def openBank(bankData, CID):
print(f"CID: {CID}")
win2 = tk.Toplevel()
win2.geometry("300x400")
userCID_label = ttk.Label(win2, text=f"User: "******"light blue", font=("TkDefaultFont", 16))
userCID_label.grid(row=1, column=0, sticky=W, pady=10, padx=3)
userCIDValue_label = ttk.Label(win2, text=str(CID), background="light blue", font=("TkDefaultFont", 16))
userCIDValue_label.grid(row=1, column=1, sticky=W, pady=10, padx=3)
# Listbox view
bankInfo_label = ttk.Label(win2,text="bid cid bank-name account-number ", font=("TkDefaultFont", 10))
bankInfo_label.grid(row=2, column=0, columnspan=3)
list_box = Listbox(win2, height=6, font="helvetica 13", bg="light gray")
list_box.grid(row=3, column=0, columnspan=2, sticky=W + E)
list_box.delete(0, 'end')
for row in bankData:
list_box.insert('end', row)
bankName_label = ttk.Label(win2, text="Bank Name: ", background="light blue", font=("TkDefaultFont", 16))
bankName_label.grid(row=4, column=0, sticky=W, pady=10, padx=3)
bankName_text = StringVar()
bankName_input = ttk.Entry(win2, width=10, textvariable=bankName_text, font=("TkDefaultFont", 12))
bankName_input.grid(row=4, column=1, sticky=W)
accountNumber_label = ttk.Label(win2, text="Account Number: ", background="light blue", font=("TkDefaultFont", 16))
accountNumber_label.grid(row=5, column=0, sticky=W, pady=10, padx=3)
accountNumber_text = StringVar()
accountNumber_input = ttk.Entry(win2, width=10, textvariable=accountNumber_text, font=("TkDefaultFont", 12))
accountNumber_input.grid(row=5, column=1, sticky=W)
submit_btn = Button(win2, text="Add", bg="green", fg="white", font="helvetica 10 bold", command=lambda: bank_insert(win2,int(CID), bankName_text.get(), accountNumber_text.get()))
submit_btn.grid(row=6, column=1)
bid_label = ttk.Label(win2, text="BID: ", background="light blue", font=("TkDefaultFont", 16))
bid_label.grid(row=7, column=0, sticky=W, pady=10, padx=3)
bid_combo = ttk.Combobox(win2, width=8, state="readonly", font=("TkDefaultFont", 12))
bid_combo.grid(row=7, column=1, sticky=W)
values = [] #gets all the bid values and puts them into a combobox
for x in bankData:
values.append(x[0])
bid_combo['values'] = values
remove_btn = Button(win2, text="Remove", bg="red", fg="white", font="helvetica 10 bold",
command=lambda: bank_remove(win2, bid_combo.get()))
remove_btn.grid(row=8, column=1)
class ScenarioCenter(Toplevel):
def __init__(self, parent, scEvents, scName):
super().__init__(parent, height=100)
self.parent = parent
self.attributes('-topmost', 'true')
self.resizable(width=False, height=False)
self.title('Scenario Center')
self.scEvents = scEvents
self.scName = scName
editListFrame = Frame(self)
editListFrame.pack()
self.currentSelection = []
self.lb = Listbox(editListFrame, selectmode=MULTIPLE)
for i in self.scEvents:
self.lb.insert(END, i)
self.lb.bind("<<ListboxSelect>>", self.onSelect)
self.lb.grid(row=0, column=0, columnspan=2)
self.DeleteBtn = Button(editListFrame,
text='Delete',
width=12,
height=1)
self.DeleteBtn.grid(row=0, column=2, padx=5)
self.DeleteBtn.bind('<ButtonRelease-1>', self.onDeleteClick)
self.cancelBtn = Button(editListFrame,
text='Cancel',
width=12,
height=1)
self.cancelBtn.grid(row=1, column=1, pady=2)
self.cancelBtn.bind('<ButtonRelease-1>', self.onCancelClick)
self.okBtn = Button(editListFrame, text='OK', width=12, height=1)
self.okBtn.grid(row=1, column=2, padx=1, pady=2)
self.okBtn.bind('<ButtonRelease-1>', self.onOkClick)
def onCancelClick(self, event):
log.deleteScenarioFile(self.scName)
self.parent.updateList()
self.destroy()
def onDeleteClick(self, event):
print(self.scEvents)
self.lb.delete(0, END)
for idx in self.currentSelection[::-1]:
del self.scEvents[idx]
for i in self.scEvents:
self.lb.insert(END, i)
def onOkClick(self, event):
log.saveSelectedScenario(self.scName, self.scEvents)
self.destroy()
def onSelect(self, event):
self.currentSelection = list(self.lb.curselection())
def open_query():
"""Opens the Query TopLevel window"""
query_window = Toplevel(root)
query_window.title("Query")
global entity
entity = Listbox(query_window, selectmode="single", width=70)
entity.grid(row=0, column=1)
options = sf.query_all(
("SELECT ID, QualifiedAPIName from EntityDefinition"
" order by QualifiedAPIName")
)
optionList = []
entity.delete(0, END)
for record in options['records']:
optionList.append(record['QualifiedApiName'])
for each_item in range(len(optionList)):
entity.insert(END, optionList[each_item])
show_fields = Button(
query_window, text="Show Fields",
command=extract_fields
)
show_fields.grid(row=1, column=1)
global fields
fields = Listbox(query_window, selectmode="multiple", width=70)
fields.grid(row=2, column=1)
create_query = Button(
query_window, text="Create Query",
command=write_query
)
create_query.grid(row=4, column=1)
global soql
soql = Text(query_window, width=70, height=5)
soql.grid(row=5, column=1)
soql.insert(END, " ")
global folder
folder = Label(query_window, text="Select Folder")
folder.grid(row=6, column=1)
button_browse = Button(
query_window, text="Browse",
command=browse_button
)
button_browse.grid(row=7, column=1)
global file
file = Entry(query_window, width=70)
file.grid(row=8, column=1)
Label(query_window, text=" ").grid(row=9, column=1)
button_extract = Button(
query_window, height=1, width=15,
text="Extract", command=extract
)
button_extract.grid(row=10, column=1)
def load_links(self, tkList: tk.Listbox):
tkList.delete(0, "end")
filename = filedialog.askopenfilename(initialdir="/",
title="Select your playlist",
filetypes=[("text files",
"*.txt")])
with open(filename, "r") as file:
data = file.read().split("\n")
tkList.insert("end", *data)
class SpeciesListDialog():
def __init__(self, parent):
self.parent = parent
self.gui = Toplevel(parent.guiRoot)
self.gui.grab_set()
self.gui.focus()
self.gui.columnconfigure(0, weight=1)
self.gui.rowconfigure(1, weight=1)
Label(self.gui, text="Registered Species:").grid(row=0, column=0, pady=5, padx=5, sticky="w")
self.listRegisteredSpecies = Listbox(self.gui, width=70)
self.buttonAdd = Button(self.gui, text=" + ")
self.buttonDel = Button(self.gui, text=" - ")
self.listRegisteredSpecies.grid(row=1, column=0, columnspan=3, sticky="nswe", pady=5, padx=5)
self.buttonAdd.grid(row=2, column=1, pady=5, padx=5)
self.buttonDel.grid(row=2, column=2, pady=5, padx=5)
# Set (minimum + max) Window size
self.gui.update()
self.gui.minsize(self.gui.winfo_width(), self.gui.winfo_height())
# self.gui.maxsize(self.gui.winfo_width(), self.gui.winfo_height())
self.actionUpdate(None)
self.gui.bind("<<Update>>", self.actionUpdate)
self.gui.protocol("WM_DELETE_WINDOW", self.actionClose)
self.buttonDel.bind("<ButtonRelease>", self.actionDel)
self.buttonAdd.bind("<ButtonRelease>", self.actionAdd)
self.gui.mainloop()
def actionClose(self):
self.parent.guiRoot.event_generate("<<Update>>", when="tail")
self.gui.destroy()
def actionUpdate(self, event):
self.listRegisteredSpecies.delete(0, "end")
for (taxid, name) in self.parent.optimizer.speciesList:
self.listRegisteredSpecies.insert("end", taxid + ": " + name)
def actionDel(self, event):
try:
selection = self.listRegisteredSpecies.selection_get()
selectionSplit = selection.split(": ")
self.parent.optimizer.speciesList.remove((selectionSplit[0], selectionSplit[1]))
self.gui.event_generate("<<Update>>")
except tkinter.TclError :
# no selection
pass
def actionAdd(self, Event):
SpeciesSearchDialog(self.parent, self)
class Page1(Frame):
def on_recommend_btn_click(self):
selected_index = self.item_lst_box.curselection()
user_preferences = [
self.item_lst_box.get(indx) for indx in selected_index
]
print(f'User preferences are {user_preferences}')
if len(user_preferences) > 3:
messagebox.showwarning(
"Warning", "Currently doesnt support for than 3 preferences")
else:
self.business_logic.set_preferences(user_preferences)
Page2(self.master, self).show()
def get_appliances(self):
selected = self.radio_btn_var.get()
print(f'Selected option is {selected}')
if selected in (0, 1):
self.business_logic.set_choice(selected)
for index, item in enumerate(self.business_logic.items[
self.business_logic.selected_choice]):
self.item_lst_box.insert(index, item)
self.recommend_btn.configure(state=ACTIVE)
else:
self.recommend_btn.configure(state=DISABLED)
self.item_lst_box.delete(0, 'end')
def __init__(self, master):
super().__init__(master, relief='flat', borderwidth=40)
self.business_logic = MLLogic()
self.radio_btn_var = IntVar()
self.master.title(self.business_logic.title)
self.pack(fill=None, expand=False)
Label(self, text="Select the type of appliances you want to buy").grid(
row=1, columnspan=2, sticky='NW')
for index, appliance_type in enumerate(
self.business_logic.appliance_choices):
rdo_btn = Radiobutton(self,
text=appliance_type,
variable=self.radio_btn_var,
value=index,
command=self.get_appliances)
rdo_btn.select()
rdo_btn.grid(row=index + 2, column=2)
Label(self, text="Preferences").grid(row=7, columnspan=2, sticky='NW')
self.item_lst_box = Listbox(self, selectmode='multiple')
self.item_lst_box.delete(0, 'end')
self.item_lst_box.grid(row=7, column=2)
self.recommend_btn = Button(self,
text='Recommend',
command=self.on_recommend_btn_click)
self.recommend_btn.grid(row=9, column=2, sticky='NW')
self.recommend_btn.configure(state=DISABLED)
class EntryOptionsWindow:
def __init__(self, ls: str, tk: Tk, select_path=False) -> None:
self.select_path = select_path
self.List = ls
self.Tk = tk
self.Root = Toplevel(self.Tk)
self.Root.withdraw()
self.Frame = Frame(self.Root)
self.Box = Listbox(self.Frame, selectmode='extended', width=54, height=24)
for i in globals()[self.List]:
self.Box.insert(END, i)
self.Scroll = Scrollbar(self.Frame, command=self.Box.yview)
self.Entry = Entry(self.Frame)
self.ButtonAdd = Button(self.Frame, text='Добавить', command=self.__add_item)
self.ButtonDel = Button(self.Frame, text='Удалить', command=self.__del_item)
self.ButtonDone = Button(self.Frame, text='Готово', command=self.__save_list)
self.ButtonExit = Button(self.Frame, text='Отмена', command=self.Root.destroy)
def __add_item(self) -> None:
if self.select_path:
text = filedialog.askdirectory()
else:
text = self.Entry.get()
if text:
self.Box.insert(END, text)
self.Entry.delete(0, END)
def __del_item(self) -> None:
select = list(self.Box.curselection())
select.reverse()
for i in select:
self.Box.delete(i)
def __save_list(self) -> None:
globals()[self.List] = list(self.Box.get(0, END))
self.Root.destroy()
def main(self) -> None:
center_win(self.Root, '500x400')
self.Root.deiconify()
self.Root.title(f'Editing {self.List}')
self.Box.pack(side='left', expand=True)
self.Scroll.pack(side='left', fill='y')
self.Box.config(yscrollcommand=self.Scroll.set)
self.Frame.pack(side='left', padx=10)
if not self.select_path:
self.Entry.pack(anchor='n')
self.ButtonAdd.pack(fill='x')
self.ButtonDel.pack(fill='x')
self.ButtonDone.pack(fill='x')
self.ButtonExit.pack(fill='x')
self.Root.mainloop()
class LabeledListBox(Frame):
def __init__(self, parent, list_model, label_text):
Frame.__init__(self, parent)
self._list_model = list_model
self._list_objects = []
self._selected_items = []
scrollbar = Scrollbar(self, orient=VERTICAL)
Label(self, text=label_text).pack()
self.listbox = Listbox(self, selectmode=EXTENDED, exportselection=0, yscrollcommand=scrollbar.set, borderwidth=0, highlightthickness=0)
scrollbar.config(command=self.listbox.yview)
scrollbar.pack(side=RIGHT, fill=Y)
self.listbox.pack(side=LEFT, fill=BOTH, expand=1)
self.listbox.bind('<<ListboxSelect>>', self._on_select)
self._list_model.list_items_model.add_listener(self._list_items_changed)
self._list_model.selected_items_model.add_listener(self._selected_items_changed)
self._update_list_items()
def _list_items_changed(self, values):
self._update_list_items()
def _selected_items_changed(self, values):
self._update_selected_items()
def _update_list_items(self):
values, labels = self._list_model.list_items_model.get_list_values()
if not values == self._list_objects:
self._list_objects = []
self._selected_items = []
self.listbox.delete(0, END)
for value, label in zip(values, labels):
self._list_objects.append(value)
self.listbox.insert(END, label)
self._update_selected_items()
def _update_selected_items(self):
selected_items = self._list_model.selected_items_model.selected_items
if not selected_items == self._selected_items:
self._selected_items = selected_items
for index, list_item in enumerate(self._list_objects):
if list_item in selected_items:
self.listbox.selection_set(index)
def _on_select(self, evt):
visible_selected_indices = self.listbox.curselection()
for index, list_item in enumerate(self._list_objects):
if index in visible_selected_indices:
self._list_model.selected_items_model.select(list_item)
else:
self._list_model.selected_items_model.deselect(list_item)
class CollectionFrame(Frame):
"""
Frame permétant de gérer la collection d'épisodes.
"""
def __init__(self,
master=None,
select_callback=None,
delete_callback=None):
Frame.__init__(self, master)
self._select_callback = select_callback
self._delete_callback = delete_callback
choices = Variable(self)
self.listbox = Listbox(self, listvariable=choices, selectmode='single')
self.listbox.pack()
buttons_frame = Frame(self)
Button(buttons_frame, text="Select",
command=self.get_selected_element).pack(side=RIGHT)
Button(buttons_frame,
text="Delete",
command=self.delete_selected_element).pack(side=RIGHT)
buttons_frame.pack()
def add_element(self, element, index=END):
"""
Ajoute un épisode dans la liste. L'index permet d'ordonner les épisodes.
:param element: Titre de l'épisode
:param index: indice d'insertion
:return: None
"""
self.listbox.insert(index, element)
def get_selected_element(self):
curselection = self.listbox.curselection()
if len(curselection) != 1:
print("Pas de selection")
else:
self._select_callback(curselection[0])
def delete_selected_element(self):
curselection = self.listbox.curselection()
if len(curselection) != 1:
print("Pas de selection")
else:
ep_index = curselection[0]
self.listbox.delete(ep_index)
self._delete_callback(ep_index)
class LoadGUI(Frame):
"""Loading frame which allows the users to pick quizzes.
"""
def __init__(self, master=None):
Frame.__init__(self, master)
self.grid(row=0, column=0, sticky="nsew")
self.grid_columnconfigure(0, weight=1)
self.cover_photo = PhotoImage(file="static/cover.png")
self.cover_label = Label(self, image=self.cover_photo)
self.cover_label.grid(row=0, column=0, padx=(20,20), pady=(20,10), sticky="ew")
self.select_frame = LabelFrame(self, text="Select a quiz")
self.select_frame.grid(row=1, column=0, padx=(20,20), pady=(10,20), sticky="ew")
for i in range(0,4):
self.select_frame.grid_rowconfigure(i, weight=1)
self.select_frame.grid_columnconfigure(0, weight=4)
self.select_frame.grid_columnconfigure(1, weight=1)
self.quiz_list = Listbox(self.select_frame)
self.quiz_list.grid(row=0, column=0, rowspan=4, padx=(10,10), pady=(10,10), sticky="ew")
self.start_button = Button(self.select_frame, text="Start quiz", command=self.start_chosen)
self.start_button.grid(row=0, column=1, padx=(0,10), pady=(10,5), sticky="nsew")
self.refresh_button = Button(self.select_frame, text="Refresh list", command=self.refresh)
self.refresh_button.grid(row=1, column=1, padx=(0,10), pady=(5,5), sticky="nsew")
self.help_button = Button(self.select_frame, text="Help", command=var.HELP_URL)
self.help_button.grid(row=2, column=1, padx=(0,10), pady=(5,5), sticky="nsew")
self.quit_button = Button(self.select_frame, text="Quit", command=root.destroy)
self.quit_button.grid(row=3, column=1, padx=(0,10), pady=(5,10), sticky="nsew")
self.get_quizzes()
def get_quizzes(self):
"""[summary]
"""
self.dir_list = sorted([i[:-5] for i in os.listdir() if i.endswith(".json") and "quiz" in i.lower()])
for f in self.dir_list:
self.quiz_list.insert("end", f)
def refresh(self):
"""[summary]
"""
self.quiz_list.delete(0, "end")
self.get_quizzes()
def start_chosen(self):
"""[summary]
"""
self.filename = self.quiz_list.get("active") + ".json"
file_handler.parse_file(self.filename)
file_handler.parse_leaderboard()
quiz_gui.add_questions()
quiz_gui.tkraise()
def show_items(self, list_of_items: list, target_box: Listbox,
check_original: bool):
target_box.delete(0, END)
index = 0
for item in list_of_items:
target_box.insert(END, item)
if check_original and not self.files_map.get(item):
self.source_files_box.itemconfig(index, {'fg': 'gray50'})
target_box.itemconfig(index, {'fg': 'red'})
elif check_original and self.files_map.get(item):
self.source_files_box.itemconfig(index, {'fg': 'black'})
target_box.itemconfig(index, {'fg': 'black'})
index += 1
scroll_position = ('moveto', self.scroll_bar_position[0])
self.source_files_box.yview(*scroll_position)
self.result_files_box.yview(*scroll_position)
class MainWindow:
def __init__(self, vehicles):
self.vehicles = vehicles
self.root = Tk()
self.root.title("GUI на Python")
self.root.geometry("300x250")
self.file_menu = Menu()
self.file_menu.add_command(label="New", command=self.new_win)
self.file_menu.add_command(label="Save", command=self.show_list)
self.file_menu.add_command(label="Open", command=self.open_file)
self.file_menu.add_separator()
self.file_menu.add_command(label="Exit")
self.main_menu = Menu()
self.main_menu.add_cascade(label="File", menu=self.file_menu)
self.main_menu.add_cascade(label="Edit")
self.main_menu.add_cascade(label="View")
self.languages_listbox = Listbox()
self.languages_listbox.pack(expand=True, fill=BOTH)
self.root.config(menu=self.main_menu)
self.root.mainloop()
def get_list_text_from_file(self, filename):
arr_text = []
with open(filename, "r") as file_data:
for line in file_data:
arr_text.append(line)
return arr_text
def open_file(self):
filename = filedialog.askopenfilename()
values = self.get_list_text_from_file(filename)
for value in values:
self.languages_listbox.insert(END, value)
def new_win(self):
n_win = MainWindow(vehicles)
def show_list(self):
self.languages_listbox.delete(0, self.languages_listbox.size())
for value in vehicles:
self.languages_listbox.insert(END, value)
class List:
def __init__(self, root, array=[]):
self.__root = root
self.__frame = Frame(self.__root)
self.__scrollBar = Scrollbar(self.__frame)
self.__list = Listbox(self.__frame,
font=12,
selectmode=SINGLE,
width=10,
yscrollcommand=self.__scrollBar.set)
self.__list.config(width=40)
self.__list.pack(side=LEFT, anchor=W, fill=BOTH, expand=True)
self.__lessons = []
self.setList(array)
self.__scrollBar.config(command=self.__list.yview)
self.__scrollBar.pack(side=RIGHT, fill=Y)
self.__frame.pack(side=LEFT, anchor=W, fill=BOTH, expand=True)
def getObjectList(self):
return self.__list
def setList(self, array=[]):
self.__deleteAll()
self.__lessons = [x for x in array]
for item in array:
self.__list.insert(END, str(item))
def getSelectedElement(self, e=None):
if self.__list.curselection() is ():
return None
else:
return self.__lessons[self.__list.curselection()[0]]
def setSelectedItem(self, i):
self.__list.activate(i)
def __deleteAll(self):
self.__list.delete(0, END)
class ServerRunningView(View):
WINDOW_TITLE = "Chadt Server"
LABEL_TEXT = "Connected Clients:"
CHAT_HEIGHT = 10
CHAT_WIDTH = 80
def __init__(self):
super().__init__(self.WINDOW_TITLE)
self.label = None
self.user_list = None
self.chat_log = None
self.chat_scroll = None
self._initialize_widgets()
self._place_widgets()
def _initialize_widgets(self):
self.label = Label(self.root, text=self.LABEL_TEXT)
self.user_list = Listbox(self.root)
self.chat_log = Text(self.root,
height=self.CHAT_HEIGHT,
width=self.CHAT_WIDTH)
self.chat_log.bind("<Key>", lambda x: "break")
# this^ bind effectively makes the text widget read-only
self.chat_scroll = Scrollbar(self.root, command=self.chat_log.yview)
self.chat_log["yscrollcommand"] = self.chat_scroll.set
def _place_widgets(self):
self.label.grid(row=0, column=0)
self.user_list.grid(row=1, column=0)
self.chat_log.grid(row=1, column=1)
def update_list_box(self, items):
self.user_list.delete(0, END)
for item in items:
self.user_list.insert(END, item)
def display_new_text_message(self, message):
self.chat_log.insert(END, message + "\n")
self.chat_log.see(END)
class AddWindow(Tk):
def __init__(self, parent_window):
super().__init__()
self.title("add schedule")
self.entry = Entry(self)
self.entry.grid(row=0, column=0, columnspan=2)
self.entry.bind("<Key>", self.key_typed)
self.listBox = Listbox(self)
for i in WebExtractionHelper.get_hint(""):
self.listBox.insert(END, i)
self.listBox.grid(row=1, column=0, columnspan=2)
self.cancel_button = Button(self, text='cancel', command=self.cancel)
self.cancel_button.grid(row=2, column=0)
self.selected_button = Button(self, text='select', command=self.selected)
self.selected_button.grid(row=2, column=1)
self.parent_window = parent_window
def key_typed(self, event: EventType):
self.listBox.delete(0, END)
postfix = ''
if event.char.isdigit() or event.char.isalpha():
postfix = event.char
hints = WebExtractionHelper.get_hint(self.entry.get() + postfix)
for hint in hints:
self.listBox.insert(END, hint)
def cancel(self):
self.destroy()
def selected(self):
try:
name: str = self.listBox.get(self.listBox.curselection())
FileExtractionHelper.put_to_file(name)
except TclError:
pass
self.destroy()
self.parent_window.rerender_list()
class Output(Frame):
def __init__(self, parent, *args, **kwargs):
super(Output, self).__init__(parent, *args, **kwargs)
self.create_list()
self.pack_propagate(False)
def create_list(self):
self.listbox = Listbox(self)
scroll = Scrollbar(self, orient='vertical', command=self.listbox.yview)
self.listbox.configure(yscrollcommand=scroll.set)
self.listbox.pack(side='left', fill='both', expand=True)
scroll.pack(side='left', fill='y')
def insert(self, value):
self.listbox.insert('end', str(value))
def clear(self):
self.listbox.delete(0, 'end')
class updating_box():
def __init__(self, root, widget, li, gridx, gridy):
self.li = li
self.widget = widget
gridx = gridx
gridy = gridy
self.basic_frame = ttk.Frame(root)
self.basic_frame.grid(row=gridx, column=gridy)
self.input_entry = ttk.Entry(self.basic_frame,
textvariable=self.widget)
self.input_entry.grid(row=0, column=1)
self.lb = Listbox(self.basic_frame, width=20, height=4)
self.lb.insert(0, *self.li)
self.input_entry.bind('<KeyRelease>', lambda e: self.update_list())
self.lb.bind('<Return>', lambda e: self.selected_item())
self.lb.bind('<Double-Button-1>', lambda e: self.selected_item())
self.input_entry.bind('<Button-1>', lambda e: self.show_me())
self.input_entry.bind('<Return>', lambda e: self.hide_me())
def hide_me(self):
self.lb.grid_forget()
def show_me(self):
self.lb.grid(row=1, column=1)
def update_list(self):
temp = list(
filter(
lambda x: x
if self.widget.get().lower() in x.lower() else '', self.li))
self.lb.delete(0, END)
self.lb.insert(0, *temp)
def selected_item(self):
for i in self.lb.curselection():
self.widget.set(self.lb.get(i))
self.lb.tk_focusNext().focus()
self.lb.grid_forget()
class SeeExamNotes():
def __init__(self, frame, column, id_user):
self.frame = frame
self.column = column
self.id_user = id_user
self.created()
self.mounted()
def created(self):
self.labelTittle = Label(self.frame, text='Ver notas de postulaciones')
self.labelTittle.grid(column=self.column, row=0, pady=15)
self.labelPostulations = Label(self.frame, text='elige la asignatura que quieres ver la nota')
self.labelPostulations.grid(column=self.column, row=1, pady=5)
self.comboBoxSubjects = ttk.Combobox(self.frame)
self.comboBoxSubjects.grid(column=self.column, row=2, pady=5)
self.buttonSelecSubject = Button(self.frame, text='Select Subject', command= lambda: self.showExams())
self.buttonSelecSubject.grid(column=self.column, row=3, pady=5)
self.labelExams = Label(self.frame, text='Exams')
self.labelExams.grid(column=self.column, row=4, pady=5)
self.listboxExams = Listbox(self.frame, width=30)
self.listboxExams.grid(column=self.column, row=5, pady=5)
def mounted(self):
self.subjectPostulations = getSubjectsByPostulant(self.id_user)
listSubjectPostulation = []
for subject in self.subjectPostulations:
listSubjectPostulation.append(subject[1])
self.comboBoxSubjects["values"] = listSubjectPostulation
def showExams(self):
self.listboxExams.delete(0, END)
id_subject = self.subjectPostulations[self.comboBoxSubjects.current()][0]
evaluations = getEvaluations(id_subject, self.id_user)
print(evaluations)
for evaluation in evaluations:
self.listboxExams.insert(END, evaluation)
class Window(Tk):
def __init__(self):
Tk.__init__(self)
self.state('zoomed')
self.config(bg='#282a36')
self.bind('<KeyPress>', self.manipula)
self.tx = Texto(self)
self.tx.bind('<Tab>', self.tabSpace)
self.linhas = Listbox(self, width=10, bg='#21222c', fg='#ffffff', bd=0)
self.status = Label(self,
text='coluna: 1 linha: 1 arquivo: ',
bg='#21222c',
fg='#fff')
self.tx.config(width=170, height=42, bg='#282a36', fg='#fffffe', bd=0)
self.linhas.pack(side='left', fill='y')
self.tx.pack(expand=True, anchor='ne')
self.status.pack(expand=True, fill='x', anchor='se')
def manipula(self, keypress):
print(keypress)
self.linha = float(self.tx.index('end-1c')) * 1
self.linha = str(self.linha)
self.indice = self.linha.index('.')
coluna = f' Cl: {self.linha[self.indice + 1:]}'
linha = f' Ln: {self.linha[:self.indice]}'
self.status['text'] = f'{coluna} {linha} {" " * 10}{__file__[10:-1]}'
self.linhas.insert(int(self.linha[:self.indice]),
str(self.linha[:self.indice]))
self.removeLines()
self.tecla = keypress
def tabSpace(self, tab):
self.tx.insert('end', f' ' * 4)
return 'break'
def removeLines(self):
pos = str(self.tx.index('end'))
ind = pos.index('.')
pos = int(pos[:ind])
self.linhas.delete(pos - 1, 'end')
class ScrollList(Frame):
def __init__(self, root, onSelect=None):
Frame.__init__(self, root)
self.selectAction = onSelect
self.grid_rowconfigure(0, weight=1)
self.grid_columnconfigure(0, weight=1)
self.xscroll = Scrollbar(self)
self.yscroll = Scrollbar(self)
self.list = Listbox(self)
self.list.bind("<<ListboxSelect>>", self.onSelect)
self.list.config(xscrollcommand=self.xscroll.set)
self.list.config(yscrollcommand=self.yscroll.set)
self.list.config(activestyle="none")
self.list.config(exportselection=False)
self.xscroll.config(orient="horizontal")
self.xscroll.config(command=self.list.xview)
self.yscroll.config(command=self.list.yview)
self.list.grid(row=0, column=0, sticky="nesw")
self.xscroll.grid(row=1, column=0, sticky="ew")
self.yscroll.grid(row=0, column=1, sticky="ns")
# set this list's data
def setData(self, data):
self.list.delete(0, "end")
for item in data:
self.list.insert("end", item)
# get the currently selected index
def getSelection(self):
ind = self.list.curselection()
return -1 if ind == () else int(ind[0])
# executed when a list item is selected
def onSelect(self, event=None):
if self.selectAction is not None:
self.selectAction()
class mask_select(Frame):
def __init__(self, controller, current_model : model_manager_obj, master, *args, **kwargs):
self.controller = controller
super().__init__(master, *args, **kwargs)
self.listbox = Listbox(self, exportselection=False)
self.listbox.pack(fill="both", expand=True)
self.listbox.bind("<<ListboxSelect>>",self.selection)
Label(self,text="New mask file: ").pack()
self.entry_text = StringVar()
Entry(self,textvariable=self.entry_text).pack()
Button(self,text='Create',command=self.add_new).pack()
self.update_model(current_model)
def update_model(self, current_model):
self.model = current_model
self.mask_file_list = self.model.get_mask_file_list()
self.current_mask_file=self.model.get_current_mask_file()
self.listbox.delete(0, END)
for item in self.mask_file_list:
self.listbox.insert(END, item)
self.listbox.select_set(0)
self.listbox.event_generate("<<ListboxSelect>>")
def selection(self,event):
w = event.widget
index = int(w.curselection()[0])
value = w.get(index)
selected = value
self.controller.event_change_mask_file(selected)
pass
def add_new(self):
new = self.entry_text.get()
self.controller.event_add_mask_file(new)
pass
class MillipedeGUI:
def __init__(self, master):
self.master = master
master.title("Simple Crawler")
master.geometry("500x500")
mainFrame = Frame(master=master,bg='white')
mainFrame.pack_propagate(0) #Don't allow the widgets inside to determine the frame's width / height
mainFrame.pack(fill=BOTH, expand=1) #Expand the frame to fill the root window
self.label = Label(mainFrame, text="Type a URL")
self.label.pack()
# self.urlField = Text(mainFrame, height=1, width=30, borderwidth=1, relief=RAISED)
self.urlField = Entry(mainFrame)
self.urlField.pack()
self.listBox = Listbox(mainFrame)
self.listBox.pack()
self.greet_button = Button(mainFrame, text="Crawl", command=self.crawl)
self.greet_button.pack()
self.close_button = Button(mainFrame, text="Close", command=master.quit)
self.close_button.pack()
def crawl(self):
url = self.urlField.get()
print(url)
if url == "":
print("No URL provided")
return
hrefs = Href(url)
domains = hrefs.countHyperlinks()
counter = 1
self.listBox.delete(0,'end')
for domain in domains:
self.listBox.insert(counter, domain + " - " + str(domains[domain]))
counter += 1
print(domain, domains[domain])
class InfoList:
def __init__(self,
baseFrame,
selectEvent,
dataFormat,
initialInfo=[],
width=30,
height=5):
self.infoData = initialInfo
self.dataFormat = dataFormat
self.infoList = Listbox(
baseFrame,
width=width,
height=height,
listvariable=StringVar(value=[ele[0] for ele in self.infoData]))
self.infoList.bind('<<ListboxSelect>>', selectEvent)
self.infoList.grid(row=0, column=0)
self.scrollbar = Scrollbar(baseFrame,
orient=VERTICAL,
command=self.infoList.yview)
self.scrollbar.grid(row=0, column=1, sticky=(N, S))
self.infoList['yscrollcommand'] = self.scrollbar.set
self.updateInfo(self.infoData)
def updateInfo(self, infoData=[]):
self.infoList.delete(0, len(self.infoData) - 1)
self.infoData = infoData
for iinfo, info in enumerate(self.infoData):
info[0] = iinfo
self.infoList.insert(iinfo, self.dataFormat(info))
for i in range(0, len(self.infoData), 2):
self.infoList.itemconfigure(i, background='#f0f0ff')
def report(self):
idxs = self.infoList.curselection()
if len(idxs) == 1:
return self.infoData[idxs[0]]
return []
class ContactList(Frame):
def __init__(self, master, **kwargs):
super().__init__(master, **kwargs)
self.lb = Listbox(self)
scroll = Scrollbar(self, command=self.lb.yview)
self.lb.config(yscrollcommand=scroll.set)
scroll.pack(side=RIGHT, fill=Y)
self.lb.pack(side=LEFT, fill=BOTH)
def insert(self, contact, index=END):
self.lb.insert(index, "{} {}".format(contact.first_name,
contact.last_name))
def delete(self, index):
self.lb.delete(index)
def edit(self, contact, index):
self.delete(index)
self.insert(contact, index)
def double_click(self, fn):
self.lb.bind('<Double-Button-1>',
lambda _: fn(self.lb.curselection()[0]))
class Leaderboard(Frame):
def __init__(self, parent, movies):
Frame.__init__(self, parent)
self.movies = movies
scrollbar = Scrollbar(self, orient=VERTICAL)
scrollbar.pack(side=RIGHT, fill=Y)
self.listbox = Listbox(self,
width=80,
yscrollcommand=scrollbar.set,
selectmode=EXTENDED)
self.listbox.pack(expand=True, fill=Y)
scrollbar.config(command=self.listbox.yview)
self.load()
def load(self):
self.listbox.delete(0, END)
count = 1
for movie in sorted(self.movies, reverse=True):
self.listbox.insert(
END, "{}. {} ({:.2f})".format(count, movie.name, movie.elo))
count += 1
class HOPSListDisplay(HOPSWidget):
def __init__(self, window, font='Courier'):
widget = Frame(window.main_frame)
scrollbar = Scrollbar(widget)
scrollbar.pack(side=RIGHT, fill=Y)
self.listbox = Listbox(widget, yscrollcommand=scrollbar.set, font=font)
self.listbox.pack(side=LEFT, fill=BOTH, expand=True)
scrollbar.config(command=self.listbox.yview)
window.root.columnconfigure(0, weight=1)
window.root.rowconfigure(0, weight=1)
HOPSWidget.__init__(self, window, widget, 'ListDisplay')
def update_list(self, list_to_add):
self.listbox.delete(0, END)
for row in list_to_add:
self.listbox.insert(END, str(row))
def grid(self, *args, **kwargs):
return self.widget.grid(*args, **kwargs, sticky=E + W + N + S)
class ShapesMenu(object):
"""
"""
def __init__(self, master, line_collection):
try:
self.width_of_entry = len(line_collection[0])
except IndexError:
self.width_of_entry = 0
self.top = Toplevel(master)
self.current_lines_listbox = Listbox(self.top)
self.removed_lines_listbox = Listbox(self.top)
self.submit = Button(self.top, text = "Ok", command=self.submit)
self.remove_button = Button(self.top, text = "Remove", command=self.remove_line)
self.cancel = Button(self.top, text = "Cancel", command=self.top.destroy)
self.top.bind("<Return>", func=self.submit)
self.current_lines = line_collection
self.removed_lines = []
self.ids_internal = []
self.ids = []
for index, line in enumerate(self.current_lines):
#removes the point data and converts the rest to strings
id = line[1]
if id not in self.ids_internal:
self.ids_internal.append(id)
self.ids.append(id)
line = [str(element) for element in line[1:]]
#put into the list
self.current_lines_listbox.insert(index, " ".join(line))
self.current_lines_listbox.grid(row=0, column=0, columnspan=3)
self.submit.grid(row=1, column=1)
self.cancel.grid(row=1, column=2)
self.remove_button.grid(row=1, column=0)
def submit(self):
#expose the internal IDs to remove to the exterior methods
self.ids = self.ids_internal
self.top.destroy()
def remove_line(self):
"""Take the active line and remove it"""
line_to_remove = self.current_lines_listbox.get(ANCHOR)
id_to_remove = int(line_to_remove.split(" ")[0])
#remove it from the ID list
self.ids_internal.remove(id_to_remove)
#remove it from the listbox
self.current_lines_listbox = self.current_lines_listbox.delete(ANCHOR)
class ChatGUI(Frame):
def __init__(self, parent, conn):
#Frame.__init__(self, parent, background="grey")
self.parent = parent
self.conn = conn
self.centerWindow()
self.initUI()
def initUI(self):
self.lineCounter = 0
# create a custom font
self.customFontHeader = font.Font(family="Calibri", slant = "italic") #family="Helvetica", weight="bold", slant="italic")
self.customFontMessage = font.Font(family="Calibri")
self.parent.title("Python Chat")
frame = Frame(self.parent)
frame.pack(fill=BOTH, expand=1, side=LEFT)
self.box = ScrolledText(frame, wrap=WORD, relief = GROOVE, width=30, height=18, font=self.customFontMessage)
self.box.insert(END, 'Welcome to Python Chat!')
self.box.config(state=DISABLED)
self.box.pack(expand="yes", fill=BOTH, side=TOP)
self.textarea = Text(frame, width=30, height=5)
#self.textarea.insert(END, "")
self.textarea.bind("<KeyRelease-Return>", self.gettext) #Se metto on press, rimane una newline in piu
self.textarea.pack(expand="yes", fill=BOTH, side=TOP)
okButton = Button(frame, text="Panic Button", activebackground="red", command=self.sendFile)
okButton.pack(expand="no", fill=BOTH, side=TOP)
self.usersFrame = Frame(self.parent)
self.usersFrame.pack(fill=BOTH, expand=1, side=RIGHT)
self.userListbox = Listbox(self.usersFrame, width=3)
self.userListbox.pack(fill=BOTH, expand=1)
self.updateUsersFrame()
def centerWindow(self):
w = 600
h = 475
sw = self.parent.winfo_screenwidth()
sh = self.parent.winfo_screenheight()
x = (sw - w)/2
y = (sh - h)/2
self.parent.geometry('%dx%d+%d+%d' % (w, h, x, y))
def gettext(self, e): #e sta per event, questo e' un listener
text = self.textarea.get("1.0", END) # 1.0: row:columa - END-2c rimuove l'ultimo carattere, una newline \r\n
if "\n" in text:
text = text.replace("\n", "")
self.textarea.delete("0.0", END) #NON VA: il problema e' che viene inviato il carattere di newline ma non incluso nell'area a causa della bind mi sa. Devo escluderlo io
self.sendToServer(text)
def printConversation(self, message):
self.box.config(state=NORMAL)
self.box.insert(END,"\n" + message)
self.lineCounter = self.lineCounter + 2
#m = re.match("\[.*\] From .*\n", self.box.get("0.0", END))
m = re.search("\[.*\].*:", message, re.MULTILINE)
if m is not None:
#print("MATCH")
#print(m.group(0))
#print(str(m.start(0)) + "_" + str(m.end(0)))
#print("COUNTER")
#print(str(self.lineCounter) + "." + str(m.start(0)+1) + "___" + str(self.lineCounter) + "." + str(m.end(0)))
self.box.tag_add("header", str(self.lineCounter) + "." + str(m.start(0)), str(self.lineCounter) + "." + str(m.end(0)))
self.box.tag_config("header", font=self.customFontHeader, foreground = "blue")
self.box.config(state=DISABLED)
#self.box.yview_scroll(10000,"units")
self.box.see(END)
def sendToServer(self, messageToSend):
self.conn.send(messageToSend.encode(encoding='utf_8', errors='strict'))
def sendFile(self):
#aprire una dialog di quelle predefinite (Sfoglia...)
#capire come fare la send di un file sul socket...
pass
def updateUsersFrame(self):
global connectedClients
self.userListbox.delete(0, END)
self.userListbox.insert(END, "Connected users")
for item in connectedClients:
self.userListbox.insert(END, item)
class ProblemBrowser(object):
def __init__(self):
self.action = None
self.root = root = Tk()
root.title('Never gonna fold you up')
root.protocol("WM_DELETE_WINDOW", self.close)
root.pack_propagate(True)
scrollbar = Scrollbar(root, orient=tkinter.VERTICAL)
self.problem_list = Listbox(root, exportselection=False, yscrollcommand=scrollbar.set)
self.problem_list.pack(expand=True, fill=tkinter.BOTH, side=tkinter.LEFT)
scrollbar.config(command=self.problem_list.yview)
scrollbar.pack(side=tkinter.LEFT, fill=tkinter.Y)
self.problem_list.bind('<<ListboxSelect>>', lambda evt: self.populate_problem_canvas())
self.problem_canvas = Canvas(root, bd=1, relief=tkinter.SUNKEN, width=500, height=500)
self.problem_canvas.pack(expand=True, fill=tkinter.BOTH, side=tkinter.LEFT)
self.problem_canvas.bind("<Configure>", lambda evt: self.populate_problem_canvas())
button_frame = Frame(root)
button_frame.pack(fill=tkinter.Y, side=tkinter.LEFT)
# Reposition the figure so it's center of mass is at 0.5, 0.5
v = IntVar()
self.center_cb = Checkbutton(button_frame, text="center", variable=v, command=lambda: self.populate_problem_canvas())
self.center_cb.var = v
self.center_cb.pack(side=tkinter.TOP)
# Use meshes.reconstruct_facets instead of polygon/hole logic.
v = IntVar()
self.reconstruct_cb = Checkbutton(button_frame, text="reconstruct", variable=v, command=lambda: self.populate_problem_canvas())
self.reconstruct_cb.var = v
self.reconstruct_cb.pack(side=tkinter.TOP)
self.populate_problems()
self.current_problem_name = None
self.current_problem = None
def populate_problems(self):
self.problem_list.delete(0, tkinter.END)
for file in sorted((get_root() / 'problems').iterdir()):
self.problem_list.insert(tkinter.END, file.stem)
def populate_problem_canvas(self):
sel = self.problem_list.curselection()
if not sel: return
assert len(sel) == 1
name = self.problem_list.get(sel[0])
if name != self.current_problem_name:
self.current_problem_name = name
self.current_problem = load_problem(name)
if self.current_problem:
p = self.current_problem
if self.center_cb.var.get():
p = center_problem(p)
if self.reconstruct_cb.var.get():
facets = meshes.reconstruct_facets(p)
facets = meshes.keep_real_facets(facets, p)
skeleton = [e for f in facets for e in edges_of_a_facet(f)]
p = Problem(facets, skeleton)
draw_problem(self.problem_canvas, p)
def run(self):
self.root.mainloop()
def close(self):
if self.root:
self.root.destroy()
self.root = None
class Example(Frame):
def __init__(self, parent):
Frame.__init__(self, parent, background="#8080FF")
self.parent = parent
self.initUI()
def initUI(self):
self.parent.title("EQ GuildViewer 0.1")
fontb = Font(size=12, weight="bold")
# inicializo variables
self.ant = None
self.lastLine = 0
self.name = ""
# frame padre
area = Frame(self)
area.pack(side=BOTTOM, fill=BOTH, expand=1)
areab = Frame(self)
areab.pack(side=TOP, fill=BOTH, expand=1)
# scroll players
self.scrollbar2 = Scrollbar(areab, orient=VERTICAL)
# construimos un menu con todos los nombres del diccionario y un boton
self.refreshButton = Button(areab, text="""PARSEA!""", command=self.onRefresh, bd=2, relief="groove")
self.listboxLogs = Listbox(
areab, width=50, activestyle="none", highlightthickness=0, yscrollcommand=self.scrollbar2.set, relief=RIDGE
)
self.listboxLogs.pack(side=LEFT, fill=Y)
self.scrollbar2.pack(side=LEFT, fill=Y)
self.refreshButton.pack(side=LEFT, fill=BOTH, expand=1)
for player in optionsDictionary:
self.listboxLogs.insert(END, player)
# scroll
self.scrollbar = Scrollbar(area, orient=VERTICAL)
self.scrollbar.pack(side=RIGHT, fill=Y)
# area1
area1 = Frame(area)
area1.pack(side=LEFT, fill=Y)
lbl = Label(area1, text="Name")
self.listbox = Listbox(
area1, yscrollcommand=self.scrollbar.set, font=fontb, relief=FLAT, highlightthickness=0, activestyle="none"
)
lbl.pack(side=TOP)
self.listbox.pack(side=BOTTOM, fill=Y, expand=1)
# area2
area2 = Frame(area)
area2.pack(side=LEFT, fill=Y)
lbl2 = Label(area2, text="Level")
self.listbox2 = Listbox(
area2, yscrollcommand=self.scrollbar.set, font=fontb, relief=FLAT, highlightthickness=0, activestyle="none"
)
lbl2.pack(side=TOP)
self.listbox2.pack(side=BOTTOM, fill=Y, expand=1)
# area3
area3 = Frame(area)
area3.pack(side=LEFT, fill=Y)
lbl3 = Label(area3, text="Class")
self.listbox3 = Listbox(
area3, yscrollcommand=self.scrollbar.set, font=fontb, relief=FLAT, highlightthickness=0, activestyle="none"
)
lbl3.pack(side=TOP)
self.listbox3.pack(side=BOTTOM, fill=Y, expand=1)
# area4
area4 = Frame(area)
area4.pack(side=LEFT, fill=Y)
lbl4 = Label(area4, text="Race")
self.listbox4 = Listbox(
area4, yscrollcommand=self.scrollbar.set, font=fontb, relief=FLAT, highlightthickness=0, activestyle="none"
)
lbl4.pack(side=TOP)
self.listbox4.pack(side=BOTTOM, fill=Y, expand=1)
# area3
area5 = Frame(area)
area5.pack(side=LEFT, fill=Y)
lbl5 = Label(area5, text="Zone")
self.listbox5 = Listbox(
area5, yscrollcommand=self.scrollbar.set, font=fontb, relief=FLAT, highlightthickness=0, activestyle="none"
)
lbl5.pack(side=TOP)
self.listbox5.pack(side=BOTTOM, fill=Y, expand=1)
self.pack(fill=BOTH, expand=1)
# config-scrollbar
self.scrollbar.config(command=self.yview)
self.scrollbar2["command"] = self.listboxLogs.yview
# bindeos de acciones
self.listbox.bind("<<ListboxSelect>>", self.onSelect)
self.listbox.bind("<MouseWheel>", self.onTest)
self.listbox2.bind("<<ListboxSelect>>", self.onSelect)
self.listbox2.bind("<MouseWheel>", self.onTest)
self.listbox3.bind("<<ListboxSelect>>", self.onSelect)
self.listbox3.bind("<MouseWheel>", self.onTest)
self.listbox4.bind("<<ListboxSelect>>", self.onSelect)
self.listbox4.bind("<MouseWheel>", self.onTest)
self.listbox5.bind("<<ListboxSelect>>", self.onSelect)
self.listbox5.bind("<MouseWheel>", self.onTest)
self.listboxLogs.bind("<<ListboxSelect>>", self.onSelectPlayer)
# mostrar la barra de scroll
def yview(self, *args):
self.listbox.yview(*args)
self.listbox2.yview(*args)
self.listbox3.yview(*args)
self.listbox4.yview(*args)
self.listbox5.yview(*args)
# accion de la rueda del raton
def onTest(self, val):
return "break"
# seleccionar un elementos de una listbox
def onSelect(self, val):
try:
if self.ant != None:
self.listbox.itemconfig(self.ant, background="#FFFFFF")
self.listbox2.itemconfig(self.ant, background="#FFFFFF")
self.listbox3.itemconfig(self.ant, background="#FFFFFF")
self.listbox4.itemconfig(self.ant, background="#FFFFFF")
self.listbox5.itemconfig(self.ant, background="#FFFFFF")
self.listbox.itemconfig(val.widget.curselection(), background="#C0C0C0")
self.listbox2.itemconfig(val.widget.curselection(), background="#C0C0C0")
self.listbox3.itemconfig(val.widget.curselection(), background="#C0C0C0")
self.listbox4.itemconfig(val.widget.curselection(), background="#C0C0C0")
self.listbox5.itemconfig(val.widget.curselection(), background="#C0C0C0")
self.ant = val.widget.curselection()
except:
None
# print('No hay valores')
# dependiendo de que nombre se elija en el menu cargamos en lastLine la linea de ese nombre del diccionario
def onSelectPlayer(self, val):
try:
self.name = val.widget.get(val.widget.curselection())
self.lastLine = optionsDictionary[self.name]
# print(self.name, ' ', self.lastLine)
except:
None
# print('No hay valores')
# recorremos el fichero log al clickar sobre el boton 'Refresh!'
def onRefresh(self):
if self.name != "":
yes = False
count = 0
dictionary = {}
dictionaryAuxiliar = {}
stringLog = "../eqlog_" + str(self.name) + "_project1999.txt"
with open(stringLog, "r") as log:
for i in range(int(self.lastLine)):
next(log)
count = count + 1
for line in log:
match = re.match("\[.*\] \[(.*) (.*)\] (.*) \((.*)\) <.*> ZONE: (.*)", line)
matchRole = re.match("\[.*\] \[(.*)\] (.*) <.*>", line)
matchToken = re.match("\[.*\] You say, 't0000'", line)
matchTokenI = re.match("\[.*\] You say, 't0001'", line)
if matchTokenI != None:
yes = True
elif match != None and yes:
dictionaryAuxiliar[match.group(3)] = (
match.group(1),
match.group(2),
match.group(4),
match.group(5),
)
elif matchRole != None and yes:
dictionaryAuxiliar[matchRole.group(2)] = [(matchRole.group(1))]
elif matchToken != None and yes:
dictionary = dictionaryAuxiliar.copy()
dictionaryAuxiliar.clear()
yes = False
count = count + 1
# bucle para sacar datos, primero eliminamos todo lo que haya
self.listbox.delete(0, self.listbox.size())
self.listbox2.delete(0, self.listbox2.size())
self.listbox3.delete(0, self.listbox3.size())
self.listbox4.delete(0, self.listbox4.size())
self.listbox5.delete(0, self.listbox5.size())
for member in dictionary:
self.listbox.insert(END, member)
self.listbox2.insert(END, dictionary[member][0])
try:
self.listbox3.insert(END, dictionary[member][1])
self.listbox4.insert(END, dictionary[member][2])
self.listbox5.insert(END, dictionary[member][3])
except IndexError as error:
self.listbox3.insert(END, "-")
self.listbox5.insert(END, "-")
self.listbox4.insert(END, "-")
# print(dictionary)
# print('Longitud', len(dictionary))
# guardamos la linea ultima leida en el diccionario
# self.lastLine = count
# optionsDictionary[self.name] = count
# print('Despues:', optionsDictionary)
# guardamos el diccionario en el archivo options
options = open("options.txt", "w")
for player in optionsDictionary:
options.write(str(player) + ":" + str(optionsDictionary[player]))
options.close()
class LucteriosMainForm(Tk):
def __init__(self):
Tk.__init__(self)
try:
img = Image("photo", file=join(
dirname(import_module('lucterios.install').__file__), "lucterios.png"))
self.tk.call('wm', 'iconphoto', self._w, img)
except:
pass
self.has_checked = False
self.title(ugettext("Lucterios installer"))
self.minsize(475, 260)
self.grid_columnconfigure(0, weight=1)
self.grid_rowconfigure(0, weight=1)
self.running_instance = {}
self.resizable(True, True)
self.protocol("WM_DELETE_WINDOW", self.on_closing)
self.ntbk = ttk.Notebook(self)
self.ntbk.grid(row=0, column=0, columnspan=1, sticky=(N, S, E, W))
self.create_instance_panel()
self.create_module_panel()
stl = ttk.Style()
stl.theme_use("default")
stl.configure("TProgressbar", thickness=5)
self.progress = ttk.Progressbar(
self, style="TProgressbar", orient='horizontal', mode='indeterminate')
self.progress.grid(row=1, column=0, sticky=(E, W))
self.btnframe = Frame(self, bd=1)
self.btnframe.grid(row=2, column=0, columnspan=1)
Button(self.btnframe, text=ugettext("Refresh"), width=20, command=self.refresh).grid(
row=0, column=0, padx=3, pady=3, sticky=(N, S))
self.btnupgrade = Button(
self.btnframe, text=ugettext("Search upgrade"), width=20, command=self.upgrade)
self.btnupgrade.config(state=DISABLED)
self.btnupgrade.grid(row=0, column=1, padx=3, pady=3, sticky=(N, S))
Button(self.btnframe, text=ugettext("Close"), width=20, command=self.on_closing).grid(
row=0, column=2, padx=3, pady=3, sticky=(N, S))
def on_closing(self):
all_stop = True
instance_names = list(self.running_instance.keys())
for old_item in instance_names:
if (self.running_instance[old_item] is not None) and self.running_instance[old_item].is_running():
all_stop = False
if all_stop or askokcancel(None, ugettext("An instance is always running.\nDo you want to close?")):
self.destroy()
else:
self.refresh()
def destroy(self):
instance_names = list(self.running_instance.keys())
for old_item in instance_names:
if self.running_instance[old_item] is not None:
self.running_instance[old_item].stop()
del self.running_instance[old_item]
Tk.destroy(self)
def create_instance_panel(self):
frm_inst = Frame(self.ntbk)
frm_inst.grid_columnconfigure(0, weight=1)
frm_inst.grid_rowconfigure(0, weight=1)
frm_inst.grid_columnconfigure(1, weight=3)
frm_inst.grid_rowconfigure(1, weight=0)
self.instance_list = Listbox(frm_inst, width=20)
self.instance_list.bind('<<ListboxSelect>>', self.select_instance)
self.instance_list.pack()
self.instance_list.grid(row=0, column=0, sticky=(N, S, W, E))
self.instance_txt = Text(frm_inst, width=75)
self.instance_txt.grid(row=0, column=1, rowspan=2, sticky=(N, S, W, E))
self.instance_txt.config(state=DISABLED)
self.btninstframe = Frame(frm_inst, bd=1)
self.btninstframe.grid(row=1, column=0, columnspan=1)
self.btninstframe.grid_columnconfigure(0, weight=1)
Button(self.btninstframe, text=ugettext("Launch"), width=25, command=self.open_inst).grid(
row=0, column=0, columnspan=2, sticky=(N, S))
Button(self.btninstframe, text=ugettext("Modify"), width=10,
command=self.modify_inst).grid(row=1, column=0, sticky=(N, S))
Button(self.btninstframe, text=ugettext("Delete"), width=10,
command=self.delete_inst).grid(row=1, column=1, sticky=(N, S))
Button(self.btninstframe, text=ugettext("Save"), width=10,
command=self.save_inst).grid(row=2, column=0, sticky=(N, S))
Button(self.btninstframe, text=ugettext("Restore"), width=10,
command=self.restore_inst).grid(row=2, column=1, sticky=(N, S))
Button(self.btninstframe, text=ugettext("Add"), width=25, command=self.add_inst).grid(
row=3, column=0, columnspan=2, sticky=(N, S))
self.ntbk.add(frm_inst, text=ugettext('Instances'))
def create_module_panel(self):
frm_mod = Frame(self.ntbk)
frm_mod.grid_columnconfigure(0, weight=1)
frm_mod.grid_rowconfigure(0, weight=1)
self.module_txt = Text(frm_mod)
self.module_txt.grid(row=0, column=0, sticky=(N, S, W, E))
self.module_txt.config(state=DISABLED)
self.ntbk.add(frm_mod, text=ugettext('Modules'))
def do_progress(self, progressing):
if not progressing:
self.progress.stop()
self.progress.grid_remove()
else:
self.progress.start(25)
self.progress.grid(row=1, column=0, sticky=(E, W))
def enabled(self, is_enabled, widget=None):
if widget is None:
widget = self
self.do_progress(not is_enabled)
if is_enabled:
widget.config(cursor="")
else:
widget.config(cursor="watch")
if isinstance(widget, Button) and (widget != self.btnupgrade):
if is_enabled and (not hasattr(widget, 'disabled') or not widget.disabled):
widget.config(state=NORMAL)
else:
widget.config(state=DISABLED)
else:
for child_cmp in widget.winfo_children():
self.enabled(is_enabled, child_cmp)
@ThreadRun
def refresh(self, instance_name=None):
if instance_name is None:
instance_name = self.get_selected_instance_name()
self.instance_txt.delete("1.0", END)
self._refresh_instance_list()
self.set_select_instance_name(instance_name)
if not self.has_checked:
self._refresh_modules()
if self.instance_list.size() == 0:
sleep(.3)
self._refresh_modules()
sleep(.3)
self.after_idle(self.add_inst)
def _refresh_modules(self):
self.btnupgrade.config(state=DISABLED)
self.module_txt.config(state=NORMAL)
self.module_txt.delete("1.0", END)
lct_glob = LucteriosGlobal()
mod_lucterios, mod_applis, mod_modules = lct_glob.installed()
self.module_txt.insert(
END, ugettext("Lucterios core\t\t%s\n") % mod_lucterios[1])
self.module_txt.insert(END, '\n')
self.module_txt.insert(END, ugettext("Application\n"))
for appli_item in mod_applis:
self.module_txt.insert(
END, "\t%s\t%s\n" % (appli_item[0].ljust(30), appli_item[1]))
self.module_txt.insert(END, ugettext("Modules\n"))
for module_item in mod_modules:
self.module_txt.insert(
END, "\t%s\t%s\n" % (module_item[0].ljust(30), module_item[1]))
extra_urls = lct_glob.get_extra_urls()
if len(extra_urls) > 0:
self.module_txt.insert(END, "\n")
self.module_txt.insert(END, ugettext("Pypi servers\n"))
for extra_url in extra_urls:
self.module_txt.insert(END, "\t%s\n" % extra_url)
self.module_txt.config(state=DISABLED)
self.has_checked = True
self.after(1000, lambda: Thread(target=self.check).start())
def _refresh_instance_list(self):
self.instance_list.delete(0, END)
luct_glo = LucteriosGlobal()
instance_list = luct_glo.listing()
for item in instance_list:
self.instance_list.insert(END, item)
if item not in self.running_instance.keys():
self.running_instance[item] = None
instance_names = list(self.running_instance.keys())
for old_item in instance_names:
if old_item not in instance_list:
if self.running_instance[old_item] is not None:
self.running_instance[old_item].stop()
del self.running_instance[old_item]
def set_select_instance_name(self, instance_name):
cur_sel = 0
for sel_iter in range(self.instance_list.size()):
if self.instance_list.get(sel_iter) == instance_name:
cur_sel = sel_iter
break
self.instance_list.selection_set(cur_sel)
self.select_instance(None)
def get_selected_instance_name(self):
if len(self.instance_list.curselection()) > 0:
return self.instance_list.get(int(self.instance_list.curselection()[0]))
else:
return ""
def set_ugrade_state(self, must_upgrade):
if must_upgrade:
self.btnupgrade.config(state=NORMAL)
self.btnupgrade["text"] = ugettext("Upgrade needs")
else:
self.btnupgrade["text"] = ugettext("No upgrade")
self.btnupgrade.config(state=DISABLED)
def check(self):
must_upgrade = False
try:
lct_glob = LucteriosGlobal()
_, must_upgrade = lct_glob.check()
finally:
self.after(300, self.set_ugrade_state, must_upgrade)
@ThreadRun
def upgrade(self):
self.btnupgrade.config(state=DISABLED)
self.instance_list.config(state=DISABLED)
try:
from logging import getLogger
admin_path = import_module(
"lucterios.install.lucterios_admin").__file__
proc = Popen(
[sys.executable, admin_path, "update"], stderr=STDOUT, stdout=PIPE)
value = proc.communicate()[0]
try:
value = value.decode('ascii')
except:
pass
six.print_(value)
if proc.returncode != 0:
getLogger("lucterios.admin").error(value)
else:
getLogger("lucterios.admin").info(value)
showinfo(ugettext("Lucterios installer"), ugettext(
"The application must restart"))
python = sys.executable
os.execl(python, python, *sys.argv)
finally:
self._refresh_modules()
self.btnupgrade.config(state=NORMAL)
self.instance_list.config(state=NORMAL)
@ThreadRun
def select_instance(self, evt):
if self.instance_list['state'] == NORMAL:
self.instance_list.config(state=DISABLED)
try:
instance_name = self.get_selected_instance_name()
self.instance_txt.configure(state=NORMAL)
self.instance_txt.delete("1.0", END)
if instance_name != '':
if instance_name not in self.running_instance.keys():
self.running_instance[instance_name] = None
inst = LucteriosInstance(instance_name)
inst.read()
self.instance_txt.insert(END, "\t\t\t%s\n\n" % inst.name)
self.instance_txt.insert(
END, ugettext("Database\t\t%s\n") % inst.get_database_txt())
self.instance_txt.insert(
END, ugettext("Appli\t\t%s\n") % inst.get_appli_txt())
self.instance_txt.insert(
END, ugettext("Modules\t\t%s\n") % inst.get_module_txt())
self.instance_txt.insert(
END, ugettext("Extra\t\t%s\n") % inst.get_extra_txt())
self.instance_txt.insert(END, '\n')
if self.running_instance[instance_name] is not None and self.running_instance[instance_name].is_running():
self.instance_txt.insert(END, ugettext(
"=> Running in http://%(ip)s:%(port)d\n") % {'ip': self.running_instance[instance_name].lan_ip, 'port': self.running_instance[instance_name].port})
self.btninstframe.winfo_children()[0]["text"] = ugettext(
"Stop")
else:
self.running_instance[instance_name] = None
self.instance_txt.insert(END, ugettext("=> Stopped\n"))
self.btninstframe.winfo_children()[0]["text"] = ugettext(
"Launch")
else:
self.btninstframe.winfo_children()[0]["text"] = ugettext(
"Launch")
self.btninstframe.winfo_children()[0].disabled = (
instance_name == '')
self.btninstframe.winfo_children()[1].disabled = (
instance_name == '')
self.btninstframe.winfo_children()[2].disabled = (
instance_name == '')
self.btninstframe.winfo_children()[3].disabled = (
instance_name == '')
self.btninstframe.winfo_children()[4].disabled = (
instance_name == '')
self.instance_txt.configure(state=DISABLED)
finally:
setup_from_none()
self.instance_list.config(state=NORMAL)
@ThreadRun
def add_modif_inst_result(self, result, to_create):
inst = LucteriosInstance(result[0])
inst.set_extra("LANGUAGE_CODE='%s'" % result[5])
inst.set_appli(result[1])
inst.set_module(result[2])
inst.set_database(result[4])
if to_create:
inst.add()
else:
inst.modif()
inst = LucteriosInstance(result[0])
inst.set_extra(result[3])
inst.security()
self.refresh(result[0])
def add_inst(self):
self.enabled(False)
try:
self.do_progress(False)
ist_edt = InstanceEditor()
ist_edt.execute()
ist_edt.transient(self)
self.wait_window(ist_edt)
finally:
self.enabled(True)
if ist_edt.result is not None:
self.add_modif_inst_result(ist_edt.result, True)
def modify_inst(self):
self.enabled(False)
try:
self.do_progress(False)
ist_edt = InstanceEditor()
ist_edt.execute(self.get_selected_instance_name())
ist_edt.transient(self)
self.wait_window(ist_edt)
finally:
self.enabled(True)
if ist_edt.result is not None:
self.add_modif_inst_result(ist_edt.result, False)
@ThreadRun
def delete_inst_name(self, instance_name):
inst = LucteriosInstance(instance_name)
inst.delete()
self.refresh()
def delete_inst(self):
setup_from_none()
instance_name = self.get_selected_instance_name()
if askokcancel(None, ugettext("Do you want to delete '%s'?") % instance_name):
self.delete_inst_name(instance_name)
else:
self.refresh()
@ThreadRun
def open_inst(self):
instance_name = self.get_selected_instance_name()
if instance_name != '':
try:
if instance_name not in self.running_instance.keys():
self.running_instance[instance_name] = None
if self.running_instance[instance_name] is None:
port = FIRST_HTTP_PORT
for inst_obj in self.running_instance.values():
if (inst_obj is not None) and (inst_obj.port >= port):
port = inst_obj.port + 1
self.running_instance[instance_name] = RunServer(
instance_name, port)
self.running_instance[instance_name].start()
else:
self.running_instance[instance_name].stop()
self.running_instance[instance_name] = None
finally:
self.set_select_instance_name(instance_name)
@ThreadRun
def save_instance(self, instance_name, file_name):
inst = LucteriosInstance(instance_name)
inst.filename = file_name
if inst.archive():
showinfo(ugettext("Lucterios installer"), ugettext(
"Instance saved to %s") % file_name)
else:
showerror(
ugettext("Lucterios installer"), ugettext("Instance not saved!"))
self.refresh(instance_name)
def save_inst(self):
instance_name = self.get_selected_instance_name()
if instance_name != '':
file_name = asksaveasfilename(
parent=self, filetypes=[('lbk', '.lbk'), ('*', '.*')])
if file_name != '':
self.save_instance(instance_name, file_name)
@ThreadRun
def restore_instance(self, instance_name, file_name):
if file_name[-4:] == '.bkf':
rest_inst = MigrateFromV1(instance_name, withlog=True)
else:
rest_inst = LucteriosInstance(instance_name)
rest_inst.filename = file_name
if rest_inst.restore():
showinfo(ugettext("Lucterios installer"), ugettext(
"Instance restore from %s") % file_name)
else:
showerror(
ugettext("Lucterios installer"), ugettext("Instance not restored!"))
self.refresh(instance_name)
def restore_inst(self):
instance_name = self.get_selected_instance_name()
if instance_name != '':
file_name = askopenfilename(
parent=self, filetypes=[('lbk', '.lbk'), ('bkf', '.bkf'), ('*', '.*')])
if file_name != '':
self.restore_instance(instance_name, file_name)
def execute(self):
self.refresh()
center(self, (700, 300))
self.mainloop()
class BookManagerUi(Frame):
def __init__(self, parent):
Frame.__init__(self, parent)
self.parent = parent
self.initUI()
self.db = dao('blist') #데이터베이스 관리 클래스 생성
def initUI(self):
self.parent.title("Book Manager")
self.style = Style()
self.style.theme_use("default")
self.pack(fill=BOTH, expand=1)
self.columnconfigure(0, pad=3)
self.columnconfigure(1, pad=3)
self.columnconfigure(2, pad=3)
self.rowconfigure(0, pad=3)
self.rowconfigure(1, pad=3)
self.rowconfigure(2, pad=3)
self.rowconfigure(3, pad=3)
self.rowconfigure(4, pad=3)
self.rowconfigure(5, pad=3)
self.rowconfigure(6, pad=3)
self.input_bname=''
self.input_aname=''
self.input_price=0
self.delete=''
lb_bookname = Label(self, text="bookname:")
lb_bookname.grid(row=0, column =0 ,sticky=W, pady=4, padx=5)
self.entry_bookname = Entry(self)
self.entry_bookname.grid(row=0, column = 1 )
lb_author = Label(self, text="author:")
lb_author.grid(row=0, column =2,sticky=W, pady=4, padx=5)
self.entry_author = Entry(self)
self.entry_author.grid(row=0, column = 3 )
lb_price = Label(self, text="price:")
lb_price.grid(row=0, column =4 ,sticky=W, pady=4, padx=5)
self.entry_price = Entry(self)
self.entry_price.grid(row=0, column = 5 ,padx=15)
abtn = Button(self, text="Add", command=lambda:self.clicked_add())
abtn.grid(row=0, column=6)
sbtn = Button(self, text="Serach", command = lambda:self.clicked_search())
sbtn.grid(row=1, column=6, pady=4)
dbtn = Button(self, text="Delete", command = lambda:self.clicked_delete())
dbtn.grid(row=2, column=6, pady=4)
self.lb = Listbox(self)
self.lb.grid(row=3,column = 0, columnspan = 6,rowspan= 4, sticky = E+W+S+N)
self.lb.bind("<<ListboxSelect>>", self.onSelect)
#삭제를 위한 select부분
def onSelect(self,val):
sender = val.widget
idx = sender.curselection()
value = sender.get(idx)
self.delete = value
# 데이터 추가 버튼
def clicked_add(self):
bname =self.entry_bookname.get()
aname = self.entry_author.get()
price = self.entry_price.get()
self.lb.delete(0,END)
# 입력받을 데이터가 모자란지 검사
if(len(bname) >0 and len(aname)>0 and len(price)>0 ):
#가격에 문자를 입력했을 경우 처리
try:
priceI = eval(price)
except:
self.lb.insert(END,"you input wrong price. it must be integer")
#사용자가 입력한 내용중 중복된 책이름이 있을 경우(저자는 책이 여러가지일 수 있으니 제외)
rec = self.db.excute_select(bname,'')
if ( len(rec) >0):
self.lb.insert(END,bname +" is already in the database")
else:
self.db.insert_data(bname,aname,priceI) # 모든 조건 만족시 데이터 입력 수행
r =self.db.excute_select(bname,aname)
for rs in r:
self.lb.insert(END,str(rs))
else:
s = StringVar()
self.entry_price.config(textvariable = s)
self.lb.insert(END,"you have to input more values")
#검색버튼
def clicked_search(self):
bname =self.entry_bookname.get()
aname = self.entry_author.get()
self.lb.delete(0,END)
#책이름 또는 저자이름 둘중 하나만입력 되어도 검색 가능하도록
if(len(bname)>0 or len(aname)>0 ):
rec = self.db.excute_select(bname,aname)
for r in rec:
self.lb.insert(END,str(r))
else:
self.lb.insert(END,"you have to input more values(bookname or author")
#삭제 버튼
def clicked_delete(self):
self.lb.delete(0,END)
q = self.db.excute_delete(self.delete)
self.lb.insert(END,q+' is delete from database')
class TextSelect(Frame):
def __init__(self, client, anchor, items, destroyAnchor=False):
"""
Args:
client: [SelectionClient] The window that text is returned to.
anchor: A window that the text selection popup is created
relative to.
items: [str], items to display in the listbox.
destroyAnchor: [bool] if true, destroy the anchor after
positioning the window.
"""
self.top = Toplevel()
self.anchor = anchor
self.top.overrideredirect(1)
self.top.wm_geometry('+%s+%s' % (anchor.winfo_rootx() + anchor.winfo_x(),
anchor.winfo_rooty() + anchor.winfo_y()
)
)
super(TextSelect, self).__init__(self.top)
self.entry = Entry(self)
self.client = client
self.items = items
self.place(x = 0.5, y = 0.5, height = 100, width = 100)
self.entry.bind('<Return>', self.close)
self.entry.bind('<KeyPress>', self.filter)
self.entry.bind('<Escape>', self.abort)
self.entry.bind('<Up>', self.up)
self.entry.bind('<Down>', self.down)
self.entry.pack()
# Create the list of items.
self.list = Listbox(self)
for item in self.items:
self.list.insert('end', item)
self.list.pack()
self.grid()
self.entry.focus()
# Reposition the select button against the anchor. We defer this
# until after idle so that the anchor has a chance to get rendered.
def reposition(*args):
self.top.wm_geometry('+%s+%s' % (
anchor.winfo_rootx(),
anchor.winfo_rooty())
)
if destroyAnchor:
anchor.destroy()
self.after_idle(reposition)
def close(self, event):
sel = self.list.curselection()
if sel:
item = self.list.get(sel[0])
else:
item = self.entry.get()
# Note that the order of this appears to be significant: destroying
# before selecting leaves the focus in a weird state.
self.client.selected(item)
self.top.destroy()
return 'braek'
def abort(self, event):
self.top.destroy()
self.client.aborted()
return 'break'
def up(self, event):
sel = self.list.curselection()
if not sel:
self.list.selection_set(0)
return 'break'
sel = sel[0]
print('sel is %s size is %s' % (sel, self.list.size()))
if sel > 0:
print('setting selection to %s' % sel)
self.list.selection_clear(sel)
self.list.selection_set(sel - 1)
self.list.see(sel)
return 'break'
def down(self, event):
sel = self.list.curselection()
if not sel:
self.list.selection_set(0)
return 'break'
sel = sel[0]
print('sel is %s size is %s' % (sel, self.list.size()))
if sel < self.list.size() - 1:
print('setting selection to %s' % (sel + 1))
self.list.selection_clear(sel)
self.list.selection_set(sel + 1)
self.list.see(sel)
return 'break'
def filter(self, event):
"""Filter the listbox based on the contents of the entryfield."""
# first add the character to the entry.
currentText = self.entry.get()
print(event.keysym)
if event.keysym == 'BackSpace':
# Handle backspace specially.
if currentText:
currentText = currentText[:-1]
self.entry.delete(0, 'end')
self.entry.insert(0, currentText)
else:
return 'break'
else:
# Assume normal character. Insert it.
self.entry.insert('insert', event.char)
currentText += event.char
self.list.delete(0, 'end')
pattern = currentText.upper()
for item in self.items:
if pattern in item.upper():
self.list.insert('end', item)
return 'break'
class InstanceEditor(Toplevel):
def __init__(self):
Toplevel.__init__(self)
self.focus_set()
self.grab_set()
self.result = None
self.module_data = None
self.mod_applis = None
self.title(ugettext("Instance editor"))
self.grid_columnconfigure(0, weight=1)
self.grid_rowconfigure(0, weight=1)
self.ntbk = ttk.Notebook(self)
self.ntbk.grid(row=0, column=0, columnspan=1, sticky=(N, S, E, W))
self.frm_general = Frame(self.ntbk, width=350, height=150)
self.frm_general.grid_columnconfigure(0, weight=0)
self.frm_general.grid_columnconfigure(1, weight=1)
self._general_tabs()
self.ntbk.add(self.frm_general, text=ugettext('General'))
self.frm_database = Frame(self.ntbk, width=350, height=150)
self.frm_database.grid_columnconfigure(0, weight=0)
self.frm_database.grid_columnconfigure(1, weight=1)
self._database_tabs()
self.ntbk.add(self.frm_database, text=ugettext('Database'))
btnframe = Frame(self, bd=1)
btnframe.grid(row=1, column=0, columnspan=1)
Button(btnframe, text=ugettext("OK"), width=10, command=self.apply).grid(
row=0, column=0, sticky=(N, S, E))
Button(btnframe, text=ugettext("Cancel"), width=10, command=self.destroy).grid(
row=0, column=1, sticky=(N, S, W))
def _database_tabs(self):
Label(self.frm_database, text=ugettext("Type")).grid(
row=0, column=0, sticky=(N, W), padx=5, pady=3)
self.typedb = ttk.Combobox(
self.frm_database, textvariable=StringVar(), state=READLONY)
self.typedb.bind("<<ComboboxSelected>>", self.typedb_selection)
self.typedb.grid(row=0, column=1, sticky=(N, S, E, W), padx=5, pady=3)
Label(self.frm_database, text=ugettext("Name")).grid(
row=1, column=0, sticky=(N, W), padx=5, pady=3)
self.namedb = Entry(self.frm_database)
self.namedb.grid(row=1, column=1, sticky=(N, S, E, W), padx=5, pady=3)
Label(self.frm_database, text=ugettext("User")).grid(
row=2, column=0, sticky=(N, W), padx=5, pady=3)
self.userdb = Entry(self.frm_database)
self.userdb.grid(row=2, column=1, sticky=(N, S, E, W), padx=5, pady=3)
Label(self.frm_database, text=ugettext("Password")).grid(
row=3, column=0, sticky=(N, W), padx=5, pady=3)
self.pwddb = Entry(self.frm_database)
self.pwddb.grid(row=3, column=1, sticky=(N, S, E, W), padx=5, pady=3)
def _general_tabs(self):
Label(self.frm_general, text=ugettext("Name")).grid(
row=0, column=0, sticky=(N, W), padx=5, pady=3)
self.name = Entry(self.frm_general)
self.name.grid(row=0, column=1, sticky=(N, S, E, W), padx=5, pady=3)
Label(self.frm_general, text=ugettext("Appli")).grid(
row=1, column=0, sticky=(N, W), padx=5, pady=3)
self.applis = ttk.Combobox(
self.frm_general, textvariable=StringVar(), state=READLONY)
self.applis.bind("<<ComboboxSelected>>", self.appli_selection)
self.applis.grid(row=1, column=1, sticky=(N, S, E, W), padx=5, pady=3)
Label(self.frm_general, text=ugettext("Modules")).grid(
row=2, column=0, sticky=(N, W), padx=5, pady=3)
self.modules = Listbox(self.frm_general, selectmode=EXTENDED)
self.modules.configure(exportselection=False)
self.modules.grid(row=2, column=1, sticky=(N, S, E, W), padx=5, pady=3)
Label(self.frm_general, text=ugettext("Language")).grid(
row=3, column=0, sticky=(N, W), padx=5, pady=3)
self.language = ttk.Combobox(
self.frm_general, textvariable=StringVar(), state=READLONY)
self.language.grid(
row=3, column=1, sticky=(N, S, E, W), padx=5, pady=3)
Label(self.frm_general, text=ugettext("CORE-connectmode")
).grid(row=4, column=0, sticky=(N, W), padx=5, pady=3)
self.mode = ttk.Combobox(
self.frm_general, textvariable=StringVar(), state=READLONY)
self.mode.bind("<<ComboboxSelected>>", self.mode_selection)
self.mode.grid(row=4, column=1, sticky=(N, S, E, W), padx=5, pady=3)
Label(self.frm_general, text=ugettext("Password")).grid(
row=5, column=0, sticky=(N, W), padx=5, pady=3)
self.password = Entry(self.frm_general, show="*")
self.password.grid(
row=5, column=1, sticky=(N, S, E, W), padx=5, pady=3)
def typedb_selection(self, event):
visible = list(self.typedb[VALUES]).index(self.typedb.get()) != 0
for child_cmp in self.frm_database.winfo_children()[2:]:
if visible:
child_cmp.config(state=NORMAL)
else:
child_cmp.config(state=DISABLED)
def appli_selection(self, event):
if self.applis.get() != '':
appli_id = list(self.applis[VALUES]).index(self.applis.get())
luct_glo = LucteriosGlobal()
current_inst_names = luct_glo.listing()
appli_root_name = self.mod_applis[appli_id][0].split('.')[-1]
default_name_idx = 1
while appli_root_name + six.text_type(default_name_idx) in current_inst_names:
default_name_idx += 1
self.name.delete(0, END)
self.name.insert(
0, appli_root_name + six.text_type(default_name_idx))
mod_depended = self.mod_applis[appli_id][2]
self.modules.select_clear(0, self.modules.size())
for mod_idx in range(len(self.module_data)):
current_mod = self.module_data[mod_idx]
if current_mod in mod_depended:
self.modules.selection_set(mod_idx)
def mode_selection(self, event):
visible = list(self.mode[VALUES]).index(self.mode.get()) != 2
for child_cmp in self.frm_general.winfo_children()[-2:]:
if visible:
child_cmp.config(state=NORMAL)
else:
child_cmp.config(state=DISABLED)
def apply(self):
from lucterios.framework.settings import DEFAULT_LANGUAGES, get_locale_lang
if self.name.get() == '':
showerror(ugettext("Instance editor"), ugettext("Name empty!"))
return
if self.applis.get() == '':
showerror(ugettext("Instance editor"), ugettext("No application!"))
return
db_param = "%s:name=%s,user=%s,password=%s" % (
self.typedb.get(), self.namedb.get(), self.userdb.get(), self.pwddb.get())
security = "MODE=%s" % list(
self.mode[VALUES]).index(self.mode.get())
if self.password.get() != '':
security += ",PASSWORD=%s" % self.password.get()
module_list = [
self.module_data[int(item)] for item in self.modules.curselection()]
appli_id = list(self.applis[VALUES]).index(self.applis.get())
current_lang = get_locale_lang()
for lang in DEFAULT_LANGUAGES:
if lang[1] == self.language.get():
current_lang = lang[0]
self.result = (self.name.get(), self.mod_applis[appli_id][
0], ",".join(module_list), security, db_param, current_lang)
self.destroy()
def _load_current_data(self, instance_name):
from lucterios.framework.settings import DEFAULT_LANGUAGES, get_locale_lang
lct_inst = LucteriosInstance(instance_name)
lct_inst.read()
self.name.delete(0, END)
self.name.insert(0, lct_inst.name)
self.name.config(state=DISABLED)
applis_id = 0
for appli_iter in range(len(self.mod_applis)):
if self.mod_applis[appli_iter][0] == lct_inst.appli_name:
applis_id = appli_iter
break
self.applis.current(applis_id)
if lct_inst.extra['']['mode'] is not None:
self.mode.current(lct_inst.extra['']['mode'][0])
else:
self.mode.current(2)
self.mode_selection(None)
typedb_index = 0
for typedb_idx in range(len(self.typedb[VALUES])):
if self.typedb[VALUES][typedb_idx].lower() == lct_inst.database[0].lower():
typedb_index = typedb_idx
break
self.typedb.current(typedb_index)
self.typedb.config(state=DISABLED)
self.typedb_selection(None)
self.namedb.delete(0, END)
if 'name' in lct_inst.database[1].keys():
self.namedb.insert(0, lct_inst.database[1]['name'])
self.userdb.delete(0, END)
if 'user' in lct_inst.database[1].keys():
self.userdb.insert(0, lct_inst.database[1]['user'])
self.pwddb.delete(0, END)
if 'password' in lct_inst.database[1].keys():
self.pwddb.insert(0, lct_inst.database[1]['password'])
self.modules.select_clear(0, self.modules.size())
for mod_idx in range(len(self.module_data)):
current_mod = self.module_data[mod_idx]
if current_mod in lct_inst.modules:
self.modules.select_set(mod_idx)
current_lang = get_locale_lang()
if 'LANGUAGE_CODE' in lct_inst.extra.keys():
current_lang = lct_inst.extra['LANGUAGE_CODE']
for lang in DEFAULT_LANGUAGES:
if lang[0] == current_lang:
self.language.current(self.language[VALUES].index(lang[1]))
def execute(self, instance_name=None):
from lucterios.framework.settings import DEFAULT_LANGUAGES, get_locale_lang
self.mode[VALUES] = [ugettext(
"CORE-connectmode.0"), ugettext("CORE-connectmode.1"), ugettext("CORE-connectmode.2")]
self.language[VALUES] = [lang[1] for lang in DEFAULT_LANGUAGES]
self.typedb[VALUES] = ["SQLite", "MySQL", "PostgreSQL"]
lct_glob = LucteriosGlobal()
_, self.mod_applis, mod_modules = lct_glob.installed()
self.mod_applis.sort(key=lambda item: get_module_title(item[0]))
self.modules.delete(0, END)
self.module_data = []
module_list = []
for mod_module_item in mod_modules:
module_list.append(
(get_module_title(mod_module_item[0]), mod_module_item[0]))
module_list.sort(key=lambda module: module[0])
for module_title, module_name in module_list:
self.modules.insert(END, module_title)
self.module_data.append(module_name)
appli_list = []
for mod_appli_item in self.mod_applis:
appli_list.append(get_module_title(mod_appli_item[0]))
self.applis[VALUES] = appli_list
if instance_name is not None:
self._load_current_data(instance_name)
else:
self.typedb.current(0)
self.mode.current(2)
if len(appli_list) > 0:
self.applis.current(0)
self.appli_selection(None)
self.mode_selection(None)
self.typedb_selection(None)
for lang in DEFAULT_LANGUAGES:
if lang[0] == get_locale_lang():
self.language.current(self.language[VALUES].index(lang[1]))
center(self)
class MemberChecker(PanedWindow):
def __init__(self, parent):
PanedWindow.__init__(self, parent, background="white")
self.parent = parent
self.init_data()
self.init_log()
self.init_ui()
self.update_status()
def init_data(self):
self.data_store = api.DataStore()
def init_log(self):
self.entrance_log = entrance_log.EntranceLog()
def init_ui(self):
self.parent.title("Member Checker")
self.columnconfigure(3, weight=3)
self.pack(fill=BOTH, expand=True)
self.input = StringVar()
self.input_entry = Entry(self, textvariable=self.input)
self.input_entry.bind('<Return>', self.submit)
self.input_entry.grid(row=0, column=0, columnspan=3, sticky=E + W)
self.result = StringVar()
self.result_label = Label(self, textvariable=self.result)
self.result_label.grid(row=3, column=0, columnspan=3, sticky=E + W)
self.name = StringVar()
name_label = Label(self, textvariable=self.name)
name_label.grid(row=2, column=0, columnspan=3, sticky=E + W)
self.status = StringVar()
status_label = Label(self, textvariable=self.status)
status_label.grid(row=4, column=0, columnspan=4, sticky=E + W)
submit_button = Button(self, text="Submit", command=self.submit)
submit_button.grid(row=1, column=2)
enter_without_card_button = Button(self, text="Enter without card", command=self.enter_without_card)
enter_without_card_button.grid(row=1, column=0)
enter_member_without_card_button = Button(self, text="Enter member without card",
command=self.enter_member_without_card)
enter_member_without_card_button.grid(row=1, column=1)
self.entrance_log_list = Listbox(self)
self.entrance_log_list.grid(row=0, column=3, rowspan=4, sticky=E + W + S + N)
self.input_entry.focus()
def load_data(self):
if messagebox.askyesno("Load new API Data",
"Are you sure you want to load the new API data? All previous data will be removed. The program might be unresponsive for a few seconds, but don't kill it, please! It has feelings too."):
self.data_store.load_api_data()
def enter_by_identification(self, identification):
member = self.data_store.find_member_by_identification(identification)
if member is None:
if messagebox.askyesno("Not a member",
"This university identification is not registered as a member. Do you want to let them in as a non-member?"):
self.enter_non_member_by_identification(identification)
else:
self.enter_member(member)
def enter_by_barcode(self, barcode):
member = self.data_store.find_member_by_barcode(barcode)
if member is None:
if messagebox.askyesno("Not a member",
"This barcode is not registered as a member. Do you want to let them in as a non-member?"):
self.enter_non_member_by_barcode(barcode)
else:
self.enter_member(member)
def enter_non_member_by_identification(self, identification):
self.entrance_log.enter_non_member_by_identification(identification)
self.enter_non_member()
def enter_non_member_by_barcode(self, barcode):
self.entrance_log.enter_non_member_by_barcode(barcode)
self.enter_non_member()
def enter_without_card(self):
self.clear_result()
self.entrance_log.enter_without_card()
self.enter_non_member()
self.input_entry.focus()
def enter_member(self, member):
inside_result = self.entrance_log.is_member_inside(member)
if inside_result[0]:
if not messagebox.askyesno("Already inside",
"This membership card has already been used to enter at {}. Are you sure you want to register it again? Normally you should let this person enter without card (and bill them accordingly).".format(
inside_result[1])):
return
self.entrance_log.enter_member(member)
self.result.set('Member!')
self.result_label.configure(background='green')
self.name.set(member['firstName'] + ' ' + member['lastName'])
self.update_status()
def enter_non_member(self):
self.result.set('Not a member!')
self.result_label.configure(background='red')
self.name.set('Not in the database')
self.update_status()
def enter_member_without_card(self):
name = self.input.get()
if len(name) == 0:
messagebox.showinfo('Name required', 'Please enter the name of this person!')
return
self.entrance_log.enter_member_without_card(name)
self.result.set('Member without card!')
self.result_label.configure(background="orange")
self.name.set('')
self.input.set('')
self.update_status()
def clear_result(self):
self.result.set('')
self.result_label.configure(background='white')
self.name.set('')
def submit(self, event=None):
self.clear_result()
entry = self.input.get()
if helpers.is_valid_identification(entry):
self.enter_by_identification(entry)
elif helpers.is_valid_barcode(entry):
self.enter_by_barcode(entry)
else:
messagebox.showinfo('Invalid entry',
'The data entered was not recognized as a valid bar code or a valid university identification. You should click \'enter without card\' to let this person in.')
return
self.input.set('')
self.input_entry.focus()
def clear_log(self):
if messagebox.askyesno("Clear log", "Are you sure you want to clear the log of all people who entered?"):
self.entrance_log.clear_log()
self.update_status()
def update_status(self):
self.status.set("{} members inside. Total: {}".format(self.entrance_log.members_inside_count(),
self.entrance_log.inside_count()))
logs = self.entrance_log.get_latest_logs(15)
self.entrance_log_list.delete(0, 15)
for l in logs:
s = l['timestamp'] + ": "
data = l['data']
if 'member_id' in data:
member = self.data_store.find_member(data['member_id'])
s += member['firstName'] + " " + member['lastName']
elif 'barcode' in data:
s += data['barcode']
elif 'identification' in data:
s += data['identification']
elif 'name' in data:
s += '[no card]' + data['name']
else:
s += "-"
self.entrance_log_list.insert(0, s)
class Masfir(Frame):
def __init__(self, parent):
Frame.__init__(self, parent)
self.parent = parent
self._initUI()
def _initUI(self):
""" Initialise the UI """
self.parent.title("Masfir v0.1")
self.style = Style()
self.style.theme_use("default")
self.pack(fill=BOTH, expand=1)
self._createMenu()
self._createUIElements()
def _createMenu(self):
""" Create the menu """
menubar = Menu(self.parent)
self.parent.config(menu=menubar)
# File Menu
mnuFile = Menu(menubar)
mnuFile.add_command(label="Exit", underline=1, command=self._onMenuFileExit)
menubar.add_cascade(label="File", underline=0, menu=mnuFile)
# Help Menu
mnuHelp = Menu(menubar)
mnuHelp.add_command(label="About", underline=0, command=self._onMenuHelpAbout)
menubar.add_cascade(label="Help", underline=0, menu=mnuHelp)
def _createUIElements(self):
""" Create the main frame's UI elements """
# Top frame with the Load Directory controls
frmLoadDir = Frame(self)
frmLoadDir.pack(side=TOP, anchor=N, fill=X)
self.sLoadDirVar = StringVar()
lblLoadDir = Label(frmLoadDir, text="<Empty Directory>", textvariable=self.sLoadDirVar)
lblLoadDir.pack(side=LEFT)
btnLoadDir = Button(frmLoadDir, text="Load Directory", command=self._onBtnLoadDir)
btnLoadDir.pack(side=RIGHT)
# Dropdown with list of series (directories) detected
frmSeriesSelector = Frame(self)
frmSeriesSelector.pack(side=TOP, anchor=N, fill=X)
self.sSeriesVar = StringVar()
self.optSeries = OptionMenu(frmSeriesSelector, self.sSeriesVar, 'one', 'two', 'three', 'Loading', command=self._onBtnSeriesSelected)
self.optSeries.pack(side=LEFT)
# The two diff-style listboxes containing original and new episode list names
frmListBoxes = Frame(self)
frmListBoxes.pack(fill=BOTH, expand=1)
self.lstOrgFiles = Listbox(frmListBoxes)
self.lstOrgFiles.bind("<<ListboxSelect>>", self._onListOrgFiles)
self.lstOrgFiles.pack(side=LEFT, fill=BOTH, expand=1, anchor=W)
self.lstNewFiles = Listbox(frmListBoxes)
self.lstNewFiles.bind("<<ListboxSelect>>", self._onListNewFiles)
self.lstNewFiles.pack(side=RIGHT, fill=BOTH, expand=1, anchor=E)
# Bottom buttons
frmFinal = Frame(self)
frmFinal.pack(side=BOTTOM, anchor=S, fill=X)
btnRename = Button(frmFinal, text="Rename", command=self._onBtnRename)
btnRename.pack(side=LEFT)
btnExit = Button(frmFinal, text="Exit", command=self._onBtnExit)
btnExit.pack(side=RIGHT)
def _onBtnLoadDir(self):
selectedDirectory = filedialog.askdirectory()
self.optSeries['menu'].delete(0, END)
# self.optSeries['menu'].insert('one', 'two', 'three')
self.sSeriesVar.set('two')
self.sLoadDirVar.set(selectedDirectory)
# Populate listbox
self.lstOrgFiles.delete(0, END)
for item in os.listdir(selectedDirectory):
self.lstOrgFiles.insert(END, item)
def _onBtnExit(self):
self._exit()
def _onListOrgFiles(self):
pass
def _onListNewFiles(self):
pass
def _onBtnSeriesSelected(self):
pass
def _onBtnRename(self):
pass
def _onMenuFileExit(self):
""" Jump to _exit() if Exit is clicked """
self._exit()
def _onMenuHelpAbout(self):
""" Something here """
pass
def _exit(self):
""" Exit the app """
self.quit()
class Application():
def __init__(self, master, network, debug=False):
"""
Init method for the Application class, this method is the GUI
Class for our solution, it gets master (Tk root, network
and debug (Open debug window if needded)
:param master: The root Tk of the Application
:param network: network is object from Network class (communication)
:param debug: bool, to open or not..
"""
self.init_constants(master, network) # create constants
self.__create_top_toolbar()
self.__create_app_frame()
self.bindings()
self.__network.listen() # network mainloop..
if debug:
self.debug = True
self.open_debug_dialog()
def init_constants(self, master, network):
"""
This function contruct all the vital constant
for this class it gets the root and the network
and save them as constant of the class
:param master: The root Tk of the Application
:param network: network is object from Network class (communication)
"""
self.__master_splinter = master
self.__user_color = StringVar()
self.__current_shape = None
self.__drawing_shape = None
self.__users_list = []
self.__points = [] # private because I dont want that someone change them
self.__network = network # private for the same reason
self.debug = False
def __create_app_frame(self):
"""
This function creates and pack (using grid) the main app frame
(The left toolbar (users list) and the canvas
"""
app_frame = Frame(self.__master_splinter)
self.create_game_canvas(app_frame)
self.create_left_toolbar(app_frame)
app_frame.grid(row=1)
def create_game_canvas(self, app_frame):
"""
This function creates and pack the game canvas
:param app_frame: Tk frame object
"""
self.canvas = Canvas(app_frame, width=500, height=500, bg='white')
self.canvas.grid(column=1)
def __create_top_toolbar(self):
"""
This function creates and pack the top toolbar (with all the colors, shapes
and etc..
"""
top_toolbar = Frame(self.__master_splinter)
help_button = Button(top_toolbar, text="Help", command=self.open_help_dialog)
help_button.grid(row=0, column=4)
color_frame = self.create_color_frame(top_toolbar)
color_frame.grid(row=0, column=0)
empty_label = Label(top_toolbar, padx=20)
empty_label.grid(column=1, row=0)
my_shapes_frame = self.create_shape_buttons(top_toolbar)
my_shapes_frame.grid(row=0, column=2)
empty_label = Label(top_toolbar, padx=45)
empty_label.grid(column=3, row=0)
top_toolbar.grid(row=0)
def create_left_toolbar(self, app_frame):
"""
This function creates and pack the left toolbar
:param app_frame: root for this toolbar.. (Frame obj)
:return:
"""
left_toolbar = Frame(app_frame)
self.lb_users = Listbox(left_toolbar)
self.lb_users.config(height=30)
self.lb_users.grid(row=0, column=0)
scroll_bar = Scrollbar(left_toolbar)
scroll_bar.config(command=self.lb_users.yview)
scroll_bar.grid(row=0, column=1, sticky='ns')
left_toolbar.propagate("false")
left_toolbar.grid(column=0, row=0)
self.lb_users.config(yscrollcommand=scroll_bar.set)
self.debug_event("Left toolbar was generated")
def create_shape_buttons(self, root):
"""
This function get a root and creates all the shapes
buttons (because they have picture they need to
compile and resize the icons...
:param root: Tk frame
:return: returns Frame object (it won`t pack it)
"""
shapes_frame = Frame(root)
shape_text = Label(shapes_frame, text="Shape: ")
shape_text.grid(row=0, column=0)
self.line_image = self.create_shape_img(SHAPES_DICT[LINE])
line_btn = Button(shapes_frame,
image=self.line_image,
command=lambda: self.create_shape(LINE))
line_btn.grid(row=0, column=1)
self.square_image = self.create_shape_img(SHAPES_DICT[SQUARE])
square_btn = Button(shapes_frame,
image=self.square_image,
command=lambda: self.create_shape(SQUARE))
square_btn.grid(row=0, column=2)
self.triangle_image = self.create_shape_img(SHAPES_DICT[TRIANGLE])
triangle_btn = Button(shapes_frame,
image=self.triangle_image,
command=lambda: self.create_shape(TRIANGLE))
triangle_btn.grid(row=0, column=3)
self.elipse_image = self.create_shape_img(SHAPES_DICT[ELIPSE])
elipse_btn = Button(shapes_frame,
image=self.elipse_image,
command=lambda: self.create_shape(ELIPSE))
elipse_btn.grid(row=0, column=4)
self.debug_event("shapes toolbar was generated")
return shapes_frame
def create_color_frame(self, root):
"""
This function creates a color frame
:param root: Frame obj
:return: frame..
"""
color_frame = Frame(root)
color_text = Label(color_frame, text="Color: ")
color_text.grid(row=0, column=0)
self.colors_list = ttk.Combobox(color_frame,
textvariable=self.__user_color,
values=COLOR_LIST,
state="readonly")
self.colors_list.grid(row=0, column=1)
self.colors_list.current(FIRST_COLOR)
self.debug_event("color toolbar was generated")
return color_frame
def create_shape_img(self, path):
"""
This function get a path for picture.. and creates a
icon in size of 32X32
:param path:
:return:
"""
img = Image.open(path)
img = img.resize(ICON_SIZE, Image.ANTIALIAS)
return ImageTk.PhotoImage(img)
def bindings(self):
"""
This is our binding function.. it bind some things in the GUI
some events like get new user, get clicks, close window
"""
self.canvas.bind(LEFT_BUTTON_CLICK,
lambda event: self.try_draw_user_shape(event))
self.__master_splinter.bind(JOIN_EVT,
lambda x: self.change_users_list(JOIN_EVT, self.__network.get_event(JOIN_EVT)))
self.__master_splinter.bind(LEAVE_EVT,
lambda x: self.change_users_list(LEAVE_EVT, self.__network.get_event(LEAVE_EVT)))
self.__master_splinter.bind(SHAPE_EVT, lambda event: self.shape_handler())
self.__master_splinter.bind(USERS_EVT, lambda event: self.init_users())
self.__master_splinter.protocol(CLOSE_WINDOW_PROT, self.on_close)
def create_shape(self, shape_type):
"""
After click on Shape this function appear :)
it set the current shape to "shape type"
:param shape_type: String repr shape type
"""
self.canvas.config(cursor="target")
self.__points = []
self.__current_shape = shape_type
self.debug_event("button " + shape_type + " clicked")
def shape_handler(self):
"""
This function handle new shapes events
:return:
"""
shape = self.__network.get_event(SHAPE_EVT)
points = self.points_to_tuple(shape[COORDS])
self.debug_event("shape msg:")
self.debug_event(str(points))
self.draw_shape(points, shape[SHAPE_TYPE], shape[USER], shape[COLOR])
def init_users(self):
"""
This function handle "connected" msg
when connected it asks the communicator
for users list, group name and user name
and update the users list
"""
group_name = self.__network.get_group()
self.add_user_to_list(group_name + ":")
user = self.__network.get_user_name()
self.add_user_to_list(user)
users = self.__network.get_user_list()
self.debug_event("users list generated")
for user in users:
self.add_user_to_list(user)
def try_draw_user_shape(self, event):
"""
This function handles canvas clicks,
after any click on the canvas this function
checks if there was enough clicks to create
the relevant shape (If shape is None it won`t happen..)
:param event: event obj, contain the x,y of the click
"""
# trying to draw
if self.__current_shape is not self.__drawing_shape:
# check if it is a new shape
self.__drawing_shape = self.__current_shape
self.__points.append((event.x, event.y))
if len(self.__points) is POINTS_NEEDED[self.__drawing_shape]: # Success
self.send_shape_details_and_restart()
self.debug_event("button is clicked in " + str(event.x) + "," + str(event.y))
def send_shape_details_and_restart(self):
"""
This function called when the user completed a shape
it send to communicator a message the says "New shape was added"
"""
self.__network.shape_msg([self.__drawing_shape, self.__points, self.__user_color.get()])
self.__current_shape = None
self.__drawing_shape = None
self.__points = []
self.canvas.config(cursor="")
def draw_shape(self, points, s_type, user_name, color):
"""
This function draw a new shape on the screen
:param points: "x,y,z,w,a,b" string
that each odd nu is x and each even is y
:param s_type: shape type, string
:param user_name: user_name string
:param color: color, string
"""
if s_type == LINE:
self.canvas.create_line(points,
fill=color, width=LINE_WIDTH)
elif s_type == SQUARE:
self.canvas.create_rectangle(points,
fill=color)
elif s_type == ELIPSE:
self.canvas.create_oval(points,
fill=color)
elif s_type == TRIANGLE:
self.canvas.create_polygon(points,
fill=color)
self.canvas.create_text(points[:FIRST_XY],
text=user_name)
self.debug_event("draws: " + s_type)
def points_to_tuple(self, str_points):
"""
this function gets alot of numbers in string and returns
:param str_points: "x,y,z,w,a,b" string
that each odd nu is x and each even is y
:return: list of coordinates as tuple in format (x,y,x,y,x,y)
"""
nums = str_points.split(',')
return tuple(nums)
def open_help_dialog(self):
"""
This function creates new "help" dialog
:return:
"""
try:
self.help_frame.destroy()
except:
pass
infromative_txt = self.get_informative_text()
self.help_frame = Tk()
self.help_frame.title(HELP_TITLE)
infromative_text = Label(self.help_frame, text=infromative_txt)
infromative_text.pack()
self.help_frame.mainloop()
def get_informative_text(self):
f = open(INFO_DIR, READ_PREM)
reader = f.read()
f.close()
return reader
def open_debug_dialog(self):
"""
this function create new "debug" dialog
:return:
"""
self.debug_frame = Tk()
self.debug_frame.title(DEBUG_TITLE)
self.debug_messages = Text(self.debug_frame)
self.debug_messages.insert(END, "Messages")
self.debug_messages.pack()
self.debug_frame.mainloop()
def debug_event(self, event):
"""
This function check if the debug option is enabled
if it is it will record the event in the debug messages dialog
:param event: string repr event to debug..
"""
if self.debug:
self.debug_messages.insert(END, "\nEVENT: " + str(event))
def on_close(self):
"""
Handles closing the programe
:return:
"""
self.__network.leave_msg()
self.__master_splinter.destroy()
try:
self.debug_frame.destroy()
self.help_frame.destroy()
except:
pass
def change_users_list(self, msg_type, user):
"""
Handle "change user" event (Leave\Join)
:param msg_type: CONSTANT, JOIN\LEAVE
:param user: list of users..
"""
users = user[ONE_USER]
self.debug_event(user + " has " + msg_type)
if msg_type is LEAVE_EVT:
self.remove_user_from_list(users)
elif msg_type is JOIN_EVT:
self.add_user_to_list(users)
def add_user_to_list(self, user):
"""
Add specific user the list_box.. of users list
:param user: string repr username
"""
if user not in self.__users_list:
self.__users_list.append(user)
self.lb_users.insert(END, user)
else:
self.debug_event(user + " already exists")
def remove_user_from_list(self, user):
"""
This function tries to delete specific username
from the list
:param user: string repr username
:return:
"""
try:
i = self.__users_list.index(user)
self.lb_users.delete(i)
self.__users_list.pop(i)
except:
self.debug_event(user + " is not in our list..")
class ListboxVidget(Vidget, Eventor):
"""
ListboxVidget contains a Listbox widget. It adds the following abilities:
- Store items of any type, unlike Listbox widget that only stores texts.
- Remember selected item even if the listbox widget lost focus.
- Notify pre-change and post-change events.
"""
# Error raised when trying to change the listbox while a change is going on
class CircularCallError(ValueError):
pass
# Error raised when trying to change the listbox while it is disabled
class DisabledError(ValueError):
pass
# Event notified when the listbox's items are to be changed
ITEMS_CHANGE_SOON = 'ITEMS_CHANGE_SOON'
# Event notified when the listbox's items are changed
ITEMS_CHANGE_DONE = 'ITEMS_CHANGE_DONE'
# Event notified when the listbox's active item is to be changed
ITEMCUR_CHANGE_SOON = 'ITEMCUR_CHANGE_SOON'
# Event notified when the listbox's active item is changed
ITEMCUR_CHANGE_DONE = 'ITEMCUR_CHANGE_DONE'
# Events list
EVENTS = (
ITEMS_CHANGE_SOON,
ITEMS_CHANGE_DONE,
ITEMCUR_CHANGE_SOON,
ITEMCUR_CHANGE_DONE,
)
def __init__(
self,
items=None,
item_to_text=None,
normal_bg='',
normal_fg='',
active_bg='sky blue',
active_fg='white',
selected_bg='steel blue',
selected_fg='white',
master=None,
):
"""
Initialize object.
@param items: Items list.
@param item_to_text: Item-to-text function. Default is `str`.
@param normal_bg: Unselected item background color.
@param normal_fg: Unselected item foreground color.
@param active_bg: Active item background color. `Active` means the item
is selected (in general meaning) but the listbox has no focus.
@param active_fg: Active item foreground color. `Active` means the item
is selected (in general meaning) but the listbox has no focus.
@param selected_bg: Selected item background color. `Selected` means
the item is selected (in general meaning) and the listbox has focus.
@param selected_fg: Selected item foreground color. `Selected` means
the item is selected (in general meaning) and the listbox has focus.
@param master: Master widget.
@return: None.
"""
# Initialize Vidget.
# Create main frame widget.
Vidget.__init__(
self,
master=master,
)
# Initialize Eventor
Eventor.__init__(self)
# If items list is given
if items is not None:
# If items list is not list
if not isinstance(items, list):
# Raise error
raise TypeError(items)
# If items list is list.
# If items list is not given, or items list is given and is list
# Items list
self._items = items if items is not None else []
# Item-to-text function. Default is `str`.
self._item_to_text = item_to_text if item_to_text is not None else str
# Unselected item background color
self._normal_fg = normal_fg
# Unselected item foreground color
self._normal_bg = normal_bg
# Active item background color
self._active_fg = active_fg
# Active item foreground color
self._active_bg = active_bg
# Selected item background color
self._selected_fg = selected_fg
# Selected item foreground color
self._selected_bg = selected_bg
# Whether the listbox is changing
self._is_changing = False
# Active index. `-1` means void, i.e. no item is active.
self._indexcur = -1
# Whether active index is being reset to same value
self._is_resetting = False
# Create listbox widget
self._listbox = Listbox(
master=self.widget(),
relief='groove',
activestyle='none',
highlightthickness=0,
# Active index cache only supports single-selection mode for now.
# See 2N6OR.
selectmode='single',
)
# Set the listbox widget as config target
self.config_target_set(self._listbox)
# Create x-axis scrollbar
self._scrollbar_xview = _HiddenScrollbar(
self.widget(),
orient=HORIZONTAL,
)
# Create y-axis scrollbar
self._scrollbar_yview = _HiddenScrollbar(
self.widget(),
orient=VERTICAL,
)
# Mount scrollbars
self._listbox.config(xscrollcommand=self._scrollbar_xview.set)
self._listbox.config(yscrollcommand=self._scrollbar_yview.set)
self._scrollbar_xview.config(command=self._listbox.xview)
self._scrollbar_yview.config(command=self._listbox.yview)
# Bind single-click event handler
self._listbox.bind('<Button-1>', self._on_single_click)
# Bind double-click event handler
self._listbox.bind('<Double-Button-1>', self._on_double_click)
# Update listbox widget
self._listbox_widget_update(keep_active=False)
# Update widget
self._widget_update()
def _widget_update(self):
"""
Update widget.
@return: None.
"""
# Row 0 for listbox and y-axis scrollbar
self.widget().rowconfigure(0, weight=1)
# Row 1 for x-axis scrollbar
self.widget().rowconfigure(1, weight=0)
# Column 0 for listbox and x-axis scrollbar
self.widget().columnconfigure(0, weight=1)
# Column 1 for y-axis scrollbar
self.widget().columnconfigure(1, weight=0)
# Lay out listbox
self._listbox.grid(row=0, column=0, sticky='NSEW')
# Lay out x-axis scrollbar
self._scrollbar_xview.grid(row=1, column=0, sticky='EW')
# Lay out y-axis scrollbar
self._scrollbar_yview.grid(row=0, column=1, sticky='NS')
def is_enabled(self):
"""
Test whether the listbox is enabled.
@return: Boolean.
"""
# Return whether the listbox is enabled
return self._listbox.config('state')[4] != DISABLED
def is_changing(self):
"""
Test whether the listbox is changing.
@return: Boolean.
"""
# Return whether the listbox is changing
return self._is_changing
def is_resetting(self):
"""
Test whether the listbox is setting active index to the same value.
@return: Boolean.
"""
# Return whether the listbox is setting active index to the same value
return self._is_resetting
def size(self):
"""
Get number of items.
@return: Number of items.
"""
# Return number of items
return len(self._items)
def items(self):
"""
Get items list.
Notice do not change the list outside.
@return: Items list.
"""
# Return items list
return self._items
def items_set(
self,
items,
notify=True,
keep_active=False,
):
"""
Set items list.
Notice do not change the list outside.
@param items: Items list.
@param notify: Whether notify pre-change and post-change events.
@param keep_active: Whether keep or clear active index.
@return: None.
"""
# If the items is not list
if not isinstance(items, list):
# Raise error
raise TypeError(items)
# If the items is list.
# If the listbox is disabled
if not self.is_enabled():
# Raise error
raise ListboxVidget.DisabledError()
# If the listbox is not disabled.
# If the listbox is changing
if self._is_changing:
# Raise error
raise ListboxVidget.CircularCallError()
# If the listbox is not changing.
# Set changing flag on
self._is_changing = True
# If notify events
if notify:
# Notify pre-change event
self.handler_notify(self.ITEMS_CHANGE_SOON)
# Store the new items
self._items = items
# Update listbox widget
self._listbox_widget_update(
keep_active=keep_active
)
# If notify events
if notify:
# Notify post-change event
self.handler_notify(self.ITEMS_CHANGE_DONE)
# Set changing flag off
self._is_changing = False
def index_is_valid(self, index):
"""
Test whether given index is valid. Notice -1 is not valid.
@param index: Index to test.
@return: Boolean.
"""
# Test whether given index is valid
return 0 <= index and index < self.size()
def index_is_valid_or_void(self, index):
"""
Test whether given index is valid or is -1.
@param index: Index to test.
@return: Boolean.
"""
# Test whether given index is valid or is -1
return index == -1 or self.index_is_valid(index)
def index_first(self):
"""
Get the first item's index.
@return: First item's index, or -1 if the listbox is empty.
"""
# Return the first item's index
return 0 if self.size() > 0 else -1
def index_last(self):
"""
Get the last item's index.
@return: Last item's index, or -1 if the listbox is empty.
"""
# Return the last item's index
return self.size() - 1
def indexcur(self, internal=False, raise_error=False):
"""
Get the active index.
@param internal: See 2N6OR.
@return: The active index. If no active active, either return -1, or
raise IndexError if `raise_error` is True.
"""
# Get active indexes
indexcurs = self._indexcurs(internal=internal)
# If have active indexes
if indexcurs:
# Return the first active index
return indexcurs[0]
# If no active indexes
else:
# If raise error
if raise_error:
# Raise error
raise IndexError(-1)
# If not raise error
else:
# Return -1
return -1
def _indexcurs(self, internal=False):
"""
Get active indexes list.
2N6OR
@param internal: Whether use listbox widget's selected indexes, instead
of cached active index.
Notice listbox widget has no selected indexes if it has no focus.
Notice using cached active index only supports single-selection mode,
which means the result list has at most one index.
@return: Active indexes list.
"""
# If use listbox widget's selected indexes
if internal:
# Return listbox widget's selected indexes list
return [int(x) for x in self._listbox.curselection()]
# If not use listbox widget's selected indexes
else:
# If cached active index is valid
if self.index_is_valid(self._indexcur):
# Return a list with the cached active index
return [self._indexcur]
# If cached active index is not valid
else:
# Return empty list
return []
def indexcur_set(
self,
index,
focus=False,
notify=True,
notify_arg=None,
):
"""
Set active index.
@param index: The index to set.
@param focus: Whether set focus on the listbox widget.
@param notify: Whether notify pre-change and post-change events.
@param notify_arg: Event argument.
@return: None.
"""
# If the index is not valid or -1
if not self.index_is_valid_or_void(index):
# Raise error
raise IndexError(index)
# If the index is valid or is -1.
# If the listbox is not enabled
if not self.is_enabled():
# Raise error
raise ListboxVidget.DisabledError()
# If the listbox is enabled.
# If the listbox is changing
if self._is_changing:
# Raise error
raise ListboxVidget.CircularCallError()
# If the listbox is not changing.
# Set changing flag on
self._is_changing = True
# Get old active index
old_indexcur = self._indexcur
# Set resetting flag on if new and old indexes are equal
self._is_resetting = (index == old_indexcur)
# If notify events
if notify:
# Notify pre-change event
self.handler_notify(self.ITEMCUR_CHANGE_SOON, notify_arg)
# If old active index is valid
if self.index_is_valid(old_indexcur):
# Set old active item's background color to normal color
self._listbox.itemconfig(old_indexcur, background=self._normal_bg)
# Set old active item's foreground color to normal color
self._listbox.itemconfig(old_indexcur, foreground=self._normal_fg)
# Cache new active index
self._indexcur = index
# Clear listbox widget's selection
self._listbox.selection_clear(0, END)
# Set listbox widget's selection
self._listbox.selection_set(index)
# Set listbox widget's activated index
self._listbox.activate(index)
# If new active index is valid
if index != -1:
# Set new active item's background color to active color
self._listbox.itemconfig(index, background=self._active_bg)
# Set new active item's foreground color to active color
self._listbox.itemconfig(index, foreground=self._active_fg)
# If set focus
if focus:
# Set focus on the listbox widget
self._listbox.focus_set()
# If new active index is valid
if index != -1:
# Make the active item visible
self._listbox.see(index)
# If notify events
if notify:
# Notify post-change event
self.handler_notify(self.ITEMCUR_CHANGE_DONE, notify_arg)
# Set resetting flag off
self._is_resetting = False
# Set changing flag off
self._is_changing = False
def indexcur_set_by_event(
self,
event,
focus=False,
notify=True,
notify_arg=None,
):
"""
Set active index using a Tkinter event object that contains coordinates
of the active item.
@param event: Tkinter event object.
@param focus: Whether set focus on the listbox widget.
@param notify: Whether notify pre-change and post-change events.
@param notify_arg: Event argument.
@return: None.
"""
# Get the event's y co-ordinate's nearest listbox item index
index = self._listbox.nearest(event.y)
# If the index is not valid
if not self.index_is_valid_or_void(index):
# Ignore the event
return
# If the index is valid
else:
# Set the index as active index
self.indexcur_set(
index=index,
focus=focus,
notify=notify,
notify_arg=notify_arg,
)
def item(self, index):
"""
Get item at given index.
@return: Item at given index, or IndexError if the index is not valid.
"""
return self.items()[index]
def itemcur(self, internal=False, raise_error=False):
"""
Get the active item.
@param internal: See 2N6OR.
@param raise_error: Whether raise error if no active item.
@return: The active item. If no active item, if `raise_error` is
True, raise IndexError, otherwise return None.
"""
# Get active index.
# May raise IndexError if `raise_error` is True.
indexcur = self.indexcur(
internal=internal,
raise_error=raise_error,
)
# If no active index
if indexcur == -1:
# Return None
return None
# If have active index
else:
# Return the active item
return self.items()[indexcur]
def item_insert(
self,
item,
index=None,
notify=True,
keep_active=True,
):
"""
Insert item at given index.
@param item: Item to insert.
@param index: Index to insert. `None` means active index, and if no
active index, insert at the end.
@param notify: Whether notify pre-change and post-change events.
@param keep_active: Whether keep or clear active index.
@return: None.
"""
# If notify events
if notify:
# Notify pre-change events
self.handler_notify(self.ITEMCUR_CHANGE_SOON)
self.handler_notify(self.ITEMS_CHANGE_SOON)
# Get old active index
active_index = self.indexcur()
# If the index is None,
# it means use active index.
if index is None:
# Use active index.
# `-1` works and means appending.
index = active_index
# Insert the item to the items list
self._items.insert(index, item)
# If old active index is valid
if active_index != -1:
# If old active index is GE the inserted index
if active_index >= index:
# Shift active index by one
active_index += 1
# If old active index is not GE the inserted index, use it as-is.
# Set new active index
self.indexcur_set(index=active_index, notify=False)
# Update listbox widget
self._listbox_widget_update(
keep_active=keep_active
)
# If notify events
if notify:
# Notify post-change events
self.handler_notify(self.ITEMS_CHANGE_DONE)
self.handler_notify(self.ITEMCUR_CHANGE_DONE)
def item_remove(
self,
index,
notify=True,
keep_active=True,
):
"""
Remove item at given index.
@param index: Index to remove.
@param notify: Whether notify pre-change and post-change events.
@param keep_active: Whether keep or clear active index.
@return: None.
"""
# If the index is not valid
if not self.index_is_valid(index):
# Raise error
raise ValueError(index)
# If the index is valid.
# If notify events
if notify:
# Notify pre-change events
self.handler_notify(self.ITEMCUR_CHANGE_SOON)
self.handler_notify(self.ITEMS_CHANGE_SOON)
# Get old active index
active_index = self.indexcur()
# Remove item at the index
del self._items[index]
# If old active index is valid
if active_index != -1:
# Get the last index
index_last = self.index_last()
# If old active index is GT the last index
if active_index > index_last:
# Use the last index as new active index
active_index = index_last
# If old active index is not GT the last index, use it as-is.
# Set new active index
self.indexcur_set(index=active_index, notify=False)
# Update listbox widget
self._listbox_widget_update(
keep_active=keep_active
)
# If notify events
if notify:
# Notify post-change events
self.handler_notify(self.ITEMS_CHANGE_DONE)
self.handler_notify(self.ITEMCUR_CHANGE_DONE)
def handler_add(
self,
event,
handler,
need_arg=False,
):
"""
Add event handler for an event.
If the event is ListboxVidget event, add the event handler to Eventor.
If the event is not ListboxVidget event, add the event handler to
listbox widget.
Notice this method overrides `Eventor.handler_add` in order to add
non-ListboxVidget event handler to listbox widget.
@param event: Event name.
@param handler: Event handler.
@param need_arg: Whether the event handler needs event argument.
@return: None.
"""
# If the event is ListboxVidget event
if event in self.EVENTS:
# Add the event handler to Eventor
return Eventor.handler_add(
self,
event=event,
handler=handler,
need_arg=need_arg,
)
# If the event is not ListboxVidget event,
# it is assumed to be Tkinter widget event.
else:
# Add the event handler to listbox widget
return self.bind(
event=event,
handler=handler,
)
def bind(
self,
event,
handler,
):
"""
Add event handler to listbox widget.
ListboxVidget internally uses `<Button-1>` and `<Double-Button-1>` to
capture active index changes. So if the given event is `<Button-1>` or
`<Double-Button-1>`, the given handler will be wrapped.
@param event: Event name.
@param handler: Event handler.
@return: None.
"""
# If the event is not `<Button-1>` or `<Double-Button-1>`
if event not in ['<Button-1>', '<Double-Button-1>']:
# Add the event handler to listbox widget
self._listbox.bind(event, handler)
# If the event is `<Button-1>` or `<Double-Button-1>`
else:
# Create event handler wrapper
def handler_wrapper(e):
"""
Event handler wrapper that sets new active index and then calls
the wrapped event handler.
Setting new active index is needed because when this handler is
called by Tkinter, the active index of the listbox is still
old.
@param e: Tkinter event object.
@return: None.
"""
# Set new active index
self.indexcur_set_by_event(e, notify=True)
# Call the wrapped event handler
handler(e)
# Add the event handler wrapper to the listbox widget
self._listbox.bind(event, handler_wrapper)
def _on_single_click(self, event):
"""
`<Button-1>` event handler that updates active index.
@param event: Tkinter event object.
@return: None.
"""
# Updates active index
self.indexcur_set_by_event(event, notify=True)
def _on_double_click(self, event):
"""
`<Double-Button-1>` event handler that updates active index.
@param event: Tkinter event object.
@return: None.
"""
# Updates active index
self.indexcur_set_by_event(event, notify=True)
def _listbox_widget_update(
self,
keep_active,
):
"""
Update listbox widget's items and selection.
@param keep_active: Whether keep or clear active index.
@return: None.
"""
# Remove old items from listbox widget
self._listbox.delete(0, END)
# Insert new items into listbox widget.
# For each ListboxVidget items.
for index, item in enumerate(self.items()):
# Get item text
item_text = self._item_to_text(item)
# Insert the item text into listbox widget
self._listbox.insert(index, item_text)
# Set the item's normal background color
self._listbox.itemconfig(index, background=self._normal_bg)
# Set the item's normal foreground color
self._listbox.itemconfig(index, foreground=self._normal_fg)
# Set the item's selected background color
self._listbox.itemconfig(index, selectbackground=self._selected_bg)
# Set the item's selected foreground color
self._listbox.itemconfig(index, selectforeground=self._selected_fg)
# If keep active index
if keep_active:
# Use old active index
indexcur = self._indexcur
# If not keep active index
else:
# Set active index to -1
indexcur = self._indexcur = -1
# Clear old selection
self._listbox.selection_clear(0, END)
# Set new selection.
# `-1` works.
self._listbox.selection_set(indexcur)
# Set new active index.
# `-1` works.
self._listbox.activate(indexcur)
# If new active index is valid
if indexcur != -1:
# Set active background color
self._listbox.itemconfig(indexcur, background=self._active_bg)
# Set active foreground color
self._listbox.itemconfig(indexcur, foreground=self._active_fg)
# Make the active item visible
self._listbox.see(indexcur)
class AutoCompleteEntry(Entry): # pylint: disable=too-many-ancestors
"""
An entry widget with asdf.
"""
def __init__(self, autocomplete_list, *args, **kwargs):
self.autocomplete_list = autocomplete_list
self.list_box_length = kwargs.pop('list_box_length', 8)
self.matches_function = kwargs.pop('matches_function',
self._default_match)
# function to initate_string_var_no_textvariable
self.textvariable = kwargs.get('textvariable', StringVar())
self.list_box = None
super().__init__(*args, **kwargs)
self.config(textvariable=self.textvariable)
self.focus()
self.textvariable.trace('w', self._changed)
@property
def existing_list_box(self):
"""
Check if this instance has its' listbox defined/open.
"""
return self.__dict__.get('list_box', False)
@staticmethod
def _default_match(query, list_entry):
"""
The default match function if none is given during instantiation.
"""
pattern = re.compile(re.escape(query) + '.*', re.IGNORECASE)
return re.match(pattern, list_entry)
def _changed(self, name, index, mode):
"""
Event handler for changes to entry.
"""
print("in _changed")
print(name, index, mode)
if self.textvariable.get(): # not empty string
words = self.__comparison()
if not words:
return self.__delete_existing_list_box()
if not self.existing_list_box:
self.list_box = Listbox(width=self["width"],
height=self.list_box_length)
# looks hacky
self.list_box.place(
x=self.winfo_x(), y=self.winfo_y() + self.winfo_height())
self.list_box.delete(0, END)
for word in words:
self.list_box.insert(END, word)
else:
self.__delete_existing_list_box()
def __delete_existing_list_box(self):
"""
Deletes open listbox.
"""
if self.existing_list_box:
self.list_box.destroy()
# hmmmm
def __comparison(self):
"""
Finds words similar to query. TODO
"""
if len(self.get()) < 3:
return []
ans = [w for w in self.autocomplete_list if
self.matches_function(self.textvariable.get(), w)]
print(ans)
return ans[:5]
class OptimizerMainWindow:
"""
classdocs
"""
# TODO: change that name
def reactToClick(self, event):
a = AddRestrictionDialog(self)
def __init__(self, optimizer):
# always have a reference to model/controller
self.optimizer = optimizer
# setup main GUI and make stretchable
self.guiRoot = Tk()
self.guiRoot.title("OPTIMIZR")
self.guiRoot.columnconfigure(1, weight=1)
self.guiRoot.rowconfigure(0, weight=1)
# left (settings) and right (sequences) part
self.frameLeft = Frame(self.guiRoot)
self.frameLeft.grid(row=0, column=0, sticky=W + E + N + S)
self.frameLeft.columnconfigure(0, weight=1)
self.frameRight = Frame(self.guiRoot)
self.frameRight.grid(row=0, column=1, sticky=W + E + N + S)
self.frameRight.columnconfigure(0, weight=1)
self.frameRight.rowconfigure(0, weight=1)
self.frameRight.rowconfigure(1, weight=1)
self.frameSpeciesControll = LabelFrame(self.frameLeft, text="Species", pady=10, padx=10)
self.frameSpeciesControll.columnconfigure(1, weight=1)
self.frameOptimizationControll = LabelFrame(self.frameLeft, text="Optimization", pady=10, padx=10)
self.frameRestrictionControll = LabelFrame(self.frameLeft, text="Restriction Enzymes", pady=10, padx=10)
self.frameSpeciesControll.grid(row=0, column=0, sticky=W + E, padx=10, pady=10)
self.frameOptimizationControll.grid(row=1, column=0, sticky=W + E, padx=10, pady=10)
self.frameRestrictionControll.grid(row=2, column=0, sticky=W + E, padx=10, pady=10)
# Species Controll
Label(self.frameSpeciesControll, text="Source:").grid(row=0, column=0)
Label(self.frameSpeciesControll, text="Target:").grid(row=1, column=0)
self.comboSourceSpecies = Combobox(self.frameSpeciesControll, state="readonly")
self.comboSourceSpecies.grid(row=0, column=1, pady=5, sticky="ew")
self.comboTargetSpecies = Combobox(self.frameSpeciesControll, state="readonly")
self.comboTargetSpecies.grid(row=1, column=1, pady=5, sticky="we")
self.buttonSpeciesList = Button(self.frameSpeciesControll, text="Edit Species List")
self.buttonSpeciesList.grid(row=2, column=1, pady=5, sticky="e")
self.comboSourceSpecies.bind("<<ComboboxSelected>>", self.actionOptimizerSettingsChanged)
self.comboTargetSpecies.bind("<<ComboboxSelected>>", self.actionOptimizerSettingsChanged)
# Optimization Controll
Label(self.frameOptimizationControll, text="Optimization Strategy:").grid(row=0, column=0)
self.comboOptimizationStrategy = Combobox(self.frameOptimizationControll, state="readonly")
self.comboOptimizationStrategy.grid(row=0, column=1)
self.comboOptimizationStrategy["values"] = self.optimizer.possibleOptimizationStrategies
self.comboOptimizationStrategy.bind("<<ComboboxSelected>>", self.actionOptimizerSettingsChanged)
# Restriction Enzymes
self.listRestriction = Listbox(self.frameRestrictionControll)
self.listRestriction.grid(row=0, column=0, columnspan=3, pady=5, sticky=W + E)
self.frameRestrictionControll.columnconfigure(0, weight=1)
self.buttonRestricionAdd = Button(self.frameRestrictionControll, text=" + ")
self.buttonRestricionDel = Button(self.frameRestrictionControll, text=" - ")
self.buttonRestricionAdd.grid(row=1, column=1, padx=5)
self.buttonRestricionDel.grid(row=1, column=2, padx=5)
# Source Sequence Frame
self.frameSourceSequence = LabelFrame(self.frameRight, text="Source Sequence", padx=10, pady=10)
self.frameResultSequence = LabelFrame(self.frameRight, text="Result Sequence", padx=10, pady=10)
self.frameSourceSequence.grid(row=0, column=0, sticky="wens", padx=10, pady=10)
self.frameResultSequence.grid(row=1, column=0, sticky="wens", padx=10, pady=10)
self.buttonSourceLoad = Button(self.frameSourceSequence, text=" Load ")
self.textSourceSeq = ScrolledText(self.frameSourceSequence, height=10)
self.buttonSourceLoad.grid(row=0, column=1, sticky="e", pady=5)
self.textSourceSeq.grid(row=1, column=0, columnspan=2, sticky="wens")
self.frameSourceSequence.columnconfigure(0, weight=1)
self.frameSourceSequence.rowconfigure(1, weight=1)
self.textSourceSeq.frame.columnconfigure(1, weight=1)
self.textSourceSeq.frame.rowconfigure(0, weight=1)
self.buttonOptimize = Button(self.frameResultSequence, text=" OPTIMIZE! ")
self.buttonOptimize.bind("<ButtonRelease>", self.actionOptimize)
self.buttonRemoveRestriction = Button(self.frameResultSequence, text=" RESTRICTION-B-GONE! ")
self.buttonRemoveRestriction.bind("<ButtonRelease>", self.actionRemoveRestricion)
self.buttonSaveResult = Button(self.frameResultSequence, text=" Save ")
self.textResultSequence = ScrolledText(self.frameResultSequence, height=10)
self.buttonOptimize.grid(column=0, row=0, pady=5, sticky="w")
self.buttonRemoveRestriction.grid(column=1, row=0, pady=5, padx=10, sticky="w")
self.textResultSequence.grid(row=1, column=0, columnspan=4, sticky="wens")
self.buttonSaveResult.grid(row=2, column=3, pady=5, sticky="e")
self.frameResultSequence.columnconfigure(2, weight=1)
self.frameResultSequence.rowconfigure(1, weight=1)
self.textResultSequence.frame.columnconfigure(1, weight=1)
self.textResultSequence.frame.rowconfigure(0, weight=1)
self.textSourceSeq.bind("<<Modified>>", self.actionSequenceModified)
self.textResultSequence.bind("<<Modified>>", self.actionSequenceModified)
# generate color tags for textboxes
for i in range(101):
# green for normal codons
(r, g, b) = colorsys.hsv_to_rgb(210 / 360, i / 100, 1.0)
colorHex = "#%02x%02x%02x" % (int(r * 255), int(g * 255), int(b * 255))
self.textSourceSeq.tag_config("normal" + str(i), background=colorHex)
self.textResultSequence.tag_config("normal" + str(i), background=colorHex)
# red for codons with restriction sites
(r, g, b) = colorsys.hsv_to_rgb(5 / 360, i / 100, 1.0)
colorHex = "#%02x%02x%02x" % (int(r * 255), int(g * 255), int(b * 255))
self.textSourceSeq.tag_config("restrict" + str(i), background=colorHex)
self.textResultSequence.tag_config("restrict" + str(i), background=colorHex)
# Set (minimum + max) Window size
self.guiRoot.update()
self.guiRoot.minsize(self.guiRoot.winfo_width(), self.guiRoot.winfo_height())
self.buttonRestricionAdd.bind("<ButtonRelease>", self.reactToClick)
self.buttonRestricionDel.bind("<ButtonRelease>", self.actionRestrictionEnzymeDelete)
self.buttonSpeciesList.bind("<ButtonRelease>", self.actionEditSpeciesButton)
self.buttonSourceLoad.bind("<ButtonRelease>", self.actionLoadSequence)
self.buttonSaveResult.bind("<ButtonRelease>", self.actionSaveSequence)
# TEST
# self.listRestriction.insert("end", "EcoRI")
# self.listRestriction.insert("end", "BamHI")
#
# dummy event to manually trigger update
self.guiRoot.bind("<<Update>>", self.actionUpdate)
self.actionUpdate(None)
self.guiRoot.mainloop()
def actionRestrictionEnzymeDelete(self, event):
try:
selectedEnzyme = self.listRestriction.selection_get()
self.optimizer.restrictionEnzymeList.remove(selectedEnzyme)
self.guiRoot.event_generate("<<Update>>")
except tkinter.TclError:
# no selection
pass
def actionUpdate(self, event):
# print("update called")
# clear list of restriction enzymes
self.listRestriction.delete(0, "end")
for r in self.optimizer.restrictionEnzymeList:
self.listRestriction.insert("end", r)
self.comboSourceSpecies.delete(0, "end")
self.comboTargetSpecies.delete(0, "end")
speciesValues = list()
for (taxid, name) in self.optimizer.speciesList:
speciesValues.append(taxid + ": " + name)
self.comboSourceSpecies["values"] = speciesValues
self.comboTargetSpecies["values"] = speciesValues
if self.comboSourceSpecies.get() not in speciesValues:
self.comboSourceSpecies.set("")
if self.comboTargetSpecies.get() not in speciesValues:
self.comboTargetSpecies.set("")
self.textSourceSeq.edit_modified(True)
self.textResultSequence.edit_modified(True)
self.optimizer.saveConfig("config.ini")
def actionEditSpeciesButton(self, event):
speciesListDialog = SpeciesListDialog(self)
def actionOptimizerSettingsChanged(self, event=None):
# print("Something happened")
strategy = self.comboOptimizationStrategy.get()
sourceString = self.comboSourceSpecies.get()
targetString = self.comboTargetSpecies.get()
if not (strategy and sourceString and targetString):
return
sourceTaxid = sourceString.split(":")[0]
targetTaxid = targetString.split(":")[0]
self.optimizer.setOptimizer(sourceTaxid, targetTaxid, strategy)
self.textSourceSeq.edit_modified(True)
self.textResultSequence.edit_modified(True)
# self.optimizer.testPrint()
def actionOptimize(self, event=None):
self.optimizer.runOptimization()
self.textSourceSeq.edit_modified(True)
self.textResultSequence.edit_modified(True)
def actionRemoveRestricion(self, event=None):
self.optimizer.runRestricionRemoval()
self.textSourceSeq.edit_modified(True)
self.textResultSequence.edit_modified(True)
def actionSequenceModified(self, event=None):
# necessary if, otherwise -> infinite loop
if self.textSourceSeq.edit_modified():
seq = self.textSourceSeq.get("1.0", "end").strip()
seq = stripCharsNotInList(seq.upper(), ["A", "C", "G", "T"])
self.optimizer.setSourceSeq(seq)
oldInsert = self.textSourceSeq.index("insert")
self.textSourceSeq.delete("1.0", "end")
sourceCodons = self.optimizer.getCodonsForPrint(True)
if not sourceCodons:
self.textSourceSeq.insert("end", self.optimizer.sourceSequence)
else:
for (co, sc, r) in sourceCodons:
if sc:
if not r:
self.textSourceSeq.insert("end", co, "normal" + str(int(sc * 100)))
# print("normal"+str(int(sc*100)))
else:
self.textSourceSeq.insert("end", co, "restrict" + str(int(sc * 100)))
else:
# remainder without color
self.textSourceSeq.insert("end", co)
self.textSourceSeq.mark_set("insert", oldInsert)
# reset the modified status at the very end
self.textSourceSeq.edit_modified(False)
if self.textResultSequence.edit_modified():
seq = self.textResultSequence.get("1.0", "end").strip()
# self.optimizer.setOptimizedSeq(seq)
oldInsert = self.textResultSequence.index("insert")
self.textResultSequence.delete("1.0", "end")
targetCodons = self.optimizer.getCodonsForPrint(False)
if not targetCodons:
self.textSourceSeq.insert("end", self.optimizer.optimizedSequence)
else:
for (co, sc, r) in targetCodons:
if sc:
if not r:
self.textResultSequence.insert("end", co, "normal" + str(int(sc * 100)))
# print("normal"+str(int(sc*100)))
else:
self.textResultSequence.insert("end", co, "restrict" + str(int(sc * 100)))
else:
# remainder without color
self.textResultSequence.insert("end", co)
self.textSourceSeq.mark_set("insert", oldInsert)
self.textResultSequence.edit_modified(False)
def actionLoadSequence(self, event=None):
filename = tkinter.filedialog.askopenfilename()
if filename:
seq = sequenceIO.readFile(filename)
self.textSourceSeq.delete("1.0", "end")
self.textSourceSeq.insert("end", seq)
self.textSourceSeq.edit_modified(True)
def actionSaveSequence(self, event=None):
filename = tkinter.filedialog.asksaveasfilename()
if filename:
# print("file is " + filename)
with open(filename, mode="w") as fd:
fd.write(self.optimizer.optimizedSequence)
class SpeciesSearchDialog:
def __init__(self, parent, caller):
# main window
self.parent = parent
# dialog that called this second dialog
self.caller = caller
self.gui = Toplevel(parent.guiRoot)
self.gui.grab_set()
self.gui.focus()
self.gui.columnconfigure(0, weight=1)
self.gui.rowconfigure(1, weight=1)
self.entrySearch = Entry(self.gui)
self.buttonSearch = Button(self.gui, text=" Search ")
self.buttonAdd = Button(self.gui, text=" Add Species ")
self.buttonClose = Button(self.gui, text=" Close Window ")
self.frameResults = Frame(self.gui)
self.frameResults.columnconfigure(0, weight=1)
self.frameResults.rowconfigure(0, weight=1)
self.scrollResults = Scrollbar(self.frameResults, orient="vertical")
self.scrollResults.grid(row=0, column=1, sticky="ns")
self.listResults = Listbox(self.frameResults, width=70, height=20)
self.listResults.grid(row=0, column=0, sticky="nswe")
self.listResults.config(yscrollcommand=self.scrollResults.set)
self.scrollResults.config(command=self.listResults.yview)
self.entrySearch.grid(row=0, column=0, columnspan=2, sticky="we", padx=5, pady=5)
self.frameResults.grid(row=1, column=0, columnspan=3, sticky="nswe", padx=5, pady=5)
self.buttonSearch.grid(row=0, column=2, padx=5, pady=5, sticky="e")
self.buttonAdd.grid(row=2, column=1, padx=5, pady=5, sticky="e")
self.buttonClose.grid(row=2, column=2, padx=5, pady=5, sticky="e")
self.gui.protocol("WM_DELETE_WINDOW", self.actionClose)
self.buttonClose.bind("<ButtonRelease>", self.actionClose)
self.buttonAdd.bind("<ButtonRelease>", self.actionAdd)
self.buttonSearch.bind("<ButtonRelease>", self.actionSearch)
self.entrySearch.bind("<Return>", self.actionSearch)
self.gui.update()
self.gui.minsize(self.gui.winfo_width(), self.gui.winfo_height())
self.gui.mainloop()
def actionAdd(self, event):
try:
selection = self.listResults.selection_get()
selectionSplit = selection.split(":\t", 1)
selectionSplit2 = selectionSplit[1].split("\t")
if not (selectionSplit[0], selectionSplit2[0]) in self.parent.optimizer.speciesList:
self.parent.optimizer.speciesList.append((selectionSplit[0], selectionSplit2[0].strip()))
self.caller.gui.event_generate("<<Update>>")
except tkinter.TclError:
# no selection
pass
def actionSearch(self, event):
query = self.entrySearch.get()
if query:
self.listResults.delete(0, "end")
results = self.parent.optimizer.SPSUMHandler.search(query)
# sort results by nr of CDS
results = sorted(results.items(), reverse=True, key=lambda x: (int(x[1][1])))
for name, (taxid, ncs) in results:
self.listResults.insert("end", taxid + ":\t " + name + " \t(" + ncs + " CDS)")
def actionClose(self, event=None):
self.caller.gui.event_generate("<<Update>>", when="tail")
self.gui.destroy()
class LintGui:
"""Build and control a window to interact with pylint"""
def __init__(self, root=None):
"""init"""
self.root = root or Tk()
self.root.title("Pylint")
# reporter
self.reporter = None
# message queue for output from reporter
self.msg_queue = queue.Queue()
self.msgs = []
self.filenames = []
self.rating = StringVar()
self.tabs = {}
self.report_stream = BasicStream(self)
# gui objects
self.lbMessages = None
self.showhistory = None
self.results = None
self.btnRun = None
self.information_box = None
self.convention_box = None
self.refactor_box = None
self.warning_box = None
self.error_box = None
self.fatal_box = None
self.txtModule = None
self.status = None
self.msg_type_dict = None
self.init_gui()
def init_gui(self):
"""init helper"""
# setting up frames
top_frame = Frame(self.root)
mid_frame = Frame(self.root)
radio_frame = Frame(self.root)
res_frame = Frame(self.root)
msg_frame = Frame(self.root)
check_frame = Frame(self.root)
history_frame = Frame(self.root)
btn_frame = Frame(self.root)
rating_frame = Frame(self.root)
top_frame.pack(side=TOP, fill=X)
mid_frame.pack(side=TOP, fill=X)
history_frame.pack(side=TOP, fill=BOTH, expand=True)
radio_frame.pack(side=TOP, fill=BOTH, expand=True)
rating_frame.pack(side=TOP, fill=BOTH, expand=True)
res_frame.pack(side=TOP, fill=BOTH, expand=True)
check_frame.pack(side=TOP, fill=BOTH, expand=True)
msg_frame.pack(side=TOP, fill=BOTH, expand=True)
btn_frame.pack(side=TOP, fill=X)
# Message ListBox
rightscrollbar = Scrollbar(msg_frame)
rightscrollbar.pack(side=RIGHT, fill=Y)
bottomscrollbar = Scrollbar(msg_frame, orient=HORIZONTAL)
bottomscrollbar.pack(side=BOTTOM, fill=X)
self.lbMessages = Listbox(
msg_frame, yscrollcommand=rightscrollbar.set, xscrollcommand=bottomscrollbar.set, bg="white"
)
self.lbMessages.pack(expand=True, fill=BOTH)
rightscrollbar.config(command=self.lbMessages.yview)
bottomscrollbar.config(command=self.lbMessages.xview)
# History ListBoxes
rightscrollbar2 = Scrollbar(history_frame)
rightscrollbar2.pack(side=RIGHT, fill=Y)
bottomscrollbar2 = Scrollbar(history_frame, orient=HORIZONTAL)
bottomscrollbar2.pack(side=BOTTOM, fill=X)
self.showhistory = Listbox(
history_frame, yscrollcommand=rightscrollbar2.set, xscrollcommand=bottomscrollbar2.set, bg="white"
)
self.showhistory.pack(expand=True, fill=BOTH)
rightscrollbar2.config(command=self.showhistory.yview)
bottomscrollbar2.config(command=self.showhistory.xview)
self.showhistory.bind("<Double-Button-1>", self.select_recent_file)
self.set_history_window()
# status bar
self.status = Label(self.root, text="", bd=1, relief=SUNKEN, anchor=W)
self.status.pack(side=BOTTOM, fill=X)
# labels
self.lblRatingLabel = Label(rating_frame, text="Rating:")
self.lblRatingLabel.pack(side=LEFT)
self.lblRating = Label(rating_frame, textvariable=self.rating)
self.lblRating.pack(side=LEFT)
Label(mid_frame, text="Recently Used:").pack(side=LEFT)
Label(top_frame, text="Module or package").pack(side=LEFT)
# file textbox
self.txtModule = Entry(top_frame, background="white")
self.txtModule.bind("<Return>", self.run_lint)
self.txtModule.pack(side=LEFT, expand=True, fill=X)
# results box
rightscrollbar = Scrollbar(res_frame)
rightscrollbar.pack(side=RIGHT, fill=Y)
bottomscrollbar = Scrollbar(res_frame, orient=HORIZONTAL)
bottomscrollbar.pack(side=BOTTOM, fill=X)
self.results = Listbox(
res_frame, yscrollcommand=rightscrollbar.set, xscrollcommand=bottomscrollbar.set, bg="white", font="Courier"
)
self.results.pack(expand=True, fill=BOTH, side=BOTTOM)
rightscrollbar.config(command=self.results.yview)
bottomscrollbar.config(command=self.results.xview)
# buttons
Button(top_frame, text="Open", command=self.file_open).pack(side=LEFT)
Button(top_frame, text="Open Package", command=(lambda: self.file_open(package=True))).pack(side=LEFT)
self.btnRun = Button(top_frame, text="Run", command=self.run_lint)
self.btnRun.pack(side=LEFT)
Button(btn_frame, text="Quit", command=self.quit).pack(side=BOTTOM)
# radio buttons
self.information_box = IntVar()
self.convention_box = IntVar()
self.refactor_box = IntVar()
self.warning_box = IntVar()
self.error_box = IntVar()
self.fatal_box = IntVar()
i = Checkbutton(
check_frame,
text="Information",
fg=COLORS["(I)"],
variable=self.information_box,
command=self.refresh_msg_window,
)
c = Checkbutton(
check_frame,
text="Convention",
fg=COLORS["(C)"],
variable=self.convention_box,
command=self.refresh_msg_window,
)
r = Checkbutton(
check_frame, text="Refactor", fg=COLORS["(R)"], variable=self.refactor_box, command=self.refresh_msg_window
)
w = Checkbutton(
check_frame, text="Warning", fg=COLORS["(W)"], variable=self.warning_box, command=self.refresh_msg_window
)
e = Checkbutton(
check_frame, text="Error", fg=COLORS["(E)"], variable=self.error_box, command=self.refresh_msg_window
)
f = Checkbutton(
check_frame, text="Fatal", fg=COLORS["(F)"], variable=self.fatal_box, command=self.refresh_msg_window
)
i.select()
c.select()
r.select()
w.select()
e.select()
f.select()
i.pack(side=LEFT)
c.pack(side=LEFT)
r.pack(side=LEFT)
w.pack(side=LEFT)
e.pack(side=LEFT)
f.pack(side=LEFT)
# check boxes
self.box = StringVar()
# XXX should be generated
report = Radiobutton(
radio_frame, text="Report", variable=self.box, value="Report", command=self.refresh_results_window
)
rawMet = Radiobutton(
radio_frame, text="Raw metrics", variable=self.box, value="Raw metrics", command=self.refresh_results_window
)
dup = Radiobutton(
radio_frame, text="Duplication", variable=self.box, value="Duplication", command=self.refresh_results_window
)
ext = Radiobutton(
radio_frame,
text="External dependencies",
variable=self.box,
value="External dependencies",
command=self.refresh_results_window,
)
stat = Radiobutton(
radio_frame,
text="Statistics by type",
variable=self.box,
value="Statistics by type",
command=self.refresh_results_window,
)
msgCat = Radiobutton(
radio_frame,
text="Messages by category",
variable=self.box,
value="Messages by category",
command=self.refresh_results_window,
)
msg = Radiobutton(
radio_frame, text="Messages", variable=self.box, value="Messages", command=self.refresh_results_window
)
report.select()
report.grid(column=0, row=0, sticky=W)
rawMet.grid(column=1, row=0, sticky=W)
dup.grid(column=2, row=0, sticky=W)
msg.grid(column=3, row=0, sticky=E)
stat.grid(column=0, row=1, sticky=W)
msgCat.grid(column=1, row=1, sticky=W)
ext.grid(column=2, row=1, columnspan=2, sticky=W)
# dictionary for check boxes and associated error term
self.msg_type_dict = {
"I": lambda: self.information_box.get() == 1,
"C": lambda: self.convention_box.get() == 1,
"R": lambda: self.refactor_box.get() == 1,
"E": lambda: self.error_box.get() == 1,
"W": lambda: self.warning_box.get() == 1,
"F": lambda: self.fatal_box.get() == 1,
}
self.txtModule.focus_set()
def select_recent_file(self, event):
"""adds the selected file in the history listbox to the Module box"""
if not self.showhistory.size():
return
selected = self.showhistory.curselection()
item = self.showhistory.get(selected)
# update module
self.txtModule.delete(0, END)
self.txtModule.insert(0, item)
def refresh_msg_window(self):
"""refresh the message window with current output"""
# clear the window
self.lbMessages.delete(0, END)
for msg in self.msgs:
if self.msg_type_dict.get(msg[0])():
msg_str = self.convert_to_string(msg)
self.lbMessages.insert(END, msg_str)
fg_color = COLORS.get(msg_str[:3], "black")
self.lbMessages.itemconfigure(END, fg=fg_color)
def refresh_results_window(self):
"""refresh the results window with current output"""
# clear the window
self.results.delete(0, END)
try:
for res in self.tabs[self.box.get()]:
self.results.insert(END, res)
except:
pass
def convert_to_string(self, msg):
"""make a string representation of a message"""
if msg[2] != "":
return "(" + msg[0] + ") " + msg[1] + "." + msg[2] + " [" + msg[3] + "]: " + msg[4]
else:
return "(" + msg[0] + ") " + msg[1] + " [" + msg[3] + "]: " + msg[4]
def process_incoming(self):
"""process the incoming messages from running pylint"""
while self.msg_queue.qsize():
try:
msg = self.msg_queue.get(0)
if msg == "DONE":
self.report_stream.output_contents()
return False
# adding message to list of msgs
self.msgs.append(msg)
# displaying msg if message type is selected in check box
if self.msg_type_dict.get(msg[0])():
msg_str = self.convert_to_string(msg)
self.lbMessages.insert(END, msg_str)
fg_color = COLORS.get(msg_str[:3], "black")
self.lbMessages.itemconfigure(END, fg=fg_color)
except queue.Empty:
pass
return True
def periodic_call(self):
"""determine when to unlock the run button"""
if self.process_incoming():
self.root.after(100, self.periodic_call)
else:
# enabling button so it can be run again
self.btnRun.config(state=NORMAL)
def mainloop(self):
"""launch the mainloop of the application"""
self.root.mainloop()
def quit(self, _=None):
"""quit the application"""
self.root.quit()
def halt(self):
"""program halt placeholder"""
return
def file_open(self, package=False, _=None):
"""launch a file browser"""
if not package:
filename = askopenfilename(
parent=self.root, filetypes=[("pythonfiles", "*.py"), ("allfiles", "*")], title="Select Module"
)
else:
filename = askdirectory(title="Select A Folder", mustexist=1)
if filename == ():
return
self.txtModule.delete(0, END)
self.txtModule.insert(0, filename)
def update_filenames(self):
"""update the list of recent filenames"""
filename = self.txtModule.get()
if not filename:
filename = os.getcwd()
if filename + "\n" in self.filenames:
index = self.filenames.index(filename + "\n")
self.filenames.pop(index)
# ensure only 10 most recent are stored
if len(self.filenames) == 10:
self.filenames.pop()
self.filenames.insert(0, filename + "\n")
def set_history_window(self):
"""update the history window with info from the history file"""
# clear the window
self.showhistory.delete(0, END)
# keep the last 10 most recent files
try:
view_history = open(HOME + HISTORY, "r")
for hist in view_history.readlines():
if not hist in self.filenames:
self.filenames.append(hist)
self.showhistory.insert(END, hist.split("\n")[0])
view_history.close()
except IOError:
# do nothing since history file will be created later
return
def run_lint(self, _=None):
"""launches pylint"""
self.update_filenames()
self.root.configure(cursor="watch")
self.reporter = GUIReporter(self, output=self.report_stream)
module = self.txtModule.get()
if not module:
module = os.getcwd()
# cleaning up msgs and windows
self.msgs = []
self.lbMessages.delete(0, END)
self.tabs = {}
self.results.delete(0, END)
self.btnRun.config(state=DISABLED)
# setting up a worker thread to run pylint
worker = Thread(target=lint_thread, args=(module, self.reporter, self))
self.periodic_call()
worker.start()
# Overwrite the .pylint-gui-history file with all the new recently added files
# in order from filenames but only save last 10 files
write_history = open(HOME + HISTORY, "w")
write_history.writelines(self.filenames)
write_history.close()
self.set_history_window()
self.root.configure(cursor="")
class AutocompleteEntry(Entry):
def __init__(self, *args, **kwargs):
Entry.__init__(self, width=100, *args, **kwargs)
self.focus_set()
self.pack()
self.var = self["textvariable"]
if self.var == '':
self.var = self["textvariable"] = StringVar()
self.var.trace('w', self.changed)
self.bind("<Right>", self.selection)
self.bind("<Up>", self.up)
self.bind("<Down>", self.down)
self.bind("<Return>", self.enter)
self.lb_up = False
self.lb = None
def enter(self, event):
print(event)
def changed(self, name, index, mode):
if self.var.get() == '':
if self.lb:
self.lb.destroy()
self.lb_up = False
else:
words = self.comparison()
if words:
if not self.lb_up:
self.lb = Listbox(master=root, width=100)
self.lb.bind("<Double-Button-1>", self.selection)
self.lb.bind("<Right>", self.selection)
self.lb.place(x=self.winfo_x(), y=self.winfo_y()+self.winfo_height())
self.lb_up = True
self.lb.delete(0, END)
for w in words:
self.lb.insert(END,w)
else:
if self.lb_up:
self.lb.destroy()
self.lb_up = False
def selection(self, _):
if self.lb_up:
self.var.set(self.lb.get(ACTIVE))
self.lb.destroy()
self.lb_up = False
self.icursor(END)
def up(self, _):
if self.lb_up:
if self.lb.curselection() == ():
index = '0'
else:
index = self.lb.curselection()[0]
if index != '0':
self.lb.selection_clear(first=index)
index = str(int(index)-1)
self.lb.selection_set(first=index)
self.lb.activate(index)
def down(self, _):
if self.lb_up:
if self.lb.curselection() == ():
index = '0'
else:
index = self.lb.curselection()[0]
if index != END:
self.lb.selection_clear(first=index)
index = str(int(index)+1)
self.lb.selection_set(first=index)
self.lb.activate(index)
def comparison(self):
q = self.var.get()
q = str(q.decode('utf8'))
for hit in searcher.search(qp.parse(q), limit=50):
if hit['author']:
yield '%s. "%s"' % (hit['author'], hit['title'])
else:
yield hit['title']
class Add_Recipe_Modal(Modal):
def __init__(self, parent=None, title="Add Recipe"):
self.shorts = []
self.amounts = None
self.ingredients = None
Modal.__init__(self, parent, title, geometry="375x410" if system() == "Windows" else "375x350")
def initialize(self):
amount_label = Label(self, width=8, text="Amount")
amount_label.grid(row=0, column=0)
ingredients_label = Label(self, width=35, text="Item Name")
ingredients_label.grid(row=0, column=1)
self.amounts_list = Listbox(self, width=8, selectmode="single")
self.amounts_list.bind("<Double-Button-1>", self.edit)
self.amounts_list.grid(row=1, column=0, sticky="E")
self.ingredients_list = Listbox(self, width=35, selectmode="single")
self.ingredients_list.bind("<Double-Button-1>", self.edit)
self.ingredients_list.grid(row=1, column=1)
add_button = Button(self, width=7, text="Add", command=self.add)
self.bind("<Control-+>", self.add)
self.bind("<Insert>", self.add)
add_button.grid(row=2, column=1, sticky="E")
remove_button = Button(self, text="Remove", command=self.remove)
self.bind("<Delete>", self.remove)
remove_button.grid(row=2, column=0)
produces_label = Label(self, text="Produces: ")
produces_label.grid(row=3, column=0, sticky="W")
self.produces_box = Entry(self, width=5)
self.produces_box.insert(0, "1")
self.produces_box.grid(row=3, column=1, sticky="W")
machine_label = Label(self, text="Machine: ")
machine_label.grid(row=4, column=0, sticky="W")
self.machine_box = Entry(self)
self.machine_box.grid(row=4, column=1, sticky="EW")
info_label = Label(self, text="Extra Info: ")
info_label.grid(row=5, column=0, sticky="W")
self.info_box = Entry(self)
self.info_box.grid(row=5, column=1, sticky="EW")
cancel_button = Button(self, text="Cancel", width=7, command=self.cancel)
self.bind("<Escape>", self.cancel)
cancel_button.grid(row=6, column=0, pady=10)
ok_button = Button(self, text="OK", width=7, command=self.ok)
self.bind("<Return>", self.ok)
ok_button.grid(row=6, column=1, pady=10, sticky="E")
self.bind("<<ListboxSelect>>", self.sync)
def sync(self, event):
if event.widget is self.amounts_list and len(self.amounts_list.curselection()) != 0:
self.ingredients_list.selection_set(self.amounts_list.curselection()[0])
def add(self, event=None):
short, name, amount = Add_Ingredient_Modal().show()
if short is not None and name is not None and amount is not None:
if name not in self.ingredients_list.get(0, "end"):
self.ingredients_list.insert("end", name)
self.amounts_list.insert("end", amount)
self.shorts.append(short)
def edit(self, event=None):
if len(self.ingredients_list.curselection()) != 0:
index = self.ingredients_list.curselection()[0]
current_short = self.shorts[index]
current_name = self.ingredients_list.get(index)
current_amount = self.amounts_list.get(index)
new_short, new_name, new_amount = Edit_Ingredient_Modal().show(current_short, current_name, current_amount)
if new_short is not None and new_name is not None and new_amount is not None:
self.amounts_list.delete(index)
self.ingredients_list.delete(index)
self.amounts_list.insert(index, new_amount)
self.ingredients_list.insert(index, new_name)
self.shorts[index] = new_short
def remove(self, event=None):
if len(self.ingredients_list.curselection()) != 0:
slct = int(self.ingredients_list.curselection()[0])
self.ingredients_list.delete(slct)
self.amounts_list.delete(slct)
del(self.shorts[slct])
def ok(self, event=None):
if len(self.ingredients_list.get(0)) != 0 and self.produces_box is not None and self.produces_box.get().isdigit():
self.produces = int(self.produces_box.get())
self.amounts = self.amounts_list.get(0, last="end")
self.ingredients = self.ingredients_list.get(0, last="end")
self.machine = self.machine_box.get()
self.info = self.info_box.get()
self.destroy()
def cancel(self, event=None):
self.amounts = None
self.ingredients = None
self.shorts = None
self.produces = None
self.machine = None
self.info = None
self.destroy()
def show(self):
Modal.show(self)
return self.shorts, self.ingredients, self.amounts, self.produces, self.machine, self.info
class DrtGlueDemo(object):
def __init__(self, examples):
# Set up the main window.
self._top = Tk()
self._top.title("DRT Glue Demo")
# Set up key bindings.
self._init_bindings()
# Initialize the fonts.self._error = None
self._init_fonts(self._top)
self._examples = examples
self._readingCache = [None for example in examples]
# The user can hide the grammar.
self._show_grammar = IntVar(self._top)
self._show_grammar.set(1)
# Set the data to None
self._curExample = -1
self._readings = []
self._drs = None
self._drsWidget = None
self._error = None
self._init_glue()
# Create the basic frames.
self._init_menubar(self._top)
self._init_buttons(self._top)
self._init_exampleListbox(self._top)
self._init_readingListbox(self._top)
self._init_canvas(self._top)
# Resize callback
self._canvas.bind("<Configure>", self._configure)
#########################################
## Initialization Helpers
#########################################
def _init_glue(self):
tagger = RegexpTagger(
[
("^(David|Mary|John)$", "NNP"),
("^(walks|sees|eats|chases|believes|gives|sleeps|chases|persuades|tries|seems|leaves)$", "VB"),
("^(go|order|vanish|find|approach)$", "VB"),
("^(a)$", "ex_quant"),
("^(every)$", "univ_quant"),
("^(sandwich|man|dog|pizza|unicorn|cat|senator)$", "NN"),
("^(big|gray|former)$", "JJ"),
("^(him|himself)$", "PRP"),
]
)
depparser = MaltParser(tagger=tagger)
self._glue = DrtGlue(depparser=depparser, remove_duplicates=False)
def _init_fonts(self, root):
# See: <http://www.astro.washington.edu/owen/ROTKFolklore.html>
self._sysfont = Font(font=Button()["font"])
root.option_add("*Font", self._sysfont)
# TWhat's our font size (default=same as sysfont)
self._size = IntVar(root)
self._size.set(self._sysfont.cget("size"))
self._boldfont = Font(family="helvetica", weight="bold", size=self._size.get())
self._font = Font(family="helvetica", size=self._size.get())
if self._size.get() < 0:
big = self._size.get() - 2
else:
big = self._size.get() + 2
self._bigfont = Font(family="helvetica", weight="bold", size=big)
def _init_exampleListbox(self, parent):
self._exampleFrame = listframe = Frame(parent)
self._exampleFrame.pack(fill="both", side="left", padx=2)
self._exampleList_label = Label(self._exampleFrame, font=self._boldfont, text="Examples")
self._exampleList_label.pack()
self._exampleList = Listbox(
self._exampleFrame,
selectmode="single",
relief="groove",
background="white",
foreground="#909090",
font=self._font,
selectforeground="#004040",
selectbackground="#c0f0c0",
)
self._exampleList.pack(side="right", fill="both", expand=1)
for example in self._examples:
self._exampleList.insert("end", (" %s" % example))
self._exampleList.config(height=min(len(self._examples), 25), width=40)
# Add a scrollbar if there are more than 25 examples.
if len(self._examples) > 25:
listscroll = Scrollbar(self._exampleFrame, orient="vertical")
self._exampleList.config(yscrollcommand=listscroll.set)
listscroll.config(command=self._exampleList.yview)
listscroll.pack(side="left", fill="y")
# If they select a example, apply it.
self._exampleList.bind("<<ListboxSelect>>", self._exampleList_select)
def _init_readingListbox(self, parent):
self._readingFrame = listframe = Frame(parent)
self._readingFrame.pack(fill="both", side="left", padx=2)
self._readingList_label = Label(self._readingFrame, font=self._boldfont, text="Readings")
self._readingList_label.pack()
self._readingList = Listbox(
self._readingFrame,
selectmode="single",
relief="groove",
background="white",
foreground="#909090",
font=self._font,
selectforeground="#004040",
selectbackground="#c0f0c0",
)
self._readingList.pack(side="right", fill="both", expand=1)
# Add a scrollbar if there are more than 25 examples.
listscroll = Scrollbar(self._readingFrame, orient="vertical")
self._readingList.config(yscrollcommand=listscroll.set)
listscroll.config(command=self._readingList.yview)
listscroll.pack(side="right", fill="y")
self._populate_readingListbox()
def _populate_readingListbox(self):
# Populate the listbox with integers
self._readingList.delete(0, "end")
for i in range(len(self._readings)):
self._readingList.insert("end", (" %s" % (i + 1)))
self._readingList.config(height=min(len(self._readings), 25), width=5)
# If they select a example, apply it.
self._readingList.bind("<<ListboxSelect>>", self._readingList_select)
def _init_bindings(self):
# Key bindings are a good thing.
self._top.bind("<Control-q>", self.destroy)
self._top.bind("<Control-x>", self.destroy)
self._top.bind("<Escape>", self.destroy)
self._top.bind("n", self.next)
self._top.bind("<space>", self.next)
self._top.bind("p", self.prev)
self._top.bind("<BackSpace>", self.prev)
def _init_buttons(self, parent):
# Set up the frames.
self._buttonframe = buttonframe = Frame(parent)
buttonframe.pack(fill="none", side="bottom", padx=3, pady=2)
Button(buttonframe, text="Prev", background="#90c0d0", foreground="black", command=self.prev).pack(side="left")
Button(buttonframe, text="Next", background="#90c0d0", foreground="black", command=self.next).pack(side="left")
def _configure(self, event):
self._autostep = 0
(x1, y1, x2, y2) = self._cframe.scrollregion()
y2 = event.height - 6
self._canvas["scrollregion"] = "%d %d %d %d" % (x1, y1, x2, y2)
self._redraw()
def _init_canvas(self, parent):
self._cframe = CanvasFrame(
parent,
background="white",
# width=525, height=250,
closeenough=10,
border=2,
relief="sunken",
)
self._cframe.pack(expand=1, fill="both", side="top", pady=2)
canvas = self._canvas = self._cframe.canvas()
# Initially, there's no tree or text
self._tree = None
self._textwidgets = []
self._textline = None
def _init_menubar(self, parent):
menubar = Menu(parent)
filemenu = Menu(menubar, tearoff=0)
filemenu.add_command(label="Exit", underline=1, command=self.destroy, accelerator="q")
menubar.add_cascade(label="File", underline=0, menu=filemenu)
actionmenu = Menu(menubar, tearoff=0)
actionmenu.add_command(label="Next", underline=0, command=self.next, accelerator="n, Space")
actionmenu.add_command(label="Previous", underline=0, command=self.prev, accelerator="p, Backspace")
menubar.add_cascade(label="Action", underline=0, menu=actionmenu)
optionmenu = Menu(menubar, tearoff=0)
optionmenu.add_checkbutton(
label="Remove Duplicates",
underline=0,
variable=self._glue.remove_duplicates,
command=self._toggle_remove_duplicates,
accelerator="r",
)
menubar.add_cascade(label="Options", underline=0, menu=optionmenu)
viewmenu = Menu(menubar, tearoff=0)
viewmenu.add_radiobutton(label="Tiny", variable=self._size, underline=0, value=10, command=self.resize)
viewmenu.add_radiobutton(label="Small", variable=self._size, underline=0, value=12, command=self.resize)
viewmenu.add_radiobutton(label="Medium", variable=self._size, underline=0, value=14, command=self.resize)
viewmenu.add_radiobutton(label="Large", variable=self._size, underline=0, value=18, command=self.resize)
viewmenu.add_radiobutton(label="Huge", variable=self._size, underline=0, value=24, command=self.resize)
menubar.add_cascade(label="View", underline=0, menu=viewmenu)
helpmenu = Menu(menubar, tearoff=0)
helpmenu.add_command(label="About", underline=0, command=self.about)
menubar.add_cascade(label="Help", underline=0, menu=helpmenu)
parent.config(menu=menubar)
#########################################
## Main draw procedure
#########################################
def _redraw(self):
canvas = self._canvas
# Delete the old DRS, widgets, etc.
if self._drsWidget is not None:
self._drsWidget.clear()
if self._drs:
self._drsWidget = DrsWidget(self._canvas, self._drs)
self._drsWidget.draw()
if self._error:
self._drsWidget = DrsWidget(self._canvas, self._error)
self._drsWidget.draw()
#########################################
## Button Callbacks
#########################################
def destroy(self, *e):
self._autostep = 0
if self._top is None:
return
self._top.destroy()
self._top = None
def prev(self, *e):
selection = self._readingList.curselection()
readingListSize = self._readingList.size()
# there are readings
if readingListSize > 0:
# if one reading is currently selected
if len(selection) == 1:
index = int(selection[0])
# if it's on (or before) the first item
if index <= 0:
self._select_previous_example()
else:
self._readingList_store_selection(index - 1)
else:
# select its first reading
self._readingList_store_selection(readingListSize - 1)
else:
self._select_previous_example()
def _select_previous_example(self):
# if the current example is not the first example
if self._curExample > 0:
self._exampleList_store_selection(self._curExample - 1)
else:
# go to the last example
self._exampleList_store_selection(len(self._examples) - 1)
def next(self, *e):
selection = self._readingList.curselection()
readingListSize = self._readingList.size()
# if there are readings
if readingListSize > 0:
# if one reading is currently selected
if len(selection) == 1:
index = int(selection[0])
# if it's on (or past) the last item
if index >= (readingListSize - 1):
self._select_next_example()
else:
self._readingList_store_selection(index + 1)
else:
# select its first reading
self._readingList_store_selection(0)
else:
self._select_next_example()
def _select_next_example(self):
# if the current example is not the last example
if self._curExample < len(self._examples) - 1:
self._exampleList_store_selection(self._curExample + 1)
else:
# go to the first example
self._exampleList_store_selection(0)
def about(self, *e):
ABOUT = "NLTK Discourse Representation Theory (DRT) Glue Semantics Demo\n" + "Written by Daniel H. Garrette"
TITLE = "About: NLTK DRT Glue Demo"
try:
from tkMessageBox import Message
Message(message=ABOUT, title=TITLE).show()
except:
ShowText(self._top, TITLE, ABOUT)
def postscript(self, *e):
self._autostep = 0
self._cframe.print_to_file()
def mainloop(self, *args, **kwargs):
"""
Enter the Tkinter mainloop. This function must be called if
this demo is created from a non-interactive program (e.g.
from a secript); otherwise, the demo will close as soon as
the script completes.
"""
if in_idle():
return
self._top.mainloop(*args, **kwargs)
def resize(self, size=None):
if size is not None:
self._size.set(size)
size = self._size.get()
self._font.configure(size=-(abs(size)))
self._boldfont.configure(size=-(abs(size)))
self._sysfont.configure(size=-(abs(size)))
self._bigfont.configure(size=-(abs(size + 2)))
self._redraw()
def _toggle_remove_duplicates(self):
self._glue.remove_duplicates = not self._glue.remove_duplicates
self._exampleList.selection_clear(0, "end")
self._readings = []
self._populate_readingListbox()
self._readingCache = [None for ex in self._examples]
self._curExample = -1
self._error = None
self._drs = None
self._redraw()
def _exampleList_select(self, event):
selection = self._exampleList.curselection()
if len(selection) != 1:
return
self._exampleList_store_selection(int(selection[0]))
def _exampleList_store_selection(self, index):
self._curExample = index
example = self._examples[index]
self._exampleList.selection_clear(0, "end")
if example:
cache = self._readingCache[index]
if cache:
if isinstance(cache, list):
self._readings = cache
self._error = None
else:
self._readings = []
self._error = cache
else:
try:
self._readings = self._glue.parse_to_meaning(example)
self._error = None
self._readingCache[index] = self._readings
except Exception as e:
self._readings = []
self._error = DrtVariableExpression(Variable("Error: " + str(e)))
self._readingCache[index] = self._error
# add a star to the end of the example
self._exampleList.delete(index)
self._exampleList.insert(index, (" %s *" % example))
self._exampleList.config(height=min(len(self._examples), 25), width=40)
self._populate_readingListbox()
self._exampleList.selection_set(index)
self._drs = None
self._redraw()
def _readingList_select(self, event):
selection = self._readingList.curselection()
if len(selection) != 1:
return
self._readingList_store_selection(int(selection[0]))
def _readingList_store_selection(self, index):
reading = self._readings[index]
self._readingList.selection_clear(0, "end")
if reading:
self._readingList.selection_set(index)
self._drs = reading.simplify().normalize().resolve_anaphora()
self._redraw()
class Controller:
SNAP_RADIUS = 5
def __init__(self, tk: Tk):
tk.title("Layered Polygons")
menubar = Menu(tk)
menu_file = Menu(menubar, tearoff=0)
menu_file.add_command(label="New...", command=self._new_scene)
menu_file.add_command(label="Open...", command=self._open_scene)
menu_file.add_separator()
menu_file.add_command(label="Save", command=self._save_scene)
menu_file.add_command(label="Save As...", command=self._save_scene_as)
menu_file.add_separator()
menu_export = Menu(menu_file, tearoff=0)
menu_export.add_command(label="Wavefront (.obj)...",
command=self._export_obj)
menu_file.add_cascade(label="Export As", menu=menu_export)
menu_file.add_separator()
menu_file.add_command(label="Quit", command=self._quit_app)
menubar.add_cascade(label="File", menu=menu_file)
tk.config(menu=menubar)
paned = PanedWindow(tk, relief=RAISED)
paned.pack(fill=BOTH, expand=1)
frame = Frame(paned)
paned.add(frame)
self._canvas = LayPolyCanvas(frame)
bar_x = Scrollbar(frame, orient=HORIZONTAL)
bar_x.pack(side=BOTTOM, fill=X)
bar_x.config(command=self._canvas.xview)
bar_y = Scrollbar(frame, orient=VERTICAL)
bar_y.pack(side=RIGHT, fill=Y)
bar_y.config(command=self._canvas.yview)
self._canvas.config(xscrollcommand=bar_x.set, yscrollcommand=bar_y.set)
self._canvas.pack(side=LEFT, expand=True, fill=BOTH)
# Thanks to the two guys on Stack Overflow for that!
# ( http://stackoverflow.com/a/7734187 )
self._layer_list = Listbox(paned, selectmode=SINGLE)
paned.add(self._layer_list)
self._scene = None
self._current_layer = None
self._is_drawing_polygon = False
self._tk = tk
self._canvas.bind("<Button-1>", self._canvas_left_click)
self._canvas.bind("<Button-3>", self._canvas_right_click)
self._canvas.bind("<Motion>", self._canvas_mouse_moved)
self._layer_list.bind("<<ListboxSelect>>", self._layer_change)
self._current_path = None
def _canvas_left_click(self, event):
if not self._scene or not self._current_layer:
return
x, y = self._canvas.window_to_canvas_coords(event.x, event.y)
if self._is_drawing_polygon:
polygon = self._current_layer.get_polygon_at(-1)
# Move vtx away from mouse to not interfere with search for closest
polygon.get_vertex_at(-1).\
set_coords(x-self.SNAP_RADIUS, y-self.SNAP_RADIUS)
closest_vertex = self._current_layer.get_closest_vertex(
x, y, self.SNAP_RADIUS)
if closest_vertex:
polygon.remove_vertex_at(-1)
if closest_vertex is polygon.get_vertex_at(0):
self._is_drawing_polygon = False
else:
polygon.add_vertex(closest_vertex)
polygon.add_vertex(Vertex(x, y))
else:
polygon.get_vertex_at(-1)\
.set_coords(x, y)
polygon.add_vertex(Vertex(x, y))
self._canvas.notify_polygon_change(self._current_layer
.get_polygon_count()-1)
else:
# Create start vertex or use already existing one
start_vertex = self._current_layer\
.get_closest_vertex(x, y, self.SNAP_RADIUS)
if not start_vertex:
start_vertex = Vertex(x, y)
# Vertex for mouse cursor
next_vertex = Vertex(x, y)
self._current_layer.add_polygon(
Polygon([start_vertex, next_vertex]))
self._is_drawing_polygon = True
self._canvas.notify_layer_change()
def _canvas_right_click(self, event):
if not self._current_layer:
return
if self._is_drawing_polygon:
self._current_layer.remove_polygon_at(-1)
self._is_drawing_polygon = False
else:
x, y = self._canvas.window_to_canvas_coords(event.x, event.y)
for i in range(0, self._current_layer.get_polygon_count()):
if self._current_layer.get_polygon_at(i).contains(x, y):
self._current_layer.remove_polygon_at(i)
break
self._canvas.notify_layer_change()
def _canvas_mouse_moved(self, event):
if self._is_drawing_polygon:
x, y = self._canvas.window_to_canvas_coords(event.x, event.y)
self._current_layer.get_polygon_at(-1).get_vertex_at(-1)\
.set_coords(x, y)
self._canvas.notify_polygon_change(self._current_layer
.get_polygon_count()-1)
def _layer_change(self, event):
selection = self._layer_list.curselection()
if len(selection) > 0 and self._scene:
layer = self._scene.get_layer_at(selection[0])
if layer:
self._is_drawing_polygon = False
self._current_layer = layer
self._canvas.notify_new_layer(self._current_layer)
def _set_scene(self, scene: Scene) -> bool:
if scene.get_layer_count() <= 0:
messagebox.showerror("Error!", "Scene has no layers!")
return False
self._scene = scene
# Prepare canvas
# TODO Extra 10px padding for canvas
width, height = self._scene.get_size()
self._canvas.config(scrollregion=(0, 0, width, height))
# Empty listbox, fill it, select first entry
self._layer_list.delete(0, self._layer_list.size()-1)
for i in range(0, self._scene.get_layer_count()):
self._layer_list.insert(i, self._scene.get_layer_at(i).get_name())
self._layer_list.selection_set(0)
self._layer_list.event_generate("<<ListboxSelect>>")
return True
def _set_current_path(self, path):
self._current_path = path
if path:
self._tk.title(path + " - Layered Polygons")
else:
self._tk.title("Untitled - Layered Polygons")
def _new_scene(self):
path = filedialog.askopenfilename(defaultextension=".ora",
filetypes=[("OpenRaster files",
".ora")])
if not path:
return
scene = ora.read(path)
if not scene:
messagebox.showerror("Error!", "File could not be opened!")
return
if self._set_scene(scene):
self._set_current_path(None)
def _open_scene(self):
path = filedialog.askopenfilename(defaultextension=".lp",
filetypes=[("Layered polygons"
" files", ".lp")])
if not path:
return
scene = lp.read(path)
if not scene:
messagebox.showerror("Error!", "File could not be opened!")
return
if self._set_scene(scene):
self._set_current_path(path)
def _save_scene_help(self, path):
if lp.save(path, self._scene):
self._set_current_path(path)
else:
messagebox.showerror("Error!", "File could not be saved!")
def _save_scene(self):
if not self._current_path:
self._save_scene_as()
return
self._save_scene_help(self._current_path)
def _save_scene_as(self):
if not self._scene:
return
path = filedialog.asksaveasfilename(defaultextension=".lp",
filetypes=[("Layered polygons"
" files", ".lp")])
if path:
self._save_scene_help(path)
def _export_obj(self):
if not self._scene:
return
path_obj = filedialog.asksaveasfilename(defaultextension=".obj",
filetypes=[("Wavefront object"
" files",
".obj")])
if not path_obj:
return
path_obj, path_mtl, path_data = obj.get_paths(path_obj)
obj.save(path_obj, path_mtl, path_data, self._scene)
def _quit_app(self):
self._tk.quit()
exit()
class ChatGUI(Frame):
def __init__(self, parent, conn, title):
#Frame.__init__(self, parent, background="grey")
self.parent = parent
self.conn = conn
self.title = title
self.centerWindow()
self.initUI()
def initUI(self):
self.lineCounter = 0
# create a custom font
self.customFontHeader = font.Font(family="Calibri", slant = "italic") #family="Helvetica", weight="bold", slant="italic")
self.customFontMessage = font.Font(family="Calibri")
self.parent.title(self.title)
frame = Frame(self.parent)
frame.pack(fill=BOTH, expand=1, side=LEFT)
self.box = ScrolledText(frame, wrap=WORD, relief = GROOVE, width=30, height=18, font=self.customFontMessage)
self.box.insert(END, 'Welcome to Python Chat!')
self.box.config(state=DISABLED)
self.box.pack(expand="yes", fill=BOTH, side=TOP)
self.textarea = Text(frame, width=30, height=5)
#self.textarea.insert(END, "")
self.textarea.bind("<KeyRelease-Return>", self.gettext) #Se metto on press, rimane una newline in piu
self.textarea.pack(expand="yes", fill=BOTH, side=TOP)
okButton = Button(frame, text="Panic Button", activebackground="red", command=self.sendFile)
okButton.pack(expand="no", fill=BOTH, side=TOP)
self.usersFrame = Frame(self.parent)
self.usersFrame.pack(fill=BOTH, expand=1, side=RIGHT)
self.userListbox = Listbox(self.usersFrame, width=3)
self.userListbox.bind("<Double-Button-1>", self.privateChat)
self.userListbox.pack(fill=BOTH, expand=1)
self.updateUsersFrame()
def centerWindow(self):
w = 600
h = 475
sw = self.parent.winfo_screenwidth()
sh = self.parent.winfo_screenheight()
x = (sw - w)/2
y = (sh - h)/2
self.parent.geometry('%dx%d+%d+%d' % (w, h, x, y))
def gettext(self, e): #e sta per event, questo e' un listener
text = self.textarea.get("1.0", END + " - 2c") # 1.0: row:columa - END-2c rimuove l'ultimo carattere, una newline \r\n
self.textarea.delete("0.0", END) #NON VA: il problema e' che viene inviato il carattere di newline ma non incluso nell'area a causa della bind mi sa. Devo escluderlo io
self.sendToServer(text)
def printConversation(self, message):
self.box.config(state=NORMAL)
self.box.insert(END,"\n" + message)
self.lineCounter = self.lineCounter + 2
#m = re.match("\[.*\] From .*\n", self.box.get("0.0", END))
m = re.search("\[.*\].*:", message, re.MULTILINE)
if m is not None:
#print("MATCH")
#print(m.group(0))
#print(str(m.start(0)) + "_" + str(m.end(0)))
#print("COUNTER")
#print(str(self.lineCounter) + "." + str(m.start(0)+1) + "___" + str(self.lineCounter) + "." + str(m.end(0)))
self.box.tag_add("header", str(self.lineCounter) + "." + str(m.start(0)), str(self.lineCounter) + "." + str(m.end(0)))
self.box.tag_config("header", font=self.customFontHeader, foreground = "blue")
self.box.config(state=DISABLED)
#self.box.yview_scroll(10000,"units")
self.box.see(END)
def sendToServer(self, messageToSend):
self.conn.send(messageToSend.encode(encoding='utf_8', errors='strict'))
def sendFile(self):
#aprire una dialog di quelle predefinite (Sfoglia...)
#capire come fare la send di un file sul socket...
pass
def updateUsersFrame(self):
global connectedClients
self.userListbox.delete(0, END)
self.userListbox.insert(END, "Connected users")
for item in connectedClients:
self.userListbox.insert(END, item)
#self.userListbox.update()
#self.usersFrame.update()
def privateChat(self, e):
global conversationBoxList
userselected = self.userListbox.selection_get()
if not userselected == "Connected users":
print("EVVAI CHAT PRIVATA con "+userselected)
newWindow = Toplevel(self.parent)
newWindow.title("Python Chat with "+userselected)
newWindow.minsize(400, 475)
newWindow.focus()
def disconnectPM():
del conversationBoxList[userselected]
newWindow.destroy()
newWindow.protocol('WM_DELETE_WINDOW', disconnectPM)
#label = Label(newWindow, text="PROVA PROVA")
#label.pack(side="top", fill="both", padx=10, pady=10)
frame = Frame(newWindow)
frame.pack(fill=BOTH, expand=1, side=LEFT)
box = ScrolledText(frame, wrap=WORD, relief = GROOVE, width=30, height=18, font=self.customFontMessage)
box.config(state=DISABLED)
box.pack(expand="yes", fill=BOTH, side=TOP)
textarea = Text(frame, width=30, height=5)
textarea.bind("<KeyRelease-Return>", lambda event : self.getprivatetext(event, textarea, userselected))
textarea.pack(expand="yes", fill=BOTH, side=TOP)
#aggiungo alla mappa globale il box di conversazione
conversationBoxList[userselected] = box
def receivePrivateChat(self, connectingUser):
global conversationBoxList
print("CHAT PRIVATA in arrivo con "+connectingUser)
newWindow = Toplevel(self.parent)
newWindow.title("Python Chat requested by "+connectingUser)
newWindow.minsize(400, 475)
newWindow.focus()
def disconnectPM():
del conversationBoxList[connectingUser]
newWindow.destroy()
newWindow.protocol('WM_DELETE_WINDOW', disconnectPM)
#label = Label(newWindow, text="PROVA PROVA")
#label.pack(side="top", fill="both", padx=10, pady=10)
frame = Frame(newWindow)
frame.pack(fill=BOTH, expand=1, side=LEFT)
box = ScrolledText(frame, wrap=WORD, relief = GROOVE, width=30, height=18, font=self.customFontMessage)
box.config(state=DISABLED)
box.pack(expand="yes", fill=BOTH, side=TOP)
textarea = Text(frame, width=30, height=5)
textarea.bind("<KeyRelease-Return>", lambda event : self.getprivatetext(event, textarea, connectingUser))
textarea.pack(expand="yes", fill=BOTH, side=TOP)
#aggiungo alla mappa globale il box di conversazione
conversationBoxList[connectingUser] = box
def getprivatetext(self, e, textarea, nickname):
text = textarea.get("1.0", END + " - 2c")
textarea.delete("0.0", END)
self.sendToServer("##" + nickname + "##" + text)
def setprivatetext(self, nickname, message, isLocalMessage):
#isLocalMessage identifica un messaggio che mando io e che devo ri-ricevere nella mia finestra
if isLocalMessage:
for i in conversationBoxList.keys():
box = conversationBoxList[i]
box.config(state=NORMAL)
box.insert(END,"\n" + message)
box.config(state=DISABLED)
box.see(END)
else:
conversationbox = conversationBoxList[nickname]
conversationbox.config(state=NORMAL)
conversationbox.insert(END,"\n" + message)
#self.lineCounter = self.lineCounter + 2
#m = re.match("\[.*\] From .*\n", self.box.get("0.0", END))
#m = re.search("\[.*\].*:", message, re.MULTILINE)
'''
if m is not None:
#print("MATCH")
#print(m.group(0))
#print(str(m.start(0)) + "_" + str(m.end(0)))
#print("COUNTER")
#print(str(self.lineCounter) + "." + str(m.start(0)+1) + "___" + str(self.lineCounter) + "." + str(m.end(0)))
self.box.tag_add("header", str(self.lineCounter) + "." + str(m.start(0)), str(self.lineCounter) + "." + str(m.end(0)))
self.box.tag_config("header", font=self.customFontHeader, foreground = "blue")
'''
conversationbox.config(state=DISABLED)
#self.box.yview_scroll(10000,"units")
conversationbox.see(END)
class ShiftReduceApp(object):
"""
A graphical tool for exploring the shift-reduce parser. The tool
displays the parser's stack and the remaining text, and allows the
user to control the parser's operation. In particular, the user
can shift tokens onto the stack, and can perform reductions on the
top elements of the stack. A "step" button simply steps through
the parsing process, performing the operations that
``nltk.parse.ShiftReduceParser`` would use.
"""
def __init__(self, grammar, sent, trace=0):
self._sent = sent
self._parser = SteppingShiftReduceParser(grammar, trace)
# Set up the main window.
self._top = Tk()
self._top.title('Shift Reduce Parser Application')
# Animations. animating_lock is a lock to prevent the demo
# from performing new operations while it's animating.
self._animating_lock = 0
self._animate = IntVar(self._top)
self._animate.set(10) # = medium
# The user can hide the grammar.
self._show_grammar = IntVar(self._top)
self._show_grammar.set(1)
# Initialize fonts.
self._init_fonts(self._top)
# Set up key bindings.
self._init_bindings()
# Create the basic frames.
self._init_menubar(self._top)
self._init_buttons(self._top)
self._init_feedback(self._top)
self._init_grammar(self._top)
self._init_canvas(self._top)
# A popup menu for reducing.
self._reduce_menu = Menu(self._canvas, tearoff=0)
# Reset the demo, and set the feedback frame to empty.
self.reset()
self._lastoper1['text'] = ''
#########################################
## Initialization Helpers
#########################################
def _init_fonts(self, root):
# See: <http://www.astro.washington.edu/owen/ROTKFolklore.html>
self._sysfont = tkinter.font.Font(font=Button()["font"])
root.option_add("*Font", self._sysfont)
# TWhat's our font size (default=same as sysfont)
self._size = IntVar(root)
self._size.set(self._sysfont.cget('size'))
self._boldfont = tkinter.font.Font(family='helvetica', weight='bold',
size=self._size.get())
self._font = tkinter.font.Font(family='helvetica',
size=self._size.get())
def _init_grammar(self, parent):
# Grammar view.
self._prodframe = listframe = Frame(parent)
self._prodframe.pack(fill='both', side='left', padx=2)
self._prodlist_label = Label(self._prodframe,
font=self._boldfont,
text='Available Reductions')
self._prodlist_label.pack()
self._prodlist = Listbox(self._prodframe, selectmode='single',
relief='groove', background='white',
foreground='#909090',
font=self._font,
selectforeground='#004040',
selectbackground='#c0f0c0')
self._prodlist.pack(side='right', fill='both', expand=1)
self._productions = list(self._parser.grammar().productions())
for production in self._productions:
self._prodlist.insert('end', (' %s' % production))
self._prodlist.config(height=min(len(self._productions), 25))
# Add a scrollbar if there are more than 25 productions.
if 1:#len(self._productions) > 25:
listscroll = Scrollbar(self._prodframe,
orient='vertical')
self._prodlist.config(yscrollcommand = listscroll.set)
listscroll.config(command=self._prodlist.yview)
listscroll.pack(side='left', fill='y')
# If they select a production, apply it.
self._prodlist.bind('<<ListboxSelect>>', self._prodlist_select)
# When they hover over a production, highlight it.
self._hover = -1
self._prodlist.bind('<Motion>', self._highlight_hover)
self._prodlist.bind('<Leave>', self._clear_hover)
def _init_bindings(self):
# Quit
self._top.bind('<Control-q>', self.destroy)
self._top.bind('<Control-x>', self.destroy)
self._top.bind('<Alt-q>', self.destroy)
self._top.bind('<Alt-x>', self.destroy)
# Ops (step, shift, reduce, undo)
self._top.bind('<space>', self.step)
self._top.bind('<s>', self.shift)
self._top.bind('<Alt-s>', self.shift)
self._top.bind('<Control-s>', self.shift)
self._top.bind('<r>', self.reduce)
self._top.bind('<Alt-r>', self.reduce)
self._top.bind('<Control-r>', self.reduce)
self._top.bind('<Delete>', self.reset)
self._top.bind('<u>', self.undo)
self._top.bind('<Alt-u>', self.undo)
self._top.bind('<Control-u>', self.undo)
self._top.bind('<Control-z>', self.undo)
self._top.bind('<BackSpace>', self.undo)
# Misc
self._top.bind('<Control-p>', self.postscript)
self._top.bind('<Control-h>', self.help)
self._top.bind('<F1>', self.help)
self._top.bind('<Control-g>', self.edit_grammar)
self._top.bind('<Control-t>', self.edit_sentence)
# Animation speed control
self._top.bind('-', lambda e,a=self._animate:a.set(20))
self._top.bind('=', lambda e,a=self._animate:a.set(10))
self._top.bind('+', lambda e,a=self._animate:a.set(4))
def _init_buttons(self, parent):
# Set up the frames.
self._buttonframe = buttonframe = Frame(parent)
buttonframe.pack(fill='none', side='bottom')
Button(buttonframe, text='Step',
background='#90c0d0', foreground='black',
command=self.step,).pack(side='left')
Button(buttonframe, text='Shift', underline=0,
background='#90f090', foreground='black',
command=self.shift).pack(side='left')
Button(buttonframe, text='Reduce', underline=0,
background='#90f090', foreground='black',
command=self.reduce).pack(side='left')
Button(buttonframe, text='Undo', underline=0,
background='#f0a0a0', foreground='black',
command=self.undo).pack(side='left')
def _init_menubar(self, parent):
menubar = Menu(parent)
filemenu = Menu(menubar, tearoff=0)
filemenu.add_command(label='Reset Parser', underline=0,
command=self.reset, accelerator='Del')
filemenu.add_command(label='Print to Postscript', underline=0,
command=self.postscript, accelerator='Ctrl-p')
filemenu.add_command(label='Exit', underline=1,
command=self.destroy, accelerator='Ctrl-x')
menubar.add_cascade(label='File', underline=0, menu=filemenu)
editmenu = Menu(menubar, tearoff=0)
editmenu.add_command(label='Edit Grammar', underline=5,
command=self.edit_grammar,
accelerator='Ctrl-g')
editmenu.add_command(label='Edit Text', underline=5,
command=self.edit_sentence,
accelerator='Ctrl-t')
menubar.add_cascade(label='Edit', underline=0, menu=editmenu)
rulemenu = Menu(menubar, tearoff=0)
rulemenu.add_command(label='Step', underline=1,
command=self.step, accelerator='Space')
rulemenu.add_separator()
rulemenu.add_command(label='Shift', underline=0,
command=self.shift, accelerator='Ctrl-s')
rulemenu.add_command(label='Reduce', underline=0,
command=self.reduce, accelerator='Ctrl-r')
rulemenu.add_separator()
rulemenu.add_command(label='Undo', underline=0,
command=self.undo, accelerator='Ctrl-u')
menubar.add_cascade(label='Apply', underline=0, menu=rulemenu)
viewmenu = Menu(menubar, tearoff=0)
viewmenu.add_checkbutton(label="Show Grammar", underline=0,
variable=self._show_grammar,
command=self._toggle_grammar)
viewmenu.add_separator()
viewmenu.add_radiobutton(label='Tiny', variable=self._size,
underline=0, value=10, command=self.resize)
viewmenu.add_radiobutton(label='Small', variable=self._size,
underline=0, value=12, command=self.resize)
viewmenu.add_radiobutton(label='Medium', variable=self._size,
underline=0, value=14, command=self.resize)
viewmenu.add_radiobutton(label='Large', variable=self._size,
underline=0, value=18, command=self.resize)
viewmenu.add_radiobutton(label='Huge', variable=self._size,
underline=0, value=24, command=self.resize)
menubar.add_cascade(label='View', underline=0, menu=viewmenu)
animatemenu = Menu(menubar, tearoff=0)
animatemenu.add_radiobutton(label="No Animation", underline=0,
variable=self._animate, value=0)
animatemenu.add_radiobutton(label="Slow Animation", underline=0,
variable=self._animate, value=20,
accelerator='-')
animatemenu.add_radiobutton(label="Normal Animation", underline=0,
variable=self._animate, value=10,
accelerator='=')
animatemenu.add_radiobutton(label="Fast Animation", underline=0,
variable=self._animate, value=4,
accelerator='+')
menubar.add_cascade(label="Animate", underline=1, menu=animatemenu)
helpmenu = Menu(menubar, tearoff=0)
helpmenu.add_command(label='About', underline=0,
command=self.about)
helpmenu.add_command(label='Instructions', underline=0,
command=self.help, accelerator='F1')
menubar.add_cascade(label='Help', underline=0, menu=helpmenu)
parent.config(menu=menubar)
def _init_feedback(self, parent):
self._feedbackframe = feedbackframe = Frame(parent)
feedbackframe.pack(fill='x', side='bottom', padx=3, pady=3)
self._lastoper_label = Label(feedbackframe, text='Last Operation:',
font=self._font)
self._lastoper_label.pack(side='left')
lastoperframe = Frame(feedbackframe, relief='sunken', border=1)
lastoperframe.pack(fill='x', side='right', expand=1, padx=5)
self._lastoper1 = Label(lastoperframe, foreground='#007070',
background='#f0f0f0', font=self._font)
self._lastoper2 = Label(lastoperframe, anchor='w', width=30,
foreground='#004040', background='#f0f0f0',
font=self._font)
self._lastoper1.pack(side='left')
self._lastoper2.pack(side='left', fill='x', expand=1)
def _init_canvas(self, parent):
self._cframe = CanvasFrame(parent, background='white',
width=525, closeenough=10,
border=2, relief='sunken')
self._cframe.pack(expand=1, fill='both', side='top', pady=2)
canvas = self._canvas = self._cframe.canvas()
self._stackwidgets = []
self._rtextwidgets = []
self._titlebar = canvas.create_rectangle(0,0,0,0, fill='#c0f0f0',
outline='black')
self._exprline = canvas.create_line(0,0,0,0, dash='.')
self._stacktop = canvas.create_line(0,0,0,0, fill='#408080')
size = self._size.get()+4
self._stacklabel = TextWidget(canvas, 'Stack', color='#004040',
font=self._boldfont)
self._rtextlabel = TextWidget(canvas, 'Remaining Text',
color='#004040', font=self._boldfont)
self._cframe.add_widget(self._stacklabel)
self._cframe.add_widget(self._rtextlabel)
#########################################
## Main draw procedure
#########################################
def _redraw(self):
scrollregion = self._canvas['scrollregion'].split()
(cx1, cy1, cx2, cy2) = [int(c) for c in scrollregion]
# Delete the old stack & rtext widgets.
for stackwidget in self._stackwidgets:
self._cframe.destroy_widget(stackwidget)
self._stackwidgets = []
for rtextwidget in self._rtextwidgets:
self._cframe.destroy_widget(rtextwidget)
self._rtextwidgets = []
# Position the titlebar & exprline
(x1, y1, x2, y2) = self._stacklabel.bbox()
y = y2-y1+10
self._canvas.coords(self._titlebar, -5000, 0, 5000, y-4)
self._canvas.coords(self._exprline, 0, y*2-10, 5000, y*2-10)
# Position the titlebar labels..
(x1, y1, x2, y2) = self._stacklabel.bbox()
self._stacklabel.move(5-x1, 3-y1)
(x1, y1, x2, y2) = self._rtextlabel.bbox()
self._rtextlabel.move(cx2-x2-5, 3-y1)
# Draw the stack.
stackx = 5
for tok in self._parser.stack():
if isinstance(tok, Tree):
attribs = {'tree_color': '#4080a0', 'tree_width': 2,
'node_font': self._boldfont,
'node_color': '#006060',
'leaf_color': '#006060', 'leaf_font':self._font}
widget = tree_to_treesegment(self._canvas, tok,
**attribs)
widget.label()['color'] = '#000000'
else:
widget = TextWidget(self._canvas, tok,
color='#000000', font=self._font)
widget.bind_click(self._popup_reduce)
self._stackwidgets.append(widget)
self._cframe.add_widget(widget, stackx, y)
stackx = widget.bbox()[2] + 10
# Draw the remaining text.
rtextwidth = 0
for tok in self._parser.remaining_text():
widget = TextWidget(self._canvas, tok,
color='#000000', font=self._font)
self._rtextwidgets.append(widget)
self._cframe.add_widget(widget, rtextwidth, y)
rtextwidth = widget.bbox()[2] + 4
# Allow enough room to shift the next token (for animations)
if len(self._rtextwidgets) > 0:
stackx += self._rtextwidgets[0].width()
# Move the remaining text to the correct location (keep it
# right-justified, when possible); and move the remaining text
# label, if necessary.
stackx = max(stackx, self._stacklabel.width()+25)
rlabelwidth = self._rtextlabel.width()+10
if stackx >= cx2-max(rtextwidth, rlabelwidth):
cx2 = stackx + max(rtextwidth, rlabelwidth)
for rtextwidget in self._rtextwidgets:
rtextwidget.move(4+cx2-rtextwidth, 0)
self._rtextlabel.move(cx2-self._rtextlabel.bbox()[2]-5, 0)
midx = (stackx + cx2-max(rtextwidth, rlabelwidth))/2
self._canvas.coords(self._stacktop, midx, 0, midx, 5000)
(x1, y1, x2, y2) = self._stacklabel.bbox()
# Set up binding to allow them to shift a token by dragging it.
if len(self._rtextwidgets) > 0:
def drag_shift(widget, midx=midx, self=self):
if widget.bbox()[0] < midx: self.shift()
else: self._redraw()
self._rtextwidgets[0].bind_drag(drag_shift)
self._rtextwidgets[0].bind_click(self.shift)
# Draw the stack top.
self._highlight_productions()
def _draw_stack_top(self, widget):
# hack..
midx = widget.bbox()[2]+50
self._canvas.coords(self._stacktop, midx, 0, midx, 5000)
def _highlight_productions(self):
# Highlight the productions that can be reduced.
self._prodlist.selection_clear(0, 'end')
for prod in self._parser.reducible_productions():
index = self._productions.index(prod)
self._prodlist.selection_set(index)
#########################################
## Button Callbacks
#########################################
def destroy(self, *e):
if self._top is None: return
self._top.destroy()
self._top = None
def reset(self, *e):
self._parser.initialize(self._sent)
self._lastoper1['text'] = 'Reset App'
self._lastoper2['text'] = ''
self._redraw()
def step(self, *e):
if self.reduce(): return True
elif self.shift(): return True
else:
if list(self._parser.parses()):
self._lastoper1['text'] = 'Finished:'
self._lastoper2['text'] = 'Success'
else:
self._lastoper1['text'] = 'Finished:'
self._lastoper2['text'] = 'Failure'
def shift(self, *e):
if self._animating_lock: return
if self._parser.shift():
tok = self._parser.stack()[-1]
self._lastoper1['text'] = 'Shift:'
self._lastoper2['text'] = '%r' % tok
if self._animate.get():
self._animate_shift()
else:
self._redraw()
return True
return False
def reduce(self, *e):
if self._animating_lock: return
production = self._parser.reduce()
if production:
self._lastoper1['text'] = 'Reduce:'
self._lastoper2['text'] = '%s' % production
if self._animate.get():
self._animate_reduce()
else:
self._redraw()
return production
def undo(self, *e):
if self._animating_lock: return
if self._parser.undo():
self._redraw()
def postscript(self, *e):
self._cframe.print_to_file()
def mainloop(self, *args, **kwargs):
"""
Enter the Tkinter mainloop. This function must be called if
this demo is created from a non-interactive program (e.g.
from a secript); otherwise, the demo will close as soon as
the script completes.
"""
if in_idle(): return
self._top.mainloop(*args, **kwargs)
#########################################
## Menubar callbacks
#########################################
def resize(self, size=None):
if size is not None: self._size.set(size)
size = self._size.get()
self._font.configure(size=-(abs(size)))
self._boldfont.configure(size=-(abs(size)))
self._sysfont.configure(size=-(abs(size)))
#self._stacklabel['font'] = ('helvetica', -size-4, 'bold')
#self._rtextlabel['font'] = ('helvetica', -size-4, 'bold')
#self._lastoper_label['font'] = ('helvetica', -size)
#self._lastoper1['font'] = ('helvetica', -size)
#self._lastoper2['font'] = ('helvetica', -size)
#self._prodlist['font'] = ('helvetica', -size)
#self._prodlist_label['font'] = ('helvetica', -size-2, 'bold')
self._redraw()
def help(self, *e):
# The default font's not very legible; try using 'fixed' instead.
try:
ShowText(self._top, 'Help: Shift-Reduce Parser Application',
(__doc__ or '').strip(), width=75, font='fixed')
except:
ShowText(self._top, 'Help: Shift-Reduce Parser Application',
(__doc__ or '').strip(), width=75)
def about(self, *e):
ABOUT = ("NLTK Shift-Reduce Parser Application\n"+
"Written by Edward Loper")
TITLE = 'About: Shift-Reduce Parser Application'
try:
from tkinter.messagebox import Message
Message(message=ABOUT, title=TITLE).show()
except:
ShowText(self._top, TITLE, ABOUT)
def edit_grammar(self, *e):
CFGEditor(self._top, self._parser.grammar(), self.set_grammar)
def set_grammar(self, grammar):
self._parser.set_grammar(grammar)
self._productions = list(grammar.productions())
self._prodlist.delete(0, 'end')
for production in self._productions:
self._prodlist.insert('end', (' %s' % production))
def edit_sentence(self, *e):
sentence = " ".join(self._sent)
title = 'Edit Text'
instr = 'Enter a new sentence to parse.'
EntryDialog(self._top, sentence, instr, self.set_sentence, title)
def set_sentence(self, sent):
self._sent = sent.split() #[XX] use tagged?
self.reset()
#########################################
## Reduce Production Selection
#########################################
def _toggle_grammar(self, *e):
if self._show_grammar.get():
self._prodframe.pack(fill='both', side='left', padx=2,
after=self._feedbackframe)
self._lastoper1['text'] = 'Show Grammar'
else:
self._prodframe.pack_forget()
self._lastoper1['text'] = 'Hide Grammar'
self._lastoper2['text'] = ''
def _prodlist_select(self, event):
selection = self._prodlist.curselection()
if len(selection) != 1: return
index = int(selection[0])
production = self._parser.reduce(self._productions[index])
if production:
self._lastoper1['text'] = 'Reduce:'
self._lastoper2['text'] = '%s' % production
if self._animate.get():
self._animate_reduce()
else:
self._redraw()
else:
# Reset the production selections.
self._prodlist.selection_clear(0, 'end')
for prod in self._parser.reducible_productions():
index = self._productions.index(prod)
self._prodlist.selection_set(index)
def _popup_reduce(self, widget):
# Remove old commands.
productions = self._parser.reducible_productions()
if len(productions) == 0: return
self._reduce_menu.delete(0, 'end')
for production in productions:
self._reduce_menu.add_command(label=str(production),
command=self.reduce)
self._reduce_menu.post(self._canvas.winfo_pointerx(),
self._canvas.winfo_pointery())
#########################################
## Animations
#########################################
def _animate_shift(self):
# What widget are we shifting?
widget = self._rtextwidgets[0]
# Where are we shifting from & to?
right = widget.bbox()[0]
if len(self._stackwidgets) == 0: left = 5
else: left = self._stackwidgets[-1].bbox()[2]+10
# Start animating.
dt = self._animate.get()
dx = (left-right)*1.0/dt
self._animate_shift_frame(dt, widget, dx)
def _animate_shift_frame(self, frame, widget, dx):
if frame > 0:
self._animating_lock = 1
widget.move(dx, 0)
self._top.after(10, self._animate_shift_frame,
frame-1, widget, dx)
else:
# but: stacktop??
# Shift the widget to the stack.
del self._rtextwidgets[0]
self._stackwidgets.append(widget)
self._animating_lock = 0
# Display the available productions.
self._draw_stack_top(widget)
self._highlight_productions()
def _animate_reduce(self):
# What widgets are we shifting?
numwidgets = len(self._parser.stack()[-1]) # number of children
widgets = self._stackwidgets[-numwidgets:]
# How far are we moving?
if isinstance(widgets[0], TreeSegmentWidget):
ydist = 15 + widgets[0].label().height()
else:
ydist = 15 + widgets[0].height()
# Start animating.
dt = self._animate.get()
dy = ydist*2.0/dt
self._animate_reduce_frame(dt/2, widgets, dy)
def _animate_reduce_frame(self, frame, widgets, dy):
if frame > 0:
self._animating_lock = 1
for widget in widgets: widget.move(0, dy)
self._top.after(10, self._animate_reduce_frame,
frame-1, widgets, dy)
else:
del self._stackwidgets[-len(widgets):]
for widget in widgets:
self._cframe.remove_widget(widget)
tok = self._parser.stack()[-1]
if not isinstance(tok, Tree): raise ValueError()
label = TextWidget(self._canvas, str(tok.label()), color='#006060',
font=self._boldfont)
widget = TreeSegmentWidget(self._canvas, label, widgets,
width=2)
(x1, y1, x2, y2) = self._stacklabel.bbox()
y = y2-y1+10
if not self._stackwidgets: x = 5
else: x = self._stackwidgets[-1].bbox()[2] + 10
self._cframe.add_widget(widget, x, y)
self._stackwidgets.append(widget)
# Display the available productions.
self._draw_stack_top(widget)
self._highlight_productions()
# # Delete the old widgets..
# del self._stackwidgets[-len(widgets):]
# for widget in widgets:
# self._cframe.destroy_widget(widget)
#
# # Make a new one.
# tok = self._parser.stack()[-1]
# if isinstance(tok, Tree):
# attribs = {'tree_color': '#4080a0', 'tree_width': 2,
# 'node_font': bold, 'node_color': '#006060',
# 'leaf_color': '#006060', 'leaf_font':self._font}
# widget = tree_to_treesegment(self._canvas, tok.type(),
# **attribs)
# widget.node()['color'] = '#000000'
# else:
# widget = TextWidget(self._canvas, tok.type(),
# color='#000000', font=self._font)
# widget.bind_click(self._popup_reduce)
# (x1, y1, x2, y2) = self._stacklabel.bbox()
# y = y2-y1+10
# if not self._stackwidgets: x = 5
# else: x = self._stackwidgets[-1].bbox()[2] + 10
# self._cframe.add_widget(widget, x, y)
# self._stackwidgets.append(widget)
#self._redraw()
self._animating_lock = 0
#########################################
## Hovering.
#########################################
def _highlight_hover(self, event):
# What production are we hovering over?
index = self._prodlist.nearest(event.y)
if self._hover == index: return
# Clear any previous hover highlighting.
self._clear_hover()
# If the production corresponds to an available reduction,
# highlight the stack.
selection = [int(s) for s in self._prodlist.curselection()]
if index in selection:
rhslen = len(self._productions[index].rhs())
for stackwidget in self._stackwidgets[-rhslen:]:
if isinstance(stackwidget, TreeSegmentWidget):
stackwidget.label()['color'] = '#00a000'
else:
stackwidget['color'] = '#00a000'
# Remember what production we're hovering over.
self._hover = index
def _clear_hover(self, *event):
# Clear any previous hover highlighting.
if self._hover == -1: return
self._hover = -1
for stackwidget in self._stackwidgets:
if isinstance(stackwidget, TreeSegmentWidget):
stackwidget.label()['color'] = 'black'
else:
stackwidget['color'] = 'black'
class LogUI(Frame):
def __init__(self, parent):
Frame.__init__(self, parent)
self.parent = parent
self.filemodels = []
filemodel1 = FileModel("C:/Users/chen_xi/test1.csv", searchconds=[], relation="and", joincondtuples=[])
filemodel2 = FileModel("C:/Users/chen_xi/test2.csv", searchconds=[], relation="and", joincondtuples=[])
self.filemodels = [filemodel1, filemodel2]
self._initUI()
self.selectedfileindex = -1
def _initUI(self):
self.parent.title("Log Processor")
self.pack()
self._initfilepanel()
self._initsearchcondpanel()
self._initjoincondpanel()
self._initconsole()
self._inflatefilelist()
def _initfilepanel(self):
frame = Frame(self)
frame.grid(row=0, column=0, sticky=E + W + S + N)
label = Label(frame, text="File List: ")
label.grid(sticky=N + W)
self.filelist = Listbox(frame, width=40)
self.filelist.grid(row=1, column=0, rowspan=2, columnspan=3)
vsl = Scrollbar(frame, orient=VERTICAL)
vsl.grid(row=1, column=3, rowspan=2, sticky=N + S + W)
hsl = Scrollbar(frame, orient=HORIZONTAL)
hsl.grid(row=3, column=0, columnspan=3, sticky=W + E + N)
self.filelist.config(yscrollcommand=vsl.set, xscrollcommand=hsl.set)
self.filelist.bind('<<ListboxSelect>>', self._onfilelistselection)
hsl.config(command=self.filelist.xview)
vsl.config(command=self.filelist.yview)
upbtn = Button(frame, text="Up", width=7, command=self._upfile)
upbtn.grid(row=1, column=4, padx=5, pady=5)
downbtn = Button(frame, text="Down", width=7, command=self._downfile)
downbtn.grid(row=2, column=4, padx=5, pady=5)
newbtn = Button(frame, text="New", width=7, command=self._addfile)
newbtn.grid(row=4, column=1, pady=5, sticky=E + S)
delbtn = Button(frame, text="Delete", width=7, command=self._deletefile)
delbtn.grid(row=4, column=2, padx=5, pady=5, sticky=W + S)
def _inflatefilelist(self):
self.filelist.delete(0, END)
for filemodel in self.filemodels:
self.filelist.insert(END, filemodel.filename)
def _initsearchcondpanel(self):
frame = Frame(self)
frame.grid(row=0, column=1, sticky=E + W + S + N, padx=5)
label = Label(frame, text="Search Condition: ")
label.grid(row=0, column=0, columnspan=1, sticky=W)
relationlable = Label(frame, text="Relation")
relationlable.grid(row=0, column=1, columnspan=1, sticky=E)
self.condrelationvar = StringVar(frame)
relationinput = Combobox(frame, textvariable=self.condrelationvar, values=["and", "or"])
relationinput.grid(row=0, column=2, padx=5, sticky=E)
relationinput.bind('<<ComboboxSelected>>', self._onrelationchange)
self.searchcondlist = Listbox(frame)
self.searchcondlist.grid(row=1, rowspan=1, columnspan=3, sticky=E + W + S + N)
vsl = Scrollbar(frame, orient=VERTICAL)
vsl.grid(row=1, column=3, rowspan=1, sticky=N + S + W)
hsl = Scrollbar(frame, orient=HORIZONTAL)
hsl.grid(row=2, column=0, columnspan=3, sticky=W + E + N)
self.searchcondlist.config(yscrollcommand=vsl.set, xscrollcommand=hsl.set)
hsl.config(command=self.searchcondlist.xview)
vsl.config(command=self.searchcondlist.yview)
newbtn = Button(frame, text="New", width=7, command=self._addsearchcondition)
newbtn.grid(row=3, column=0, padx=5, pady=5, sticky=E)
delbtn = Button(frame, text="Delete", width=7, command=self._deletesearchcondition)
delbtn.grid(row=3, column=1, sticky=E)
modbtn = Button(frame, text="Update", width=7, command=self._modifysearchcondition)
modbtn.grid(row=3, column=2, padx=5, pady=5, sticky=W)
def _onrelationchange(self, evt):
selectedmodel = self._getselectedfile()
selectedmodel.relation = self.condrelationvar.get()
def _inflatesearchcondlist(self, filemodel):
self.condrelationvar.set(filemodel.relation)
conds = filemodel.searchconds
self.searchcondlist.delete(0, END)
for cond in conds:
self.searchcondlist.insert(END, cond.tostring())
def _initjoincondpanel(self):
frame = Frame(self)
frame.grid(row=0, column=2, sticky=E + W + S + N, padx=5)
label = Label(frame, text="Join Condition: ")
label.grid(sticky=N + W)
self.joincondlist = Listbox(frame)
self.joincondlist.grid(row=1, rowspan=1, columnspan=3, sticky=E + W + S + N)
vsl = Scrollbar(frame, orient=VERTICAL)
vsl.grid(row=1, column=3, rowspan=1, sticky=N + S + W)
hsl = Scrollbar(frame, orient=HORIZONTAL)
hsl.grid(row=2, column=0, columnspan=3, sticky=W + E + N)
self.joincondlist.config(yscrollcommand=vsl.set, xscrollcommand=hsl.set)
hsl.config(command=self.joincondlist.xview)
vsl.config(command=self.joincondlist.yview)
newbtn = Button(frame, text="New", width=7, command=self._addjoincondition)
newbtn.grid(row=3, column=0, padx=5, pady=5, sticky=E)
delbtn = Button(frame, text="Delete", width=7, command=self._deletejoincondition)
delbtn.grid(row=3, column=1, sticky=E)
modbtn = Button(frame, text="Update", width=7, command=self._modifyjoincondition)
modbtn.grid(row=3, column=2, padx=5, pady=5, sticky=W)
def _inflatejoincondlist(self, condtuples):
self.joincondlist.delete(0, END)
for condtuple in condtuples:
cond = condtuple[0]
tofilename = condtuple[1]
self.joincondlist.insert(END, cond.tostring() + " in " + tofilename)
def _initconsole(self):
separator = Separator(self, orient=HORIZONTAL)
separator.grid(row=1, columnspan=3, sticky=W + E, padx=5, pady=5)
self.console = Text(self)
self.console.grid(row=2, columnspan=3, sticky=W + E, padx=5, pady=5)
vsl = Scrollbar(self, orient=VERTICAL)
vsl.grid(row=2, column=3, sticky=N + S + W)
hsl = Scrollbar(self, orient=HORIZONTAL)
hsl.grid(row=3, column=0, columnspan=3, sticky=W + E + N)
hsl.config(command=self.console.xview)
vsl.config(command=self.console.yview)
resbtn = Button(self, text="Search", width=7, comman=self._showsearchresult)
resbtn.grid(row=4, column=2, padx=5, pady=5, sticky=E)
def _showsearchresult(self):
try:
res = self._searchresult()
formatres = self._formatsearchresult(res)
except Exception:
formatres = "Error!\r\n" + traceback.format_exc()
self.console.delete("0.0", END)
self.console.insert("0.0", formatres)
def _searchresult(self):
filesearchs = []
joinsearchs = []
for filemodel in self.filemodels:
filename = filemodel.filename
singlesearch = SingleFileSearch(filename, DictReader(open(filename)), filemodel.searchconds, filemodel.relation)
filesearchs.append(singlesearch)
joindict = {}
for joincondtuple in filemodel.joincondtuples:
tofilename = joincondtuple[1]
joincond = joincondtuple[0]
if tofilename not in joindict:
joindict[tofilename] = []
joindict[tofilename].append(joincond)
for tofilename in joindict:
joinsearch = JoinFileSearch(filename, DictReader(open(filename)), tofilename, DictReader(open(tofilename)), joindict[tofilename])
joinsearchs.append(joinsearch)
search = Search(filesearchs, joinsearchs)
return search.process()
def _formatsearchresult(self, searchresult):
formatres = self._formatsummary(searchresult) + "\r\n"
fileresults = searchresult.results
for filemodel in self.filemodels:
filename = filemodel.filename
fileresult = fileresults[filename]
formatres += self._formatfileresult(fileresult)
formatres += "\r\n"
return formatres
def _formatsummary(self, searchresult):
res = "Summary\r\n"
res += "Time Cost: " + str(searchresult.timecost) + " Seconds\r\n"
fileresults = searchresult.results
for filemodel in self.filemodels:
filename = filemodel.filename
fileresult = fileresults[filename]
res += filename + " Size: " + str(len(fileresult.result)) + "\r\n"
return res
def _formatfileresult(self, fileresult):
res = ""
filename = fileresult.filename
res += filename + " Size: " + str(len(fileresult.result)) + "\r\n"
fields = csvhandler.getfields(filename)
for (i, field) in enumerate(fields):
res += field
if i < (len(fields) - 1):
res += ","
else:
res += "\r\n"
for rowdict in fileresult.result:
for (i, field) in enumerate(fields):
res += rowdict[field]
if i < (len(fields) - 1):
res += ","
else:
res += "\r\n"
return res
def _addfile(self):
filetypes = [('csv files', '*.csv'), ('All files', '*')]
selectedfile = askopenfilename(filetypes=filetypes)
if selectedfile is not None:
newmodel = FileModel(selectedfile, searchconds=[], relation="and", joincondtuples=[])
self.filemodels.append(newmodel)
self.filelist.insert(END, newmodel.filename)
self._setselectedfileindex(len(self.filemodels) - 1)
def _deletefile(self):
index = self._getselectedfileindex()
if index >= 0:
self.filelist.delete(index)
del self.filemodels[index]
self._setselectedfileindex(-1)
def _upfile(self):
if self._getselectedfileindex() <= 0:
return
index = self._getselectedfileindex()
selectedfilename = self._getselectedfile().filename
if index > 0:
self.filelist.insert((index - 1), selectedfilename)
self.filelist.delete(index + 1)
self.filemodels[index - 1], self.filemodels[index] = self.filemodels[index], self.filemodels[index - 1]
self._setselectedfileindex(index - 1)
def _downfile(self):
if self._getselectedfileindex() < 0:
return
index = self._getselectedfileindex()
selectedfilename = self._getselectedfile().filename
if index < (len(self.filemodels) - 1):
self.filelist.insert((index + 2), selectedfilename)
self.filelist.delete(index)
self.filemodels[index], self.filemodels[index + 1] = self.filemodels[index + 1], self.filemodels[index]
self._setselectedfileindex(index + 1)
def _onfilelistselection(self, evt):
if len(self.filelist.curselection()) == 0:
return
self._setselectedfileindex(self.filelist.curselection()[0])
selectedfile = self._getselectedfile()
self._inflatesearchcondlist(selectedfile)
joincondtuples = selectedfile.joincondtuples
self._inflatejoincondlist(joincondtuples)
def _addsearchcondition(self):
if self._getselectedfileindex() < 0:
return
self._popupsearchcondwindow()
def _deletesearchcondition(self):
index = self._getselectedsearchcondindex()
if index < 0:
return
selectedfile = self._getselectedfile()
del selectedfile.searchconds[index]
self.searchcondlist.delete(index)
def _modifysearchcondition(self):
if self._getselectedsearchcondindex() < 0:
return
self._popupsearchcondwindow(self._getselectedsearchcondindex())
def _addjoincondition(self):
if self._getselectedfileindex() < 0:
return
self._popupjoincondwindow()
def _deletejoincondition(self):
index = self._getselectedjoincondindex()
if index < 0:
return
selectedfile = self._getselectedfile()
del selectedfile.joincondtuples[index]
self.joincondlist.delete(index)
def _modifyjoincondition(self):
if self._getselectedjoincondindex() < 0:
return
self._popupjoincondwindow(self._getselectedjoincondindex())
def _popupsearchcondwindow(self, index=-1):
if index < 0:
cond = ValueSearchCondition("", "")
else:
cond = self._getselectedfile().searchconds[index]
window = Toplevel(self)
title = Label(window, text="New Search Condition")
title.grid(row=0, column=0, padx=5, pady=5, sticky=W + N)
fieldlabel = Label(window, text="Field Name: ")
fieldlabel.grid(row=1, column=0, padx=5, pady=5, sticky=W)
fields = csvhandler.getfields(self._getselectedfile().filename)
fieldvar = StringVar(window)
fieldinput = Combobox(window, textvariable=fieldvar, values=fields, width=20)
fieldinput.grid(row=1, column=1, columnspan=2, padx=5, pady=5, sticky=W)
valuelabel = Label(window, text="Value: ")
valuelabel.grid(row=3, column=0, padx=5, pady=5, sticky=W)
valueinput = Entry(window)
valueinput.grid(row=3, column=1, columnspan=2, padx=5, pady=5, sticky=W)
minlabel = Label(window, text="Min Value: ")
minlabel.grid(row=4, column=0, padx=5, pady=5, sticky=W)
mininput = Entry(window)
mininput.grid(row=4, column=1, columnspan=2, padx=5, pady=5, sticky=W)
maxlabel = Label(window, text="Max Value: ")
maxlabel.grid(row=5, column=0, padx=5, pady=5, sticky=W)
maxinput = Entry(window)
maxinput.grid(row=5, column=1, columnspan=2, padx=5, pady=5, sticky=W)
sarchkind = IntVar()
def _enablesingle():
valueinput.config(state=NORMAL)
mininput.config(state=DISABLED)
maxinput.config(state=DISABLED)
singlebutton.select()
def _enablejoin():
valueinput.config(state=DISABLED)
mininput.config(state=NORMAL)
maxinput.config(state=NORMAL)
joinbutton.select()
typelabel = Label(window, text="Search Type: ")
typelabel.grid(row=2, column=0, padx=5, pady=5, sticky=W)
singlebutton = Radiobutton(window, text="Single", variable=sarchkind, value=1, command=_enablesingle)
singlebutton.grid(row=2, column=1, columnspan=1, padx=5, pady=5, sticky=W)
joinbutton = Radiobutton(window, text="Range", variable=sarchkind, value=2, command=_enablejoin)
joinbutton.grid(row=2, column=2, columnspan=1, padx=5, pady=5, sticky=W)
# init value
fieldvar.set(cond.field)
if isinstance(cond, ValueSearchCondition):
valueinput.insert(0, cond.val)
_enablesingle()
elif isinstance(cond, RangeSearchCondition):
mininput.insert(0, cond.valmin)
maxinput.insert(0, cond.valmax)
_enablejoin()
def _newcond():
'''create new condition
'''
if sarchkind.get() == 1:
cond = ValueSearchCondition(fieldvar.get(), valueinput.get())
else:
cond = RangeSearchCondition(fieldvar.get(), mininput.get(), maxinput.get())
selectedfile = self._getselectedfile()
if index < 0:
selectedfile.searchconds.append(cond)
else:
del selectedfile.searchconds[index]
selectedfile.searchconds[index:index] = [cond]
self._inflatesearchcondlist(selectedfile)
window.destroy()
okbtn = Button(window, text="Confirm", width=7, command=_newcond)
okbtn.grid(row=6, column=1, rowspan=1, columnspan=1, sticky=E, padx=5, pady=5)
clsbtn = Button(window, text="Close", width=7, command=lambda: window.destroy())
clsbtn.grid(row=6, column=2, rowspan=1, columnspan=1, sticky=E, padx=5, pady=5)
def _popupjoincondwindow(self, index=-1):
if index < 0:
cond = JoinSearchCondition(("", ""))
tofilename = ""
else:
condtuple = self._getselectedfile().joincondtuples[index]
cond = condtuple[0]
tofilename = condtuple[1]
window = Toplevel(self)
title = Label(window, text="New Search Condition")
title.grid(row=0, column=0, padx=5, pady=5, sticky=W + N)
filenamelabel = Label(window, text="Target Field Name: ")
filenamelabel.grid(row=1, column=0, padx=5, pady=5, sticky=W)
filevar = StringVar(window)
filenameinput = Combobox(window, textvariable=filevar, values=self.filelist.get(0, END), width=30)
filenameinput.grid(row=1, column=1, columnspan=2, padx=5, pady=5, sticky=W)
fromfieldlabel = Label(window, text="Field in From File: ")
fromfieldlabel.grid(row=3, column=0, padx=5, pady=5, sticky=W)
fromfields = csvhandler.getfields(self._getselectedfile().filename)
fromfieldvar = StringVar(window)
fieldinput = Combobox(window, textvariable=fromfieldvar, values=fromfields, width=20)
fieldinput.grid(row=3, column=1, columnspan=2, padx=5, pady=5, sticky=W)
tofieldlabel = Label(window, text="Field in Target File: ")
tofieldlabel.grid(row=4, column=0, padx=5, pady=5, sticky=W)
tofields = []
tofieldvar = StringVar(window)
tofieldinput = Combobox(window, textvariable=tofieldvar, values=tofields, width=20)
tofieldinput.grid(row=4, column=1, columnspan=2, padx=5, pady=5, sticky=W)
def updatetofieldinput(evt):
if filevar.get() is not None and len(filevar.get()) > 0:
tofields = csvhandler.getfields(filevar.get())
window.grid_slaves(4, 1)[0].grid_forget()
tofieldinput = Combobox(window, textvariable=tofieldvar, values=tofields, width=20)
tofieldinput.grid(row=4, column=1, columnspan=2, padx=5, pady=5, sticky=W)
filenameinput.bind('<<ComboboxSelected>>', updatetofieldinput)
# init value
filevar.set(tofilename)
fromfieldvar.set(cond.fieldtuple[0])
updatetofieldinput(None)
tofieldvar.set(cond.fieldtuple[1])
def _newcond():
'''create new condition
'''
cond = JoinSearchCondition((fromfieldvar.get(), tofieldvar.get()))
tofilename = filevar.get()
selectedfile = self._getselectedfile()
if index < 0:
selectedfile.joincondtuples.append((cond, tofilename))
else:
del selectedfile.joincondtuples[index]
selectedfile.joincondtuples[index:index] = [(cond, tofilename)]
self._inflatejoincondlist(selectedfile.joincondtuples)
window.destroy()
okbtn = Button(window, text="Confirm", width=7, command=_newcond)
okbtn.grid(row=6, column=1, rowspan=1, columnspan=1, sticky=E, padx=5, pady=5)
clsbtn = Button(window, text="Close", width=7, command=lambda: window.destroy())
clsbtn.grid(row=6, column=2, rowspan=1, columnspan=1, sticky=W, padx=5, pady=5)
def _getselectedfile(self):
if self._getselectedfileindex() < 0:
return None
return self.filemodels[self._getselectedfileindex()]
def _getselectedfileindex(self):
return self.selectedfileindex
def _setselectedfileindex(self, index):
self.selectedfileindex = index
if index >= 0:
self.filelist.selection_set(index)
def _getselectedsearchcondindex(self):
if len(self.searchcondlist.curselection()) > 0:
return self.searchcondlist.curselection()[0]
return -1
def _getselectedjoincondindex(self):
if len(self.joincondlist.curselection()) > 0:
return self.joincondlist.curselection()[0]
return -1
class FilePane:
def __init__(self,
root,
items=list(),
on_selection=list(),
on_close=list()):
self.items = items
self.item_count = len(items)
self.on_selection = on_selection
self.on_close = on_close
self.window = Toplevel()
self.window.title('Files')
self.window.transient(root)
self.window.protocol("WM_DELETE_WINDOW", self.on_window_close)
self.menubar = Menu(self.window)
self.menubar.add_command(label='Previous', command=self.previous)
self.menubar.add_command(label='Next', command=self.next)
# Display the menu
self.window.config(menu=self.menubar)
self.scrollbar = Scrollbar(self.window, orient='vertical')
self.listbox = Listbox(self.window,
yscrollcommand=self.scrollbar.set,
exportselection=False)
self.set_items(items)
self.scrollbar.config(command=self.listbox.yview)
self.scrollbar.pack(side='right', fill='y')
self.listbox.pack(side='left', fill='both', expand=1)
self.listbox.bind('<<ListboxSelect>>', self.on_select)
def on_window_close(self):
for callback in self.on_close:
callback()
self.window.withdraw()
def hide(self):
self.window.withdraw()
def show(self):
self.window.deiconify()
def selected_item(self):
return self.items[self.listbox.curselection()[0]]
def select_index(self, index):
self.listbox.selection_clear(0, END)
# From https://stackoverflow.com/a/25451279/11628429
self.listbox.select_set(
index) #This only sets focus on the first item.
self.listbox.event_generate("<<ListboxSelect>>")
def set_items(self, items):
self.items = items
self.item_count = len(items)
self.listbox.delete(0, END)
for item in items:
item = path.split(item)[1]
self.listbox.insert(END, item)
self.select_index(0)
def previous(self):
index = self.listbox.curselection()[0] - 1
if index < 0:
index = self.item_count - 1
self.select_index(index)
def next(self):
index = self.listbox.curselection()[0] + 1
if index >= self.item_count:
index = 0
self.select_index(index)
def on_select(self, event):
if self.on_selection:
for callback in self.on_selection:
callback(self.selected_item())
class GUI(Frame): # pylint: disable=too-many-ancestors
"""class for GUI"""
static_logger = logging.getLogger(__name__)
static_queue = queue.Queue()
def __init__(self, parent, db, pab, alg):
"""init"""
Frame.__init__(self, parent)
self.right_list = Listbox(parent)
self.left_list = Listbox(parent)
self.parent = parent
self.db_creator = db
self.path_and_bag = pab
self.alg_do = alg
self.menu_bar = Menu(self.parent)
self.init_ui()
def init_ui(self):
"""getting all things started"""
self.parent.title("PyMeno")
self.left_list.bind("<Double-Button-1>", self.on_double_click)
self.parent.config(menu=self.menu_bar)
file_menu = Menu(self.menu_bar, tearoff=False)
menu2_parse = Menu(self.menu_bar, tearoff=False)
# menu3_parse = Menu(menu_bar, tearoff=False)
# sub_menu = Menu(file_menu, tearoff=False)
self.left_list.pack(side=LEFT, fill=BOTH, expand=2)
self.right_list.pack(side=RIGHT, fill=BOTH, expand=2)
# add something to menu
file_menu.add_command(label="Choose folder with music ALG 1",
underline=0, command=self.new_thread_2)
file_menu.add_command(label="Choose folder with music ALG 2",
underline=0, command=self.new_thread_1)
file_menu.add_command(label="Choose folder with music ALG 3",
underline=0, command=self.new_thread_2)
file_menu.add_command(label="Exit", underline=0, command=self.on_exit)
menu2_parse.add_command(label="Download artists list", underline=0,
command=self.db_creator.download_list_of_artists)
menu2_parse.\
add_command(label="Parse artists information to database", underline=0,
command=self.go_to_lilis_parsing)
self.menu_bar.add_cascade(label="File", underline=0, menu=file_menu)
self.menu_bar.add_cascade(label="Data", underline=0, menu=menu2_parse)
def on_exit(self):
"""quit"""
GUI.static_queue.put("endino-tarantino")
self.quit()
def disable_menu(self):
"""disable menu while program is working"""
self.menu_bar.entryconfig("File", state="disabled")
self.menu_bar.entryconfig("Data", state="disabled")
def enable_menu(self):
"""enable menu after work"""
self.menu_bar.entryconfig("File", state="normal")
self.menu_bar.entryconfig("Data", state="normal")
def new_thread_1(self):
"""thread for the first algorythm"""
dir_name = filedialog.askdirectory(parent=self, initialdir="/",
title='Please select a directory')
if dir_name != "":
self.disable_menu()
self.path_and_bag.check_if_refresh(dir_name)
self.config(cursor="wait")
self.update()
self.clean_queue()
GUI.static_queue.put("Finding files in chosen folder:\n\n")
num_files = len([val for sub_list in
[[os.path.join(i[0], j)for j in i[2]]
for i in os.walk(dir_name)]
for val in sub_list])
rott = tk.Tk()
app = App(rott, GUI.static_queue, num_files)
rott.protocol("WM_DELETE_WINDOW", app.on_closing)
thread = threading.Thread(target=self.open_menu, args=(dir_name,))
thread.setDaemon(True)
thread.start()
app.mainloop()
else:
print("Action aborted")
def open_menu(self, dir_name):
"""select directory with music, alg 1"""
list_of_songs = []
self.path_and_bag.clear_bag_of_words()
for data in os.walk(dir_name):
for filename in data[2]:
list_of_songs = self.path_and_bag.change_title(os.path.join(data[0], filename))
GUI.static_queue.put(filename)
if not list_of_songs:
print("action aborted")
else:
GUI.static_queue.put("\nAnd what we have here?:\n")
self.config(cursor="")
shared_items_add = self.alg_do.search_for_simmilar_ver_2(False, GUI.static_queue)
if not shared_items_add:
shared_items_add = self.alg_do.search_for_simmilar_ver_2(True, GUI.static_queue)
if shared_items_add:
self.left_list.delete(0, END)
self.right_list.delete(0, END)
for song in list_of_songs:
temp = song.split(',', 1)
self.insert_to_right_list_box(temp[0], temp[1])
for key, value in shared_items_add.items():
temp = key.split(',', 1)
GUI.static_queue.put(temp[0] + " : " + value)
self.insert_to_left_list_box(temp[0] + " : " + value)
GUI.static_queue.put("endino-tarantino")
self.enable_menu()
def new_thread_2(self):
"""thread for the second algorythm"""
dir_name = filedialog.askdirectory(parent=self, initialdir="/",
title='Please select a directory')
if dir_name != "":
self.disable_menu()
self.path_and_bag.check_if_refresh(dir_name)
self.config(cursor="wait")
self.update()
self.clean_queue()
GUI.static_queue.put("Finding files in chosen folder:\n\n")
num_files = len([val for sub_list in
[[os.path.join(i[0], j)for j in i[2]]
for i in os.walk(dir_name)]
for val in sub_list])
rott = tk.Tk()
app = App(rott, GUI.static_queue, num_files)
rott.protocol("WM_DELETE_WINDOW", app.on_closing)
thread = threading.Thread(target=self.open_menu_ver_2, args=(dir_name,))
thread.setDaemon(True)
thread.start()
app.mainloop()
else:
print("Action aborted")
@staticmethod
def clean_queue():
"""cleaning queue if user exit manualy"""
if not GUI.static_queue.empty():
while not GUI.static_queue.empty():
GUI.static_queue.get()
def open_menu_ver_2(self, dir_name):
"""select directory with music, alg 2"""
list_of_songs = []
self.path_and_bag.clear_bag_of_words()
for data in os.walk(dir_name):
for filename in data[2]:
list_of_songs = self.path_and_bag.change_title(os.path.join(data[0], filename))
GUI.static_queue.put(filename)
if not list_of_songs:
print("action aborted")
else:
GUI.static_queue.put("\nAnd what we have here?:\n")
self.config(cursor="")
shared_items_add = self.alg_do.search_for_simmilar_ver_1(False, GUI.static_queue)
if not shared_items_add:
shared_items_add = self.alg_do.search_for_simmilar_ver_1(True, GUI.static_queue)
if shared_items_add:
self.left_list.delete(0, END)
self.right_list.delete(0, END)
for song in list_of_songs:
temp = song.split(',', 1)
self.insert_to_right_list_box(temp[0], temp[1])
for key, value in shared_items_add.items():
temp = key.split(',', 1)
self.insert_to_left_list_box(temp[0] + " : " + value)
GUI.static_queue.put("endino-tarantino")
self.enable_menu()
def new_thread_3(self):
"""thread for the third algorythm"""
dir_name = filedialog.askdirectory(parent=self, initialdir="/",
title='Please select a directory')
if dir_name != "":
self.disable_menu()
self.path_and_bag.check_if_refresh(dir_name)
self.config(cursor="wait")
self.update()
self.clean_queue()
GUI.static_queue.put("Finding files in chosen folder:\n\n")
num_files = len([val for sub_list in
[[os.path.join(i[0], j)
for j in i[2]] for i in os.walk(dir_name)]
for val in sub_list])
rott = tk.Tk()
app = App(rott, GUI.static_queue, num_files)
rott.protocol("WM_DELETE_WINDOW", app.on_closing)
thread = threading.Thread(target=self.open_menu_ver_3, args=(dir_name,))
thread.setDaemon(True)
thread.start()
app.mainloop()
else:
print("Action aborted")
def open_menu_ver_3(self, dir_name):
"""select directory with music, alg 3"""
list_of_songs = []
self.path_and_bag.clear_bag_of_words()
for data in os.walk(dir_name):
for filename in data[2]:
list_of_songs = self.path_and_bag.change_title(os.path.join(data[0], filename))
GUI.static_queue.put(filename)
print(list_of_songs)
if not list_of_songs:
print("action aborted")
else:
GUI.static_queue.put("\nAnd what we have here?:\n")
self.config(cursor="")
shared_items_add = self.alg_do.search_for_simmilar_ver_3(False, GUI.static_queue)
if not shared_items_add:
shared_items_add = self.alg_do.search_for_simmilar_ver_3(True, GUI.static_queue)
if shared_items_add:
self.left_list.delete(0, END)
self.right_list.delete(0, END)
for song in list_of_songs:
temp = song.split(',', 1)
self.insert_to_right_list_box(temp[0], temp[1])
for key, value in shared_items_add.items():
temp = key.split(',', 1)
self.insert_to_left_list_box(temp[0] + " : " + value)
GUI.static_queue.put("endino-tarantino")
self.enable_menu()
def insert_to_right_list_box(self, artist, song):
"""insert to right listbox for other methods"""
self.right_list.insert(END, artist + " - " + song)
def insert_to_left_list_box(self, artist):
"""insert to left listbox for other methods"""
self.left_list.insert(END, artist)
def go_to_lilis_parsing(self):
"""how many artist do you want to parse"""
number_from = simpledialog.askstring('Number', 'How many artists?/FROM')
if number_from is not None:
number_from = int(number_from)
print(number_from)
number_to = int(simpledialog.askstring('Number', 'How many artists?/TO'))
if number_to is not None:
number_to = int(number_to)
print(number_to)
self.db_creator.parse_file(number_to, number_from)
def on_double_click(self, event):
"""open youtube on double click"""
new = 2 # open in a new tab, if possible
widget = event.widget
selection = widget.curselection()
value = widget.get(selection[0])
url = self.youtube_search(value)
webbrowser.open(url, new=new)
@staticmethod
def youtube_search(to_search):
"""
This function finds url to our songs throw Youtube API
"""
developer_key = "AIzaSyCn9Pk4vWC8LjjIKqol5gkku20DI0IRurU"
youtube_api_service_name = "youtube"
youtube_api_version = "v3"
parse = argparse.ArgumentParser()
parse.add_argument("--q", help="Search term", default=to_search)
parse.add_argument("--max-results", help="Max results", default=25)
args = parse.parse_args()
youtube = build(youtube_api_service_name,
youtube_api_version, developerKey=developer_key)
# Call the search.list method to retrieve results matching the specified
# query term.
search_response = youtube.search().list(q=args.q, # pylint: disable=no-member
part="id,snippet",
maxResults=args.max_results,
order="viewCount").execute()
videos = []
channels = []
play_lists = []
# Add each result to the appropriate list, and then display the lists of
# matching videos, channels, and play lists.
for search_result in search_response.get("items", []):
if search_result["id"]["kind"] == "youtube#video":
videos.append(search_result["id"]["videoId"])
elif search_result["id"]["kind"] == "youtube#channel":
channels.append("%s (%s)" % (search_result["snippet"]["title"],
search_result["id"]["channelId"]))
elif search_result["id"]["kind"] == "youtube#playlist":
play_lists.append("%s (%s)" % (search_result["snippet"]["title"],
search_result["id"]["playlistId"]))
try:
return "https://www.youtube.com/watch?v=" + videos[0]
except (UnicodeEncodeError, IndexError):
GUI.static_logger.error('ERROR', exc_info=True)
return "https://www.youtube.com/watch?v=" + "_NXrTujMP50"
class ShiftReduceApp(object):
"""
A graphical tool for exploring the shift-reduce parser. The tool
displays the parser's stack and the remaining text, and allows the
user to control the parser's operation. In particular, the user
can shift tokens onto the stack, and can perform reductions on the
top elements of the stack. A "step" button simply steps through
the parsing process, performing the operations that
``nltk.parse.ShiftReduceParser`` would use.
"""
def __init__(self, grammar, sent, trace=0):
self._sent = sent
self._parser = SteppingShiftReduceParser(grammar, trace)
# Set up the main window.
self._top = Tk()
self._top.title('Shift Reduce Parser Application')
# Animations. animating_lock is a lock to prevent the demo
# from performing new operations while it's animating.
self._animating_lock = 0
self._animate = IntVar(self._top)
self._animate.set(10) # = medium
# The user can hide the grammar.
self._show_grammar = IntVar(self._top)
self._show_grammar.set(1)
# Initialize fonts.
self._init_fonts(self._top)
# Set up key bindings.
self._init_bindings()
# Create the basic frames.
self._init_menubar(self._top)
self._init_buttons(self._top)
self._init_feedback(self._top)
self._init_grammar(self._top)
self._init_canvas(self._top)
# A popup menu for reducing.
self._reduce_menu = Menu(self._canvas, tearoff=0)
# Reset the demo, and set the feedback frame to empty.
self.reset()
self._lastoper1['text'] = ''
#########################################
## Initialization Helpers
#########################################
def _init_fonts(self, root):
# See: <http://www.astro.washington.edu/owen/ROTKFolklore.html>
self._sysfont = tkinter.font.Font(font=Button()["font"])
root.option_add("*Font", self._sysfont)
# TWhat's our font size (default=same as sysfont)
self._size = IntVar(root)
self._size.set(self._sysfont.cget('size'))
self._boldfont = tkinter.font.Font(family='helvetica',
weight='bold',
size=self._size.get())
self._font = tkinter.font.Font(family='helvetica',
size=self._size.get())
def _init_grammar(self, parent):
# Grammar view.
self._prodframe = listframe = Frame(parent)
self._prodframe.pack(fill='both', side='left', padx=2)
self._prodlist_label = Label(self._prodframe,
font=self._boldfont,
text='Available Reductions')
self._prodlist_label.pack()
self._prodlist = Listbox(self._prodframe,
selectmode='single',
relief='groove',
background='white',
foreground='#909090',
font=self._font,
selectforeground='#004040',
selectbackground='#c0f0c0')
self._prodlist.pack(side='right', fill='both', expand=1)
self._productions = list(self._parser.grammar().productions())
for production in self._productions:
self._prodlist.insert('end', (' %s' % production))
self._prodlist.config(height=min(len(self._productions), 25))
# Add a scrollbar if there are more than 25 productions.
if 1: #len(self._productions) > 25:
listscroll = Scrollbar(self._prodframe, orient='vertical')
self._prodlist.config(yscrollcommand=listscroll.set)
listscroll.config(command=self._prodlist.yview)
listscroll.pack(side='left', fill='y')
# If they select a production, apply it.
self._prodlist.bind('<<ListboxSelect>>', self._prodlist_select)
# When they hover over a production, highlight it.
self._hover = -1
self._prodlist.bind('<Motion>', self._highlight_hover)
self._prodlist.bind('<Leave>', self._clear_hover)
def _init_bindings(self):
# Quit
self._top.bind('<Control-q>', self.destroy)
self._top.bind('<Control-x>', self.destroy)
self._top.bind('<Alt-q>', self.destroy)
self._top.bind('<Alt-x>', self.destroy)
# Ops (step, shift, reduce, undo)
self._top.bind('<space>', self.step)
self._top.bind('<s>', self.shift)
self._top.bind('<Alt-s>', self.shift)
self._top.bind('<Control-s>', self.shift)
self._top.bind('<r>', self.reduce)
self._top.bind('<Alt-r>', self.reduce)
self._top.bind('<Control-r>', self.reduce)
self._top.bind('<Delete>', self.reset)
self._top.bind('<u>', self.undo)
self._top.bind('<Alt-u>', self.undo)
self._top.bind('<Control-u>', self.undo)
self._top.bind('<Control-z>', self.undo)
self._top.bind('<BackSpace>', self.undo)
# Misc
self._top.bind('<Control-p>', self.postscript)
self._top.bind('<Control-h>', self.help)
self._top.bind('<F1>', self.help)
self._top.bind('<Control-g>', self.edit_grammar)
self._top.bind('<Control-t>', self.edit_sentence)
# Animation speed control
self._top.bind('-', lambda e, a=self._animate: a.set(20))
self._top.bind('=', lambda e, a=self._animate: a.set(10))
self._top.bind('+', lambda e, a=self._animate: a.set(4))
def _init_buttons(self, parent):
# Set up the frames.
self._buttonframe = buttonframe = Frame(parent)
buttonframe.pack(fill='none', side='bottom')
Button(
buttonframe,
text='Step',
background='#90c0d0',
foreground='black',
command=self.step,
).pack(side='left')
Button(buttonframe,
text='Shift',
underline=0,
background='#90f090',
foreground='black',
command=self.shift).pack(side='left')
Button(buttonframe,
text='Reduce',
underline=0,
background='#90f090',
foreground='black',
command=self.reduce).pack(side='left')
Button(buttonframe,
text='Undo',
underline=0,
background='#f0a0a0',
foreground='black',
command=self.undo).pack(side='left')
def _init_menubar(self, parent):
menubar = Menu(parent)
filemenu = Menu(menubar, tearoff=0)
filemenu.add_command(label='Reset Parser',
underline=0,
command=self.reset,
accelerator='Del')
filemenu.add_command(label='Print to Postscript',
underline=0,
command=self.postscript,
accelerator='Ctrl-p')
filemenu.add_command(label='Exit',
underline=1,
command=self.destroy,
accelerator='Ctrl-x')
menubar.add_cascade(label='File', underline=0, menu=filemenu)
editmenu = Menu(menubar, tearoff=0)
editmenu.add_command(label='Edit Grammar',
underline=5,
command=self.edit_grammar,
accelerator='Ctrl-g')
editmenu.add_command(label='Edit Text',
underline=5,
command=self.edit_sentence,
accelerator='Ctrl-t')
menubar.add_cascade(label='Edit', underline=0, menu=editmenu)
rulemenu = Menu(menubar, tearoff=0)
rulemenu.add_command(label='Step',
underline=1,
command=self.step,
accelerator='Space')
rulemenu.add_separator()
rulemenu.add_command(label='Shift',
underline=0,
command=self.shift,
accelerator='Ctrl-s')
rulemenu.add_command(label='Reduce',
underline=0,
command=self.reduce,
accelerator='Ctrl-r')
rulemenu.add_separator()
rulemenu.add_command(label='Undo',
underline=0,
command=self.undo,
accelerator='Ctrl-u')
menubar.add_cascade(label='Apply', underline=0, menu=rulemenu)
viewmenu = Menu(menubar, tearoff=0)
viewmenu.add_checkbutton(label="Show Grammar",
underline=0,
variable=self._show_grammar,
command=self._toggle_grammar)
viewmenu.add_separator()
viewmenu.add_radiobutton(label='Tiny',
variable=self._size,
underline=0,
value=10,
command=self.resize)
viewmenu.add_radiobutton(label='Small',
variable=self._size,
underline=0,
value=12,
command=self.resize)
viewmenu.add_radiobutton(label='Medium',
variable=self._size,
underline=0,
value=14,
command=self.resize)
viewmenu.add_radiobutton(label='Large',
variable=self._size,
underline=0,
value=18,
command=self.resize)
viewmenu.add_radiobutton(label='Huge',
variable=self._size,
underline=0,
value=24,
command=self.resize)
menubar.add_cascade(label='View', underline=0, menu=viewmenu)
animatemenu = Menu(menubar, tearoff=0)
animatemenu.add_radiobutton(label="No Animation",
underline=0,
variable=self._animate,
value=0)
animatemenu.add_radiobutton(label="Slow Animation",
underline=0,
variable=self._animate,
value=20,
accelerator='-')
animatemenu.add_radiobutton(label="Normal Animation",
underline=0,
variable=self._animate,
value=10,
accelerator='=')
animatemenu.add_radiobutton(label="Fast Animation",
underline=0,
variable=self._animate,
value=4,
accelerator='+')
menubar.add_cascade(label="Animate", underline=1, menu=animatemenu)
helpmenu = Menu(menubar, tearoff=0)
helpmenu.add_command(label='About', underline=0, command=self.about)
helpmenu.add_command(label='Instructions',
underline=0,
command=self.help,
accelerator='F1')
menubar.add_cascade(label='Help', underline=0, menu=helpmenu)
parent.config(menu=menubar)
def _init_feedback(self, parent):
self._feedbackframe = feedbackframe = Frame(parent)
feedbackframe.pack(fill='x', side='bottom', padx=3, pady=3)
self._lastoper_label = Label(feedbackframe,
text='Last Operation:',
font=self._font)
self._lastoper_label.pack(side='left')
lastoperframe = Frame(feedbackframe, relief='sunken', border=1)
lastoperframe.pack(fill='x', side='right', expand=1, padx=5)
self._lastoper1 = Label(lastoperframe,
foreground='#007070',
background='#f0f0f0',
font=self._font)
self._lastoper2 = Label(lastoperframe,
anchor='w',
width=30,
foreground='#004040',
background='#f0f0f0',
font=self._font)
self._lastoper1.pack(side='left')
self._lastoper2.pack(side='left', fill='x', expand=1)
def _init_canvas(self, parent):
self._cframe = CanvasFrame(parent,
background='white',
width=525,
closeenough=10,
border=2,
relief='sunken')
self._cframe.pack(expand=1, fill='both', side='top', pady=2)
canvas = self._canvas = self._cframe.canvas()
self._stackwidgets = []
self._rtextwidgets = []
self._titlebar = canvas.create_rectangle(0,
0,
0,
0,
fill='#c0f0f0',
outline='black')
self._exprline = canvas.create_line(0, 0, 0, 0, dash='.')
self._stacktop = canvas.create_line(0, 0, 0, 0, fill='#408080')
size = self._size.get() + 4
self._stacklabel = TextWidget(canvas,
'Stack',
color='#004040',
font=self._boldfont)
self._rtextlabel = TextWidget(canvas,
'Remaining Text',
color='#004040',
font=self._boldfont)
self._cframe.add_widget(self._stacklabel)
self._cframe.add_widget(self._rtextlabel)
#########################################
## Main draw procedure
#########################################
def _redraw(self):
scrollregion = self._canvas['scrollregion'].split()
(cx1, cy1, cx2, cy2) = [int(c) for c in scrollregion]
# Delete the old stack & rtext widgets.
for stackwidget in self._stackwidgets:
self._cframe.destroy_widget(stackwidget)
self._stackwidgets = []
for rtextwidget in self._rtextwidgets:
self._cframe.destroy_widget(rtextwidget)
self._rtextwidgets = []
# Position the titlebar & exprline
(x1, y1, x2, y2) = self._stacklabel.bbox()
y = y2 - y1 + 10
self._canvas.coords(self._titlebar, -5000, 0, 5000, y - 4)
self._canvas.coords(self._exprline, 0, y * 2 - 10, 5000, y * 2 - 10)
# Position the titlebar labels..
(x1, y1, x2, y2) = self._stacklabel.bbox()
self._stacklabel.move(5 - x1, 3 - y1)
(x1, y1, x2, y2) = self._rtextlabel.bbox()
self._rtextlabel.move(cx2 - x2 - 5, 3 - y1)
# Draw the stack.
stackx = 5
for tok in self._parser.stack():
if isinstance(tok, Tree):
attribs = {
'tree_color': '#4080a0',
'tree_width': 2,
'node_font': self._boldfont,
'node_color': '#006060',
'leaf_color': '#006060',
'leaf_font': self._font
}
widget = tree_to_treesegment(self._canvas, tok, **attribs)
widget.label()['color'] = '#000000'
else:
widget = TextWidget(self._canvas,
tok,
color='#000000',
font=self._font)
widget.bind_click(self._popup_reduce)
self._stackwidgets.append(widget)
self._cframe.add_widget(widget, stackx, y)
stackx = widget.bbox()[2] + 10
# Draw the remaining text.
rtextwidth = 0
for tok in self._parser.remaining_text():
widget = TextWidget(self._canvas,
tok,
color='#000000',
font=self._font)
self._rtextwidgets.append(widget)
self._cframe.add_widget(widget, rtextwidth, y)
rtextwidth = widget.bbox()[2] + 4
# Allow enough room to shift the next token (for animations)
if len(self._rtextwidgets) > 0:
stackx += self._rtextwidgets[0].width()
# Move the remaining text to the correct location (keep it
# right-justified, when possible); and move the remaining text
# label, if necessary.
stackx = max(stackx, self._stacklabel.width() + 25)
rlabelwidth = self._rtextlabel.width() + 10
if stackx >= cx2 - max(rtextwidth, rlabelwidth):
cx2 = stackx + max(rtextwidth, rlabelwidth)
for rtextwidget in self._rtextwidgets:
rtextwidget.move(4 + cx2 - rtextwidth, 0)
self._rtextlabel.move(cx2 - self._rtextlabel.bbox()[2] - 5, 0)
midx = (stackx + cx2 - max(rtextwidth, rlabelwidth)) / 2
self._canvas.coords(self._stacktop, midx, 0, midx, 5000)
(x1, y1, x2, y2) = self._stacklabel.bbox()
# Set up binding to allow them to shift a token by dragging it.
if len(self._rtextwidgets) > 0:
def drag_shift(widget, midx=midx, self=self):
if widget.bbox()[0] < midx: self.shift()
else: self._redraw()
self._rtextwidgets[0].bind_drag(drag_shift)
self._rtextwidgets[0].bind_click(self.shift)
# Draw the stack top.
self._highlight_productions()
def _draw_stack_top(self, widget):
# hack..
midx = widget.bbox()[2] + 50
self._canvas.coords(self._stacktop, midx, 0, midx, 5000)
def _highlight_productions(self):
# Highlight the productions that can be reduced.
self._prodlist.selection_clear(0, 'end')
for prod in self._parser.reducible_productions():
index = self._productions.index(prod)
self._prodlist.selection_set(index)
#########################################
## Button Callbacks
#########################################
def destroy(self, *e):
if self._top is None: return
self._top.destroy()
self._top = None
def reset(self, *e):
self._parser.initialize(self._sent)
self._lastoper1['text'] = 'Reset App'
self._lastoper2['text'] = ''
self._redraw()
def step(self, *e):
if self.reduce(): return True
elif self.shift(): return True
else:
if list(self._parser.parses()):
self._lastoper1['text'] = 'Finished:'
self._lastoper2['text'] = 'Success'
else:
self._lastoper1['text'] = 'Finished:'
self._lastoper2['text'] = 'Failure'
def shift(self, *e):
if self._animating_lock: return
if self._parser.shift():
tok = self._parser.stack()[-1]
self._lastoper1['text'] = 'Shift:'
self._lastoper2['text'] = '%r' % tok
if self._animate.get():
self._animate_shift()
else:
self._redraw()
return True
return False
def reduce(self, *e):
if self._animating_lock: return
production = self._parser.reduce()
if production:
self._lastoper1['text'] = 'Reduce:'
self._lastoper2['text'] = '%s' % production
if self._animate.get():
self._animate_reduce()
else:
self._redraw()
return production
def undo(self, *e):
if self._animating_lock: return
if self._parser.undo():
self._redraw()
def postscript(self, *e):
self._cframe.print_to_file()
def mainloop(self, *args, **kwargs):
"""
Enter the Tkinter mainloop. This function must be called if
this demo is created from a non-interactive program (e.g.
from a secript); otherwise, the demo will close as soon as
the script completes.
"""
if in_idle(): return
self._top.mainloop(*args, **kwargs)
#########################################
## Menubar callbacks
#########################################
def resize(self, size=None):
if size is not None: self._size.set(size)
size = self._size.get()
self._font.configure(size=-(abs(size)))
self._boldfont.configure(size=-(abs(size)))
self._sysfont.configure(size=-(abs(size)))
#self._stacklabel['font'] = ('helvetica', -size-4, 'bold')
#self._rtextlabel['font'] = ('helvetica', -size-4, 'bold')
#self._lastoper_label['font'] = ('helvetica', -size)
#self._lastoper1['font'] = ('helvetica', -size)
#self._lastoper2['font'] = ('helvetica', -size)
#self._prodlist['font'] = ('helvetica', -size)
#self._prodlist_label['font'] = ('helvetica', -size-2, 'bold')
self._redraw()
def help(self, *e):
# The default font's not very legible; try using 'fixed' instead.
try:
ShowText(self._top,
'Help: Shift-Reduce Parser Application', (__doc__
or '').strip(),
width=75,
font='fixed')
except:
ShowText(self._top,
'Help: Shift-Reduce Parser Application', (__doc__
or '').strip(),
width=75)
def about(self, *e):
ABOUT = ("NLTK Shift-Reduce Parser Application\n" +
"Written by Edward Loper")
TITLE = 'About: Shift-Reduce Parser Application'
try:
from tkinter.messagebox import Message
Message(message=ABOUT, title=TITLE).show()
except:
ShowText(self._top, TITLE, ABOUT)
def edit_grammar(self, *e):
CFGEditor(self._top, self._parser.grammar(), self.set_grammar)
def set_grammar(self, grammar):
self._parser.set_grammar(grammar)
self._productions = list(grammar.productions())
self._prodlist.delete(0, 'end')
for production in self._productions:
self._prodlist.insert('end', (' %s' % production))
def edit_sentence(self, *e):
sentence = " ".join(self._sent)
title = 'Edit Text'
instr = 'Enter a new sentence to parse.'
EntryDialog(self._top, sentence, instr, self.set_sentence, title)
def set_sentence(self, sent):
self._sent = sent.split() #[XX] use tagged?
self.reset()
#########################################
## Reduce Production Selection
#########################################
def _toggle_grammar(self, *e):
if self._show_grammar.get():
self._prodframe.pack(fill='both',
side='left',
padx=2,
after=self._feedbackframe)
self._lastoper1['text'] = 'Show Grammar'
else:
self._prodframe.pack_forget()
self._lastoper1['text'] = 'Hide Grammar'
self._lastoper2['text'] = ''
def _prodlist_select(self, event):
selection = self._prodlist.curselection()
if len(selection) != 1: return
index = int(selection[0])
production = self._parser.reduce(self._productions[index])
if production:
self._lastoper1['text'] = 'Reduce:'
self._lastoper2['text'] = '%s' % production
if self._animate.get():
self._animate_reduce()
else:
self._redraw()
else:
# Reset the production selections.
self._prodlist.selection_clear(0, 'end')
for prod in self._parser.reducible_productions():
index = self._productions.index(prod)
self._prodlist.selection_set(index)
def _popup_reduce(self, widget):
# Remove old commands.
productions = self._parser.reducible_productions()
if len(productions) == 0: return
self._reduce_menu.delete(0, 'end')
for production in productions:
self._reduce_menu.add_command(label=str(production),
command=self.reduce)
self._reduce_menu.post(self._canvas.winfo_pointerx(),
self._canvas.winfo_pointery())
#########################################
## Animations
#########################################
def _animate_shift(self):
# What widget are we shifting?
widget = self._rtextwidgets[0]
# Where are we shifting from & to?
right = widget.bbox()[0]
if len(self._stackwidgets) == 0: left = 5
else: left = self._stackwidgets[-1].bbox()[2] + 10
# Start animating.
dt = self._animate.get()
dx = (left - right) * 1.0 / dt
self._animate_shift_frame(dt, widget, dx)
def _animate_shift_frame(self, frame, widget, dx):
if frame > 0:
self._animating_lock = 1
widget.move(dx, 0)
self._top.after(10, self._animate_shift_frame, frame - 1, widget,
dx)
else:
# but: stacktop??
# Shift the widget to the stack.
del self._rtextwidgets[0]
self._stackwidgets.append(widget)
self._animating_lock = 0
# Display the available productions.
self._draw_stack_top(widget)
self._highlight_productions()
def _animate_reduce(self):
# What widgets are we shifting?
numwidgets = len(self._parser.stack()[-1]) # number of children
widgets = self._stackwidgets[-numwidgets:]
# How far are we moving?
if isinstance(widgets[0], TreeSegmentWidget):
ydist = 15 + widgets[0].label().height()
else:
ydist = 15 + widgets[0].height()
# Start animating.
dt = self._animate.get()
dy = ydist * 2.0 / dt
self._animate_reduce_frame(dt / 2, widgets, dy)
def _animate_reduce_frame(self, frame, widgets, dy):
if frame > 0:
self._animating_lock = 1
for widget in widgets:
widget.move(0, dy)
self._top.after(10, self._animate_reduce_frame, frame - 1, widgets,
dy)
else:
del self._stackwidgets[-len(widgets):]
for widget in widgets:
self._cframe.remove_widget(widget)
tok = self._parser.stack()[-1]
if not isinstance(tok, Tree): raise ValueError()
label = TextWidget(self._canvas,
str(tok.label()),
color='#006060',
font=self._boldfont)
widget = TreeSegmentWidget(self._canvas, label, widgets, width=2)
(x1, y1, x2, y2) = self._stacklabel.bbox()
y = y2 - y1 + 10
if not self._stackwidgets: x = 5
else: x = self._stackwidgets[-1].bbox()[2] + 10
self._cframe.add_widget(widget, x, y)
self._stackwidgets.append(widget)
# Display the available productions.
self._draw_stack_top(widget)
self._highlight_productions()
# # Delete the old widgets..
# del self._stackwidgets[-len(widgets):]
# for widget in widgets:
# self._cframe.destroy_widget(widget)
#
# # Make a new one.
# tok = self._parser.stack()[-1]
# if isinstance(tok, Tree):
# attribs = {'tree_color': '#4080a0', 'tree_width': 2,
# 'node_font': bold, 'node_color': '#006060',
# 'leaf_color': '#006060', 'leaf_font':self._font}
# widget = tree_to_treesegment(self._canvas, tok.type(),
# **attribs)
# widget.node()['color'] = '#000000'
# else:
# widget = TextWidget(self._canvas, tok.type(),
# color='#000000', font=self._font)
# widget.bind_click(self._popup_reduce)
# (x1, y1, x2, y2) = self._stacklabel.bbox()
# y = y2-y1+10
# if not self._stackwidgets: x = 5
# else: x = self._stackwidgets[-1].bbox()[2] + 10
# self._cframe.add_widget(widget, x, y)
# self._stackwidgets.append(widget)
#self._redraw()
self._animating_lock = 0
#########################################
## Hovering.
#########################################
def _highlight_hover(self, event):
# What production are we hovering over?
index = self._prodlist.nearest(event.y)
if self._hover == index: return
# Clear any previous hover highlighting.
self._clear_hover()
# If the production corresponds to an available reduction,
# highlight the stack.
selection = [int(s) for s in self._prodlist.curselection()]
if index in selection:
rhslen = len(self._productions[index].rhs())
for stackwidget in self._stackwidgets[-rhslen:]:
if isinstance(stackwidget, TreeSegmentWidget):
stackwidget.label()['color'] = '#00a000'
else:
stackwidget['color'] = '#00a000'
# Remember what production we're hovering over.
self._hover = index
def _clear_hover(self, *event):
# Clear any previous hover highlighting.
if self._hover == -1: return
self._hover = -1
for stackwidget in self._stackwidgets:
if isinstance(stackwidget, TreeSegmentWidget):
stackwidget.label()['color'] = 'black'
else:
stackwidget['color'] = 'black'
class RecursiveDescentApp(object):
"""
A graphical tool for exploring the recursive descent parser. The tool
displays the parser's tree and the remaining text, and allows the
user to control the parser's operation. In particular, the user
can expand subtrees on the frontier, match tokens on the frontier
against the text, and backtrack. A "step" button simply steps
through the parsing process, performing the operations that
``RecursiveDescentParser`` would use.
"""
def __init__(self, grammar, sent, trace=0):
self._sent = sent
self._parser = SteppingRecursiveDescentParser(grammar, trace)
# Set up the main window.
self._top = Tk()
self._top.title('Recursive Descent Parser Application')
# Set up key bindings.
self._init_bindings()
# Initialize the fonts.
self._init_fonts(self._top)
# Animations. animating_lock is a lock to prevent the demo
# from performing new operations while it's animating.
self._animation_frames = IntVar(self._top)
self._animation_frames.set(5)
self._animating_lock = 0
self._autostep = 0
# The user can hide the grammar.
self._show_grammar = IntVar(self._top)
self._show_grammar.set(1)
# Create the basic frames.
self._init_menubar(self._top)
self._init_buttons(self._top)
self._init_feedback(self._top)
self._init_grammar(self._top)
self._init_canvas(self._top)
# Initialize the parser.
self._parser.initialize(self._sent)
# Resize callback
self._canvas.bind('<Configure>', self._configure)
#########################################
## Initialization Helpers
#########################################
def _init_fonts(self, root):
# See: <http://www.astro.washington.edu/owen/ROTKFolklore.html>
self._sysfont = tkinter.font.Font(font=Button()["font"])
root.option_add("*Font", self._sysfont)
# TWhat's our font size (default=same as sysfont)
self._size = IntVar(root)
self._size.set(self._sysfont.cget('size'))
self._boldfont = tkinter.font.Font(family='helvetica',
weight='bold',
size=self._size.get())
self._font = tkinter.font.Font(family='helvetica',
size=self._size.get())
if self._size.get() < 0: big = self._size.get() - 2
else: big = self._size.get() + 2
self._bigfont = tkinter.font.Font(family='helvetica',
weight='bold',
size=big)
def _init_grammar(self, parent):
# Grammar view.
self._prodframe = listframe = Frame(parent)
self._prodframe.pack(fill='both', side='left', padx=2)
self._prodlist_label = Label(self._prodframe,
font=self._boldfont,
text='Available Expansions')
self._prodlist_label.pack()
self._prodlist = Listbox(self._prodframe,
selectmode='single',
relief='groove',
background='white',
foreground='#909090',
font=self._font,
selectforeground='#004040',
selectbackground='#c0f0c0')
self._prodlist.pack(side='right', fill='both', expand=1)
self._productions = list(self._parser.grammar().productions())
for production in self._productions:
self._prodlist.insert('end', (' %s' % production))
self._prodlist.config(height=min(len(self._productions), 25))
# Add a scrollbar if there are more than 25 productions.
if len(self._productions) > 25:
listscroll = Scrollbar(self._prodframe, orient='vertical')
self._prodlist.config(yscrollcommand=listscroll.set)
listscroll.config(command=self._prodlist.yview)
listscroll.pack(side='left', fill='y')
# If they select a production, apply it.
self._prodlist.bind('<<ListboxSelect>>', self._prodlist_select)
def _init_bindings(self):
# Key bindings are a good thing.
self._top.bind('<Control-q>', self.destroy)
self._top.bind('<Control-x>', self.destroy)
self._top.bind('<Escape>', self.destroy)
self._top.bind('e', self.expand)
#self._top.bind('<Alt-e>', self.expand)
#self._top.bind('<Control-e>', self.expand)
self._top.bind('m', self.match)
self._top.bind('<Alt-m>', self.match)
self._top.bind('<Control-m>', self.match)
self._top.bind('b', self.backtrack)
self._top.bind('<Alt-b>', self.backtrack)
self._top.bind('<Control-b>', self.backtrack)
self._top.bind('<Control-z>', self.backtrack)
self._top.bind('<BackSpace>', self.backtrack)
self._top.bind('a', self.autostep)
#self._top.bind('<Control-a>', self.autostep)
self._top.bind('<Control-space>', self.autostep)
self._top.bind('<Control-c>', self.cancel_autostep)
self._top.bind('<space>', self.step)
self._top.bind('<Delete>', self.reset)
self._top.bind('<Control-p>', self.postscript)
#self._top.bind('<h>', self.help)
#self._top.bind('<Alt-h>', self.help)
self._top.bind('<Control-h>', self.help)
self._top.bind('<F1>', self.help)
#self._top.bind('<g>', self.toggle_grammar)
#self._top.bind('<Alt-g>', self.toggle_grammar)
#self._top.bind('<Control-g>', self.toggle_grammar)
self._top.bind('<Control-g>', self.edit_grammar)
self._top.bind('<Control-t>', self.edit_sentence)
def _init_buttons(self, parent):
# Set up the frames.
self._buttonframe = buttonframe = Frame(parent)
buttonframe.pack(fill='none', side='bottom', padx=3, pady=2)
Button(
buttonframe,
text='Step',
background='#90c0d0',
foreground='black',
command=self.step,
).pack(side='left')
Button(
buttonframe,
text='Autostep',
background='#90c0d0',
foreground='black',
command=self.autostep,
).pack(side='left')
Button(buttonframe,
text='Expand',
underline=0,
background='#90f090',
foreground='black',
command=self.expand).pack(side='left')
Button(buttonframe,
text='Match',
underline=0,
background='#90f090',
foreground='black',
command=self.match).pack(side='left')
Button(buttonframe,
text='Backtrack',
underline=0,
background='#f0a0a0',
foreground='black',
command=self.backtrack).pack(side='left')
# Replace autostep...
# self._autostep_button = Button(buttonframe, text='Autostep',
# underline=0, command=self.autostep)
# self._autostep_button.pack(side='left')
def _configure(self, event):
self._autostep = 0
(x1, y1, x2, y2) = self._cframe.scrollregion()
y2 = event.height - 6
self._canvas['scrollregion'] = '%d %d %d %d' % (x1, y1, x2, y2)
self._redraw()
def _init_feedback(self, parent):
self._feedbackframe = feedbackframe = Frame(parent)
feedbackframe.pack(fill='x', side='bottom', padx=3, pady=3)
self._lastoper_label = Label(feedbackframe,
text='Last Operation:',
font=self._font)
self._lastoper_label.pack(side='left')
lastoperframe = Frame(feedbackframe, relief='sunken', border=1)
lastoperframe.pack(fill='x', side='right', expand=1, padx=5)
self._lastoper1 = Label(lastoperframe,
foreground='#007070',
background='#f0f0f0',
font=self._font)
self._lastoper2 = Label(lastoperframe,
anchor='w',
width=30,
foreground='#004040',
background='#f0f0f0',
font=self._font)
self._lastoper1.pack(side='left')
self._lastoper2.pack(side='left', fill='x', expand=1)
def _init_canvas(self, parent):
self._cframe = CanvasFrame(
parent,
background='white',
#width=525, height=250,
closeenough=10,
border=2,
relief='sunken')
self._cframe.pack(expand=1, fill='both', side='top', pady=2)
canvas = self._canvas = self._cframe.canvas()
# Initially, there's no tree or text
self._tree = None
self._textwidgets = []
self._textline = None
def _init_menubar(self, parent):
menubar = Menu(parent)
filemenu = Menu(menubar, tearoff=0)
filemenu.add_command(label='Reset Parser',
underline=0,
command=self.reset,
accelerator='Del')
filemenu.add_command(label='Print to Postscript',
underline=0,
command=self.postscript,
accelerator='Ctrl-p')
filemenu.add_command(label='Exit',
underline=1,
command=self.destroy,
accelerator='Ctrl-x')
menubar.add_cascade(label='File', underline=0, menu=filemenu)
editmenu = Menu(menubar, tearoff=0)
editmenu.add_command(label='Edit Grammar',
underline=5,
command=self.edit_grammar,
accelerator='Ctrl-g')
editmenu.add_command(label='Edit Text',
underline=5,
command=self.edit_sentence,
accelerator='Ctrl-t')
menubar.add_cascade(label='Edit', underline=0, menu=editmenu)
rulemenu = Menu(menubar, tearoff=0)
rulemenu.add_command(label='Step',
underline=1,
command=self.step,
accelerator='Space')
rulemenu.add_separator()
rulemenu.add_command(label='Match',
underline=0,
command=self.match,
accelerator='Ctrl-m')
rulemenu.add_command(label='Expand',
underline=0,
command=self.expand,
accelerator='Ctrl-e')
rulemenu.add_separator()
rulemenu.add_command(label='Backtrack',
underline=0,
command=self.backtrack,
accelerator='Ctrl-b')
menubar.add_cascade(label='Apply', underline=0, menu=rulemenu)
viewmenu = Menu(menubar, tearoff=0)
viewmenu.add_checkbutton(label="Show Grammar",
underline=0,
variable=self._show_grammar,
command=self._toggle_grammar)
viewmenu.add_separator()
viewmenu.add_radiobutton(label='Tiny',
variable=self._size,
underline=0,
value=10,
command=self.resize)
viewmenu.add_radiobutton(label='Small',
variable=self._size,
underline=0,
value=12,
command=self.resize)
viewmenu.add_radiobutton(label='Medium',
variable=self._size,
underline=0,
value=14,
command=self.resize)
viewmenu.add_radiobutton(label='Large',
variable=self._size,
underline=0,
value=18,
command=self.resize)
viewmenu.add_radiobutton(label='Huge',
variable=self._size,
underline=0,
value=24,
command=self.resize)
menubar.add_cascade(label='View', underline=0, menu=viewmenu)
animatemenu = Menu(menubar, tearoff=0)
animatemenu.add_radiobutton(label="No Animation",
underline=0,
variable=self._animation_frames,
value=0)
animatemenu.add_radiobutton(label="Slow Animation",
underline=0,
variable=self._animation_frames,
value=10,
accelerator='-')
animatemenu.add_radiobutton(label="Normal Animation",
underline=0,
variable=self._animation_frames,
value=5,
accelerator='=')
animatemenu.add_radiobutton(label="Fast Animation",
underline=0,
variable=self._animation_frames,
value=2,
accelerator='+')
menubar.add_cascade(label="Animate", underline=1, menu=animatemenu)
helpmenu = Menu(menubar, tearoff=0)
helpmenu.add_command(label='About', underline=0, command=self.about)
helpmenu.add_command(label='Instructions',
underline=0,
command=self.help,
accelerator='F1')
menubar.add_cascade(label='Help', underline=0, menu=helpmenu)
parent.config(menu=menubar)
#########################################
## Helper
#########################################
def _get(self, widget, treeloc):
for i in treeloc:
widget = widget.subtrees()[i]
if isinstance(widget, TreeSegmentWidget):
widget = widget.label()
return widget
#########################################
## Main draw procedure
#########################################
def _redraw(self):
canvas = self._canvas
# Delete the old tree, widgets, etc.
if self._tree is not None:
self._cframe.destroy_widget(self._tree)
for twidget in self._textwidgets:
self._cframe.destroy_widget(twidget)
if self._textline is not None:
self._canvas.delete(self._textline)
# Draw the tree.
helv = ('helvetica', -self._size.get())
bold = ('helvetica', -self._size.get(), 'bold')
attribs = {
'tree_color': '#000000',
'tree_width': 2,
'node_font': bold,
'leaf_font': helv,
}
tree = self._parser.tree()
self._tree = tree_to_treesegment(canvas, tree, **attribs)
self._cframe.add_widget(self._tree, 30, 5)
# Draw the text.
helv = ('helvetica', -self._size.get())
bottom = y = self._cframe.scrollregion()[3]
self._textwidgets = [
TextWidget(canvas, word, font=self._font) for word in self._sent
]
for twidget in self._textwidgets:
self._cframe.add_widget(twidget, 0, 0)
twidget.move(0, bottom - twidget.bbox()[3] - 5)
y = min(y, twidget.bbox()[1])
# Draw a line over the text, to separate it from the tree.
self._textline = canvas.create_line(-5000,
y - 5,
5000,
y - 5,
dash='.')
# Highlight appropriate nodes.
self._highlight_nodes()
self._highlight_prodlist()
# Make sure the text lines up.
self._position_text()
def _redraw_quick(self):
# This should be more-or-less sufficient after an animation.
self._highlight_nodes()
self._highlight_prodlist()
self._position_text()
def _highlight_nodes(self):
# Highlight the list of nodes to be checked.
bold = ('helvetica', -self._size.get(), 'bold')
for treeloc in self._parser.frontier()[:1]:
self._get(self._tree, treeloc)['color'] = '#20a050'
self._get(self._tree, treeloc)['font'] = bold
for treeloc in self._parser.frontier()[1:]:
self._get(self._tree, treeloc)['color'] = '#008080'
def _highlight_prodlist(self):
# Highlight the productions that can be expanded.
# Boy, too bad tkinter doesn't implement Listbox.itemconfig;
# that would be pretty useful here.
self._prodlist.delete(0, 'end')
expandable = self._parser.expandable_productions()
untried = self._parser.untried_expandable_productions()
productions = self._productions
for index in range(len(productions)):
if productions[index] in expandable:
if productions[index] in untried:
self._prodlist.insert(index, ' %s' % productions[index])
else:
self._prodlist.insert(index,
' %s (TRIED)' % productions[index])
self._prodlist.selection_set(index)
else:
self._prodlist.insert(index, ' %s' % productions[index])
def _position_text(self):
# Line up the text widgets that are matched against the tree
numwords = len(self._sent)
num_matched = numwords - len(self._parser.remaining_text())
leaves = self._tree_leaves()[:num_matched]
xmax = self._tree.bbox()[0]
for i in range(0, len(leaves)):
widget = self._textwidgets[i]
leaf = leaves[i]
widget['color'] = '#006040'
leaf['color'] = '#006040'
widget.move(leaf.bbox()[0] - widget.bbox()[0], 0)
xmax = widget.bbox()[2] + 10
# Line up the text widgets that are not matched against the tree.
for i in range(len(leaves), numwords):
widget = self._textwidgets[i]
widget['color'] = '#a0a0a0'
widget.move(xmax - widget.bbox()[0], 0)
xmax = widget.bbox()[2] + 10
# If we have a complete parse, make everything green :)
if self._parser.currently_complete():
for twidget in self._textwidgets:
twidget['color'] = '#00a000'
# Move the matched leaves down to the text.
for i in range(0, len(leaves)):
widget = self._textwidgets[i]
leaf = leaves[i]
dy = widget.bbox()[1] - leaf.bbox()[3] - 10.0
dy = max(dy, leaf.parent().label().bbox()[3] - leaf.bbox()[3] + 10)
leaf.move(0, dy)
def _tree_leaves(self, tree=None):
if tree is None: tree = self._tree
if isinstance(tree, TreeSegmentWidget):
leaves = []
for child in tree.subtrees():
leaves += self._tree_leaves(child)
return leaves
else:
return [tree]
#########################################
## Button Callbacks
#########################################
def destroy(self, *e):
self._autostep = 0
if self._top is None: return
self._top.destroy()
self._top = None
def reset(self, *e):
self._autostep = 0
self._parser.initialize(self._sent)
self._lastoper1['text'] = 'Reset Application'
self._lastoper2['text'] = ''
self._redraw()
def autostep(self, *e):
if self._animation_frames.get() == 0:
self._animation_frames.set(2)
if self._autostep:
self._autostep = 0
else:
self._autostep = 1
self._step()
def cancel_autostep(self, *e):
#self._autostep_button['text'] = 'Autostep'
self._autostep = 0
# Make sure to stop auto-stepping if we get any user input.
def step(self, *e):
self._autostep = 0
self._step()
def match(self, *e):
self._autostep = 0
self._match()
def expand(self, *e):
self._autostep = 0
self._expand()
def backtrack(self, *e):
self._autostep = 0
self._backtrack()
def _step(self):
if self._animating_lock: return
# Try expanding, matching, and backtracking (in that order)
if self._expand(): pass
elif self._parser.untried_match() and self._match(): pass
elif self._backtrack(): pass
else:
self._lastoper1['text'] = 'Finished'
self._lastoper2['text'] = ''
self._autostep = 0
# Check if we just completed a parse.
if self._parser.currently_complete():
self._autostep = 0
self._lastoper2['text'] += ' [COMPLETE PARSE]'
def _expand(self, *e):
if self._animating_lock: return
old_frontier = self._parser.frontier()
rv = self._parser.expand()
if rv is not None:
self._lastoper1['text'] = 'Expand:'
self._lastoper2['text'] = rv
self._prodlist.selection_clear(0, 'end')
index = self._productions.index(rv)
self._prodlist.selection_set(index)
self._animate_expand(old_frontier[0])
return True
else:
self._lastoper1['text'] = 'Expand:'
self._lastoper2['text'] = '(all expansions tried)'
return False
def _match(self, *e):
if self._animating_lock: return
old_frontier = self._parser.frontier()
rv = self._parser.match()
if rv is not None:
self._lastoper1['text'] = 'Match:'
self._lastoper2['text'] = rv
self._animate_match(old_frontier[0])
return True
else:
self._lastoper1['text'] = 'Match:'
self._lastoper2['text'] = '(failed)'
return False
def _backtrack(self, *e):
if self._animating_lock: return
if self._parser.backtrack():
elt = self._parser.tree()
for i in self._parser.frontier()[0]:
elt = elt[i]
self._lastoper1['text'] = 'Backtrack'
self._lastoper2['text'] = ''
if isinstance(elt, Tree):
self._animate_backtrack(self._parser.frontier()[0])
else:
self._animate_match_backtrack(self._parser.frontier()[0])
return True
else:
self._autostep = 0
self._lastoper1['text'] = 'Finished'
self._lastoper2['text'] = ''
return False
def about(self, *e):
ABOUT = ("NLTK Recursive Descent Parser Application\n" +
"Written by Edward Loper")
TITLE = 'About: Recursive Descent Parser Application'
try:
from tkinter.messagebox import Message
Message(message=ABOUT, title=TITLE).show()
except:
ShowText(self._top, TITLE, ABOUT)
def help(self, *e):
self._autostep = 0
# The default font's not very legible; try using 'fixed' instead.
try:
ShowText(self._top,
'Help: Recursive Descent Parser Application',
(__doc__ or '').strip(),
width=75,
font='fixed')
except:
ShowText(self._top,
'Help: Recursive Descent Parser Application',
(__doc__ or '').strip(),
width=75)
def postscript(self, *e):
self._autostep = 0
self._cframe.print_to_file()
def mainloop(self, *args, **kwargs):
"""
Enter the Tkinter mainloop. This function must be called if
this demo is created from a non-interactive program (e.g.
from a secript); otherwise, the demo will close as soon as
the script completes.
"""
if in_idle(): return
self._top.mainloop(*args, **kwargs)
def resize(self, size=None):
if size is not None: self._size.set(size)
size = self._size.get()
self._font.configure(size=-(abs(size)))
self._boldfont.configure(size=-(abs(size)))
self._sysfont.configure(size=-(abs(size)))
self._bigfont.configure(size=-(abs(size + 2)))
self._redraw()
#########################################
## Expand Production Selection
#########################################
def _toggle_grammar(self, *e):
if self._show_grammar.get():
self._prodframe.pack(fill='both',
side='left',
padx=2,
after=self._feedbackframe)
self._lastoper1['text'] = 'Show Grammar'
else:
self._prodframe.pack_forget()
self._lastoper1['text'] = 'Hide Grammar'
self._lastoper2['text'] = ''
# def toggle_grammar(self, *e):
# self._show_grammar = not self._show_grammar
# if self._show_grammar:
# self._prodframe.pack(fill='both', expand='y', side='left',
# after=self._feedbackframe)
# self._lastoper1['text'] = 'Show Grammar'
# else:
# self._prodframe.pack_forget()
# self._lastoper1['text'] = 'Hide Grammar'
# self._lastoper2['text'] = ''
def _prodlist_select(self, event):
selection = self._prodlist.curselection()
if len(selection) != 1: return
index = int(selection[0])
old_frontier = self._parser.frontier()
production = self._parser.expand(self._productions[index])
if production:
self._lastoper1['text'] = 'Expand:'
self._lastoper2['text'] = production
self._prodlist.selection_clear(0, 'end')
self._prodlist.selection_set(index)
self._animate_expand(old_frontier[0])
else:
# Reset the production selections.
self._prodlist.selection_clear(0, 'end')
for prod in self._parser.expandable_productions():
index = self._productions.index(prod)
self._prodlist.selection_set(index)
#########################################
## Animation
#########################################
def _animate_expand(self, treeloc):
oldwidget = self._get(self._tree, treeloc)
oldtree = oldwidget.parent()
top = not isinstance(oldtree.parent(), TreeSegmentWidget)
tree = self._parser.tree()
for i in treeloc:
tree = tree[i]
widget = tree_to_treesegment(self._canvas,
tree,
node_font=self._boldfont,
leaf_color='white',
tree_width=2,
tree_color='white',
node_color='white',
leaf_font=self._font)
widget.label()['color'] = '#20a050'
(oldx, oldy) = oldtree.label().bbox()[:2]
(newx, newy) = widget.label().bbox()[:2]
widget.move(oldx - newx, oldy - newy)
if top:
self._cframe.add_widget(widget, 0, 5)
widget.move(30 - widget.label().bbox()[0], 0)
self._tree = widget
else:
oldtree.parent().replace_child(oldtree, widget)
# Move the children over so they don't overlap.
# Line the children up in a strange way.
if widget.subtrees():
dx = (oldx + widget.label().width() / 2 -
widget.subtrees()[0].bbox()[0] / 2 -
widget.subtrees()[0].bbox()[2] / 2)
for subtree in widget.subtrees():
subtree.move(dx, 0)
self._makeroom(widget)
if top:
self._cframe.destroy_widget(oldtree)
else:
oldtree.destroy()
colors = [
'gray%d' % (10 * int(10 * x / self._animation_frames.get()))
for x in range(self._animation_frames.get(), 0, -1)
]
# Move the text string down, if necessary.
dy = widget.bbox()[3] + 30 - self._canvas.coords(self._textline)[1]
if dy > 0:
for twidget in self._textwidgets:
twidget.move(0, dy)
self._canvas.move(self._textline, 0, dy)
self._animate_expand_frame(widget, colors)
def _makeroom(self, treeseg):
"""
Make sure that no sibling tree bbox's overlap.
"""
parent = treeseg.parent()
if not isinstance(parent, TreeSegmentWidget): return
index = parent.subtrees().index(treeseg)
# Handle siblings to the right
rsiblings = parent.subtrees()[index + 1:]
if rsiblings:
dx = treeseg.bbox()[2] - rsiblings[0].bbox()[0] + 10
for sibling in rsiblings:
sibling.move(dx, 0)
# Handle siblings to the left
if index > 0:
lsibling = parent.subtrees()[index - 1]
dx = max(0, lsibling.bbox()[2] - treeseg.bbox()[0] + 10)
treeseg.move(dx, 0)
# Keep working up the tree.
self._makeroom(parent)
def _animate_expand_frame(self, widget, colors):
if len(colors) > 0:
self._animating_lock = 1
widget['color'] = colors[0]
for subtree in widget.subtrees():
if isinstance(subtree, TreeSegmentWidget):
subtree.label()['color'] = colors[0]
else:
subtree['color'] = colors[0]
self._top.after(50, self._animate_expand_frame, widget, colors[1:])
else:
widget['color'] = 'black'
for subtree in widget.subtrees():
if isinstance(subtree, TreeSegmentWidget):
subtree.label()['color'] = 'black'
else:
subtree['color'] = 'black'
self._redraw_quick()
widget.label()['color'] = 'black'
self._animating_lock = 0
if self._autostep: self._step()
def _animate_backtrack(self, treeloc):
# Flash red first, if we're animating.
if self._animation_frames.get() == 0: colors = []
else: colors = ['#a00000', '#000000', '#a00000']
colors += [
'gray%d' % (10 * int(10 * x / (self._animation_frames.get())))
for x in range(1,
self._animation_frames.get() + 1)
]
widgets = [self._get(self._tree, treeloc).parent()]
for subtree in widgets[0].subtrees():
if isinstance(subtree, TreeSegmentWidget):
widgets.append(subtree.label())
else:
widgets.append(subtree)
self._animate_backtrack_frame(widgets, colors)
def _animate_backtrack_frame(self, widgets, colors):
if len(colors) > 0:
self._animating_lock = 1
for widget in widgets:
widget['color'] = colors[0]
self._top.after(50, self._animate_backtrack_frame, widgets,
colors[1:])
else:
for widget in widgets[0].subtrees():
widgets[0].remove_child(widget)
widget.destroy()
self._redraw_quick()
self._animating_lock = 0
if self._autostep: self._step()
def _animate_match_backtrack(self, treeloc):
widget = self._get(self._tree, treeloc)
node = widget.parent().label()
dy = (1.0 * (node.bbox()[3] - widget.bbox()[1] + 14) /
max(1, self._animation_frames.get()))
self._animate_match_backtrack_frame(self._animation_frames.get(),
widget, dy)
def _animate_match(self, treeloc):
widget = self._get(self._tree, treeloc)
dy = ((self._textwidgets[0].bbox()[1] - widget.bbox()[3] - 10.0) /
max(1, self._animation_frames.get()))
self._animate_match_frame(self._animation_frames.get(), widget, dy)
def _animate_match_frame(self, frame, widget, dy):
if frame > 0:
self._animating_lock = 1
widget.move(0, dy)
self._top.after(10, self._animate_match_frame, frame - 1, widget,
dy)
else:
widget['color'] = '#006040'
self._redraw_quick()
self._animating_lock = 0
if self._autostep: self._step()
def _animate_match_backtrack_frame(self, frame, widget, dy):
if frame > 0:
self._animating_lock = 1
widget.move(0, dy)
self._top.after(10, self._animate_match_backtrack_frame, frame - 1,
widget, dy)
else:
widget.parent().remove_child(widget)
widget.destroy()
self._animating_lock = 0
if self._autostep: self._step()
def edit_grammar(self, *e):
CFGEditor(self._top, self._parser.grammar(), self.set_grammar)
def set_grammar(self, grammar):
self._parser.set_grammar(grammar)
self._productions = list(grammar.productions())
self._prodlist.delete(0, 'end')
for production in self._productions:
self._prodlist.insert('end', (' %s' % production))
def edit_sentence(self, *e):
sentence = " ".join(self._sent)
title = 'Edit Text'
instr = 'Enter a new sentence to parse.'
EntryDialog(self._top, sentence, instr, self.set_sentence, title)
def set_sentence(self, sentence):
self._sent = sentence.split() #[XX] use tagged?
self.reset()
class PredictionInputPanel(LabelFrame):
def __init__(self, parent, img_inputs, classifier, root, app):
self.img_inputs = img_inputs
self.classifier = classifier
LabelFrame.__init__(self,
parent,
text='Image Input/s',
padx=10,
pady=10,
labelanchor='nw')
self.pack(side=tk.LEFT, expand=False, fill=tk.BOTH)
self.btn_select_images = Button(self,
width=12,
text='Select Images',
command=self.select_images)
self.btn_select_images.grid(row=2, column=1, pady=5, sticky='e')
# Create scrollbars for image listbox (lb)
self.scrollbar_v_lb = Scrollbar(self, orient=tk.VERTICAL)
self.scrollbar_h_lb = Scrollbar(self, orient=tk.HORIZONTAL)
self.scrollbar_v_lb.grid(row=0, column=2, sticky='nws')
self.scrollbar_h_lb.grid(row=1, column=0, columnspan=2, sticky='wse')
# Display all images selected by user in a listbox
self.listbox = Listbox(self,
width=40,
height=15,
yscrollcommand=self.scrollbar_v_lb.set,
xscrollcommand=self.scrollbar_h_lb.set)
self.listbox.grid(row=0, column=0, columnspan=2)
# Create a label that displays '[count] image/s selected'
self.label_image_count = Label(self,
width=20,
padx=5,
pady=3,
text='No image selected.',
anchor='w',
borderwidth=2,
relief='ridge')
self.label_image_count.grid(row=2, column=0, sticky='w')
self.classifier.model_name.set(' No model selected.')
self.model_name_display = Entry(
self, textvariable=self.classifier.model_name, width=25)
self.btn_select_model = Button(
self,
text='Select Model',
width=12,
command=lambda: self.classifier.select_model(self))
self.btn_classify = Button(
self,
text='CLASSIFY',
width=35,
command=lambda: self.classifier.classify(root, app))
# Might transfer the first half of this method (actual image selection part) to a separate method inside ImageData Class
# ... and leave the 2nd half (display / view part) here
def select_images(self):
# Clear listbox and other lists everytime the user clicks the button and selects a new set of files
# ...to prevent duplicate images from being appended in the listbox
self.listbox.delete(0, tk.END)
self.img_inputs.selected_images.clear()
self.img_inputs.selected_images_paths.clear()
# fd.askopenfilenames() returns 'absolute' paths of the selected images. Save the paths in a list.
self.img_inputs.selected_images_paths = list(
fd.askopenfilenames(filetypes=(('jpeg files', '*.jpg'),
('png files', '*.png'))))
# Get directory of selected images
if len(self.img_inputs.selected_images_paths) > 0:
self.img_inputs.selected_images_dir = os.path.dirname(
self.img_inputs.selected_images_paths[0])
# Display filenames/paths of selected images in listbox
for image_path in self.img_inputs.selected_images_paths:
self.listbox.insert(tk.END, image_path)
# Extract just the file names from the absolue paths
for image_path in self.img_inputs.selected_images_paths:
filename = image_path[(len(self.img_inputs.selected_images_dir) +
1):]
self.img_inputs.selected_images.append(filename)
input_count = len(self.img_inputs.selected_images)
self.label_image_count.configure(text=str(input_count) +
' image/s selected.')
self.show_classification_widgets()
def show_classification_widgets(self):
self.model_name_display.grid(row=4, column=0, sticky='w')
self.btn_select_model.grid(row=4, column=1, sticky='e')
class MainAppController(Frame):
""" Main Application for GUI """
def __init__(self, parent):
""" Initialize Main Application """
Frame.__init__(self, parent)
# create a style object
style = Style()
style.configure('D.TButton', foreground='red3')
style.configure('R.TButton',
foreground='DodgerBlue4',
font=("TkTextFont", 9, 'bold'))
style.configure('B.TButton',
foreground='FireBrick4',
font=("TkTextFont", 9, 'bold'))
# Left frame, column 1
left_frame = Frame(master=self)
left_frame.grid(row=1, column=1, padx=30, pady=35, rowspan=3)
# Middle frame (info text, column 2)
middle_frame = Frame(master=self)
middle_frame.grid(row=1, column=2, padx=30, pady=35, rowspan=3)
# Right frame (statistics, column 3)
right_frame = Frame(master=self)
right_frame.grid(row=1, column=3, padx=30, pady=35, rowspan=2)
# LEFT FRAME WIDGET
Label(left_frame, text="Book ID",
font=("TkTextFont", 11)).grid(row=1, column=1, columnspan=3)
self._book_list = Listbox(left_frame,
height=10,
width=10,
font=("TkTextFont", 11),
bg='LightSalmon2')
self._book_list.grid(row=2, column=1)
self._book_list.configure(justify="center")
# Call this on select
self._book_list.bind("<<ListboxSelect>>", self._update_textbox)
# MIDDLE FRAME WIDGET
Label(middle_frame, text="Book Summary",
font=("TkTextFont", 11)).grid(row=1, column=2, columnspan=7)
self._info_text = Text(master=middle_frame,
height=10,
width=45,
font=("TkTextFont", 11),
bg='plum2')
self._info_text.grid(row=2, column=2, columnspan=7)
self._info_text.tag_configure("bold", font=("TkTextFont", 10, "bold"))
# RIGHT FRAME WIDGET
Label(right_frame, text="Book Statistics",
font=("TkTextFont", 11)).grid(row=1, column=1, columnspan=3)
self._book_stat = Text(master=right_frame,
height=10.5,
width=30,
font=("TkTextFont", 10),
bg='LightSalmon2')
self._book_stat.grid(row=2, column=1, rowspan=3)
self._book_stat.tag_configure("bold", font=("TkTextFont", 10, "bold"))
# Drop Down menu to add a book
self._add_var = StringVar(left_frame)
choices = ['eBook', 'Textbook']
OptionMenu(middle_frame, self._add_var, 'Select Type',
*choices).grid(row=3, column=2, pady=5, columnspan=4)
# Drop Down menu to update a book
self._update_var = StringVar(left_frame)
choices = ['eBook', 'Textbook']
OptionMenu(middle_frame, self._update_var, 'Select Type',
*choices).grid(row=3, column=3, pady=5, columnspan=7)
# A couple buttons - using TTK
Button(left_frame,
text="Delete Book",
width=13,
command=self._delete_book,
style='D.TButton').grid(row=3, column=1, pady=5)
Button(left_frame, text="Quit", width=13,
command=self._quit_callback).grid(row=4, column=1)
Button(middle_frame, text="Add Book", width=13,
command=self._add_book).grid(row=4, column=2, columnspan=4)
Button(middle_frame,
text="Update Book",
width=13,
command=self._update_book).grid(row=4, column=3, columnspan=7)
Button(right_frame,
text="Borrow Book",
width=13,
command=self._borrow_cb,
style='B.TButton').grid(row=5, column=1, pady=5)
Button(right_frame,
text="Return Book",
width=13,
command=self._return_cb,
style='R.TButton').grid(row=6, column=1)
# Now update the list and Statistics
self._update_book_list()
def _update_textbox(self, *args):
""" Updates the info text box on the right, based on the current ID selected """
# This is a list, so we take just the first item (could be multi select...)
try:
selected_index = self._book_list.curselection()[0]
except IndexError:
return None
book_id = self._book_list.get(selected_index)
# Make a GET request
r = requests.get(
f"http://localhost:5000/library_manager/book/{book_id}")
# Clear the text box
self._info_text.delete(1.0, tk.END)
# Check the request status code
if r.status_code != 200:
self._info_text.insert(tk.END, "Error running the request!")
# For every item (key, value) in the JSON response, display them:
for k, v in r.json().items():
self._info_text.insert(tk.END, f"{k.capitalize()}\t\t", "bold")
self._info_text.insert(tk.END, f"{v}\n")
self._update_book_stat()
def _update_book_list(self):
""" Update the List of Books """
r = requests.get("http://localhost:5000/library_manager/all")
self._book_list.delete(0, tk.END)
for s in r.json()["ebook"]:
self._book_list.insert(tk.END, '{:^}'.format(s['book_id']))
self._book_list.itemconfig(tk.END, {'fg': 'Blue4'})
if s['is_borrowed']:
self._book_list.itemconfig(tk.END, {'bg': 'khaki1'})
for s in r.json()["textbook"]:
self._book_list.insert(tk.END, '{:^}'.format(s['book_id']))
self._book_list.itemconfig(tk.END, {'fg': 'Brown4'})
if s['is_borrowed']:
self._book_list.itemconfig(tk.END, {'bg': 'khaki1'})
self._update_book_stat()
def _update_book_stat(self):
""" Update the List of Books """
r = requests.get("http://localhost:5000/library_manager/all/stats")
self._book_stat.delete(1.0, tk.END)
for k, v in r.json().items():
self._book_stat.insert(tk.END, f"{k}\t\t\t", "bold")
self._book_stat.insert(tk.END, f"{v}\n")
def _borrow_cb(self):
"""Borrow any book with the selected ID"""
if not self._book_list.curselection():
mb.showerror('Error : Item not selected', 'Please select a book.')
else:
selected_index = self._book_list.curselection()[0]
book_id = self._book_list.get(selected_index)
r = requests.get(
f"http://127.0.0.1:5000/library_manager/book/{book_id}")
if r.json()['is_borrowed']:
mb.showerror('Error : Bad selection',
'Book is already borrowed.')
else:
response = requests.put(
f"http://127.0.0.1:5000/library_manager/{book_id}/borrow")
if response.status_code == 200:
self._update_book_list()
def _return_cb(self):
"""Return any book with the selected ID to library"""
if not self._book_list.curselection():
mb.showerror('Error : Item not selected', 'Please select a book.')
else:
selected_index = self._book_list.curselection()[0]
book_id = self._book_list.get(selected_index)
r = requests.get(
f"http://127.0.0.1:5000/library_manager/book/{book_id}")
if not r.json()['is_borrowed']:
mb.showerror('Error : Bad selection',
'Book is already returned.')
else:
response = requests.put(
f"http://127.0.0.1:5000/library_manager/{book_id}/return_book"
)
if response.status_code == 200:
self._update_book_list()
def _add_ebook(self):
""" Add eBook Popup """
self._popup_win = tk.Toplevel()
self._popup = AddeBookPopup(self._popup_win, self._close_book_cb)
def _add_textbook(self):
""" Add Textbook Popup """
self._popup_win = tk.Toplevel()
self._popup = AddTextbookPopup(self._popup_win, self._close_book_cb)
def _add_book(self):
"""Redirect add book based on the type"""
if self._add_var.get() == 'eBook':
self._add_ebook()
elif self._add_var.get() == 'Textbook':
self._add_textbook()
else:
mb.showerror('Error : Type not selected', 'Please select a type.')
def _update_book(self):
"""Update eBook attributes"""
if self._update_var.get() == 'eBook':
self._update_ebook()
elif self._update_var.get() == 'Textbook':
self._update_textbook()
else:
mb.showerror('Error : Type not selected', 'Please select a type.')
def _update_ebook(self):
"""Update ebook attributes in the 'Book' database"""
if not self._book_list.curselection():
mb.showerror('Error : Book not selected', 'Please select a book.')
else:
selected_index = self._book_list.curselection()[0]
book_id = self._book_list.get(selected_index)
r = requests.get(
f"http://localhost:5000/library_manager/book/{book_id}")
if r.json()['type'] != 'ebook':
mb.showerror('Error : Invalid selection',
'Please select an ebook ID.')
else:
self._popup_win = tk.Toplevel()
self._popup = UpdateeBookPopup(self._popup_win, book_id,
self._close_book_cb)
self._update_book_list()
def _update_textbook(self):
"""Update textbook attributes in the 'Book' database"""
if not self._book_list.curselection():
mb.showerror('Error : Book not selected', 'Please select a book.')
else:
self._popup_win = tk.Toplevel()
selected_index = self._book_list.curselection()[0]
book_id = self._book_list.get(selected_index)
r = requests.get(
f"http://localhost:5000/library_manager/book/{book_id}")
if r.json()['type'] != 'textbook':
mb.showerror('Error : Invalid selection',
'Please select a textbook ID.')
else:
self._popup = UpdateTextbookPopup(self._popup_win, book_id,
self._close_book_cb)
self._update_book_list()
def _delete_book(self):
""" Delete book Popup """
self._popup_win = tk.Toplevel()
self._popup = DeleteBook(self._popup_win, self._close_book_cb)
def _close_book_cb(self):
""" Close Popup """
self._popup_win.destroy()
self._update_book_list()
def _quit_callback(self):
""" Quit """
self.quit()
class Searcher(Frame):
""" Keyword Searcher
This is a very simple python program, which is designed for finding specified key-word
in files. Just for fun!
"""
def __init__(self, master=None, cnf={}, **kwargs):
super(Searcher, self).__init__(master, cnf, **kwargs)
self._root_path_var = StringVar()
self._keyword_var = StringVar(self)
self._listbox = None
self._result_queue = None
self.pack(fill=BOTH, expand=YES, padx=5, pady=5)
self.make_widgets()
self._consumer()
# config for main window
self.master.title('Keyword Searcher')
def make_widgets(self):
frm1 = Frame(self)
frm1.pack(side=TOP, fill=X)
Entry(frm1, textvariable=self._root_path_var, font=DEFAULT_FONT).pack(side=LEFT, fill=X, expand=YES)
Button(frm1, text='Add directory', font=DEFAULT_FONT,
command=lambda: self._root_path_var.set(askdirectory(title='Add directory'))).pack(side=RIGHT)
frm2 = Frame(self)
frm2.pack(side=TOP, fill=X)
keyword_ent = Entry(frm2, textvariable=self._keyword_var, font=DEFAULT_FONT)
keyword_ent.pack(side=LEFT, fill=X, expand=YES)
Button(frm2, text='Find', font=DEFAULT_FONT, command=self.find).pack(side=RIGHT)
vs = Scrollbar(self)
hs = Scrollbar(self)
self._listbox = Listbox(self)
vs.pack(side=RIGHT, fill=Y)
vs.config(command=self._listbox.yview)
hs.pack(side=BOTTOM, fill=X)
hs.config(command=self._listbox.xview, orient='horizontal')
self._listbox.config(yscrollcommand=vs.set, xscrollcommand=hs.set,
font=DEFAULT_FONT)
self._listbox.pack(fill=BOTH, expand=YES)
self._listbox.bind('<Double-1>', self._navigate_to)
def find(self):
self._result_queue = queue.Queue()
self._listbox.delete('0', 'end')
Thread(target=self._find, args=(self._root_path_var.get(),
self._keyword_var.get()), daemon=True).start()
def _find(self, path, keyword):
if not os.path.exists(path):
return None
for this_dir, sub_dirs, files in os.walk(path):
for file in files:
file_type = guess_type(file)[0]
if file_type and 'text' in file_type:
fp = os.path.join(this_dir, file)
self._result_queue.put(fp) if keyword in open(fp).read() else None
def _consumer(self):
if self._result_queue:
try:
fp = self._result_queue.get(block=False)
except queue.Empty:
pass
else:
self._listbox.insert('end', fp)
# auto scroll.
self._listbox.yview('end')
self.after(100, self._consumer)
def _navigate_to(self, event):
"""
Only works on Ubuntu platform currently.
Double click to navigate to selected path.
It's a very convenient function.
:return: None
"""
print(event)
# get active item from listbox
path = self._listbox.get('active')
print(path)
# open nautilus with param path, before that, check your platform.
if 'ubuntu' in (os.popen('uname -a').read()).lower():
os.system('/usr/bin/nautilus {}'.format(path))
else:
pass
class RecursiveDescentApp(object):
"""
A graphical tool for exploring the recursive descent parser. The tool
displays the parser's tree and the remaining text, and allows the
user to control the parser's operation. In particular, the user
can expand subtrees on the frontier, match tokens on the frontier
against the text, and backtrack. A "step" button simply steps
through the parsing process, performing the operations that
``RecursiveDescentParser`` would use.
"""
def __init__(self, grammar, sent, trace=0):
self._sent = sent
self._parser = SteppingRecursiveDescentParser(grammar, trace)
# Set up the main window.
self._top = Tk()
self._top.title('Recursive Descent Parser Application')
# Set up key bindings.
self._init_bindings()
# Initialize the fonts.
self._init_fonts(self._top)
# Animations. animating_lock is a lock to prevent the demo
# from performing new operations while it's animating.
self._animation_frames = IntVar(self._top)
self._animation_frames.set(5)
self._animating_lock = 0
self._autostep = 0
# The user can hide the grammar.
self._show_grammar = IntVar(self._top)
self._show_grammar.set(1)
# Create the basic frames.
self._init_menubar(self._top)
self._init_buttons(self._top)
self._init_feedback(self._top)
self._init_grammar(self._top)
self._init_canvas(self._top)
# Initialize the parser.
self._parser.initialize(self._sent)
# Resize callback
self._canvas.bind('<Configure>', self._configure)
#########################################
## Initialization Helpers
#########################################
def _init_fonts(self, root):
# See: <http://www.astro.washington.edu/owen/ROTKFolklore.html>
self._sysfont = tkinter.font.Font(font=Button()["font"])
root.option_add("*Font", self._sysfont)
# TWhat's our font size (default=same as sysfont)
self._size = IntVar(root)
self._size.set(self._sysfont.cget('size'))
self._boldfont = tkinter.font.Font(family='helvetica', weight='bold',
size=self._size.get())
self._font = tkinter.font.Font(family='helvetica',
size=self._size.get())
if self._size.get() < 0: big = self._size.get()-2
else: big = self._size.get()+2
self._bigfont = tkinter.font.Font(family='helvetica', weight='bold',
size=big)
def _init_grammar(self, parent):
# Grammar view.
self._prodframe = listframe = Frame(parent)
self._prodframe.pack(fill='both', side='left', padx=2)
self._prodlist_label = Label(self._prodframe, font=self._boldfont,
text='Available Expansions')
self._prodlist_label.pack()
self._prodlist = Listbox(self._prodframe, selectmode='single',
relief='groove', background='white',
foreground='#909090', font=self._font,
selectforeground='#004040',
selectbackground='#c0f0c0')
self._prodlist.pack(side='right', fill='both', expand=1)
self._productions = list(self._parser.grammar().productions())
for production in self._productions:
self._prodlist.insert('end', (' %s' % production))
self._prodlist.config(height=min(len(self._productions), 25))
# Add a scrollbar if there are more than 25 productions.
if len(self._productions) > 25:
listscroll = Scrollbar(self._prodframe,
orient='vertical')
self._prodlist.config(yscrollcommand = listscroll.set)
listscroll.config(command=self._prodlist.yview)
listscroll.pack(side='left', fill='y')
# If they select a production, apply it.
self._prodlist.bind('<<ListboxSelect>>', self._prodlist_select)
def _init_bindings(self):
# Key bindings are a good thing.
self._top.bind('<Control-q>', self.destroy)
self._top.bind('<Control-x>', self.destroy)
self._top.bind('<Escape>', self.destroy)
self._top.bind('e', self.expand)
#self._top.bind('<Alt-e>', self.expand)
#self._top.bind('<Control-e>', self.expand)
self._top.bind('m', self.match)
self._top.bind('<Alt-m>', self.match)
self._top.bind('<Control-m>', self.match)
self._top.bind('b', self.backtrack)
self._top.bind('<Alt-b>', self.backtrack)
self._top.bind('<Control-b>', self.backtrack)
self._top.bind('<Control-z>', self.backtrack)
self._top.bind('<BackSpace>', self.backtrack)
self._top.bind('a', self.autostep)
#self._top.bind('<Control-a>', self.autostep)
self._top.bind('<Control-space>', self.autostep)
self._top.bind('<Control-c>', self.cancel_autostep)
self._top.bind('<space>', self.step)
self._top.bind('<Delete>', self.reset)
self._top.bind('<Control-p>', self.postscript)
#self._top.bind('<h>', self.help)
#self._top.bind('<Alt-h>', self.help)
self._top.bind('<Control-h>', self.help)
self._top.bind('<F1>', self.help)
#self._top.bind('<g>', self.toggle_grammar)
#self._top.bind('<Alt-g>', self.toggle_grammar)
#self._top.bind('<Control-g>', self.toggle_grammar)
self._top.bind('<Control-g>', self.edit_grammar)
self._top.bind('<Control-t>', self.edit_sentence)
def _init_buttons(self, parent):
# Set up the frames.
self._buttonframe = buttonframe = Frame(parent)
buttonframe.pack(fill='none', side='bottom', padx=3, pady=2)
Button(buttonframe, text='Step',
background='#90c0d0', foreground='black',
command=self.step,).pack(side='left')
Button(buttonframe, text='Autostep',
background='#90c0d0', foreground='black',
command=self.autostep,).pack(side='left')
Button(buttonframe, text='Expand', underline=0,
background='#90f090', foreground='black',
command=self.expand).pack(side='left')
Button(buttonframe, text='Match', underline=0,
background='#90f090', foreground='black',
command=self.match).pack(side='left')
Button(buttonframe, text='Backtrack', underline=0,
background='#f0a0a0', foreground='black',
command=self.backtrack).pack(side='left')
# Replace autostep...
# self._autostep_button = Button(buttonframe, text='Autostep',
# underline=0, command=self.autostep)
# self._autostep_button.pack(side='left')
def _configure(self, event):
self._autostep = 0
(x1, y1, x2, y2) = self._cframe.scrollregion()
y2 = event.height - 6
self._canvas['scrollregion'] = '%d %d %d %d' % (x1,y1,x2,y2)
self._redraw()
def _init_feedback(self, parent):
self._feedbackframe = feedbackframe = Frame(parent)
feedbackframe.pack(fill='x', side='bottom', padx=3, pady=3)
self._lastoper_label = Label(feedbackframe, text='Last Operation:',
font=self._font)
self._lastoper_label.pack(side='left')
lastoperframe = Frame(feedbackframe, relief='sunken', border=1)
lastoperframe.pack(fill='x', side='right', expand=1, padx=5)
self._lastoper1 = Label(lastoperframe, foreground='#007070',
background='#f0f0f0', font=self._font)
self._lastoper2 = Label(lastoperframe, anchor='w', width=30,
foreground='#004040', background='#f0f0f0',
font=self._font)
self._lastoper1.pack(side='left')
self._lastoper2.pack(side='left', fill='x', expand=1)
def _init_canvas(self, parent):
self._cframe = CanvasFrame(parent, background='white',
#width=525, height=250,
closeenough=10,
border=2, relief='sunken')
self._cframe.pack(expand=1, fill='both', side='top', pady=2)
canvas = self._canvas = self._cframe.canvas()
# Initially, there's no tree or text
self._tree = None
self._textwidgets = []
self._textline = None
def _init_menubar(self, parent):
menubar = Menu(parent)
filemenu = Menu(menubar, tearoff=0)
filemenu.add_command(label='Reset Parser', underline=0,
command=self.reset, accelerator='Del')
filemenu.add_command(label='Print to Postscript', underline=0,
command=self.postscript, accelerator='Ctrl-p')
filemenu.add_command(label='Exit', underline=1,
command=self.destroy, accelerator='Ctrl-x')
menubar.add_cascade(label='File', underline=0, menu=filemenu)
editmenu = Menu(menubar, tearoff=0)
editmenu.add_command(label='Edit Grammar', underline=5,
command=self.edit_grammar,
accelerator='Ctrl-g')
editmenu.add_command(label='Edit Text', underline=5,
command=self.edit_sentence,
accelerator='Ctrl-t')
menubar.add_cascade(label='Edit', underline=0, menu=editmenu)
rulemenu = Menu(menubar, tearoff=0)
rulemenu.add_command(label='Step', underline=1,
command=self.step, accelerator='Space')
rulemenu.add_separator()
rulemenu.add_command(label='Match', underline=0,
command=self.match, accelerator='Ctrl-m')
rulemenu.add_command(label='Expand', underline=0,
command=self.expand, accelerator='Ctrl-e')
rulemenu.add_separator()
rulemenu.add_command(label='Backtrack', underline=0,
command=self.backtrack, accelerator='Ctrl-b')
menubar.add_cascade(label='Apply', underline=0, menu=rulemenu)
viewmenu = Menu(menubar, tearoff=0)
viewmenu.add_checkbutton(label="Show Grammar", underline=0,
variable=self._show_grammar,
command=self._toggle_grammar)
viewmenu.add_separator()
viewmenu.add_radiobutton(label='Tiny', variable=self._size,
underline=0, value=10, command=self.resize)
viewmenu.add_radiobutton(label='Small', variable=self._size,
underline=0, value=12, command=self.resize)
viewmenu.add_radiobutton(label='Medium', variable=self._size,
underline=0, value=14, command=self.resize)
viewmenu.add_radiobutton(label='Large', variable=self._size,
underline=0, value=18, command=self.resize)
viewmenu.add_radiobutton(label='Huge', variable=self._size,
underline=0, value=24, command=self.resize)
menubar.add_cascade(label='View', underline=0, menu=viewmenu)
animatemenu = Menu(menubar, tearoff=0)
animatemenu.add_radiobutton(label="No Animation", underline=0,
variable=self._animation_frames,
value=0)
animatemenu.add_radiobutton(label="Slow Animation", underline=0,
variable=self._animation_frames,
value=10, accelerator='-')
animatemenu.add_radiobutton(label="Normal Animation", underline=0,
variable=self._animation_frames,
value=5, accelerator='=')
animatemenu.add_radiobutton(label="Fast Animation", underline=0,
variable=self._animation_frames,
value=2, accelerator='+')
menubar.add_cascade(label="Animate", underline=1, menu=animatemenu)
helpmenu = Menu(menubar, tearoff=0)
helpmenu.add_command(label='About', underline=0,
command=self.about)
helpmenu.add_command(label='Instructions', underline=0,
command=self.help, accelerator='F1')
menubar.add_cascade(label='Help', underline=0, menu=helpmenu)
parent.config(menu=menubar)
#########################################
## Helper
#########################################
def _get(self, widget, treeloc):
for i in treeloc: widget = widget.subtrees()[i]
if isinstance(widget, TreeSegmentWidget):
widget = widget.label()
return widget
#########################################
## Main draw procedure
#########################################
def _redraw(self):
canvas = self._canvas
# Delete the old tree, widgets, etc.
if self._tree is not None:
self._cframe.destroy_widget(self._tree)
for twidget in self._textwidgets:
self._cframe.destroy_widget(twidget)
if self._textline is not None:
self._canvas.delete(self._textline)
# Draw the tree.
helv = ('helvetica', -self._size.get())
bold = ('helvetica', -self._size.get(), 'bold')
attribs = {'tree_color': '#000000', 'tree_width': 2,
'node_font': bold, 'leaf_font': helv,}
tree = self._parser.tree()
self._tree = tree_to_treesegment(canvas, tree, **attribs)
self._cframe.add_widget(self._tree, 30, 5)
# Draw the text.
helv = ('helvetica', -self._size.get())
bottom = y = self._cframe.scrollregion()[3]
self._textwidgets = [TextWidget(canvas, word, font=self._font)
for word in self._sent]
for twidget in self._textwidgets:
self._cframe.add_widget(twidget, 0, 0)
twidget.move(0, bottom-twidget.bbox()[3]-5)
y = min(y, twidget.bbox()[1])
# Draw a line over the text, to separate it from the tree.
self._textline = canvas.create_line(-5000, y-5, 5000, y-5, dash='.')
# Highlight appropriate nodes.
self._highlight_nodes()
self._highlight_prodlist()
# Make sure the text lines up.
self._position_text()
def _redraw_quick(self):
# This should be more-or-less sufficient after an animation.
self._highlight_nodes()
self._highlight_prodlist()
self._position_text()
def _highlight_nodes(self):
# Highlight the list of nodes to be checked.
bold = ('helvetica', -self._size.get(), 'bold')
for treeloc in self._parser.frontier()[:1]:
self._get(self._tree, treeloc)['color'] = '#20a050'
self._get(self._tree, treeloc)['font'] = bold
for treeloc in self._parser.frontier()[1:]:
self._get(self._tree, treeloc)['color'] = '#008080'
def _highlight_prodlist(self):
# Highlight the productions that can be expanded.
# Boy, too bad tkinter doesn't implement Listbox.itemconfig;
# that would be pretty useful here.
self._prodlist.delete(0, 'end')
expandable = self._parser.expandable_productions()
untried = self._parser.untried_expandable_productions()
productions = self._productions
for index in range(len(productions)):
if productions[index] in expandable:
if productions[index] in untried:
self._prodlist.insert(index, ' %s' % productions[index])
else:
self._prodlist.insert(index, ' %s (TRIED)' %
productions[index])
self._prodlist.selection_set(index)
else:
self._prodlist.insert(index, ' %s' % productions[index])
def _position_text(self):
# Line up the text widgets that are matched against the tree
numwords = len(self._sent)
num_matched = numwords - len(self._parser.remaining_text())
leaves = self._tree_leaves()[:num_matched]
xmax = self._tree.bbox()[0]
for i in range(0, len(leaves)):
widget = self._textwidgets[i]
leaf = leaves[i]
widget['color'] = '#006040'
leaf['color'] = '#006040'
widget.move(leaf.bbox()[0] - widget.bbox()[0], 0)
xmax = widget.bbox()[2] + 10
# Line up the text widgets that are not matched against the tree.
for i in range(len(leaves), numwords):
widget = self._textwidgets[i]
widget['color'] = '#a0a0a0'
widget.move(xmax - widget.bbox()[0], 0)
xmax = widget.bbox()[2] + 10
# If we have a complete parse, make everything green :)
if self._parser.currently_complete():
for twidget in self._textwidgets:
twidget['color'] = '#00a000'
# Move the matched leaves down to the text.
for i in range(0, len(leaves)):
widget = self._textwidgets[i]
leaf = leaves[i]
dy = widget.bbox()[1] - leaf.bbox()[3] - 10.0
dy = max(dy, leaf.parent().label().bbox()[3] - leaf.bbox()[3] + 10)
leaf.move(0, dy)
def _tree_leaves(self, tree=None):
if tree is None: tree = self._tree
if isinstance(tree, TreeSegmentWidget):
leaves = []
for child in tree.subtrees(): leaves += self._tree_leaves(child)
return leaves
else:
return [tree]
#########################################
## Button Callbacks
#########################################
def destroy(self, *e):
self._autostep = 0
if self._top is None: return
self._top.destroy()
self._top = None
def reset(self, *e):
self._autostep = 0
self._parser.initialize(self._sent)
self._lastoper1['text'] = 'Reset Application'
self._lastoper2['text'] = ''
self._redraw()
def autostep(self, *e):
if self._animation_frames.get() == 0:
self._animation_frames.set(2)
if self._autostep:
self._autostep = 0
else:
self._autostep = 1
self._step()
def cancel_autostep(self, *e):
#self._autostep_button['text'] = 'Autostep'
self._autostep = 0
# Make sure to stop auto-stepping if we get any user input.
def step(self, *e): self._autostep = 0; self._step()
def match(self, *e): self._autostep = 0; self._match()
def expand(self, *e): self._autostep = 0; self._expand()
def backtrack(self, *e): self._autostep = 0; self._backtrack()
def _step(self):
if self._animating_lock: return
# Try expanding, matching, and backtracking (in that order)
if self._expand(): pass
elif self._parser.untried_match() and self._match(): pass
elif self._backtrack(): pass
else:
self._lastoper1['text'] = 'Finished'
self._lastoper2['text'] = ''
self._autostep = 0
# Check if we just completed a parse.
if self._parser.currently_complete():
self._autostep = 0
self._lastoper2['text'] += ' [COMPLETE PARSE]'
def _expand(self, *e):
if self._animating_lock: return
old_frontier = self._parser.frontier()
rv = self._parser.expand()
if rv is not None:
self._lastoper1['text'] = 'Expand:'
self._lastoper2['text'] = rv
self._prodlist.selection_clear(0, 'end')
index = self._productions.index(rv)
self._prodlist.selection_set(index)
self._animate_expand(old_frontier[0])
return 1
else:
self._lastoper1['text'] = 'Expand:'
self._lastoper2['text'] = '(all expansions tried)'
return 0
def _match(self, *e):
if self._animating_lock: return
old_frontier = self._parser.frontier()
rv = self._parser.match()
if rv is not None:
self._lastoper1['text'] = 'Match:'
self._lastoper2['text'] = rv
self._animate_match(old_frontier[0])
return 1
else:
self._lastoper1['text'] = 'Match:'
self._lastoper2['text'] = '(failed)'
return 0
def _backtrack(self, *e):
if self._animating_lock: return
if self._parser.backtrack():
elt = self._parser.tree()
for i in self._parser.frontier()[0]:
elt = elt[i]
self._lastoper1['text'] = 'Backtrack'
self._lastoper2['text'] = ''
if isinstance(elt, Tree):
self._animate_backtrack(self._parser.frontier()[0])
else:
self._animate_match_backtrack(self._parser.frontier()[0])
return 1
else:
self._autostep = 0
self._lastoper1['text'] = 'Finished'
self._lastoper2['text'] = ''
return 0
def about(self, *e):
ABOUT = ("NLTK Recursive Descent Parser Application\n"+
"Written by Edward Loper")
TITLE = 'About: Recursive Descent Parser Application'
try:
from tkinter.messagebox import Message
Message(message=ABOUT, title=TITLE).show()
except:
ShowText(self._top, TITLE, ABOUT)
def help(self, *e):
self._autostep = 0
# The default font's not very legible; try using 'fixed' instead.
try:
ShowText(self._top, 'Help: Recursive Descent Parser Application',
(__doc__ or '').strip(), width=75, font='fixed')
except:
ShowText(self._top, 'Help: Recursive Descent Parser Application',
(__doc__ or '').strip(), width=75)
def postscript(self, *e):
self._autostep = 0
self._cframe.print_to_file()
def mainloop(self, *args, **kwargs):
"""
Enter the Tkinter mainloop. This function must be called if
this demo is created from a non-interactive program (e.g.
from a secript); otherwise, the demo will close as soon as
the script completes.
"""
if in_idle(): return
self._top.mainloop(*args, **kwargs)
def resize(self, size=None):
if size is not None: self._size.set(size)
size = self._size.get()
self._font.configure(size=-(abs(size)))
self._boldfont.configure(size=-(abs(size)))
self._sysfont.configure(size=-(abs(size)))
self._bigfont.configure(size=-(abs(size+2)))
self._redraw()
#########################################
## Expand Production Selection
#########################################
def _toggle_grammar(self, *e):
if self._show_grammar.get():
self._prodframe.pack(fill='both', side='left', padx=2,
after=self._feedbackframe)
self._lastoper1['text'] = 'Show Grammar'
else:
self._prodframe.pack_forget()
self._lastoper1['text'] = 'Hide Grammar'
self._lastoper2['text'] = ''
# def toggle_grammar(self, *e):
# self._show_grammar = not self._show_grammar
# if self._show_grammar:
# self._prodframe.pack(fill='both', expand='y', side='left',
# after=self._feedbackframe)
# self._lastoper1['text'] = 'Show Grammar'
# else:
# self._prodframe.pack_forget()
# self._lastoper1['text'] = 'Hide Grammar'
# self._lastoper2['text'] = ''
def _prodlist_select(self, event):
selection = self._prodlist.curselection()
if len(selection) != 1: return
index = int(selection[0])
old_frontier = self._parser.frontier()
production = self._parser.expand(self._productions[index])
if production:
self._lastoper1['text'] = 'Expand:'
self._lastoper2['text'] = production
self._prodlist.selection_clear(0, 'end')
self._prodlist.selection_set(index)
self._animate_expand(old_frontier[0])
else:
# Reset the production selections.
self._prodlist.selection_clear(0, 'end')
for prod in self._parser.expandable_productions():
index = self._productions.index(prod)
self._prodlist.selection_set(index)
#########################################
## Animation
#########################################
def _animate_expand(self, treeloc):
oldwidget = self._get(self._tree, treeloc)
oldtree = oldwidget.parent()
top = not isinstance(oldtree.parent(), TreeSegmentWidget)
tree = self._parser.tree()
for i in treeloc:
tree = tree[i]
widget = tree_to_treesegment(self._canvas, tree,
node_font=self._boldfont,
leaf_color='white',
tree_width=2, tree_color='white',
node_color='white',
leaf_font=self._font)
widget.label()['color'] = '#20a050'
(oldx, oldy) = oldtree.label().bbox()[:2]
(newx, newy) = widget.label().bbox()[:2]
widget.move(oldx-newx, oldy-newy)
if top:
self._cframe.add_widget(widget, 0, 5)
widget.move(30-widget.label().bbox()[0], 0)
self._tree = widget
else:
oldtree.parent().replace_child(oldtree, widget)
# Move the children over so they don't overlap.
# Line the children up in a strange way.
if widget.subtrees():
dx = (oldx + widget.label().width()/2 -
widget.subtrees()[0].bbox()[0]/2 -
widget.subtrees()[0].bbox()[2]/2)
for subtree in widget.subtrees(): subtree.move(dx, 0)
self._makeroom(widget)
if top:
self._cframe.destroy_widget(oldtree)
else:
oldtree.destroy()
colors = ['gray%d' % (10*int(10*x/self._animation_frames.get()))
for x in range(self._animation_frames.get(),0,-1)]
# Move the text string down, if necessary.
dy = widget.bbox()[3] + 30 - self._canvas.coords(self._textline)[1]
if dy > 0:
for twidget in self._textwidgets: twidget.move(0, dy)
self._canvas.move(self._textline, 0, dy)
self._animate_expand_frame(widget, colors)
def _makeroom(self, treeseg):
"""
Make sure that no sibling tree bbox's overlap.
"""
parent = treeseg.parent()
if not isinstance(parent, TreeSegmentWidget): return
index = parent.subtrees().index(treeseg)
# Handle siblings to the right
rsiblings = parent.subtrees()[index+1:]
if rsiblings:
dx = treeseg.bbox()[2] - rsiblings[0].bbox()[0] + 10
for sibling in rsiblings: sibling.move(dx, 0)
# Handle siblings to the left
if index > 0:
lsibling = parent.subtrees()[index-1]
dx = max(0, lsibling.bbox()[2] - treeseg.bbox()[0] + 10)
treeseg.move(dx, 0)
# Keep working up the tree.
self._makeroom(parent)
def _animate_expand_frame(self, widget, colors):
if len(colors) > 0:
self._animating_lock = 1
widget['color'] = colors[0]
for subtree in widget.subtrees():
if isinstance(subtree, TreeSegmentWidget):
subtree.label()['color'] = colors[0]
else:
subtree['color'] = colors[0]
self._top.after(50, self._animate_expand_frame,
widget, colors[1:])
else:
widget['color'] = 'black'
for subtree in widget.subtrees():
if isinstance(subtree, TreeSegmentWidget):
subtree.label()['color'] = 'black'
else:
subtree['color'] = 'black'
self._redraw_quick()
widget.label()['color'] = 'black'
self._animating_lock = 0
if self._autostep: self._step()
def _animate_backtrack(self, treeloc):
# Flash red first, if we're animating.
if self._animation_frames.get() == 0: colors = []
else: colors = ['#a00000', '#000000', '#a00000']
colors += ['gray%d' % (10*int(10*x/(self._animation_frames.get())))
for x in range(1, self._animation_frames.get()+1)]
widgets = [self._get(self._tree, treeloc).parent()]
for subtree in widgets[0].subtrees():
if isinstance(subtree, TreeSegmentWidget):
widgets.append(subtree.label())
else:
widgets.append(subtree)
self._animate_backtrack_frame(widgets, colors)
def _animate_backtrack_frame(self, widgets, colors):
if len(colors) > 0:
self._animating_lock = 1
for widget in widgets: widget['color'] = colors[0]
self._top.after(50, self._animate_backtrack_frame,
widgets, colors[1:])
else:
for widget in widgets[0].subtrees():
widgets[0].remove_child(widget)
widget.destroy()
self._redraw_quick()
self._animating_lock = 0
if self._autostep: self._step()
def _animate_match_backtrack(self, treeloc):
widget = self._get(self._tree, treeloc)
node = widget.parent().label()
dy = (1.0 * (node.bbox()[3] - widget.bbox()[1] + 14) /
max(1, self._animation_frames.get()))
self._animate_match_backtrack_frame(self._animation_frames.get(),
widget, dy)
def _animate_match(self, treeloc):
widget = self._get(self._tree, treeloc)
dy = ((self._textwidgets[0].bbox()[1] - widget.bbox()[3] - 10.0) /
max(1, self._animation_frames.get()))
self._animate_match_frame(self._animation_frames.get(), widget, dy)
def _animate_match_frame(self, frame, widget, dy):
if frame > 0:
self._animating_lock = 1
widget.move(0, dy)
self._top.after(10, self._animate_match_frame,
frame-1, widget, dy)
else:
widget['color'] = '#006040'
self._redraw_quick()
self._animating_lock = 0
if self._autostep: self._step()
def _animate_match_backtrack_frame(self, frame, widget, dy):
if frame > 0:
self._animating_lock = 1
widget.move(0, dy)
self._top.after(10, self._animate_match_backtrack_frame,
frame-1, widget, dy)
else:
widget.parent().remove_child(widget)
widget.destroy()
self._animating_lock = 0
if self._autostep: self._step()
def edit_grammar(self, *e):
CFGEditor(self._top, self._parser.grammar(), self.set_grammar)
def set_grammar(self, grammar):
self._parser.set_grammar(grammar)
self._productions = list(grammar.productions())
self._prodlist.delete(0, 'end')
for production in self._productions:
self._prodlist.insert('end', (' %s' % production))
def edit_sentence(self, *e):
sentence = " ".join(self._sent)
title = 'Edit Text'
instr = 'Enter a new sentence to parse.'
EntryDialog(self._top, sentence, instr, self.set_sentence, title)
def set_sentence(self, sentence):
self._sent = sentence.split() #[XX] use tagged?
self.reset()
class SpeciesListDialog:
def __init__(self, parent):
self.parent = parent
self.gui = Toplevel(parent.guiRoot)
self.gui.grab_set()
self.gui.focus()
self.gui.columnconfigure(0, weight=1)
self.gui.rowconfigure(1, weight=1)
Label(self.gui, text="Registered Species:").grid(row=0, column=0, pady=5, padx=5, sticky="w")
self.listRegisteredSpecies = Listbox(self.gui, width=70)
self.buttonAdd = Button(self.gui, text=" + ")
self.buttonDel = Button(self.gui, text=" - ")
self.listRegisteredSpecies.grid(row=1, column=0, columnspan=3, sticky="nswe", pady=5, padx=5)
self.buttonAdd.grid(row=2, column=1, pady=5, padx=5)
self.buttonDel.grid(row=2, column=2, pady=5, padx=5)
# Set (minimum + max) Window size
self.gui.update()
self.gui.minsize(self.gui.winfo_width(), self.gui.winfo_height())
# self.gui.maxsize(self.gui.winfo_width(), self.gui.winfo_height())
self.actionUpdate(None)
self.gui.bind("<<Update>>", self.actionUpdate)
self.gui.protocol("WM_DELETE_WINDOW", self.actionClose)
self.buttonDel.bind("<ButtonRelease>", self.actionDel)
self.buttonAdd.bind("<ButtonRelease>", self.actionAdd)
self.gui.mainloop()
def actionClose(self):
self.parent.guiRoot.event_generate("<<Update>>", when="tail")
self.gui.destroy()
def actionUpdate(self, event):
self.listRegisteredSpecies.delete(0, "end")
for (taxid, name) in self.parent.optimizer.speciesList:
self.listRegisteredSpecies.insert("end", taxid + ": " + name)
def actionDel(self, event):
try:
selection = self.listRegisteredSpecies.selection_get()
selectionSplit = selection.split(": ")
self.parent.optimizer.speciesList.remove((selectionSplit[0], selectionSplit[1]))
self.gui.event_generate("<<Update>>")
except tkinter.TclError:
# no selection
pass
def actionAdd(self, Event):
SpeciesSearchDialog(self.parent, self)
