6, text="Start serial", command=self.start_serial)
self.start_serial_btn.pack(side='left',padx=10)
self.stop_serial_btn = ttk.Button(f7, text="Stop serial", command=self.stop_serial)
self.stop_serial_btn.pack(side='left',padx=10)
self.start_recording_btn = ttk.Button(f8, text="Start recording", command=self.start_recording)
self.start_recording_btn.pack(side='left',padx=10)
self.stop_recording_btn = ttk.Button(f9, text="Stop recording", command=self.stop_recording)
self.stop_recording_btn.pack(side='left',padx=10)
self.start_serial_btn.configure(state='normal')
self.stop_serial_btn.configure(state='disable')
self.start_recording_btn.configure(state='normal')
self.stop_recording_btn.configure(state='disable')
f0.grid(column=1,row=0,columnspan=3,padx=10,pady=10,sticky='w')
f6.grid(column=1,row=1,padx=10,pady=10,sticky='w')
f7.grid(column=2,row=1,padx=10,pady=10,sticky='w')
f8.grid(column=1,row=2,padx=10,pady=10,sticky='w')
f9.grid(column=2,row=2,padx=10,pady=10,sticky='w')
def __init__(self, parent, proj_name):
#### read in the proposal info file
try:
apps = file(proj_name + "/apps.csv", "r")
except IOError as e:
print 'Could not open apps.csv'
quit()
self.project = proj_name
self.reviews = []
self.widgets_valid = False
self.num_reviews = 0
self.prioritm_proposal = "--not yet defined--"
self.prioritm_criterion = "--not yet defined--"
self.prioritm_field = "--not yet defined--"
self.priorobj_criterion = criterion()
self.priorobj_criterion.fields[
'general comments'] = '--not yet entered--'
self.priorobj_criterion.fields['weaknesses'] = '--not yet entered--'
self.priorobj_criterion.fields['strengths'] = '--not yet entered--'
self.due_date_str = apps.readline().split(':')[1].rstrip().strip()
print(' Reviews Due Date: ' + self.due_date_str)
print('------')
for line in apps: # TODO: use csv module for ignoring , in quoted strings.
keys = line.split(',')
tmpIDstring = keys[0].strip()
## look for a pickle file
# and if its present load it into new review obect
r = restore_review(
proj_name,
tmpIDstring) # check for pickle or start a new review
self.num_reviews += 1
r.PI = keys[2].strip()
r.Title = keys[1].strip()
r.Institution = keys[3].strip()
#print 'Opening: ', r.PI, r.Title, r.Institution
self.reviews.append(r)
self.rev_menu_items = []
for r in self.reviews:
#self.rev_ids.append(r.ID)
#self.rev_menu_items.append(r.ID + ' | ' + r.Title)
self.rev_menu_items.append(r.ID)
# make the id prop_index
#self.prop_index[r.ID] = r
ttk.Frame.__init__(self, parent)
self.parent = parent
# create a ttk style
s1 = ttk.Style()
s1.configure('PRT.TFrame', background=col_dark)
s2 = ttk.Style()
s2.configure('PRT.TButton', background=col_light)
s3 = ttk.Style()
s3.configure('PRT.TLabel', background=col_txtbg)
s4 = ttk.Style()
s4.configure('PRT.TText', background=col_txtbg)
s5 = ttk.Style()
s5.configure('PRT.TMenubutton', background=col_light, width=20)
s6 = ttk.Style()
s6.configure('NIH2.TMenubutton', background=col_light, width=12)
self.parent.title("Proposal Review Tool: " + proj_name + ' due: ' +
self.due_date_str) # PRT!
self.pack(fill=Tk.BOTH, expand=True)
# Build the frame hierarchy
#self.window_frame = ttk.Frame(self)
self.top_frame = ttk.Frame(self, style='PRT.TFrame')
self.top_frame.pack(fill=Tk.X)
self.prop_info_frame = ttk.Frame(self, style='PRT.TFrame')
self.prop_info_frame.pack(fill=Tk.X)
self.criterion_frame = ttk.Frame(self, style='PRT.TFrame')
self.criterion_frame.pack(fill=Tk.X)
self.text_frame = ttk.Frame(self, style='PRT.TFrame')
self.text_frame.pack(fill=Tk.X)
self.button_bar_frame = ttk.Frame(self, style='PRT.TFrame')
self.button_bar_frame.pack(fill=Tk.X)
# start populating the frames
### top frame
# Arrows
self.updn_arrow_frame = ttk.Frame(self.top_frame, style='PRT.TFrame')
self.updn_arrow_frame.pack(side=Tk.LEFT, padx=5, expand=False)
self.pic_up = Tk.PhotoImage(file=icon_dir + "up.png")
self.but_up = ttk.Button(self.updn_arrow_frame,
image=self.pic_up,
command=lambda x='up': self.click(x),
style='PRT.TButton')
self.but_up.pack(side=Tk.TOP)
self.pic_dn = Tk.PhotoImage(file=icon_dir + "down.png")
self.but_dn = ttk.Button(self.updn_arrow_frame,
image=self.pic_dn,
command=lambda x='dn': self.click(x),
style='PRT.TButton')
self.but_dn.pack(side=Tk.BOTTOM)
self.top_selector_frame = ttk.Frame(self.top_frame, style='PRT.TFrame')
self.top_selector_frame.pack(fill=Tk.X, padx=5, expand=True)
self.selitm_proposal = Tk.StringVar(
self.top_selector_frame) # Select Proposal
self.menu_proposal = ttk.OptionMenu(
self.top_selector_frame,
self.selitm_proposal,
"",
*self.rev_menu_items,
command=lambda x='WidgetName': self.click(x),
style='PRT.TMenubutton')
self.menu_proposal['menu'].invoke(0)
self.selobj_proposal = self.reviews[0]
self.menu_proposal.pack(side=Tk.LEFT)
#self.id_string = Tk.StringVar(self.prop_info_frame)
#self.prop_display = ttk.Label(self.prop_info_frame,text=self.id_string, width=35)
#self.id_string.s
#self.id_string = Tk.StringVar(self.prop_info_frame)
self.prop_display = ttk.Label(self.prop_info_frame,
text="PI: Institution: ",
width=150,
style='PRT.TLabel')
#self.id_string.set("PI: Institution: ")
self.prop_display.pack(side=Tk.LEFT, expand=False)
# Save buttons
self.but_output_scores = ttk.Button(
self.top_selector_frame,
text="Make scores.csv",
width=13,
command=lambda x='csv_report': self.click(x),
style='PRT.TButton')
self.but_output_scores.pack(side=Tk.RIGHT)
self.but_output_file = ttk.Button(
self.top_selector_frame,
text="Make rev.txt",
width=13,
command=lambda x=False: self.selobj_proposal.human_output(x),
style='PRT.TButton')
self.but_output_file.pack(side=Tk.RIGHT)
self.but_output_progress_data = ttk.Button(
self.top_selector_frame,
text="Progress Graph",
width=13,
command=lambda x=False: self.prog_data_graph(),
style='PRT.TButton')
self.but_output_progress_data.pack(side=Tk.RIGHT)
self.but_open_pdf = ttk.Button(self.top_selector_frame,
text="View",
width=13,
command=lambda x='view': self.click(x),
style='PRT.TButton')
self.but_open_pdf.pack(side=Tk.RIGHT, padx=10)
### prop_info_frame
### criterion_frame
self.lr_arrow_frame = ttk.Frame(self.criterion_frame,
style='PRT.TFrame')
self.lr_arrow_frame.pack(side=Tk.LEFT, padx=5, pady=5)
self.pic_left = Tk.PhotoImage(file=icon_dir + "left.png")
self.but_left = ttk.Button(self.lr_arrow_frame,
image=self.pic_left,
command=lambda x='left': self.click(x),
style='PRT.TButton')
self.but_left.pack(side=Tk.LEFT, padx=5, pady=5)
self.pic_right = Tk.PhotoImage(file=icon_dir + "right.png")
self.but_right = ttk.Button(self.lr_arrow_frame,
image=self.pic_right,
command=lambda x='right': self.click(x),
style='PRT.TButton')
self.but_right.pack(side=Tk.LEFT, padx=5, pady=5)
# Criteria Optionmenu
self.selitm_criterion = Tk.StringVar(self.criterion_frame)
self.crit_menu_items = []
if (len(self.selobj_proposal.criteria) < 1):
print 'This proposal has no criteria:'
print self.selobj_proposal.name
quit()
for c in self.selobj_proposal.criteria:
self.crit_menu_items.append(c.name)
self.menu_criterion = ttk.OptionMenu(
self.criterion_frame,
self.selitm_criterion,
'',
*self.crit_menu_items,
command=lambda x='WidgetName': self.click(x),
style='PRT.TMenubutton')
self.menu_criterion.pack(side=Tk.LEFT, expand=False, padx=5, pady=5)
self.menu_criterion['menu'].invoke(0)
self.selobj_criterion = self.selobj_proposal.criteria[0]
# button for Criterion instructions (if any)
self.but_crit_help = ttk.Button(self.criterion_frame,
text='?',
width=2,
command=lambda: self.help_popup(),
style='PRT.TButton')
self.but_crit_help.pack(side=Tk.LEFT, padx=5)
# canned text buttons
# enter 'N/A' into the field
self.but_NA = ttk.Button(self.criterion_frame,
text="N/A",
command=lambda x='N/A': self.click(x),
style='PRT.TButton')
self.but_NA.pack(side=Tk.RIGHT, padx=5, pady=5)
# enter 'None' into the field
self.but_none = ttk.Button(self.criterion_frame,
text="None",
command=lambda x='None': self.click(x),
style='PRT.TButton')
self.but_none.pack(side=Tk.RIGHT, padx=5, pady=5)
# copy this text in window to same field in all proposals
self.but_clone = ttk.Button(self.criterion_frame,
text="Clone",
command=lambda x='Clone': self.click(x),
style='PRT.TButton')
self.but_clone.pack(side=Tk.RIGHT, padx=5, pady=5)
# Field Optionmenu
self.selitm_field = Tk.StringVar(self.criterion_frame)
self.field_menu_items = []
for field, text in self.selobj_criterion.fields.iteritems():
self.field_menu_items.append(field)
self.menu_fields = ttk.OptionMenu(
self.criterion_frame,
self.selitm_field,
'',
*self.field_menu_items,
command=lambda x='field_menu': self.click(x),
style='NIH2.TMenubutton')
self.menu_fields.pack(side=Tk.LEFT, expand=False, padx=5)
self.menu_fields['menu'].invoke(0)
#self.selobj_field = self.selobj_criterion.fields[self.selitm_field.get()]
######################################## SCORE
self.score_val = Tk.StringVar(self)
self.score_val.set("0")
self.score_widget = Tk.Spinbox(self.criterion_frame,
from_=1,
to=9,
increment=1,
state=Tk.DISABLED,
width=5,
textvariable=self.score_val,
bg=col_txtbg)
self.score_widget.pack(side=Tk.LEFT, padx=5, pady=5)
#### text_frame
self.text_widget = Tk.Text(self.text_frame, background=col_txtbg)
self.text_widget.pack(fill=Tk.BOTH, expand=True)
#### button_bar_frame
but_save = ttk.Button(self.button_bar_frame,
text="Save",
width=8,
command=self.save_proposal,
style='PRT.TButton')
but_save.pack(side=Tk.LEFT, anchor=Tk.N, padx=5, pady=5)
but_quit = ttk.Button(self.button_bar_frame,
text="Quit",
width=8,
command=self.quit_popup,
style='PRT.TButton')
but_quit.pack(side=Tk.RIGHT, anchor=Tk.N, padx=5, pady=5)
# progress indicator labels
self.prog_value = ttk.Label(self.button_bar_frame,
text='0.0',
width=35,
background=col_txtbg)
self.prog_value.pack(side=Tk.RIGHT, anchor=Tk.N, padx=5, pady=5)
self.widgets_valid = True # enable the widgets post-setup
self.prog_label = ttk.Label(self.button_bar_frame,
text=prog_definition_string,
width=prog_def_width,
background=col_dark)
self.prog_label.pack(side=Tk.RIGHT, anchor=Tk.N, padx=5, pady=5)
imp = ttk.Button(leftFrame,
text='Import File',
command=Handler,
width=14,
takefocus=False)
imp.grid(row=3, column=0, columnspan=2)
u = ttk.Label(leftFrame, text="Unit (nm): ")
u.grid(row=4, column=0, pady=20) #label
v = ttk.Entry(leftFrame, textvariable=unit, width=8, cursor='xterm')
v.grid(row=4, column=1) #entry textbox
u1 = ttk.Label(leftFrame, text="Levels: ")
u1.grid(row=5, column=0, pady=0) #label
optionList = ["2", "4", "8", "16", "32", "64"]
dropVar = StringVar(root)
dropVar.set(2)
popupMenu = ttk.OptionMenu(leftFrame, dropVar, optionList[0], *optionList)
popupMenu.config(width=4)
popupMenu.grid(row=5, column=1)
conv = ttk.Button(leftFrame,
text='Convert to GDSII',
command=lambda: gdsConv(v.get(), dropVar.get()),
takefocus=False)
conv.grid(row=6, column=0, pady=20, columnspan=2)
periodic = ttk.Button(leftFrame,
text='About',
command=about,
width=14,
takefocus=False)
periodic.grid(row=7, column=0, columnspan=2, pady=0)
root.mainloop()
def periodicStructures():
rightFrame.grid_propagate(0)
global r
r = IntVar(root)
for widget in rightFrame.winfo_children():
widget.destroy()
R1 = Radiobutton(rightFrame,
text="Triangle",
variable=r,
value=1,
font='calibri 12 bold')
R1.grid(row=0, column=0, sticky=W, rowspan=2, padx=25)
R2 = Radiobutton(rightFrame,
text="Circle",
variable=r,
value=2,
font='calibri 12 bold')
R2.grid(row=2, column=0, sticky=W, rowspan=2, padx=25)
R3 = Radiobutton(rightFrame,
text="Rectangle",
variable=r,
value=3,
font='calibri 12 bold')
R3.grid(row=4, column=0, sticky=W, rowspan=2, padx=25)
ima = imMaker(resource_path('Triangle.png'), 122)
la = Label(rightFrame, image=ima)
la.imag = ima
la.grid(row=0, column=1, sticky=W, rowspan=2)
imb = imMaker(resource_path('Circle.png'), 120)
lb = Label(rightFrame, image=imb)
lb.imag = imb
lb.grid(row=2, column=1, sticky=W, rowspan=2)
imc = imMaker(resource_path('Rectangle.png'), 120)
lc = Label(rightFrame, image=imc)
lc.imag = imc
lc.grid(row=4, column=1, sticky=W, rowspan=2)
###Triangle
u2 = Label(rightFrame, text="Base: ", font=("calibri 12 bold"))
u2.grid(row=0, column=2, sticky=W, padx=25) #label
base = IntVar(root)
v2 = ttk.Entry(rightFrame, textvariable=base, width=12, cursor='xterm')
v2.grid(row=0, column=3, sticky=W, padx=25) #entry textbox
u3 = Label(rightFrame, text="Height: ", font=("calibri 12 bold"))
u3.grid(row=1, column=2, sticky=W, padx=25) #label
height = IntVar(root)
v3 = ttk.Entry(rightFrame, textvariable=height, width=12, cursor='xterm')
v3.grid(row=1, column=3, sticky=W, padx=25) #entry textbox
###Circle
u4 = Label(rightFrame, text="Radius: ", font=("calibri 12 bold"))
u4.grid(row=2, column=2, sticky=W, padx=25) #label
radius = IntVar(root)
v4 = ttk.Entry(rightFrame, textvariable=radius, width=12, cursor='xterm')
v4.grid(row=2, column=3, sticky=W, padx=25) #entry textbox
#u5 = Label(rightFrame, text="Eccentricity: ", font = ("calibri 12 bold"))
#u5.grid(row = 3, column = 2, sticky = W,padx = 15)#label
#ecc = IntVar(root)
#v5= Entry(rightFrame, textvariable = ecc, width = 8)
#v5.grid(row = 3 , column = 3, sticky = W, padx = 15)#entry textbox
#Rectangle
u6 = Label(rightFrame, text="Length: ", font=("calibri 12 bold"))
u6.grid(row=4, column=2, sticky=W, padx=25) #label
leng = IntVar(root)
v6 = ttk.Entry(rightFrame, textvariable=leng, width=12, cursor='xterm')
v6.grid(row=4, column=3, sticky=W, padx=25) #entry textbox
u7 = Label(rightFrame, text="Breadth: ", font=("calibri 12 bold"))
u7.grid(row=5, column=2, sticky=W, padx=25) #label
breadth = IntVar(root)
v7 = ttk.Entry(rightFrame, textvariable=breadth, width=12, cursor='xterm')
v7.grid(row=5, column=3, sticky=W, padx=25) #entry textbox
###Row and Column repetitions
u8 = Label(rightFrame, text="Rows: ", font=("calibri 12 bold"))
u8.grid(row=6, column=0, sticky=W, padx=25, pady=15) #label
rows = IntVar(root)
v8 = ttk.Entry(rightFrame, textvariable=rows, width=16, cursor='xterm')
v8.grid(row=6, column=1, sticky=W, padx=10) #entry textbox
u9 = Label(rightFrame, text="Columns: ", font=("calibri 12 bold"))
u9.grid(row=6, column=2, sticky=W, padx=25) #label
cols = IntVar(root)
v9 = ttk.Entry(rightFrame, textvariable=cols, width=12, cursor='xterm')
v9.grid(row=6, column=3, sticky=W, padx=25) #entry textbox
u10 = Label(rightFrame, text="Period: ", font=("calibri 12 bold"))
u10.grid(row=7, column=0, sticky=W, padx=25, pady=15) #label
period = IntVar(root)
v10 = ttk.Entry(rightFrame, textvariable=period, width=16, cursor='xterm')
v10.grid(row=7, column=1, sticky=W, padx=10, pady=10) #entry textbox
u11 = Label(rightFrame, text="Mode:", font=("calibri 12 bold"))
u11.grid(row=7, column=2, padx=25, sticky=W) #label
modeList = ["0", "1"]
modeVar = StringVar(root)
modeVar.set("0")
modMenu = ttk.OptionMenu(rightFrame, modeVar, modeList[0], *modeList)
modMenu.config(width=8)
modMenu.grid(row=7, column=3, sticky=W, padx=25)
generate = ttk.Button(
rightFrame,
text='Generate',
command=lambda: gdsGenerate(r.get(), v2.get(), v3.get(), v4.get(
), v6.get(), v7.get(), v8.get(), v9.get(), v10.get(), modeVar.get()),
takefocus=False)
generate.grid(row=8, column=0, sticky=W + E + N + S, pady=20)
m = ''
message = Label(rightFrame, text=m, font='calibri 12 bold', fg='red')
message.grid(row=8, column=1, columnspan=3, sticky=W)
def gdsGenerate(s, base, height, radius, leng, breadth, rows, cols, period,
mod):
mod = int(mod)
if s == 0:
m = 'Select a shape!'
message.config(text=m)
message.text = m
elif s == 1:
if base == '0' or (not str.isdigit(base)):
m = 'Enter Valid Base value!'
message.config(text=m, fg='red')
message.text = m
elif height == '0' or (not str.isdigit(height)):
m = 'Enter Valid Height value!'
message.config(text=m, fg='red')
message.text = m
else:
if rows != 0 and cols != 0 and period != 0 and (
str.isdigit(rows)) and (str.isdigit(cols)) and (
str.isdigit(period)):
f = f = tkFileDialog.asksaveasfilename()
if f == None:
m = 'Choose a save location!'
message.config(text=m, fg='red')
message.text = m
else:
cell = core.Cell('Triangle')
layout = core.Layout('Triangle', unit=1e-9)
if mod == 0:
points = [(0, 0), (float(base), 0),
(float(base) / 2.0, float(height))]
cell.add(core.Boundary(points))
cellArray = core.Cell('TriangleArray')
cellArray.add(
core.CellArray(cell, int(cols), int(rows),
(int(period), int(period))))
layout.add(cellArray)
layout.save(f + '.gds')
m = 'GDSII generated!'
message.config(text=m, fg='blue')
message.text = m
elif mod == 1:
height = float(height)
rows = int(rows)
cols = int(cols)
period = float(period)
print 'hi'
for i in range(rows):
for j in range(cols):
points = [(period * j, i * period),
(float(base) + period * j,
i * period),
(float(base) / 2.0 + period * j,
height + i * period)]
cell.add(core.Boundary(points))
layout.add(cell)
layout.save(f + '.gds')
m = 'GDSII generated!'
message.config(text=m, fg='blue')
message.text = m
else:
m = 'Enter valid rows, columns and period!'
message.config(text=m, fg='red')
message.text = m
elif s == 2:
if radius == '0' or (not str.isdigit(radius)):
m = 'Enter Valid Radius value!'
message.config(text=m, fg='red')
message.text = m
else:
if rows != 0 and cols != 0 and period != 0 and (
str.isdigit(rows)) and (str.isdigit(cols)) and (
str.isdigit(period)):
f = tkFileDialog.asksaveasfilename()
if f == None:
m = 'Choose a save location!'
message.config(text=m, fg='red')
message.text = m
else:
cell = core.Cell('Circle')
layout = core.Layout('CircleLayout', unit=1e-9)
if mod == 0:
cell.add(shapes.Disk((0, 0), float(radius)))
cellArray = core.Cell('CircleArray')
cellArray.add(
core.CellArray(cell, int(cols), int(rows),
(int(period), int(period))))
layout.add(cellArray)
#layout.save(f)
layout.save(f + '.gds')
m = 'GDSII generated!'
message.config(text=m, fg='blue')
message.text = m
elif mod == 1:
radius = float(radius)
rows = int(rows)
cols = int(cols)
period = float(period)
print 'hi'
for i in range(rows):
for j in range(cols):
cell.add(
shapes.Disk((period * j, period * i),
float(radius)))
layout.add(cell)
layout.save(f + '.gds')
m = 'GDSII generated!'
message.config(text=m, fg='blue')
message.text = m
else:
m = 'Enter valid rows, columns and period!'
message.config(text=m, fg='red')
message.text = m
elif s == 3:
if leng == '0' or not (str.isdigit(leng)):
m = 'Enter Valid Length value!'
message.config(text=m, fg='red')
message.text = m
elif breadth == '0' or (not str.isdigit(breadth)):
m = 'Enter Valid Breadth value!'
message.config(text=m, fg='red')
message.text = m
else:
if rows != 0 and cols != 0 and period != 0 and (
str.isdigit(rows)) and (str.isdigit(cols)) and (
str.isdigit(period)):
f = tkFileDialog.asksaveasfilename()
if f == None:
m = 'Choose a save location!'
message.config(text=m, fg='red')
message.text = m
else:
cell = core.Cell('Rectangle')
layout = core.Layout('RectangleLayout', 1e-9)
if mod == 0:
cell.add(
shapes.Rectangle(
(0, 0), (float(leng), float(breadth))))
cellArray = core.Cell('RectangleArray')
cellArray.add(
core.CellArray(cell, int(cols), int(rows),
(int(period), int(period))))
layout.add(cellArray)
layout.save(f + '.gds')
m = 'GDSII generated!'
message.config(text=m, fg='blue')
message.text = m
elif mod == 1:
leng = float(leng)
breadth = float(breadth)
rows = int(rows)
cols = int(cols)
period = float(period)
print 'hi'
for i in range(rows):
for j in range(cols):
cell.add(
shapes.Rectangle(
(period * j, period * i),
(float(leng) + period * j,
float(breadth) + period * i)))
layout.add(cell)
layout.save(f + '.gds')
m = 'GDSII generated!'
message.config(text=m, fg='blue')
message.text = m
else:
m = 'Enter valid rows, columns and period!'
message.config(text=m, fg='red')
message.text = m
def __init__(self):
serial_list = ['시리얼 포트를 선택하세요.']
self.startTimer(1, False)
tk.Tk.__init__(self)
self.serial_running = False
f0 = ttk.Frame(self)
self.var = StringVar()
f0.pack()
self.dropdown = ttk.OptionMenu(f0,
self.var,
serial_list[0],
*serial_list,
command=self.OptionMenu_Selected(
self.var))
self.dropdown.pack()
self.dropdown.configure(state='normal')
self.var.trace('w', self.OptionMenu_Changed)
f1 = ttk.Frame(self) # button: start serial
f2 = ttk.Frame(self) # button: stop serial
f3 = ttk.Frame(self) # link 0
f4 = ttk.Frame(self) # link 1
f5 = ttk.Frame(self) # link 2
f6 = ttk.Frame(self) # button: save
#f7 = ttk.Frame(self) #
#f8 = ttk.Frame(self) #
# start serial button
self.start_serial_btn = ttk.Button(f1,
text="Start serial",
command=self.start_serial)
self.start_serial_btn.pack(side='left', padx=10)
self.start_serial_btn.configure(state='disable')
# stop serial button
self.stop_serial_btn = ttk.Button(f2,
text="Stop serial",
command=self.stop_serial)
self.stop_serial_btn.pack(side='left', padx=10)
self.stop_serial_btn.configure(state='disable')
#Link 0
ttk.Label(f3, text='Link 0: ',
font='Helvetica 10 bold').pack(side='left')
self.port = ttk.Entry(f3, width=6)
self.port.insert('end', '80')
self.port.pack(side='left', padx=0, pady=10)
#Link 1
ttk.Label(f4, text='Link 1: ',
font='Helvetica 10 bold').pack(side='left')
self.port = ttk.Entry(f4, width=6)
self.port.insert('end', '80')
self.port.pack(side='left', padx=0, pady=10)
#lin 3
ttk.Label(f5, text='Link 2: ',
font='Helvetica 10 bold').pack(side='left')
self.port = ttk.Entry(f5, width=6)
self.port.insert('end', '80')
self.port.pack(side='left', padx=0, pady=10)
# save btn
self.save_link_btn = ttk.Button(f6,
text="save link",
command=self.save_link)
self.save_link_btn.pack(side='left', padx=10)
f0.grid(column=1, row=0, columnspan=3, padx=10, pady=10, sticky='w')
f1.grid(column=1, row=1, padx=10, pady=10, sticky='w')
f2.grid(column=2, row=1, padx=10, pady=10, sticky='w')
f3.grid(column=1, row=2, padx=10, pady=10, sticky='w')
f4.grid(column=2, row=2, padx=10, pady=10, sticky='w')
f5.grid(column=3, row=2, padx=10, pady=10, sticky='w')
f6.grid(column=4, row=2, padx=10, pady=10, sticky='w')
