class TestWindow(Tk):
def __init__(self):
super().__init__()
# Set the window parameters
self.wm_title("Test Window")
self.wm_geometry("800x600")
self._nb = Notebook(self)
self._nb.pack(fill=BOTH, expand=1)
# Add the ScrollableTreeview
self.STV = ScrollableTreeview(
self._nb,
columns=('first','second'),
headers={
'#0':'Default',
'first':{'text':'First'},
'second':{'text':'Second'}
}
)
self._nb.add(self.STV, text="Scrollable Treeview")
iid = self.STV.insert('', 'end', text='Root Node')
self.STV.insert(iid, 'end', text='Child 1')
self.STV.insert(iid, 'end', text='Child 2')
def __init__(self, *args, **kwargs):
super().__init__(*args, **kwargs)
tool_tabs = Notebook(self.tk_object)
tool_tabs.pack(fill='x')
with self.attribute_lock:
self._tool_tabs = tool_tabs
self.window_manager = WindowManager()
class SettingsPopup(Toplevel):
def __init__(self,parent):
Toplevel.__init__(self)
self.transient(parent)
self.focus()
sw = parent.winfo_screenwidth()
sh = parent.winfo_screenheight()
self.geometry('%dx%d+%d+%d' % (sw/2, sh/2, sw/4, sh/4))
self.grab_set()
self.title("Settings")
self.modeNotebook = Notebook(self)
self.modeNotebook.pack(fill=BOTH, expand=True)
self.addFrame = AddSettingsFrame(self.modeNotebook, self)
self.addFrame.pack(fill=BOTH, expand=True)
self.editFrame = EditSettingsFrame(self.modeNotebook, self)
self.editFrame.pack(fill=BOTH, expand=True)
self.deleteFrame = DeleteSettingsFrame(self.modeNotebook, self)
self.deleteFrame.pack(fill=BOTH, expand=True)
self.modeNotebook.add(self.addFrame, text='Add')
self.modeNotebook.add(self.editFrame, text='Edit')
self.modeNotebook.add(self.deleteFrame, text='Delete')
self.addFrame.setupFrame()
self.editFrame.setupFrame()
self.wait_window()
class FinalPlotFrame(AbstractTabFrame):
"""View final plots, move labels and manage footnotes"""
def __init__(self, parent, handler, next_frame):
super().__init__(parent, "Final Plots", handler, next_frame)
self.canvasnotebook = Notebook(self)
self.peakloadframe = PeakLoadFrame(self.canvasnotebook)
self.canvasnotebook.add(self.peakloadframe, text="Peak Load")
self.utsframe = UTSFrame(self.canvasnotebook)
self.canvasnotebook.add(self.utsframe, text="Yield Stren/UTS")
self.yieldloadframe = YieldLoadFrame(self.canvasnotebook)
self.canvasnotebook.add(self.yieldloadframe, text="Yield Load")
self.build()
def can_update(self):
s = self._proj_handle.curr_sample
return s.is_complete
def content_update(self):
s = self._proj_handle.curr_sample
self.peakloadframe.set_sample(s)
self.utsframe.set_sample(s)
self.yieldloadframe.set_sample(s)
def unload(self):
s = self._proj_handle.curr_sample
project = self._proj_handle.project
pdf_dir = project.pdf_dir
info_file = "{}temp/S{}_INFO.pdf".format(pdf_dir, s.num)
generate_sample_layer(s, info_file)
pl_file = "{}temp/S{}_PL.pdf".format(pdf_dir, s.num)
self.peakloadframe.canvas.figure.savefig(pl_file)
create_pdf(info_file, project.template_file, pl_file, pdf_dir+"Sample #{} (PeakLoad).pdf".format(s.num))
uts_file = "{}temp/S{}_UTS.pdf".format(pdf_dir, s.num)
self.utsframe.canvas.figure.savefig(uts_file)
create_pdf(info_file, project.template_file, uts_file, pdf_dir+"Sample #{} (UTS).pdf".format(s.num))
yl_file = "{}temp/S{}_YL.pdf".format(pdf_dir, s.num)
self.yieldloadframe.canvas.figure.savefig(yl_file)
create_pdf(info_file, project.template_file, yl_file, pdf_dir+"Sample #{} (YieldLoad).pdf".format(s.num))
messagebox.showinfo(title="Success",message="Created 3 files in {}".format(pdf_dir))
def build(self):
self.canvasnotebook.pack()
Button(self, text="Generate PDFs", command=self.on_next, font=GUI_FONT).pack(side=RIGHT)
class OptionsFrame(Frame):
def __init__(self, master):
super(OptionsFrame, self).__init__(master)
self.master = master
self.notebook = Notebook(self)
self.notebook.pack()
self.f1 = Frame(self.notebook)
self.notebook.add(self.f1, text='F1')
self.quit_button = Button(self.f1,
text='Quit',
width=25,
command=self._close_windows)
self.quit_button.pack()
self.f1.pack()
self.pack()
def _close_windows(self):
self.master.destroy()
class Main:
def __init__(self):
self.nb = Notebook(rootWindow)
self.nb.pack()
database = Database('Timesheet2.db')
clock_frame = tkinter.Frame(self.nb)
self.nb.add(clock_frame, text='Clock in')
display_frame = tkinter.Frame(self.nb)
self.nb.add(display_frame, text='Display hours')
alter_frame = tkinter.Frame(self.nb)
self.nb.add(alter_frame, text='Alter hours')
display_sheet = DisplayGrid(display_frame, database)
alter_sheet = AlterHours(alter_frame, database)
clock_in = Timestamp(clock_frame, database)
class menu():
def __init__(self, main_menu, gemroc_handler, main_menu_istance):
self.error_window_main = Toplevel(main_menu)
self.error_window_main.wm_title("Noise and thresholds")
self.tabControl = Notebook(
self.error_window_main) # Create Tab Control
self.rate_tab = noise_rate_measure(self.error_window_main,
gemroc_handler, self.tabControl,
main_menu_istance)
self.rate_tab._insert("All system")
self.rate_tab._init_windows()
self.error_window_main.protocol("WM_DELETE_WINDOW",
self.rate_tab.close_stopping)
self.tabControl.pack(expand=1, fill="both") # Pack to make visible
def _delete_window(self):
self.main_menu_istance.run_control_Button.config(state='normal')
self.main_menu_istance.doing_something = False
self.error_window_main.destroy()
class GUI(Frame):
def __init__(self, master=None):
super().__init__(master)
self.master = master
self.pack()
self.create_frames()
self.master.title("Tk with Pandas Plot test")
def create_frames(self):
self.tabs = Notebook(self)
self.tabs.pack()
self.home_frame = HomeFrame(self.tabs)
self.tabs.add(self.home_frame, text='Home')
self.tabs.select(self.home_frame)
self.tabs.enable_traversal()
def start(self):
self.master.mainloop()
def init_tabs(self):
"""Creating Tabs : Dice, Map, Encounters, Treasure"""
tab_bar = Notebook(self)
tab_bar.pack(fill=BOTH, padx=2, pady=3)
#Dice
self.tab_dice = DiceTab(tab_bar)
tab_bar.add(self.tab_dice, text="Dice")
#Map
self.tab_map = MapTab(tab_bar)
tab_bar.add(self.tab_map, text="Map")
#Encounters
self.tab_encounters = EncountersTab(tab_bar)
tab_bar.add(self.tab_encounters, text="Encounters")
#Treasure
self.tab_treasure = TreasureTab(tab_bar)
tab_bar.add(self.tab_treasure, text="Treasure")
#Character Sheet
self.tab_character_sheet = CharacterSheetTab(tab_bar)
tab_bar.add(self.tab_character_sheet, text="Character Sheet")
#Disease Generator
self.tab_disease = DiseaseTab(tab_bar)
tab_bar.add(self.tab_disease, text="Disease")
class OptionsFrame(Frame):
def __init__(self, master):
super(OptionsFrame, self).__init__(master)
self.master = master
self.notebook = Notebook(self)
self.notebook.pack()
self.f1 = Frame(self.notebook)
self.notebook.add(self.f1, text='F1')
self.quit_button = Button(
self.f1,
text='Quit',
width=25,
command=self._close_windows)
self.quit_button.pack()
self.f1.pack()
self.pack()
def _close_windows(self):
self.master.destroy()
def ui():
w = 0
c = 0
k = 0
root = Tk()
root.title("Product Details")
root.geometry("700x450+0+0")
frame2 = Frame(root)
frame2.pack(fill="both")
tablayout = Notebook(frame2)
tab1 = Frame(tablayout)
tab1.pack(fill="both")
for w in range(1, r + 2):
newrow = customer.row_values(w)
k = 1
for c in newrow:
Label(tab1,
text=c,
width=15,
bg="white",
fg="black",
padx=3,
pady=3).grid(row=w, column=k, sticky="nsew", padx=1, pady=1)
# Entry(tab1, bg=c, width=10).grid(row=r,column=1)
k = k + 1
Label(tab1,
text="Total Amount",
width=15,
bg="white",
fg="black",
padx=3,
pady=3).grid(row=w + 1, column=k - 6, sticky="nsew", padx=1, pady=1)
Label(tab1, text=sum, width=15, bg="white", fg="black", padx=3,
pady=3).grid(row=w + 1, column=k - 5, sticky="nsew", padx=1, pady=1)
tablayout.add(tab1)
tablayout.pack(fill="both")
root.mainloop()
def Checkpoints():
global show
topic = ["No.","Room","Student Id","Name","Score"] #หัวตาราง
ptr = 0
show = Toplevel(root)
show.geometry("625x250+800+50")
show.title("Show Student list and score")
frame1 = Frame(show,bg='#FDF5E6')
frame1.pack(fill="both")
tablelayout = Notebook(frame1)
tab1 = Frame(tablelayout,bg='#FDF5E6')
tab1.pack(fill="both")
checker(show)
file=open("d:\\UserData\\STD_DATA.txt", "r")
many = file.read()
many = many.split(":")
j = len(many)
j = j//4
for row in range(0,j+1):
for column in range(0,5):
if row == 0:
label = Label(tab1,text=topic[column],bg="#FDF5E6",padx=3,pady=3)
label.grid(row=row,column=column,sticky="nsew",padx=1,pady=1)
tab1.grid_columnconfigure(column,weight=1)
elif column == 0:
label = Label(tab1,text=row,bg="white",padx=3,pady=3)
label.grid(row=row,column=column,sticky="nsew",padx=1,pady=1)
tab1.grid_columnconfigure(column,weight=1)
else:
label = Label(tab1,text=str(many[ptr]),bg="white",padx=3,pady=3)
label.grid(row=row,column=column,sticky="nsew",padx=1,pady=1)
tab1.grid_columnconfigure(column,weight=1)
ptr += 1
edit = Button(tab1,text="Edit",height=1,width=10,command=edit_tab,font=('supermarket'),bg='#FA8072')
edit.grid(row=j+1,column=4,sticky="E")
tablelayout.add(tab1,text="Student Data")
tablelayout.pack(fill="both")
def __init__(self):
self.tk = Tk()
self.tk.minsize(1000, 600)
self.tk.title('Прайс-мастер (версия 0.15)')
self.db = DataBase()
self.db.openData()
self.theme = Theme(self.tk)
self.theme.refresh()
self.vld = Validator(self.tk)
self.grd = Grider()
self.trn = Translater()
self.main_menu = Menu(self.tk)
self.tk.config(menu=self.main_menu)
self.pl_menu = Menu(self.main_menu, tearoff=0)
self.main_menu.add_cascade(label="Импорт/экспорт .pickle-файлов",
menu=self.pl_menu)
self.pl_menu.add_command(command=self.import_pm_template,
label="Обновить шаблон базы данных")
self.pl_menu.add_command(command=self.export_pm_data,
label="Экспорт прайс-листа")
nb = Notebook(self.tk)
self.prcTab = PriceTab(self)
self.debugXlsTab = DebugXlsTab(self)
self.importXlsTab = ImportXlsTab(self)
self.prcTab.reset()
nb.add(self.prcTab.frmTab, text='Прайс-лист')
nb.add(self.debugXlsTab.frmTab, text='Отладка .xls-файлов')
nb.add(self.importXlsTab.frmTab, text='Импорт .xls-файлов')
nb.pack(expand=True, fill='both')
self.tk.mainloop()
def _gui():
try:
from tkinter import Tk, ttk, filedialog, messagebox, StringVar, IntVar
from tkinter.ttk import Button, Entry, Frame, Label, LabelFrame, Notebook, Radiobutton, Style
except:
sys.exit("Unable to load tkinter. Aborting.")
def _check_single(): #check the input and accordingly give the output... for the f_single tab
if txt_f_single_entry.get()=="":
lbl_f_single_result.config(text="", style="TLabel")
elif check_afm(txt_f_single_entry.get()):
lbl_f_single_result.config(text="Έγκυρο ΑΦΜ.", style="valid.TLabel")
else:
lbl_f_single_result.config(text="Άκυρο ΑΦΜ.", style="invalid.TLabel")
def _select_input_file():
strv_f_file_input.set(filedialog.askopenfilename(title="Άνοιγμα αρχείου"))
if strv_f_file_input.get() != "" and strv_f_file_output.get() != "":
btn_f_file_submit.config(state="normal")
else: btn_f_file_submit.config(state="disabled")
#TODO a much better mechanism to enable / disable btn_f_file_submit is needed.
def _select_output_file():
strv_f_file_output.set(filedialog.asksaveasfilename(title="Αποθήκευση ως..."))
if strv_f_file_input.get() != "" and strv_f_file_output.get() != "":
btn_f_file_submit.config(state="normal")
else: btn_f_file_submit.config(state="disabled")
def _check_file():#TODO this could / should be merged with the TUI version...
input_filepath = strv_f_file_input.get()
output_filepath = strv_f_file_output.get()
filter_output = intvar_filter_sel.get()
try:
input_file = open(input_filepath, "r")
output_file = open(output_filepath, "w")
except:
messagebox.showerror(title="Σφάλμα", message="Αδυναμία διαχείρησης των αρχείων που ορίσατε.\n\nΠαρακαλώ επιβεβαιώστε πως το αρχείο με τα δεδομένα υπάρχει, πως έχετε δικαιώματα ανάγνωσης, και πως έχετε δικαιώματα εγγραφής στον κατάλογο εξαγωγής των αποτελεσμάτων.")
return
counter = {True:0, False:0}
for entry in input_file:
validation = check_afm(entry.strip())
counter[validation]+=1
if filter_output == 3 and validation == False:
output_file.write(entry)
elif filter_output == 2 and validation == True:
output_file.write(entry)
elif filter_output == 1:
output_file.write(entry.strip() + "\t" + str(validation) + "\n\r")
lbl_f_file_result.config(text="Σύνολο: "+str(counter[True]+counter[False])+"\nΈγκυρα: "+str(counter[True])+"\nΆκυρα: "+str(counter[False]))
#create the window
main_window = Tk()
main_window.title("Έλεγχος εγκυρότητας Α.Φ.Μ. (v 2.0)")
main_window.geometry("600x180")
main_window.minsize(600,180)
#fool arround with styling
style = ttk.Style()
style.configure("valid.TLabel", background="green")
style.configure("empty.TLabel", background="white")
style.configure("invalid.TLabel", background="red")
style.configure("TNotebook", padding = 10)
#create the Notebook
tabs = Notebook(main_window)
f_single = Frame(tabs)
f_file = Frame(tabs)
tabs.add(f_single, text="Μεμονομένα Α.Φ.Μ.")
tabs.add(f_file, text="Λίστα από αρχείο")#add state="disabled" prior to git push until ready
tabs.pack(anchor="nw")
#add some widgets in f_single tab
lbl_f_single_instructions = Label(f_single, text="Εισάγετε έναν ΑΦΜ για έλεγχο")
lbl_f_single_instructions.grid(column=0, row=0)
lbl_f_single_result = Label(f_single, text="", width=10, justify="center")
lbl_f_single_result.grid(column=1, row=0, rowspan=2, sticky="ewns")
txt_f_single_entry = Entry(f_single, width=11)
txt_f_single_entry.focus()
txt_f_single_entry.bind("<KeyRelease>", lambda e: _check_single() )
txt_f_single_entry.grid(column=0,row=1)
#btn_f_single_submit = Button(f_single, text="Έλεγχος", command=_check_single)
#btn_f_single_submit.grid(column=0,row=2)
#add some widgets in f_file tab
lbl_f_file_finput = Label(f_file, text="Άνοιγμα...")
lbl_f_file_finput.grid(column=0, row=0)
strv_f_file_input = StringVar()
txt_f_file_finput = Entry(f_file, textvariable = strv_f_file_input)
txt_f_file_finput.grid(column=1, row=0)
btn_f_file_finput = Button(f_file, text="...", width=3, command=_select_input_file)
btn_f_file_finput.grid(column=2, row=0, sticky="W")
lbl_f_file_foutput = Label(f_file, text="Αποθήκευση ως...")
lbl_f_file_foutput.grid(column=0, row=1)
strv_f_file_output = StringVar()
txt_f_file_foutput = Entry(f_file, textvariable = strv_f_file_output)
txt_f_file_foutput.grid(column=1, row=1)
btn_f_file_foutput = Button(f_file, text="...", width=3, command=_select_output_file)
btn_f_file_foutput.grid(column=2, row=1, sticky="W")
lf_filter = LabelFrame(f_file, text="Επιστροφή")
lf_filter.grid(column=3, row=0, rowspan=2, sticky="ewns")
intvar_filter_sel = IntVar()
rb_filter_all = Radiobutton(lf_filter, text="Όλων", variable=intvar_filter_sel, value=1) #TODO maybe add command
rb_filter_all.pack(anchor="w")
rb_filter_all.invoke()
rb_filter_true = Radiobutton(lf_filter, text="Έγκυρων", variable=intvar_filter_sel, value=2)
rb_filter_true.pack(anchor="w")
rb_filter_false = Radiobutton(lf_filter, text="Άκυρων", variable=intvar_filter_sel, value=3)
rb_filter_false.pack(anchor="w")
lf_result = LabelFrame(f_file, text="Σύνοψη")
lf_result.grid(column=4, row=0, rowspan=2, sticky="ewns")
lbl_f_file_result = Label(lf_result, text="", width=12)#TODO bring results
lbl_f_file_result.pack()
btn_f_file_submit = Button(f_file, text="Επεξεργασία", state="disabled", command=_check_file)
btn_f_file_submit.grid(column=0, row=2, columnspan=3)
btn_main_exit = Button(main_window, text="Έξοδος", command=sys.exit)
btn_main_exit.pack(anchor="se")
main_window.mainloop()
activebackground="red",
troughcolor="orange",
orient="horizontal")
scale2.pack(fill="x")
frame2 = Frame(window)
frame2.pack(fill="both")
tablayout = Notebook(frame2)
tab1 = Frame(tablayout)
tab1.pack(fill="both")
label = Label(tab1, text="same Data in Tab 1")
label.pack()
tablayout.add(tab1, text="TAB 1")
tablayout.pack(fill="both")
tab1 = Frame(tablayout)
tab1.pack(fill="both")
label = Label(tab1, text="same Data in Tab 1")
label.pack()
# adding table into tab
for row in range(5):
for column in range(6):
if row == 0:
label = Label(tab1,
text="Heading : " + str(column),
bg="white",
fg="black",
padx=3,
class Root(tk.Tk):
def __init__(self):
super().__init__()
# ---------Initializing--------------------------------------
# import data for gamma, beta, and alpha radiation
with open('gamma.pickle', 'rb') as handle:
self.gamma_db = pickle.load(handle)
with open('beta.pickle', 'rb') as handle:
self.beta_db = pickle.load(handle)
with open('alpha.pickle', 'rb') as handle:
self.alpha_db = pickle.load(handle)
# this data includes A, Z, name, half-life, and abundance of each isotope attached to each reference
with open('parents.pickle', 'rb') as handle:
self.parents1 = pickle.load(handle)
# this data includes the decay mode and branching ratio attached to each reference
with open('parents2.pickle', 'rb') as handle:
self.parents2 = pickle.load(handle)
with open('xray.pickle', 'rb') as handle:
self.xray_db = pickle.load(handle)
self.y_rads = [] # gamma
self.b_rads = [] # beta
self.a_rads = [] # alpha
self.x_rads = [] #x-ray
self.y_I = [] # gamma intensity
self.b_I = [] # beta intensity
self.a_I = [] # alpha intensity
self.x_level = [] #orbital shell
self.iso = []
self.hl = []
self.act = []
self.title("Table of Radioactive Isotopes Lookup")
self.geometry("470x370")
self.resizable(width=False, height=False)
self.configure(background="Gray")
self.columnconfigure(0, weight=1)
self.rowconfigure(0, weight=1)
# ---------Tabs----------------------------------------------
self.notebook = Notebook(self)
self.tori_tab = tk.Frame(self.notebook)
self.conversion_tab = tk.Frame(self.notebook)
self.decay_tab = tk.Frame(self.notebook)
self.xray_tab = tk.Frame(self.notebook)
self.notebook.add(self.tori_tab, text='TORI')
self.notebook.add(self.xray_tab, text='X-rays')
self.notebook.add(self.decay_tab, text='Decay')
self.notebook.add(self.conversion_tab, text='Conversion')
# -------TORI TAB--------------------------------------------
# Row 0
# Create Frame 0
self.frame_zero = tk.Frame(self.tori_tab, bd=3, relief=tk.RIDGE)
self.frame_zero.grid(row=0, column=0, sticky=tk.NSEW)
self.isotope_input_label = tk.Label(self.frame_zero, text="Isotope:")
self.isotope_input_label2 = tk.Label(
self.frame_zero, text="(Ex: Cs-137, cs137,cesium-137, cesium137)")
self.isotope_input = tk.Text(self.frame_zero, height=1, width=20)
self.isotope_input_label.grid(row=0, column=0, sticky=tk.NSEW)
self.isotope_input_label2.grid(row=0,
column=2,
rowspan=2,
sticky=tk.NSEW)
self.isotope_input.grid(row=0, column=1, sticky=tk.NSEW)
# Row 1
# Create Frame 1
self.frame_one = tk.Frame(self.tori_tab)
self.frame_one.grid(row=1, column=0, sticky=tk.NSEW)
self.search_button = tk.Button(self.frame_one, text="Search")
self.search_button.grid(row=0, column=0, sticky=tk.NSEW)
self.print_button = tk.Button(self.frame_one, text="Print Data")
self.print_button.grid(row=0, column=1, sticky=tk.NSEW)
# Row 2
# Create Frame 2
self.frame_two = tk.Frame(self.tori_tab)
self.frame_two.grid(row=2, column=0, sticky=tk.NSEW)
self.gamma_label = tk.Label(self.frame_two,
text="Gamma-Rays",
width=20,
relief=tk.RIDGE,
padx=2)
self.beta_label = tk.Label(self.frame_two,
text="Beta Particles",
width=20,
relief=tk.RIDGE,
padx=2)
self.alpha_label = tk.Label(self.frame_two,
text="Alpha Particles",
width=20,
relief=tk.RIDGE,
padx=3)
self.gamma_label.grid(row=0, column=0, columnspan=2, sticky=tk.NSEW)
self.beta_label.grid(row=0, column=2, columnspan=2, sticky=tk.NSEW)
self.alpha_label.grid(row=0, column=4, columnspan=2, sticky=tk.NSEW)
# Row 3
# Create Frame 3
self.frame_three = tk.Frame(self.tori_tab)
self.frame_three.grid(row=3, column=0, sticky=tk.NSEW)
for i in range(6):
energy_label = tk.Label(self.frame_three,
text="Energy (keV)",
width=10,
bd=3,
relief=tk.RIDGE)
I_label = tk.Label(self.frame_three,
text="Intensity %",
width=9,
bd=3,
relief=tk.RIDGE)
if i % 2 == 0:
energy_label.grid(row=3, column=i, sticky="E")
I_label.grid(row=3, column=i + 1, sticky="E")
# Row 4
# Create Frame 4
self.frame_four = tk.Frame(self.tori_tab)
self.frame_four.grid(row=4, column=0, sticky=tk.NSEW)
self.canvas = tk.Canvas(self.frame_four,
width=439,
height=200,
bd=3,
relief=tk.RIDGE) # parent canvas to frame four
self.canvas.grid(row=0, column=0, sticky=tk.NSEW)
self.vsbar = tk.Scrollbar(
self.frame_four, orient=tk.VERTICAL,
command=self.canvas.yview) # create scroll bar to frame four
self.vsbar.grid(row=0, column=1, sticky=tk.NSEW)
self.canvas.configure(
yscrollcommand=self.vsbar.set
) # configure canvas to respond to scrollbar object
self.radiations_frame = tk.Frame(
self.canvas, bd=3,
relief=tk.RIDGE) # Create frame for radiations to be inserted onto
self.canvas.create_window(
(0, 0), window=self.radiations_frame,
anchor=tk.NW) # create window with radiations frame
self.radiations_frame.update_idletasks() # acquire bbox
self.canvas.configure(scrollregion=self.canvas.bbox(
tk.ALL)) # configure the canvas to scroll
# -------CONVERSION TAB--------------------------------------------
self.start_var = tk.StringVar()
self.end_var = tk.StringVar()
# Row 0
self.frame_zero = tk.Frame(self.conversion_tab, bd=3, relief=tk.RIDGE)
self.frame_zero.grid(row=0, column=0, sticky=tk.NSEW)
self.curies_start = tk.Radiobutton(self.frame_zero,
text='curies',
variable=self.start_var,
value='curies',
tristatevalue=0)
self.millicuries_start = tk.Radiobutton(self.frame_zero,
text='millicuries',
variable=self.start_var,
value='millicuries',
tristatevalue=0)
self.microcuries_start = tk.Radiobutton(self.frame_zero,
text='microcuries',
variable=self.start_var,
value='microcuries',
tristatevalue=0)
self.nanocuries_start = tk.Radiobutton(self.frame_zero,
text='nanocuries',
variable=self.start_var,
value='nanocuries',
tristatevalue=0)
self.bq_start = tk.Radiobutton(self.frame_zero,
text='Bq',
variable=self.start_var,
value='bq',
tristatevalue=0)
self.kbq_start = tk.Radiobutton(self.frame_zero,
text='KBq',
variable=self.start_var,
value='kbq',
tristatevalue=0)
self.mbq_start = tk.Radiobutton(self.frame_zero,
text='MBq',
variable=self.start_var,
value='mbq',
tristatevalue=0)
self.gbq_start = tk.Radiobutton(self.frame_zero,
text='GBq',
variable=self.start_var,
value='gbq',
tristatevalue=0)
self.tbq_start = tk.Radiobutton(self.frame_zero,
text='TBq',
variable=self.start_var,
value='tbq',
tristatevalue=0)
self.buffer = tk.Label(self.frame_zero, text="TO", padx=35)
self.curies_end = tk.Radiobutton(self.frame_zero,
text='curies',
variable=self.end_var,
value='curies',
tristatevalue=0)
self.millicuries_end = tk.Radiobutton(self.frame_zero,
text='millicuries',
variable=self.end_var,
value='millicuries',
tristatevalue=0)
self.microcuries_end = tk.Radiobutton(self.frame_zero,
text='microcuries',
variable=self.end_var,
value='microcuries',
tristatevalue=0)
self.nanocuries_end = tk.Radiobutton(self.frame_zero,
text='nanocuries',
variable=self.end_var,
value='nanocuries',
tristatevalue=0)
self.bq_end = tk.Radiobutton(self.frame_zero,
text='Bq',
variable=self.end_var,
value='bq',
tristatevalue=0)
self.kbq_end = tk.Radiobutton(self.frame_zero,
text='KBq',
variable=self.end_var,
value='kbq',
tristatevalue=0)
self.mbq_end = tk.Radiobutton(self.frame_zero,
text='MBq',
variable=self.end_var,
value='mbq',
tristatevalue=0)
self.gbq_end = tk.Radiobutton(self.frame_zero,
text='GBq',
variable=self.end_var,
value='gbq',
tristatevalue=0)
self.tbq_end = tk.Radiobutton(self.frame_zero,
text='TBq',
variable=self.end_var,
value='tbq',
tristatevalue=0)
self.curies_start.grid(row=0, column=0, sticky=tk.W)
self.millicuries_start.grid(row=1, column=0, sticky=tk.W)
self.microcuries_start.grid(row=2, column=0, sticky=tk.W)
self.nanocuries_start.grid(row=3, column=0, sticky=tk.W)
self.bq_start.grid(row=4, column=0, sticky=tk.W)
self.kbq_start.grid(row=5, column=0, sticky=tk.W)
self.mbq_start.grid(row=6, column=0, sticky=tk.W)
self.gbq_start.grid(row=7, column=0, sticky=tk.W)
self.tbq_start.grid(row=8, column=0, sticky=tk.W)
self.buffer.grid(row=0, column=1, rowspan=9, sticky=tk.W)
self.curies_end.grid(row=0, column=2, sticky=tk.W)
self.millicuries_end.grid(row=1, column=2, sticky=tk.W)
self.microcuries_end.grid(row=2, column=2, sticky=tk.W)
self.nanocuries_end.grid(row=3, column=2, sticky=tk.W)
self.bq_end.grid(row=4, column=2, sticky=tk.W)
self.kbq_end.grid(row=5, column=2, sticky=tk.W)
self.mbq_end.grid(row=6, column=2, sticky=tk.W)
self.gbq_end.grid(row=7, column=2, sticky=tk.W)
self.tbq_end.grid(row=8, column=2, sticky=tk.W)
# Row 1
self.frame_one = tk.Frame(self.conversion_tab, bd=3, relief=tk.RIDGE)
self.frame_one.grid(row=1, column=0, sticky=tk.NSEW)
self.calc_conv_button = tk.Button(self.frame_one, text="Calculate")
self.calc_conv_button.grid(row=0, column=0, sticky=tk.NSEW)
# Row 2
self.frame_two = tk.Frame(self.conversion_tab, bd=3, relief=tk.RIDGE)
self.frame_two.grid(row=2, column=0, sticky=tk.NSEW)
self.start_entry = tk.Text(self.frame_two, height=1, width=20)
self.start_entry_label = tk.Label(self.frame_two, text="Start Value:")
self.start_entry_label.grid(row=0, column=0, sticky=tk.NSEW)
self.start_entry.grid(row=0, column=1, sticky=tk.NSEW)
# Row 3
self.frame_three = tk.Frame(self.conversion_tab, bd=3, relief=tk.RIDGE)
self.frame_three.grid(row=3, column=0, sticky=tk.NSEW)
self.end_entry_label = tk.Label(self.frame_three, text="End Value:")
self.end_entry_label.grid(row=0, column=0)
# -------DECAY TAB--------------------------------------------
# Row 0
self.frame_zero = tk.Frame(self.decay_tab, bd=3, relief=tk.RIDGE)
self.frame_zero.grid(row=0, column=0, sticky=tk.NSEW)
self.iso_input_label = tk.Label(self.frame_zero, text="Isotope:")
self.iso_input_label2 = tk.Label(
self.frame_zero, text="(Ex: Cs-137, cs137,cesium-137, cesium137)")
self.iso_input = tk.Text(self.frame_zero, height=1, width=20)
self.iso_input_label.grid(row=0, column=0, sticky=tk.NSEW)
self.iso_input_label2.grid(row=0, column=2, rowspan=2, sticky=tk.NSEW)
self.iso_input.grid(row=0, column=1, sticky=tk.NSEW)
option_list = ('cpm', 'dpm', 'pCi', 'nCi', 'uCi', 'mCi', 'Ci', 'Bq',
'kBq', 'MBq', 'GBq', 'TBq')
self.v = tk.StringVar()
self.v.set(option_list[0])
# Row 1
self.frame_one = tk.Frame(self.decay_tab, bd=3, relief=tk.RIDGE)
self.frame_one.grid(row=1, column=0, sticky=tk.NSEW)
self.orig_act = tk.Label(self.frame_one,
text="Enter Original Activity:")
self.orig_act_input = tk.Text(self.frame_one, height=1, width=20)
self.dropdown = tk.OptionMenu(self.frame_one, self.v, *option_list)
self.decay_button = tk.Button(self.frame_one, text="Calculate")
self.orig_act.grid(row=0, column=0)
self.orig_act_input.grid(row=0, column=1)
self.dropdown.grid(row=0, column=2)
self.decay_button.grid(row=0, column=3, sticky=tk.NSEW)
# Row 2
self.frame_two = tk.Frame(self.decay_tab, bd=3, relief=tk.RIDGE)
self.frame_two.grid(row=2, column=0, sticky=tk.NSEW)
self.start_date_label = tk.Label(
self.frame_two, text="Enter Original Date(MM/DD/YYYY):")
self.start_date_input = tk.Text(self.frame_two, height=1, width=20)
self.start_date_label.grid(row=0, column=0)
self.start_date_input.grid(row=0, column=1)
# Row 3
self.frame_three = tk.Frame(self.decay_tab, bd=3, relief=tk.RIDGE)
self.frame_three.grid(row=3, column=0, sticky=tk.NSEW)
self.end_date_label = tk.Label(self.frame_three,
text="Enter End Date (MM/DD/YYYY):")
self.end_date_input = tk.Text(self.frame_three, height=1, width=20)
self.end_date_label.grid(row=0, column=0)
self.end_date_input.grid(row=0, column=1)
# Row 4
self.frame_four = tk.Frame(self.decay_tab, bd=3, relief=tk.RIDGE)
self.frame_four.grid(row=4, column=0, sticky=tk.NSEW)
self.iso_label = tk.Label(self.frame_four, text="Isotope:")
self.iso_label.grid(row=0, column=0)
# Row 5
self.frame_five = tk.Frame(self.decay_tab, bd=3, relief=tk.RIDGE)
self.frame_five.grid(row=5, column=0, sticky=tk.NSEW)
self.half_life_label = tk.Label(self.frame_five, text="Half-life:")
self.half_life_label.grid(row=0, column=0)
# Row 6
self.frame_six = tk.Frame(self.decay_tab, bd=3, relief=tk.RIDGE)
self.frame_six.grid(row=6, column=0, sticky=tk.NSEW)
self.end_act_label = tk.Label(self.frame_six, text="Decayed Activity:")
self.end_act_label.grid(row=0, column=0)
# -------X-RAY TAB--------------------------------------------
# Row 0
self.frame_zero = tk.Frame(self.xray_tab, bd=3, relief=tk.RIDGE)
self.frame_zero.grid(row=0, column=0, sticky=tk.NSEW)
self.ele_input_label = tk.Label(self.frame_zero, text="Element:")
self.ele_input_label2 = tk.Label(self.frame_zero,
text="(Ex: Cs, cs, cesium)")
self.ele_input = tk.Text(self.frame_zero, height=1, width=20)
self.xray_search_button = tk.Button(self.frame_zero, text='Search')
self.ele_input_label.grid(row=0, column=0, sticky=tk.NSEW)
self.ele_input_label2.grid(row=0, column=2, rowspan=2, sticky=tk.NSEW)
self.ele_input.grid(row=0, column=1, sticky=tk.NSEW)
self.xray_search_button.grid(row=0, column=3)
# Row 1
self.frame_one = tk.Frame(self.xray_tab, bd=3, relief=tk.RIDGE)
self.frame_one.grid(row=1, column=0, sticky=tk.NSEW)
self.x_label1 = tk.Label(self.frame_one,
text="Energy (keV)",
width=15,
bd=3,
relief=tk.RIDGE)
self.x_label2 = tk.Label(self.frame_one,
text="Orbital Shell",
width=15,
bd=3,
relief=tk.RIDGE)
self.x_label1.grid(row=0, column=0)
self.x_label2.grid(row=0, column=1)
# Row 2
self.frame_twox = tk.Frame(self.xray_tab)
self.frame_twox.grid(row=2, column=0, sticky=tk.NSEW)
self.x_canvas = tk.Canvas(
self.frame_twox, width=439, height=200, bd=3,
relief=tk.RIDGE) # parent canvas to frame four
self.x_canvas.grid(row=0, column=0)
self.x_vsbar = tk.Scrollbar(
self.frame_twox, orient=tk.VERTICAL,
command=self.x_canvas.yview) # create scroll bar to frame four
self.x_vsbar.grid(row=0, column=1, sticky=tk.NS)
self.x_canvas.configure(
yscrollcommand=self.x_vsbar.set
) # configure canvas to respond to scrollbar object
self.x_frame = tk.Frame(
self.x_canvas, bd=3,
relief=tk.RIDGE) # Create frame for radiations to be inserted onto
self.x_canvas.create_window(
(0, 0), window=self.x_frame,
anchor=tk.NW) # create window with radiations frame
self.x_frame.update_idletasks() # acquire bbox
self.x_canvas.configure(scrollregion=self.x_canvas.bbox(
tk.ALL)) # configure the canvas to scroll
self.testlabel = tk.Label(self.x_frame, text='TEST')
self.testlabel.grid(row=0, column=0)
#---------Binds---------------------------------------------
self.bind_all("<MouseWheel>", self.mouse_scroll)
# TORI TAB
self.search_button.bind(
"<Button-1>",
lambda foo: self.TORI_search(self, self.isotope_input))
self.print_button.bind("<Button-1>", self.print_data)
self.isotope_input.bind(
"<Return>", lambda foo: self.TORI_search(self, self.isotope_input))
# CONVERSION TAB
self.calc_conv_button.bind("<Button-1>", self.calculate_conversion)
self.start_entry.bind("<Return>", self.calculate_conversion)
# DECAY TAB
self.decay_button.bind("<Button-1>", self.calculate_decay)
self.iso_input.bind("<Return>", self.calculate_decay)
# XRAY TAB
self.xray_search_button.bind("<Button-1>", self.search_xrays)
self.ele_input.bind("<Return>", self.search_xrays)
# ---------Notebook------------------------------------------
self.notebook.pack(fill=tk.BOTH, expand=1)
# ---------Functions-----------------------------------------
def search_xrays(self, event=None):
element = (self.ele_input.get(1.0, tk.END).strip('\n')).lower()
self.ele_input.delete(1.0, tk.END)
element = element[:1].upper() + element[1:]
try:
Z = nuclides[element]
except KeyError:
try:
Z = nuclides_long[element]
except KeyError:
msg.askokcancel("Confirm", "Please enter a valid element")
ref = str(Z) + '0000'
# clear any existing radiation labels
for xr in self.x_rads:
xr.destroy()
for lvl in self.x_level:
lvl.destroy()
self.x_rads = []
self.x_level = []
row = 0
for i in range(int(len(self.xray_db[ref]) / 2)):
new_x = tk.Label(self.x_frame,
text=self.xray_db[ref]['xray' + str(i + 1)],
width=15)
new_level = tk.Label(self.x_frame,
text=self.xray_db[ref]['level' + str(i + 1)],
width=15)
new_x.grid(row=row, column=0)
new_level.grid(row=row, column=1)
self.x_rads.append(new_x)
self.x_level.append(new_level)
row += 1
# reconfigure canvas with updated radiations_frame
self.x_canvas.create_window((0, 0), window=self.x_frame, anchor=tk.NW)
self.x_frame.update_idletasks()
self.x_canvas.configure(scrollregion=self.x_canvas.bbox(tk.ALL))
# Function used to calculate decay from start to end date with original activity
# ----------------------------------------------------
def calculate_decay(self, event=None):
unit_list = ['ns', 'us', 'ms', 's', 'm', 'd', 'y']
unit_conv_list = [
1.16e-14, 1.16e-11, 1.15e-8, 1.16e-5, 6.94e-4, 1, 365
]
# Get activity input
try:
act = float(self.orig_act_input.get(1.0, tk.END).strip('\n'))
test = False
except ValueError:
msg.askokcancel("Confirm", "Please enter a valid activity")
#return time in days
t = self.get_time(self, self.start_date_input, self.end_date_input)
#translate isotope input
isotope, A = self.search(self, self.iso_input)
ref = self.translate_isotope(isotope, A)
#delete any isotope values on screen and put new value on screen
for i in self.iso:
i.destroy()
self.iso = []
iso = tk.Label(self.frame_four, text=isotope + "-" + A)
iso.grid(row=0, column=1)
self.iso.append(iso)
#acquire half-life of isotope input
halflife = self.parents1[ref]['halflife']
#delete any halflife values on screen and put new value on screen
for h in self.hl:
h.destroy()
self.hl = []
half_life_label = tk.Label(self.frame_five, text=halflife)
half_life_label.grid(row=0, column=1)
self.hl.append(half_life_label)
#split up num value and unit value of halflife
for j in range(len(unit_list)):
if unit_list[j] in halflife:
halflife = halflife.replace(unit_list[j], "")
hl_unit = unit_list[j]
break
#convert halflife unit to days and convert to decay constant
halflife = float(halflife) * unit_conv_list[unit_list.index(hl_unit)]
decay_constant = 0.693 / halflife #d^-1
#calculate decay factor and new activity after t passed
try:
decay_factor = math.exp(-decay_constant * t)
new_act = decay_factor * act
#delete any activity values ons creen and put new value on screen
for a in self.act:
a.destroy()
self.act = []
new_act_label = tk.Label(self.frame_six,
text='{:.2e}'.format(new_act))
new_act_label.grid(row=0, column=1)
self.act.append(new_act_label)
except (UnboundLocalError, TypeError):
pass
# Function used to calculate time difference between start and end date
# ----------------------------------------------------
def get_time(self, event=None, start=None, end=None):
#acquire start and end date, take the difference, return time passed
try:
start_date = start.get(1.0, tk.END).strip('\n')
start_date = start_date.split('/')
t1 = dt.datetime(int(start_date[2]), int(start_date[1]),
int(start_date[0]))
except IndexError:
msg.askokcancel("Confirm", "Please enter a valid start date")
try:
end_date = end.get(1.0, tk.END).strip('\n')
end_date = end_date.split('/')
t2 = dt.datetime(int(end_date[2]), int(end_date[1]),
int(end_date[0]))
except IndexError:
msg.askokcancel("Confirm", "Please enter a valid end date")
try:
t = t2 - t1
return t.days
except UnboundLocalError:
pass
# Function used to calculate conversion from one unit to other
# ----------------------------------------------------
def calculate_conversion(self, event=None):
units = [
'curies', 'millicuries', 'microcuries', 'nanocuries', 'bq', 'kbq',
'mbq', 'gbq', 'tbq'
]
conv_list = [
[1E0, 1E3, 1E6, 1E9, 3.7E10, 3.7E7, 3.7E4, 3.7E1, 3.7E-2],
[1E-3, 1E0, 1E3, 1E6, 3.7E7, 3.7E4, 3.7E1, 3.7E-2, 3.7E-5],
[1E-6, 1e-3, 1e0, 1e3, 3.7e4, 3.7e1, 3.7e-2, 3.7e-5, 3.7e-8],
[1e-9, 1e-6, 1e-3, 1, 3.7e1, 3.7e-2, 3.7e-5, 3.7e-8, 3.7e-11],
[2.7e-11, 2.7e-8, 2.7e-5, 2.7e-2, 1, 1e-3, 1e-6, 1e-9, 1e-12],
[2.7e-8, 2.7e-5, 2.7e-2, 2.7e1, 1e3, 1, 1e-3, 1e-6, 1e-9],
[2.7e-5, 2.7e-2, 2.7e1, 2.7e4, 1e6, 1e3, 1, 1e-3, 1e-6],
[2.7e-2, 2.7e1, 2.7e4, 2.7e7, 1e9, 1e6, 1e3, 1, 1e-3],
[2.7e1, 2.7e4, 2.7e7, 2.7e10, 1e12, 1e9, 1e6, 1e3, 1],
]
start_unit = self.start_var.get()
end_unit = self.end_var.get()
val = int(self.start_entry.get(1.0, tk.END).strip('\n'))
unit_num_start = units.index(start_unit)
unit_num_end = units.index(end_unit)
conversion = conv_list[unit_num_start][unit_num_end]
val = val * conversion
self.new_value = tk.Label(self.frame_three,
text='{:.2e}'.format(val),
width=10)
self.new_value.grid(row=0, column=1)
# Function used to translate user input and add radiations to GUI
# ----------------------------------------------------
def TORI_search(self, event=None, isotope_input=None):
isotope, A = self.search(self, isotope_input)
ref = self.translate_isotope(isotope, A)
self.add_radiation(ref)
# function used to acquire information from user input
# passes input along to acquire radiation data from db
# ----------------------------------------------------
def search(self, event=None, isotope_input=None):
# pull data from user input
isotope = isotope_input.get(1.0, tk.END).strip('\n')
test = False
# Logic to acquire formatting of isotope and separate name from A
try:
count = 0
A = ""
# check all characters in isotope variable
for char in isotope:
try:
value = int(char)
A += char
except ValueError:
if char != "-":
count += 1
# check if someone entered in a metastable state
# includes error checking for miss-types
try:
if isotope[-1:].lower() == 'm':
count -= 1
A += 'm'
else:
value = int(isotope[-1:])
except ValueError:
msg.askokcancel("Confirm", "Please enter a nuclide")
test = True
# delete user input
isotope_input.delete(1.0, tk.END)
# if no errors with metastable entry, run
if not test:
isotope = isotope[:count]
isotope = isotope[0].upper() + isotope[1:]
return isotope, A
self.isotope_print = isotope + A # add to global variable so that print_data can access for file name
except IndexError:
# if a blank is entered, show this error message
msg.askokcancel("Confirm", "Please enter a nuclide")
# function used to translate user input to isotope reference number in database
# passes reference number onto add_radiation() function
# ----------------------------------------------------
def translate_isotope(self, isotope=None, A=None):
# test variable for error checking
test = False
try:
# look up the Z from nuclides dictionary
Z = str(nuclides[isotope])
except KeyError:
# if the isotope isnt in the first dictionary, try the second
try:
Z = nuclides_long[isotope]
except KeyError:
# if not in the second, user entered invalid isotope
msg.askokcancel("Error",
"Valid Nuclide Not Entered:" + isotope)
test = True
# test to see if a metastable isotope was entered
if not test:
# if yes, add 300 to A and format appropriately
if A[-1:] == 'm':
A = str(int(A.replace('m', '')) + 300)
ref = Z + "0" + A
# if no, format appropriate according to # of decimal
# places in A.
else:
if int(A) < 10:
A = "00" + A
elif int(A) >= 10 and int(A) < 100:
A = "0" + A
ref = Z + "0" + A
try:
return ref
except UnboundLocalError:
pass
# Function used to translate a reference to isotope and atomic #
# ----------------------------------------------------
def translate_reference(self, ref=None):
isotope = ref.replace(ref[-4:], "")
tmp = ref[-3:]
if tmp[:2] == '00':
A = ref[-1:]
elif tmp[:1] == '0':
A = ref[-2:]
else:
A = ref[-3:]
return nuclides_rev[int(isotope)], A
# add radiations to main screen of all 3 types from isotope
# ----------------------------------------------------
def add_radiation(self, ref=None):
# clear any existing radiation labels
for rad in self.y_rads:
rad.destroy()
for i in self.y_I:
i.destroy()
self.y_rads = []
self.y_I = []
# clear any existing radiation labels
for rad in self.b_rads:
rad.destroy()
for i in self.b_I:
i.destroy()
self.b_rads = []
self.b_I = []
# clear any existing radiation labels
for rad in self.a_rads:
rad.destroy()
for i in self.a_I:
i.destroy()
self.a_rads = []
self.a_I = []
# add radiation energies of gamma rays
count = 1
row = 0
try:
r_num = int(len(self.gamma_db[ref]) /
2) #determine number of radiations of each type
except KeyError:
pass
if r_num != 0:
for i in range(r_num):
new_rad = tk.Label(self.radiations_frame,
text=self.gamma_db[ref]['gamma' +
str(count)],
width=10)
new_rad_I = tk.Label(self.radiations_frame,
text=self.gamma_db[ref]['I' + str(count)],
width=9)
new_rad.grid(row=row, column=0)
new_rad_I.grid(row=row, column=1)
self.y_rads.append(new_rad)
self.y_I.append(new_rad_I)
row += 1
count += 1
# if no radiations, add blank spaces to maintain width
elif r_num == 0:
new_rad = tk.Label(self.radiations_frame, text="", width=10)
new_rad_I = tk.Label(self.radiations_frame, text="", width=9)
new_rad.grid(row=0, column=0)
new_rad_I.grid(row=0, column=1)
self.y_rads.append(new_rad)
self.y_I.append(new_rad_I)
# add radiation energies of beta particles
count = 1
row = 0
try:
r_num = int(len(self.beta_db[ref]) /
2) # determine number of radiations of each type
except KeyError:
pass
if r_num != 0:
for i in range(r_num):
new_rad = tk.Label(self.radiations_frame,
text=self.beta_db[ref]['beta' + str(count)],
width=10)
new_rad_I = tk.Label(self.radiations_frame,
text=self.beta_db[ref]['I' + str(count)],
width=9)
new_rad.grid(row=row, column=2)
new_rad_I.grid(row=row, column=3)
self.b_rads.append(new_rad)
self.b_I.append(new_rad_I)
row += 1
count += 1
# if no radiations, add blank spaces to maintain width
elif r_num == 0:
new_rad = tk.Label(self.radiations_frame, text="", width=10)
new_rad_I = tk.Label(self.radiations_frame, text="", width=9)
new_rad.grid(row=0, column=2)
new_rad_I.grid(row=0, column=3)
self.b_rads.append(new_rad)
self.b_I.append(new_rad_I)
# add radiation energies of alpha particles
count = 1
row = 0
try:
r_num = int(len(self.alpha_db[ref]) /
2) # determine number of radiations of each type
except KeyError:
pass
if r_num != 0:
for i in range(r_num):
new_rad = tk.Label(self.radiations_frame,
text=self.alpha_db[ref]['alpha' +
str(count)],
width=10)
new_rad_I = tk.Label(self.radiations_frame,
text=self.alpha_db[ref]['I' + str(count)],
width=9)
new_rad.grid(row=row, column=4)
new_rad_I.grid(row=row, column=5)
self.a_rads.append(new_rad)
self.a_I.append(new_rad_I)
row += 1
count += 1
# if no radiations, add blank spaces to maintain width
elif r_num == 0:
new_rad = tk.Label(self.radiations_frame, text="", width=10)
new_rad_I = tk.Label(self.radiations_frame, text="", width=9)
new_rad.grid(row=0, column=4)
new_rad_I.grid(row=0, column=5)
self.a_rads.append(new_rad)
self.a_I.append(new_rad_I)
# reconfigure canvas with updated radiations_frame
self.canvas.create_window((0, 0),
window=self.radiations_frame,
anchor=tk.NW)
self.radiations_frame.update_idletasks()
self.canvas.configure(scrollregion=self.canvas.bbox(tk.ALL))
# Print all data
# ----------------------------------------------------
def print_data(self, event=None):
# Get data from labels in GUI to temporary lists
ytmp = []
btmp = []
atmp = []
for i in range(len(self.y_rads)):
new = []
new.append(self.y_rads[i].cget("text"))
new.append(self.y_I[i].cget("text"))
ytmp.append(new)
for i in range(len(self.b_rads)):
new = []
new.append(self.b_rads[i].cget("text"))
new.append(self.b_I[i].cget("text"))
btmp.append(new)
for i in range(len(self.a_rads)):
new = []
new.append(self.a_rads[i].cget("text"))
new.append(self.a_I[i].cget("text"))
atmp.append(new)
# compile all 3 lists into a single two dimensional list
# 6 columns across, i rows down for largest # of radiations present
outputlist = []
for i in range(max(len(ytmp), len(btmp), len(atmp))):
tmp = []
try:
if str(ytmp[i][0]) != "":
tmp.append(str(ytmp[i][0]))
tmp.append(str(ytmp[i][1]))
except IndexError:
pass
try:
if str(btmp[i][0]) != "":
tmp.append(str(btmp[i][0]))
tmp.append(str(btmp[i][1]))
except IndexError:
pass
try:
if str(atmp[i][0]) != "":
tmp.append(str(atmp[i][0]))
tmp.append(str(atmp[i][1]))
except IndexError:
pass
outputlist.append(tmp)
# print data to a text file
try:
with open(self.isotope_print + '.txt', 'w') as f:
f.write('Gamma-Rays' + ',' + '' + ',' + 'Beta-Particles' +
',' + '' + ',' + 'Alpha-Particles' + '\n')
f.write('Energy(keV)' + ',' + 'Intensity%' + ',' +
'Energy(keV)' + ',' + 'Intensity%' + ',' +
'Energy(keV)' + ',' + 'Intensity%' + '\n')
for line in outputlist:
for i in range(len(line)):
if i != len(line) - 1:
f.write(line[i] + ",")
else:
f.write(line[i])
f.write('\n')
except AttributeError:
pass
# allow the use of the mouse wheel to scroll
# ----------------------------------------------------
def mouse_scroll(self, event):
self.canvas.yview_scroll(int(-1 * (event.delta / 120)), "units")
filenameLabel.pack(side=LEFT) selectFileButton = Button(fileFrame, text = 'Select File', command = load_file) selectFileButton.pack(side=RIGHT, padx=5) bodyFrame = Frame(root, width = 600, height=400) bodyFrame.pack(expand=True, fill=X, padx=10, anchor=W) view3DFrame = Frame(width=300, height=300) viewLayerFrame = LayerPreview(root, width=300, height=300) viewFrame = Notebook(bodyFrame) #viewFrame.add(view3DFrame, text="3D View") viewFrame.add(viewLayerFrame, text="Layer View") viewFrame.pack(expand=True, side=LEFT, anchor=NW) settingsFrame = Notebook(bodyFrame) settingsFrame.pack(expand=True, side=LEFT, anchor=NW) setupFrame = Frame() setupFrame.pack(padx=10, pady=10) printerFrame = Frame(setupFrame) printerFrame.pack(side=TOP) zMoveFrame = ZMove(printerFrame) zMoveFrame.pack(side=RIGHT, anchor=E, padx=(50, 0))
class DelimitedPy(tk.Tk):
def __init__(self):
super().__init__()
self.title('DelimitedPy v{appVersion}'.format(appVersion=appVersion))
self.geometry('500x500')
# NOTEBOOK
self.notebook = Notebook(self)
# FRAME - tabStart
tabStart = tk.Frame(self.notebook)
# BUTTON - btnSelectSource
self.btnSelectSource = tk.Button(tabStart,
text='Select Source',
command=self.clicked_btnSelectSource)
self.btnSelectSource.pack(side=tk.BOTTOM, fill=tk.X)
# BUTTON - btnContinue
self.btnContinue = tk.Button(tabStart,
text='Continue',
command=self.clicked_btnContinue)
self.btnContinue.configure(state='disabled')
# self.btnContinue.pack(side=tk.RIGHT, fill=tk.X)
# self.btnContinue.pack(side=tk.RIGHT, fill=tk.NONE, expand=0)
# STRINGVAR - varUserFile
self.varUserFile = tk.StringVar(tabStart)
self.varUserFile.set('Click the "Select Source" button below.')
# LABEL - lblUserFilePath
self.lblUserFilePath = tk.Label(tabStart,
textvar=self.varUserFile,
bg='lightgrey',
fg='black')
self.lblUserFilePath.pack(side=tk.TOP, fill=tk.BOTH, expand=1)
# ADD FRAMES to NOTEBOOK
self.notebook.add(tabStart, text='Start Page')
# PACK NOTEBOOK
self.notebook.pack(fill=tk.BOTH, expand=1)
# def translate(self, target_language='it', text=None):
# if not text:
# text = self.english_entry.get(1.0, tk.END)
# url = 'https://translate.googleapis.com/translate_a/single?client=gtx&sl={}&tl={}&dt=t&q={}'.format('en', target_language, text)
# try:
# r = requests.get(url)
# r.raise_for_status()
# translation = r.json()[0][0][0]
# self.italian_translation.set(translation)
# msg.showinfo('Translation Successful', 'Text successfully translated')
# except Exception as e:
# msg.showerror('Translation Failed', str(e))
def clicked_btnSelectSource(self):
# print('clicked_btnSelectSource')
# Ask for delimited file.
fileName = filedialog.askopenfilename(initialdir='./',
title="Select a delimited file",
filetypes=(('text files',
'*.txt *.csv'),
('all files', '*.*')))
# Check that a file has been selected.
# Update the StringVariable to update the label to be the path of the file.
self.varUserFile.set(str(fileName))
# Enable the Continue Button
self.btnContinue.configure(state='active')
self.btnContinue.pack(side=tk.RIGHT, fill=tk.X)
self.notebook.pack(fill=tk.BOTH, expand=1)
def clicked_btnContinue(self):
pass
print('clicked_btnContinue ran.')
def copy_to_clipboard(self, text=None):
print('copy_to_clipboard ran')
class LpoViewer(Frame):
""" This class implements the window of the Lpo viewer.
This class implements a menu and tab management for the LpoView.
"""
def __init__(self, parent):
""" Create new window. """
Frame.__init__(self, parent)
self.__parent = parent
self.__initUI()
def __initUI(self):
""" Set up UI. """
self.pack(fill=BOTH, expand=1)
# notebook for LpoView tabs
self.__notebook = Notebook(self)
self.__notebook.pack(fill=BOTH, expand=1)
# menu bar with file menu
self.__menubar = Menu(self.__parent)
self.__parent.config(menu=self.__menubar)
self.__filemenu = Menu(self.__menubar, tearoff=0)
self.__filemenu.add_command(label="Open", command=self.__onOpen)
self.__filemenu.add_command(label="Close", command=self.__onClose)
self.__filemenu.add_command(label="Exit", command=self.__onExit)
self.__menubar.add_cascade(label="File", menu=self.__filemenu)
# size and title
self.__parent.geometry("300x300+300+300")
self.__parent.title("Lpo viewer Tk")
def __onExit(self):
""" Close the app. """
self.__parent.withdraw()
self.quit()
def __onClose(self):
""" Close the selected LPO. """
tab = self.__notebook.select()
if tab != '':
self.__notebook.forget(tab)
def __onOpen(self):
""" Open a new LPO (with file chooser). """
ftypes = [('LPO files', '*.lpo'), ('All files', '*')]
dialog = filedialog.Open(self, filetypes=ftypes)
file = dialog.show()
if file != '':
self.openLpo(file)
def openLpo(self, file):
""" This method shows the LPO contained in the given file as new tab. """
lpos = partialorder.parse_lpo_file(file) # parse LPO from file
print(lpos[0])
self.showLpo(lpos[0]) # show first lpo (Assumption: Only 1 LPO in a file)
def showLpo(self, lpo):
""" Show the given LPO in a new tab. """
lpo_view = LpoView(self.__notebook)
self.__notebook.add(lpo_view, text=lpo.name, sticky="nswe")
lpo_view.showLpo(lpo)
from tkinter import *
from tkinter.ttk import Notebook
from views.AdjacencyListGraph import AdjacencyListGraph
from views.SimpleFormAdd import AddGraphSimpleFormViewCreator
from views.AdjacencyMatrixGraph import AdjacencyMatrixGraph
from views.IncidenceMatrixGraph import IncidenceMatrixGraph
if __name__ == '__main__':
root = Tk()
notebook = Notebook(root)
frame1 = Frame(notebook)
frame2 = Frame(notebook)
frame3 = Frame(notebook)
frame4 = Frame(notebook)
notebook.add(frame1, text='Simple form')
notebook.add(frame2, text='Adjacency Matrix Graph')
notebook.add(frame3, text='Incidence Matrix Graph')
notebook.add(frame4, text='Adjacency List Graph')
notebook.pack()
AddGraphSimpleFormViewCreator(frame1)
AdjacencyMatrixGraph(frame2)
IncidenceMatrixGraph(frame3)
AdjacencyListGraph(frame4)
root.mainloop()
def __init__(self):
Tk.__init__(self)
pwd = os.path.dirname(__file__)
# ico = PhotoImage(file=os.path.join(pwd, "icon.png"))
# self.call('wm', 'iconphoto', self._w, ico)
self.title("Spectacuplot!")
left_frame = Frame(self)
control_frame = Frame(left_frame)
left_frame.pack(side=LEFT, fill=Y)
control_frame.pack(anchor=N,fill=BOTH,expand=1)
# Menu bar
mb = Menu(self)
file_menu = Menu(mb)
file_menu.add_command(label='Open...', command=self.open_dialog,
accelerator='Ctrl-O')
file_menu.add_command(label='Close All Files', command=self.close_files)
# Get recent files
self.recent = []
self.recent_commands = []
try:
recent_files = open(os.path.expanduser("~/spectacuplot_recent"), "r")
for f in recent_files:
self.recent.append(f.strip())
self.recent_commands.append(functools.partial(self.open, f.strip()))
recent_files.close()
except:
print("no recent files")
self.recent_cascade = Menu(file_menu)
for (f, c) in zip(self.recent, self.recent_commands):
self.recent_cascade.add_command(label=f, command=c)
file_menu.add_cascade(label="Recent Files", menu=self.recent_cascade)
# Set up stuff for quitting Spectacuplot
file_menu.add_command(label='Exit', command=self.quit)
self.protocol("WM_DELETE_WINDOW", self.quit)
self.bind_all("<Control-o>", self.open_dialog)
self.config(menu=mb)
mb.add_cascade(label="File", menu=file_menu)
# Notebook
nb = Notebook(control_frame, name="controls")
nb.enable_traversal()
nb.pack(expand=1, fill=BOTH)
# Plot Area
self.plot_frame = PlotArea(self)
self.plot_frame.pack(side=LEFT, fill=BOTH, expand=1)
# This will be used as the notbook tab for plotting individual datasets
self.plot_set_tab = OpSetPlot(nb, self.opened_files, self.plot_frame)
# This will be used as the notebook tab for plotting dataset diffs
self.diff_tab = OpDiffPlot(nb, self.opened_files, self.plot_frame)
nb.add(self.plot_set_tab, text="Plot Set")
nb.add(self.diff_tab, text="Diff Sets")
class CimApp(Frame):
def __init__(self):
Frame.__init__(self)
self.file = None;
self.master.title("Tiborcim")
self.master.iconphoto(True, PhotoImage(file=ICON_PNG))
self.files = []
self.current_tab = StringVar()
self.pack(expand=1, fill="both")
self.master.minsize(300,300)
self.master.geometry("500x500")
self.menubar = Menu(self.master)
self.fileMenu = Menu(self.master, tearoff=0)
self.fileMenu.add_command(label="New", command=self.new_file,
underline=0, accelerator="Ctrl+N")
self.fileMenu.add_command(label="Open...", command=self.load_file,
underline=0, accelerator="Ctrl+O")
self.fileMenu.add_command(label="Save", command=self.file_save,
underline=0, accelerator="Ctrl+S")
self.fileMenu.add_command(label="Save As...", command=self.file_save_as,
underline=5, accelerator="Ctrl+Alt+S")
self.fileMenu.add_command(label="Close", command=self.close_file,
underline=0, accelerator="Ctrl+W")
self.fileMenu.add_separator()
self.fileMenu.add_command(label="Exit", command=self.file_quit, underline=1)
self.menubar.add_cascade(label="File", menu=self.fileMenu, underline=0)
self.edit_program = Menu(self.master, tearoff=0)
self.edit_program.add_command(label="Undo", command=self.edit_undo,
underline=0, accelerator="Ctrl+Z")
self.edit_program.add_command(label="Redo", command=self.edit_redo,
underline=0, accelerator="Ctrl+Y")
self.edit_program.add_separator()
self.edit_program.add_command(label="Cut",
command=self.edit_cut,
underline=2,
accelerator="Ctrl+X")
self.edit_program.add_command(label="Copy",
command=self.edit_copy,
underline=0,
accelerator="Ctrl+C")
self.edit_program.add_command(label="Paste",
command=self.edit_paste,
underline=0,
accelerator="Ctrl+V")
self.menubar.add_cascade(label="Edit", menu=self.edit_program, underline=0)
self.menu_program = Menu(self.master, tearoff=0)
self.menu_program.add_command(label="Convert",
command=self.convert_file,
underline=0,
accelerator="Ctrl+T")
self.menu_program.add_command(label="Flash",
command=self.flash_file,
underline=0,
accelerator="Ctrl+B")
self.menu_program.add_separator()
self.menubar.add_cascade(label="Program", menu=self.menu_program, underline=0)
self.menu_view = Menu(self.master,
tearoff=0)
self.viewmode = StringVar()
self.viewmode.set("tiborcim")
self.menu_view.add_radiobutton(label="Tiborcim",
command=self.view_tiborcim,
variable=self.viewmode,
value="tiborcim",
underline=0)
self.menu_view.add_radiobutton(label="Python",
command=self.view_python,
variable=self.viewmode,
value="python",
underline=0)
self.menubar.add_cascade(label="View",
menu=self.menu_view,
underline=0)
self.menu_help = Menu(self.master,
tearoff=0)
self.menu_samples = Menu(self.master, tearoff=0)
samples = tiborcim.resources.samples_list()
def add_sample (sample):
self.menu_samples.add_command(label=sample,
command=lambda: self.help_sample(sample))
for sample in samples:
add_sample(sample)
self.menu_help.add_cascade(label="Samples",
menu=self.menu_samples,
underline=0)
self.menu_help.add_separator()
self.menu_help.add_command(label="README",
command=self.help_readme,
underline=0)
self.menu_help.add_separator()
self.menu_help.add_command(label="About",
command=self.help_about,
underline=0)
self.menubar.add_cascade(label="Help",
menu=self.menu_help,
underline=0)
self.master.config(width=450,
height=400,
menu=self.menubar)
self.bind_all("<Control-o>", self.load_file)
self.bind_all("<Control-s>", self.file_save)
self.bind_all("<Control-Alt-s>", self.file_save_as)
self.bind_all("<Control-t>", self.convert_file)
self.bind_all("<Control-b>", self.flash_file)
self.bind_all("<Control-w>", self.close_file)
self.master.protocol("WM_DELETE_WINDOW", self.file_quit)
self.file_tabs = Notebook(self)
self.file_tabs.bind_all("<<NotebookTabChanged>>", self.file_changed)
self.file_tabs.pack(expand=1, fill="both")
def file_changed(self, event):
if len(self.file_tabs.tabs()) <= 0:
self.add_file()
return
title = str(event.widget.tab(event.widget.index("current"),"text")).upper().strip()
self.menu_program.delete(3, END)
for tab in self.file_tabs.tabs():
tabtext = self.file_tabs.tab(self.file_tabs.index(tab),"text")
if tabtext.upper().strip() == title:
self.current_tab.set(tab)
self.menu_program.add_radiobutton(label=tabtext, command=self.program_switch,
underline=1, value=tab, variable=self.current_tab)
if title != "PYTHON" or title != "TIBORCIM":
if self.current_file().filename is not None:
self.master.title(self.current_file().get_file() + " - Tiborcim")
else:
self.master.title("Tiborcim")
if str(self.current_file().tab(self.current_file().index("current"),"text")).upper().strip() == "TIBORCIM":
self.menubar.entryconfig("Edit", state=NORMAL)
else:
self.menubar.entryconfig("Edit", state=DISABLED)
self.viewmode.set(self.current_file().viewmode)
if title == "PYTHON":
self.menubar.entryconfig("Edit", state=DISABLED)
self.current_file().viewmode = "python";
self.viewmode.set("python");
if title == "TIBORCIM":
self.menubar.entryconfig("Edit", state=NORMAL)
self.current_file().viewmode = "tiborcim";
self.viewmode.set("tiborcim");
def add_file(self, file=None):
filepage = CimFilePage(self.file_tabs)
if file is None:
self.file_tabs.add(filepage, text="Unsaved Program")
else:
filepage.load_file(file)
self.file_tabs.add(filepage, text=filepage.get_file())
self.files.append(filepage)
self.file_tabs.select(filepage)
def view_tiborcim(self, event=None):
self.current_file().view_tiborcim()
def view_python(self, event=None):
self.current_file().view_python()
def program_switch(self):
self.file_tabs.select(self.current_tab.get())
def new_file(self, event=None):
self.add_file()
def load_file(self, event=None):
fname = askopenfilename(filetypes=(("Tiborcim", "*.tibas"),("All files", "*.*") ), parent=self.master)
if fname:
self.add_file(fname)
def file_save(self, event=None):
self.current_file().save_file()
self.file_tabs.tab(self.current_file(), text=self.current_file().get_file())
def file_save_as(self, event=None):
self.current_file().save_file_as()
self.file_tabs.tab(self.current_file(), text=self.current_file().get_file())
def convert_file(self, event=None):
self.current_file().convert_file()
def current_file(self, event=None):
return self.files[int(self.file_tabs.index(self.file_tabs.select()))]
def flash_file(self, event=None):
from tiborcim.tibc import compiler as tibc
from tiborcim.tibc import flash
from tiborcim.tibc import TibcStatus as status
com = tibc(self.current_file().text_tiborcim.get("1.0", "end"))
res = flash(''.join(com.output))
if res is status.SUCCESS:
showinfo(title='Success', message='File Flashed', parent=self.master)
else:
showerror(title='Failure', message='An Error Occured. Code: %s' % res, parent=self.master)
def close_file(self, event=None):
logging.debug("Close File")
file = self.current_file()
if file.close():
self.file_tabs.forget(file)
self.files.remove(file)
def edit_cut(self, event=None):
self.current_file().text_tiborcim.event_generate('<Control-x>')
def edit_copy(self, event=None):
self.current_file().text_tiborcim.event_generate('<Control-c>')
def edit_paste(self, event=None):
self.current_file().text_tiborcim.event_generate('<Control-v>')
def edit_redo(self, event=None):
self.current_file().text_tiborcim.edit_redo()
def edit_undo(self, event=None):
self.current_file().text_tiborcim.edit_undo()
def help_about(self, event=None):
CimAbout.show(self)
def help_readme(self, event=None):
CimReadme.show(self)
def help_sample(self, sam):
print(sam)
filepage = CimFilePage(self.file_tabs)
filepage.load_file(tiborcim.resources.sample_path(sam))
filepage.filename = None
self.file_tabs.add(filepage, text="Unsaved Program")
self.files.append(filepage)
self.file_tabs.select(filepage)
def file_quit(self, event=None):
for ndx, member in enumerate(self.files):
logging.debug(self.files[ndx].saved)
if not self.files[ndx].close():
return
self.quit()
class View(Tk):
def __init__(self, control, *args, **kwargs):
'''
parametros
----------
control : control.Control
objeto control
'''
super(View, self).__init__(*args, **kwargs)
self._control = control
self._criar_estilo()
self._criar_notebook()
self._criar_converter()
self._criar_redimensionar()
def _criar_notebook(self):
'''
Criar notebook p/ navegar entre varias telas.
'''
self._note = Notebook(self, style='View.TNotebook')
self._note.pack(fill='both', expand=True)
def _criar_converter(self):
'''
Intancia uma nova tela_converter e adiciona ao notebook.
'''
converter = tela_converter.TelaConverter(self._note, self._control)
self._note.add(converter, text='Converter')
def _criar_redimensionar(self):
redimensionar = tela_redimensionar.TelaRedimensionar(
self._note, self._control)
self._note.add(redimensionar, text='Redimensionar')
def _criar_estilo(self):
'''
Define o estilo dos widgets.
'''
cor_1 = '#C7E0DD'
cor_2 = '#76B0AC'
cor_3 = '#6C8BA7'
cor_4 = '#CBB6B4'
cor_5 = '#E5D4D0'
cor_6 = '#EAE8E6'
estilo = Style()
# frame
estilo.configure('TFrame', background=cor_4)
# botao
estilo.configure('TButton',
background=cor_3,
foreground=cor_6,
font=('Georgia', 14, 'normal'),
relief='flat')
estilo.map('TButton',
background=[('active', cor_2)],
foreground=[('active', cor_6)])
# label
estilo.configure('TLabel',
background=cor_4,
font=('Gergia', 14, 'normal'))
# entry
estilo.configure('TEntry', fieldbackground=cor_6)
#notebook
estilo.configure('TNotebook.Tab',
background=cor_3,
foreground=cor_6,
font=('Arial', 14, 'bold'),
relief='raised',
borderwidth=5)
estilo.map('TNotebook.Tab',
background=[('active', cor_2)],
foreground=[('active', cor_6)])
# option menu
estilo.configure('TMenubutton',
background=cor_6,
font=('Georgia', 14, 'normal'),
relief='flat')
estilo.map('TMenubutton', background=[('active', cor_2)])
# scales
estilo.configure('TScale', background=cor_3)
estilo.map('TScale', background=[('active', cor_2)])
# spinboxs
estilo.configure('TSpinbox',
arrowsize=20,
relief='flat',
background=cor_3,
fieldbackground=cor_6)
estilo.map('TSpinbox', background=[('active', cor_2)])
def mostrar_msg(self, msg):
'''
Abre uma nova janela mostrando uma mensagem.
'''
messagebox.showinfo('Mensagem', msg)
def mostrar_aviso(self, aviso):
'''
Abreuma nova janela mostrando um aviso de alerta.
'''
messagebox.showwarning('Aviso', aviso)
def main(self):
'''
Inicializa a gui.
'''
self.title('Ferramentas v.0.3')
self.maxsize(width=800, height=450)
self.minsize(width=800, height=450)
self.mainloop()
# print('yes1')
# Addexpense()
# # print(expense_tracker.get_LON_items()[0])
#
GUI = Tk()
GUI.title('** Expense Recorder **')
GUI.geometry('1000x600')
# Maximize windrow
# GUI. state ('zoomed')
Tab = Notebook(GUI)
F1 = Frame(Tab, width=500, height=500, bg="cyan")
Tab.add(F1, text='Expense')
Tab.pack(fill=BOTH, expand=1)
# Tab 1 (Expense)
# ==========Row 0 ===========================
LDate = ttk.Label(F1, text='Date', font=(None, 18))
LDate.grid(row=0, column=0, padx=5, pady=5, sticky='w')
EDate = DateEntry(F1,
width=19,
background='blue',
foreground='white',
font=(None, 18))
EDate.grid(row=0, column=1, padx=5, pady=5)
# ==========Row 1 ===========================
LTitle = ttk.Label(F1, text='Title', font=(None, 18))
class Manager(Toplevel):
"""Note manager."""
def __init__(self, master):
"""Create note manager to easily delete multiple notes."""
Toplevel.__init__(self, master, class_='MyNotes')
self.title(_("Note Manager"))
self.minsize(width=546, height=200)
self.grab_set()
categories = CONFIG.options("Categories")
categories.sort()
self.im_del = PhotoImage(file=IM_DELETE, master=self)
self.im_change = PhotoImage(file=IM_CHANGE, master=self)
self.im_visible = PhotoImage(file=IM_VISIBLE_24, master=self)
self.im_hidden = PhotoImage(file=IM_HIDDEN_24, master=self)
tooltipwrapper = TooltipWrapper(self)
self.notebook = Notebook(self)
self.notebook.pack(fill='both', expand=True)
self.texts = {}
self.frames = {}
self.notes = {}
# to change notes category
menu_cat = Menu(self, tearoff=False)
self.category = StringVar(self)
# create one tab per category
for cat in categories:
menu_cat.add_radiobutton(label=cat.capitalize(),
value=cat,
variable=self.category,
command=self.change_cat_selection)
self.notes[cat] = {}
frame = Frame(self.notebook, padding=2)
self.texts[cat] = Text(frame,
width=1,
height=1,
bg=self.cget('bg'),
relief='flat',
highlightthickness=0,
padx=0,
pady=0,
cursor='arrow')
frame.columnconfigure(0, weight=1)
frame.rowconfigure(1, weight=1)
self.texts[cat].grid(row=1, column=0, sticky='ewsn')
scrolly = Scrollbar(frame,
orient='vertical',
command=self.texts[cat].yview)
scrolly.grid(row=1, column=1, sticky='ns', pady=(2, 0))
scrollx = Scrollbar(frame,
orient='horizontal',
command=self.texts[cat].xview)
scrollx.grid(row=2, column=0, sticky='ew')
self.texts[cat].configure(xscrollcommand=scrollx.set,
yscrollcommand=scrolly.set)
self.frames[cat] = Frame(self.texts[cat],
style='bg.TFrame',
padding=1,
height=29,
width=523)
self.frames[cat].columnconfigure(0, weight=1, minsize=170)
headings = Frame(frame, padding=(1, 0, 1, 0))
headings.columnconfigure(0, weight=0, minsize=20)
headings.columnconfigure(1, weight=1, minsize=198)
headings.columnconfigure(2, weight=1, minsize=198)
headings.columnconfigure(3, weight=0, minsize=84)
headings.columnconfigure(4, weight=0, minsize=22)
Heading(headings,
cat,
'title',
command=self.sort_column,
text=_('Title')).grid(row=0, column=1, sticky='ew')
Heading(headings,
cat,
'text',
command=self.sort_column,
text=_('Text')).grid(row=0, column=2, sticky='ew')
Heading(headings,
cat,
'date',
command=self.sort_column,
text=_('Date')).grid(row=0, column=3, sticky='ew')
Heading(headings,
cat,
'select_all',
style='select.heading.TLabel',
padding=0,
command=self.toggle_selectall).place(x=0,
y=0,
anchor='nw',
relheight=1,
width=20)
Heading(headings, cat, 'visibility',
command=self.sort_column).place(relx=1,
y=0,
anchor='ne',
bordermode='outside',
width=23,
relheight=1)
headings.place(x=0, y=2, anchor='nw')
self.update_idletasks()
frame.rowconfigure(0, minsize=headings.winfo_reqheight())
self.texts[cat].window_create('1.0', window=self.frames[cat])
b_frame = Frame(frame)
b_frame.grid(row=3, columnspan=2)
m = Menubutton(b_frame,
image=self.im_change,
text=_('Change category'),
compound='right',
menu=menu_cat,
padding=1)
m.pack(side='left', padx=4, pady=4, fill='y')
tooltipwrapper.add_tooltip(m,
_('Change category of selected notes'))
b_show = Button(b_frame,
image=self.im_visible,
padding=1,
command=self.show_selection)
b_show.pack(side='left', padx=4, pady=4)
tooltipwrapper.add_tooltip(b_show, _('Show selected notes'))
b_hide = Button(b_frame,
image=self.im_hidden,
padding=1,
command=self.hide_selection)
b_hide.pack(side='left', padx=4, pady=4)
tooltipwrapper.add_tooltip(b_hide, _('Hide selected notes'))
b_del = Button(b_frame,
image=self.im_del,
command=self.del_selection,
padding=1)
b_del.pack(side='left', padx=4, pady=4, fill='y')
tooltipwrapper.add_tooltip(b_del, _('Delete selected notes'))
self.notebook.add(frame,
text=cat.capitalize(),
sticky="ewsn",
padding=0)
# display notes by category
for key, note_data in self.master.note_data.items():
self.display_note(key, note_data)
for txt in self.texts.values():
txt.configure(state='disabled')
self.geometry('410x450')
self.bind("<Button-4>", lambda e: self.scroll(-1))
self.bind("<Button-5>", lambda e: self.scroll(1))
self.notebook.bind('<<NotebookTabChanged>>', self.on_change_tab)
def toggle_selectall(self, event):
heading = event.widget
cat = heading.category
sel = self.get_selection(cat)
if len(sel) == len(self.notes[cat]):
for widget in self.notes[cat].values():
widget.state(('!selected', ))
else:
for widget in self.notes[cat].values():
widget.state(('selected', ))
def show_selection(self):
cat = self.notebook.tab('current', 'text').lower()
sel = self.get_selection(cat)
if sel:
for key in sel:
self.notes[cat][key].visibility.set(True)
self.toggle_visibility(key, True)
def hide_selection(self):
cat = self.notebook.tab('current', 'text').lower()
sel = self.get_selection(cat)
if sel:
for key in sel:
self.notes[cat][key].visibility.set(False)
self.toggle_visibility(key, False)
def select_all(self):
cat = self.notebook.tab('current', 'text').lower()
for widget in self.notes[cat].values():
widget.state(('selected', ))
def deselect_all(self):
cat = self.notebook.tab('current', 'text').lower()
for widget in self.notes[cat].values():
widget.state(('!selected', ))
def sort_column(self, event):
"""Sort column."""
heading = event.widget
notes = [(item.get(heading.column), item.get_values(), item)
for item in self.notes[heading.category].values()]
notes.sort(reverse=heading.reverse, key=lambda x: x[:-1])
for i, (val, values, item) in enumerate(notes):
item.grid_configure(row=i)
heading.reverse = not heading.reverse
heading.state(['!' * heading.reverse + 'alternate'])
def toggle_visibility(self, key, visible):
if visible:
if key not in self.master.notes:
self.master.show_note(key)
else:
if key in self.master.notes:
self.master.notes[key].hide()
self.after(2, self.focus_set)
self.after(4, self.grab_set)
def display_note(self, key, note_data):
"""Display note in note manager."""
cat = note_data["category"]
c, r = self.frames[cat].grid_size()
self.notes[cat][key] = ManagerItem(
self.frames[cat], note_data,
lambda vis: self.toggle_visibility(key, vis))
self.notes[cat][key].grid(row=r, sticky='ew')
def on_change_tab(self, event):
self.category.set(self.notebook.tab("current", "text").lower())
def del_selection(self):
"""Delete selected notes."""
cat = self.notebook.tab('current', 'text').lower()
sel = self.get_selection(cat)
if sel:
rep = askokcancel(_("Confirmation"),
_("Delete the selected notes?"))
if rep:
for key in sel:
self.master.delete_note(key)
self.notes[cat][key].destroy()
del self.notes[cat][key]
self.update_idletasks()
def change_cat_selection(self):
"""Change selected notes category."""
cat = self.notebook.tab('current', 'text').lower()
new_cat = self.category.get()
sel = self.get_selection(cat)
if sel and new_cat != cat:
rep = askokcancel(_("Confirmation"),
_("Change the category of the selected notes?"))
if rep:
for key in sel:
self.master.change_note_category(key, new_cat)
self.notes[cat][key].destroy()
del self.notes[cat][key]
self.display_note(key, self.master.note_data[key])
self.update_idletasks()
self.category.set(cat)
self.grab_set()
def get_selection(self, cat):
sel = []
for key, widget in self.notes[cat].items():
if 'selected' in widget.state():
sel.append(key)
return sel
def scroll(self, delta):
cat = self.notebook.tab("current", "text").lower()
top, bottom = self.texts[cat].yview()
top += delta * 0.05
top = min(max(top, 0), 1)
self.texts[cat].yview_moveto(top)
class TestTool(tk.Tk):
def __init__(self):
super().__init__()
self.title("Test Tool Platform:" + str(platform.system()))
w = 1000 # width for the Tk root
h = 800 # height for the Tk root
# get screen width and height
ws = self.winfo_screenwidth() # width of the screen
hs = self.winfo_screenheight() # height of the screen
# calculate x and y coordinates for the Tk root window
x = (ws / 2) - (w / 2)
y = (hs / 2) - (h / 2)
# set the dimensions of the screen
# and where it is placed
self.geometry('%dx%d+%d+%d' % (w, h, x, y))
'''self.notebook'''
self.notebook = Notebook(self)
self.notebook.pack(side=tk.TOP, fill=tk.BOTH, expand=tk.YES)
self.init_FrameViewer()
def init_FrameViewer(self):
self.init_FrameViewer_tab = tk.Frame(self.notebook)
self.init_FrameViewer_tab.pack(side=tk.LEFT,
expand=tk.YES,
fill=tk.BOTH)
self.notebook.add(self.init_FrameViewer_tab, text="init_FrameViewer")
self.FrameSwitch = tk.StringVar()
fvfram1 = tk.Frame(self.init_FrameViewer_tab)
fvfram1.grid(row=0, column=0, sticky=tk.E + tk.W)
self.fv1 = FV.FrameViewer(fvfram1)
fvfram1_2 = tk.Frame(self.init_FrameViewer_tab)
fvfram1_2.grid(row=1, column=0, sticky=tk.E + tk.W)
switch1 = tk.Radiobutton(fvfram1_2,
text="Frame\n Switch 1",
font=('Courier', 9),
variable=self.FrameSwitch,
value="Frame Switch 1",
command=self.frameswitch)
switch1.pack(side=tk.RIGHT, expand=tk.NO, fill=tk.X)
fvfram2 = tk.Frame(self.init_FrameViewer_tab)
fvfram2.grid(row=2, column=0, sticky=tk.E + tk.W)
self.fv2 = FV.FrameViewer(fvfram2)
fvfram2_2 = tk.Frame(self.init_FrameViewer_tab)
fvfram2_2.grid(row=3, column=0, sticky=tk.E + tk.W)
switch2 = tk.Radiobutton(fvfram2_2,
text="Frame\n Switch 2",
font=('Courier', 9),
variable=self.FrameSwitch,
value="Frame Switch 2",
command=self.frameswitch)
switch2.pack(side=tk.RIGHT, expand=tk.NO, fill=tk.X)
fvfram3 = tk.Frame(self.init_FrameViewer_tab)
fvfram3.grid(row=0, column=1, sticky=tk.E + tk.W)
self.fv3 = FV.FrameViewer(fvfram3)
fvfram3_2 = tk.Frame(self.init_FrameViewer_tab)
fvfram3_2.grid(row=1, column=1, sticky=tk.E + tk.W)
switch3 = tk.Radiobutton(fvfram3_2,
text="Frame\n Switch 3",
font=('Courier', 9),
variable=self.FrameSwitch,
value="Frame Switch 3",
command=self.frameswitch)
switch3.pack(side=tk.RIGHT, expand=tk.NO, fill=tk.X)
fvfram4 = tk.Frame(self.init_FrameViewer_tab)
fvfram4.grid(row=2, column=1, sticky=tk.E + tk.W)
self.fv4 = FV.FrameViewer(fvfram4)
fvfram4_2 = tk.Frame(self.init_FrameViewer_tab)
fvfram4_2.grid(row=3, column=1, sticky=tk.E + tk.W)
switch4 = tk.Radiobutton(fvfram4_2,
text="Frame\n Switch 4",
font=('Courier', 9),
variable=self.FrameSwitch,
value="Frame Switch 4",
command=self.frameswitch)
switch4.pack(side=tk.RIGHT, expand=tk.NO, fill=tk.X)
def frameswitch(self):
if self.FrameSwitch.get() == "Frame Switch 1":
StreamFile = self.fv1.cap #self.iv1.image_paths[self.iv1.image_idx]
elif self.FrameSwitch.get() == "Frame Switch 2":
StreamFile = self.fv2.cap #self.iv2.image_paths[self.iv2.image_idx]
elif self.FrameSwitch.get() == "Frame Switch 3":
StreamFile = self.fv3.cap #self.iv3.image_paths[self.iv3.image_idx]
elif self.FrameSwitch.get() == "Frame Switch 4":
StreamFile = self.fv4.cap #self.iv4.image_paths[self.iv4.image_idx]
#print(StreamFile)
"""
def Result_Print():
window = Tk()
window.title("分析結果")
window.geometry("600x900")
frame2 = Frame(window)
frame2.pack(fill="both")
tablayout = Notebook(frame2)
tablayout2 = Notebook(frame2)
#交叉配對
ntab1 = Frame(tablayout2)
ntab1.pack(fill="both")
for row in range(len(name_n)):
for column in range(1):
label = Label(ntab1,
width=25,
height=2,
text=name_n[row],
bg="black",
fg="white",
padx=1,
pady=1)
label.grid(row=row, column=column, sticky="nsew", padx=1, pady=1)
ntab1.grid_columnconfigure(column, weight=1)
for row in range(len(name_n)):
for column in range(1):
label = Label(ntab1,
width=5,
height=2,
text="%s" % rate_n[row],
bg="black",
fg="white",
padx=1,
pady=1)
label.grid(row=row, column=1, sticky="nsew", padx=1, pady=1)
ntab1.grid_columnconfigure(column, weight=1)
for row in range(len(name_n)):
for column in range(1):
label = Label(ntab1,
width=12,
height=2,
text="% 相似程度",
bg="black",
fg="white",
padx=1,
pady=1)
label.grid(row=row, column=2, sticky="nsew", padx=1, pady=1)
ntab1.grid_columnconfigure(column, weight=1)
tablayout2.add(ntab1, text="交叉配對結果")
ntab2 = Frame(tablayout2)
ntab2.pack(fill="both")
for row in range(len(ncol)):
for column in range(1):
label = Label(ntab2,
width=22,
height=1,
text=ncol[row],
bg="black",
fg="white",
padx=1,
pady=1)
label.grid(row=row, column=0, sticky="nsew", padx=1, pady=1)
ntab1.grid_columnconfigure(column, weight=1)
for row in range(len(ncol)):
for column in range(1):
label = Label(ntab2,
width=22,
height=1,
text=row_nf3[row],
bg="black",
fg="white",
padx=1,
pady=1)
label.grid(row=row, column=1, sticky="nsew", padx=1, pady=1)
ntab1.grid_columnconfigure(column, weight=1)
tablayout2.add(ntab2, text="配方1")
ntab3 = Frame(tablayout2)
ntab3.pack(fill="both")
for row in range(len(ncol)):
for column in range(1):
label = Label(ntab3,
width=22,
height=1,
text=ncol[row],
bg="black",
fg="white",
padx=1,
pady=1)
label.grid(row=row, column=0, sticky="nsew", padx=1, pady=1)
ntab1.grid_columnconfigure(column, weight=1)
for row in range(len(ncol)):
for column in range(1):
label = Label(ntab3,
width=22,
height=1,
text=row_nf32[row],
bg="black",
fg="white",
padx=1,
pady=1)
label.grid(row=row, column=1, sticky="nsew", padx=1, pady=1)
ntab1.grid_columnconfigure(column, weight=1)
tablayout2.add(ntab3, text="配方2")
ntab4 = Frame(tablayout2)
ntab4.pack(fill="both")
for row in range(len(ncol)):
for column in range(1):
label = Label(ntab4,
width=22,
height=1,
text=ncol[row],
bg="black",
fg="white",
padx=1,
pady=1)
label.grid(row=row, column=0, sticky="nsew", padx=1, pady=1)
ntab1.grid_columnconfigure(column, weight=1)
for row in range(len(ncol)):
for column in range(1):
label = Label(ntab4,
width=22,
height=1,
text=row_nf33[row],
bg="black",
fg="white",
padx=1,
pady=1)
label.grid(row=row, column=1, sticky="nsew", padx=1, pady=1)
ntab1.grid_columnconfigure(column, weight=1)
tablayout2.add(ntab4, text="配方3")
ntab5 = Frame(tablayout2)
ntab5.pack(fill="both")
for row in range(len(ncol)):
for column in range(1):
label = Label(ntab5,
width=22,
height=1,
text=ncol[row],
bg="black",
fg="white",
padx=1,
pady=1)
label.grid(row=row, column=0, sticky="nsew", padx=1, pady=1)
ntab1.grid_columnconfigure(column, weight=1)
for row in range(len(ncol)):
for column in range(1):
label = Label(ntab5,
width=22,
height=1,
text=row_nf3[row],
bg="black",
fg="white",
padx=1,
pady=1)
label.grid(row=row, column=1, sticky="nsew", padx=1, pady=1)
ntab1.grid_columnconfigure(column, weight=1)
tablayout2.add(ntab5, text="最接近配方")
#顏色分類
tab1 = Frame(tablayout)
tab1.pack(fill="both")
for row in range(len(name)):
for column in range(1):
label = Label(tab1,
width=25,
height=2,
text=name[row],
bg="black",
fg="white",
padx=1,
pady=1)
label.grid(row=row, column=column, sticky="nsew", padx=1, pady=1)
tab1.grid_columnconfigure(column, weight=1)
for row in range(len(name)):
for column in range(1):
label = Label(tab1,
width=5,
height=2,
text="%s" % rate[row],
bg="black",
fg="white",
padx=1,
pady=1)
label.grid(row=row, column=1, sticky="nsew", padx=1, pady=1)
tab1.grid_columnconfigure(column, weight=1)
for row in range(len(name)):
for column in range(1):
label = Label(tab1,
width=12,
height=2,
text="% 相似程度",
bg="black",
fg="white",
padx=1,
pady=1)
label.grid(row=row, column=2, sticky="nsew", padx=1, pady=1)
tab1.grid_columnconfigure(column, weight=1)
tablayout.add(tab1, text="顏色分類結果")
tab2 = Frame(tablayout)
tab2.pack(fill="both")
for row in range(len(col)):
for column in range(1):
label = Label(tab2,
width=22,
height=1,
text=col[row],
bg="black",
fg="white",
padx=1,
pady=1)
label.grid(row=row, column=0, sticky="nsew", padx=1, pady=1)
tab1.grid_columnconfigure(column, weight=1)
for row in range(len(col)):
for column in range(1):
label = Label(tab2,
width=22,
height=1,
text=row_df3[row],
bg="black",
fg="white",
padx=1,
pady=1)
label.grid(row=row, column=1, sticky="nsew", padx=1, pady=1)
tab1.grid_columnconfigure(column, weight=1)
tablayout.add(tab2, text="配方1")
tab3 = Frame(tablayout)
tab3.pack(fill="both")
for row in range(len(col)):
for column in range(1):
label = Label(tab3,
width=22,
height=1,
text=col[row],
bg="black",
fg="white",
padx=1,
pady=1)
label.grid(row=row, column=0, sticky="nsew", padx=1, pady=1)
tab1.grid_columnconfigure(column, weight=1)
for row in range(len(col)):
for column in range(1):
label = Label(tab3,
width=22,
height=1,
text=row_df32[row],
bg="black",
fg="white",
padx=1,
pady=1)
label.grid(row=row, column=1, sticky="nsew", padx=1, pady=1)
tab1.grid_columnconfigure(column, weight=1)
tablayout.add(tab3, text="配方2")
tab4 = Frame(tablayout)
tab4.pack(fill="both")
for row in range(len(col)):
for column in range(1):
label = Label(tab4,
width=22,
height=1,
text=col[row],
bg="black",
fg="white",
padx=1,
pady=1)
label.grid(row=row, column=0, sticky="nsew", padx=1, pady=1)
tab1.grid_columnconfigure(column, weight=1)
for row in range(len(col)):
for column in range(1):
label = Label(tab4,
width=22,
height=1,
text=row_df33[row],
bg="black",
fg="white",
padx=1,
pady=1)
label.grid(row=row, column=1, sticky="nsew", padx=1, pady=1)
tab1.grid_columnconfigure(column, weight=1)
tablayout.add(tab4, text="配方3")
tab5 = Frame(tablayout)
tab5.pack(fill="both")
for row in range(len(col)):
for column in range(1):
label = Label(tab5,
width=22,
height=1,
text=col[row],
bg="black",
fg="white",
padx=1,
pady=1)
label.grid(row=row, column=0, sticky="nsew", padx=1, pady=1)
tab1.grid_columnconfigure(column, weight=1)
for row in range(len(col)):
for column in range(1):
label = Label(tab5,
width=22,
height=1,
text=row_text[row],
bg="black",
fg="white",
padx=1,
pady=1)
label.grid(row=row, column=1, sticky="nsew", padx=1, pady=1)
tab1.grid_columnconfigure(column, weight=1)
tablayout.add(tab5, text="最接近配方")
tablayout.pack()
tablayout2.pack()
window.mainloop()
class Manager(Toplevel):
"""Note manager."""
def __init__(self, master):
Toplevel.__init__(self, master)
self.title(_("Delete"))
self.grab_set()
categories = CONFIG.options("Categories")
categories.sort()
self.im_moins = PhotoImage(file=IM_MOINS, master=self)
self.notebook = Notebook(self)
self.notebook.pack(fill='both', expand=True)
self.texts = {}
frames = {}
self.notes = {}
for cat in categories:
frame = Frame(self.notebook)
self.texts[cat] = Text(frame,
width=1,
height=1,
bg=self.cget('bg'),
relief='flat',
highlightthickness=0,
padx=4,
pady=4,
cursor='arrow')
frame.columnconfigure(0, weight=1)
frame.rowconfigure(0, weight=1)
self.texts[cat].grid(row=0, column=0, sticky='ewsn', padx=(0, 2))
scrolly = Scrollbar(frame,
orient='vertical',
command=self.texts[cat].yview)
scrolly.grid(row=0, column=1, sticky='ns')
scrollx = Scrollbar(frame,
orient='horizontal',
command=self.texts[cat].xview)
scrollx.grid(row=1, column=0, sticky='ew')
self.texts[cat].configure(xscrollcommand=scrollx.set,
yscrollcommand=scrolly.set)
frames[cat] = Frame(self.texts[cat])
frames[cat].columnconfigure(0, weight=1, minsize=170)
frames[cat].columnconfigure(1, weight=1, minsize=170)
frames[cat].columnconfigure(2, minsize=20)
self.texts[cat].window_create('1.0', window=frames[cat])
self.notebook.add(frame,
text=cat.capitalize(),
sticky="ewsn",
padding=0)
for key, note_data in self.master.note_data.items():
cat = note_data["category"]
c, r = frames[cat].grid_size()
self.notes[key] = []
title = note_data['title'][:20]
title = title.replace('\t', ' ') + ' ' * (20 - len(title))
self.notes[key].append(
Label(frames[cat], text=title, font='TkDefaultFont 10 bold'))
txt = note_data['txt'].splitlines()
if txt:
txt = txt[0][:17] + '...'
else:
txt = ''
txt = txt.replace('\t', ' ') + ' ' * (20 - len(txt))
self.notes[key].append(Label(frames[cat], text=txt))
self.notes[key].append(
Button(frames[cat],
image=self.im_moins,
command=lambda iid=key: self.delete_note(iid)))
for i, widget in enumerate(self.notes[key]):
widget.grid(row=r, column=i, sticky='w', padx=4, pady=4)
for txt in self.texts.values():
txt.configure(state='disabled')
self.geometry('410x450')
self.bind_all("<Button-4>", lambda e: self.scroll(-1))
self.bind_all("<Button-5>", lambda e: self.scroll(1))
def delete_note(self, note_id):
self.master.delete_note(note_id)
for widget in self.notes[note_id]:
widget.destroy()
def scroll(self, delta):
cat = self.notebook.tab("current", "text").lower()
top, bottom = self.texts[cat].yview()
top += delta * 0.05
top = min(max(top, 0), 1)
self.texts[cat].yview_moveto(top)
class DeviceSelector:
BASE_DIR = os.path.abspath(os.path.dirname(__file__))
devices = None
local = LocalConnector()
grid = GridConnector()
sauce = SauceConnector()
mc = MCConnector()
def __init__(self, parallel=False, platform="mobile"):
self.parallel = parallel
self.platform = platform
def start(self):
parallel = self.parallel
platform = self.platform
# Create Window
self.root = Tk()
win = self.root
self.note = Notebook(self.root)
# Set Window Properties
win.wm_title("Test Runner")
win.minsize(width=500, height=500)
# Create Listbox
scrollbar = Scrollbar(win)
scrollbar.pack(side=RIGHT, fill=Y)
# Add Mustard Checkbox and Instructions Label
frame = Frame(win)
self.mustard = GetConfig("SKIP_MUSTARD").lower() == "false"
c = Checkbutton(frame, text="Add Mustard?", command=self._toggleMustard)
if self.mustard:
c.select()
c.pack(side=RIGHT)
mobileFrame = Frame(win)
if parallel:
label = Label(frame, text="Please Select one or more devices to run")
label.pack(side=LEFT)
self.listboxMobile = Listbox(mobileFrame, selectmode=EXTENDED)
else:
label = Label(frame, text="Please Select one device to run")
label.pack(side=LEFT)
self.listboxMobile = Listbox(mobileFrame, selectmode=SINGLE)
frame.pack(fill=X)
self.listboxMobile.pack(fill=BOTH, expand=1)
# Attach Scrollbar to Listbox
self.listboxMobile.config(yscrollcommand=scrollbar.set)
scrollbar.config(command=self.listboxMobile.yview)
# Generate Listbox Data
mobileData = []
mobileNodes = self.grid.mobileNodes
for node in mobileNodes:
mobileData.append(node)
self.listboxMobile.insert(END, node.displayString())
sauceNodes = self.sauce.mobileNodes
for node in sauceNodes:
mobileData.append(node)
self.listboxMobile.insert(END, node.displayString())
mcNodes = self.mc.mobileNodes
for node in mcNodes:
mobileData.append(node)
self.listboxMobile.insert(END, node.displayString())
self.mobileData = mobileData
self.listboxMobile.insert(END, "Local Device")
desktopFrame = Frame(win)
if parallel:
self.listboxDesktop = Listbox(desktopFrame, selectmode=EXTENDED)
else:
self.listboxDesktop = Listbox(desktopFrame, selectmode=SINGLE)
frame.pack(fill=X)
self.listboxDesktop.pack(fill=BOTH, expand=1)
# Attach Scrollbar to Listbox
self.listboxDesktop.config(yscrollcommand=scrollbar.set)
scrollbar.config(command=self.listboxDesktop.yview)
# Generate Listbox Data
webData = []
webDisplay = []
localNodes = self.local.webNodes
for node in localNodes:
webData.append(node)
self.listboxDesktop.insert(END, node.displayString())
webNodes = self.grid.webNodes
for node in webNodes:
ds = node.displayString()
if ds not in webDisplay:
webDisplay.append(ds)
webData.append(node)
self.listboxDesktop.insert(END, ds)
sauceNodes = self.sauce.webNodes
for node in sauceNodes:
webData.append(node)
self.listboxDesktop.insert(END, node.displayString())
sauceNodes = self.sauce.mobileWebNodes
for node in sauceNodes:
webData.append(node)
self.listboxDesktop.insert(END, node.displayString())
mcNodes = self.mc.webNodes
for node in mcNodes:
webData.append(node)
self.listboxDesktop.insert(END, node.displayString())
self.webData = webData
self.frame = Frame(win)
self.frame.pack(fill=X)
# Create Buttons
Button(mobileFrame, text="Cancel", fg="red", command=self.frame.quit, width=50, height=5).pack(
side=RIGHT, fill=Y
)
Button(mobileFrame, text="Run Test", fg="green", command=self._saveDevices, width=50).pack(side=LEFT, fill=Y)
# Create Buttons
Button(desktopFrame, text="Cancel", fg="red", command=self.frame.quit, width=50, height=5).pack(
side=RIGHT, fill=Y
)
Button(desktopFrame, text="Run Test", fg="green", command=self._saveDevicesDesktop, width=50).pack(
side=LEFT, fill=Y
)
if platform.lower() == "mobile":
self.note.add(mobileFrame, text="Mobile")
self.note.add(desktopFrame, text="Web")
else:
self.note.add(desktopFrame, text="Web")
self.note.add(mobileFrame, text="Mobile")
self.note.pack(fill=BOTH, expand=1)
# allow double clicking in listbox to select a browser
self.listboxMobile.bind("<Double-1>", lambda x: self._saveDevices())
self.listboxDesktop.bind("<Double-1>", lambda x: self._saveDevicesDesktop())
def _toggleMustard(self):
self.mustard = not self.mustard
def getDevice(self, filter=None, mustard=True):
if filter:
# webNodes = self.grid.webNodes
# mobileNodes = self.grid.mobileNodes
if self.platform:
if self.platform == "desktop":
nodes = self.grid.webNodes + self.sauce.webNodes + self.sauce.mobileWebNodes
elif self.platform == "mobile":
nodes = self.grid.mobileNodes + self.sauce.mobileNodes
else:
nodes = self.grid.webNodes + self.grid.mobileNodes + self.sauce.webNodes + self.sauce.mobileWebNodes
output = []
for node in nodes:
if re.search(filter, node.displayString()):
dc = node.desiredCaps(mustard=mustard)
output.append(dc)
return output
else:
self.start()
# for osx bring selector window to the front
if sys.platform.lower() == "darwin": # Mac OS
self.root.lift()
self.root.attributes("-topmost", True)
self.root.mainloop()
self.root.destroy()
output = []
for x in range(len(self.devices)):
dc = self.devices[x].desiredCaps(mustard=self.mustard)
output.append(dc)
return output
def _saveDevicesDesktop(self):
selected = self.listboxDesktop.curselection()
output = []
for selection in selected:
output.append(self.webData[int(selection)])
self.frame.quit()
self.devices = output
def _saveDevices(self):
selected = self.listboxMobile.curselection()
output = []
for selection in selected:
output.append(self.mobileData[int(selection)])
self.frame.quit()
self.devices = output
class Main:
def __init__(self, master):
self.master = master
self.abas = Notebook()
self.frame_aba1 = Frame(self.abas) # Aba superior 'Débitos'.
self.frame_aba2 = Frame(self.abas) # Aba 'REALIZAR PEDIDOS'.
self.frame_aba3 = Frame(self.abas) # Aba 'ENTREGAS'
self.abas.add(self.frame_aba1, text='Débitos') # Nomeando as abas.
self.abas.add(self.frame_aba2, text='Realizar Pedido') # Nomeando as abas.
self.abas.add(self.frame_aba3, text='Entregas') # Nomeando as abas.
self.abas.pack(anchor=W)
# Início quadrado ADICIONAR DÉBITO.
self.frame = LabelFrame(self.frame_aba1, text='ADICIONAR DÉBITO')
self.frame.grid(row=0, column=0, padx=20, pady=20)
Label(self.frame, text='Nome :').grid(row=1, column=1)
self.name = Entry(self.frame)
self.name.grid(row=1, column=2, padx=10)
Label(self.frame, text='Data de Nascimento :').grid(row=2, column=1)
self.datanasci = Entry(self.frame)
self.datanasci.grid(row=2, column=2)
Label(self.frame, text='CPF :').grid(row=3, column=1)
self.cpf = Entry(self.frame)
self.cpf.grid(row=3, column=2)
Label(self.frame, text='Data do Débito :').grid(row=4, column=1)
self.datdeb = Entry(self.frame)
self.datdeb.grid(row=4, column=2)
Label(self.frame, text='Valor do Débito :').grid(row=5, column=1)
self.valordeb = Entry(self.frame)
self.valordeb.grid(row=5, column=2)
self.btn1 = Button(self.frame, text='ENVIAR', command=self.enviar_nome)
self.btn1.grid(row=6, column=2, pady=10)
# Início quadrado Buscar/Deletar Débitos.
self.frame2 = LabelFrame(self.frame_aba1, text='BUSCAR/DELETAR DÉBITOS')
self.frame2.grid(row=1, column=0)
Label(self.frame2, text='Buscar por Nome :').grid(row=1, column=1)
self.busnome = Entry(self.frame2)
self.busnome.grid(row=1, column=2, padx=10)
Label(self.frame2, text='Buscar por CPF :').grid(row=2, column=1)
self.buscpf = Entry(self.frame2)
self.buscpf.grid(row=2, column=2)
Label(self.frame2, text='Buscar Pessoa').grid(row=3, column=1)
Label(self.frame2, text='Deletar Débito').grid(row=3, column=2)
self.btn2 = Button(self.frame2, text='BUSCAR')
self.btn2.grid(row=4, column=1, pady=10)
self.btn3 = Button(self.frame2, text='DELETAR', command=self.deletar_nome)
self.btn3.grid(row=4, column=2)
# Início tabela Treeview.
self.tree = ttk.Treeview(self.frame_aba1, height=20, columns=('Nº', 'Nome', 'Valor do Débito', 'Data do Débito', 'CPF'))
self.tree.grid(row=0, column=1, rowspan=10)
self.tree.heading('#0', text='Nº', anchor=W)
self.tree.heading('#1', text='Nome', anchor=W)
self.tree.heading('#2', text='Valor do Débito', anchor=W)
self.tree.heading('#3', text='Data do Débito', anchor=W)
self.tree.heading('#4', text='CPF', anchor=W)
self.tree.heading('#5', text='Data Nascimento', anchor=W)
self.tree.column('#0', minwidth=50, width=80)
self.tree.column('#1', minwidth=50, width=250)
self.tree.column('#2', minwidth=50, width=150)
self.tree.column('#3', minwidth=50, width=150)
self.tree.column('#4', minwidth=100, width=200)
self.tree.column('#5', minwidth=50, width=150)
self.treeview = self.tree
self.i = 1
# Scrollbar da tabela Treeview.
self.yscroll = Scrollbar(self.frame_aba1, orient=VERTICAL)
self.tree['yscrollcommand'] = self.yscroll.set
self.yscroll['command'] = self.tree.yview()
self.yscroll.grid(row=0, column=1, rowspan=10, sticky=N+S+E)
############################## ABA REALIZAR PEDIDO #########################################
self.frame3 = LabelFrame(self.frame_aba2, text='INFORMAÇÕES DO PEDIDO')
self.frame3.grid(row=0, column=0, padx=10, pady=10)
Label(self.frame3, text='Nome :').grid(row=0, column=0)
self.nameframe3 = Entry(self.frame3)
self.nameframe3.grid(row=0, column=1)
Label(self.frame3, text='Entregar Dia :').grid(row=1, column=0)
self.entdia = Entry(self.frame3)
self.entdia.grid(row=1, column=1)
Label(self.frame3, text='Endereço :').grid(row=0, column=2)
self.ende = Entry(self.frame3)
self.ende.grid(row=0, column=3)
Label(self.frame3, text='Bairro :').grid(row=1, column=2)
self.bairro = Entry(self.frame3)
self.bairro.grid(row=1, column=3)
Label(self.frame3, text='CEP :').grid(row=0, column=4)
self.cep = Entry(self.frame3)
self.cep.grid(row=0, column=5)
Label(self.frame3, text='Ponto de Referência :').grid(row=1, column=4)
self.pontodr = Entry(self.frame3)
self.pontodr.grid(row=1, column=5)
Label(self.frame3, text='Fone 1 :').grid(row=0, column=6)
self.fone1 = Entry(self.frame3)
self.fone1.grid(row=0, column=7)
Label(self.frame3, text='Fone 2 :').grid(row=1, column=6)
self.fone2 = Entry(self.frame3)
self.fone2.grid(row=1, column=7, padx=10, pady=10)
self.frame4 = LabelFrame(self.frame_aba2, text='INFORME AQUI OS PRODUTOS DO PEDIDO')
self.frame4.grid(row=1, column=0)
self.entradap = Text(self.frame4)
self.entradap.grid(row=2, column=0, padx=10, pady=10)
self.btn4 = Button(self.frame4, text='ENVIAR')
self.btn4.grid(row=3, column=0, pady=10)
# Comandos da aba Débitos
def enviar_nome(self):
self.treeview.insert('', 'end', text='Nº '+str(self.i), values=(self.name.get(), self.valordeb.get(),
self.datdeb.get(), self.cpf.get(),
self.datanasci.get()))
self.name.delete(0, 'end')
self.valordeb.delete(0, 'end')
self.datdeb.delete(0, 'end')
self.cpf.delete(0, 'end')
self.datanasci.delete(0, 'end')
self.i = self.i + 1
def deletar_nome(self):
self.selected_item = self.tree.selection() # get selected item
self.tree.delete(self.selected_item)
class DeviceSelector:
BASE_DIR = os.path.abspath(os.path.dirname(__file__))
devices = None
local = LocalConnector()
grid = GridConnector()
sauce = SauceConnector()
mc = MCConnector()
def __init__(self, parallel=False, platform='mobile'):
self.parallel = parallel
self.platform = platform
def start(self):
parallel = self.parallel
platform = self.platform
# Create Window
self.root = Tk()
win = self.root
self.note = Notebook(self.root)
# Set Window Properties
win.wm_title("Test Runner")
win.minsize(width=500, height=500)
# Create Listbox
scrollbar = Scrollbar(win)
scrollbar.pack(side=RIGHT, fill=Y)
#Add Mustard Checkbox and Instructions Label
frame = Frame(win)
self.mustard = GetConfig('SKIP_MUSTARD').lower() == 'false'
c = Checkbutton(frame,
text="Add Mustard?",
command=self._toggleMustard)
if self.mustard:
c.select()
c.pack(side=RIGHT)
mobileFrame = Frame(win)
if parallel:
label = Label(frame,
text="Please Select one or more devices to run")
label.pack(side=LEFT)
self.listboxMobile = Listbox(mobileFrame, selectmode=EXTENDED)
else:
label = Label(frame, text="Please Select one device to run")
label.pack(side=LEFT)
self.listboxMobile = Listbox(mobileFrame, selectmode=SINGLE)
frame.pack(fill=X)
self.listboxMobile.pack(fill=BOTH, expand=1)
# Attach Scrollbar to Listbox
self.listboxMobile.config(yscrollcommand=scrollbar.set)
scrollbar.config(command=self.listboxMobile.yview)
# Generate Listbox Data
mobileData = []
mobileNodes = self.grid.mobileNodes
for node in mobileNodes:
mobileData.append(node)
self.listboxMobile.insert(END, node.displayString())
sauceNodes = self.sauce.mobileNodes
for node in sauceNodes:
mobileData.append(node)
self.listboxMobile.insert(END, node.displayString())
mcNodes = self.mc.mobileNodes
for node in mcNodes:
mobileData.append(node)
self.listboxMobile.insert(END, node.displayString())
self.mobileData = mobileData
self.listboxMobile.insert(END, 'Local Device')
desktopFrame = Frame(win)
if parallel:
self.listboxDesktop = Listbox(desktopFrame, selectmode=EXTENDED)
else:
self.listboxDesktop = Listbox(desktopFrame, selectmode=SINGLE)
frame.pack(fill=X)
self.listboxDesktop.pack(fill=BOTH, expand=1)
# Attach Scrollbar to Listbox
self.listboxDesktop.config(yscrollcommand=scrollbar.set)
scrollbar.config(command=self.listboxDesktop.yview)
# Generate Listbox Data
webData = []
webDisplay = []
localNodes = self.local.webNodes
for node in localNodes:
webData.append(node)
self.listboxDesktop.insert(END, node.displayString())
webNodes = self.grid.webNodes
for node in webNodes:
ds = node.displayString()
if ds not in webDisplay:
webDisplay.append(ds)
webData.append(node)
self.listboxDesktop.insert(END, ds)
sauceNodes = self.sauce.webNodes
for node in sauceNodes:
webData.append(node)
self.listboxDesktop.insert(END, node.displayString())
sauceNodes = self.sauce.mobileWebNodes
for node in sauceNodes:
webData.append(node)
self.listboxDesktop.insert(END, node.displayString())
mcNodes = self.mc.webNodes
for node in mcNodes:
webData.append(node)
self.listboxDesktop.insert(END, node.displayString())
self.webData = webData
self.frame = Frame(win)
self.frame.pack(fill=X)
# Create Buttons
Button(mobileFrame,
text="Cancel",
fg="red",
command=self.frame.quit,
width=50,
height=5).pack(side=RIGHT, fill=Y)
Button(mobileFrame,
text="Run Test",
fg="green",
command=self._saveDevices,
width=50).pack(side=LEFT, fill=Y)
# Create Buttons
Button(desktopFrame,
text="Cancel",
fg="red",
command=self.frame.quit,
width=50,
height=5).pack(side=RIGHT, fill=Y)
Button(desktopFrame,
text="Run Test",
fg="green",
command=self._saveDevicesDesktop,
width=50).pack(side=LEFT, fill=Y)
if platform.lower() == 'mobile':
self.note.add(mobileFrame, text='Mobile')
self.note.add(desktopFrame, text='Web')
else:
self.note.add(desktopFrame, text='Web')
self.note.add(mobileFrame, text='Mobile')
self.note.pack(fill=BOTH, expand=1)
# allow double clicking in listbox to select a browser
self.listboxMobile.bind('<Double-1>', lambda x: self._saveDevices())
self.listboxDesktop.bind('<Double-1>',
lambda x: self._saveDevicesDesktop())
def _toggleMustard(self):
self.mustard = not self.mustard
def getDevice(self, filter=None, mustard=True):
if filter:
#webNodes = self.grid.webNodes
#mobileNodes = self.grid.mobileNodes
if self.platform:
if self.platform == 'desktop':
nodes = self.grid.webNodes + self.sauce.webNodes + self.sauce.mobileWebNodes + self.local.webNodes
elif self.platform == 'mobile':
nodes = self.grid.mobileNodes + self.sauce.mobileNodes
else:
nodes = self.grid.webNodes + self.grid.mobileNodes + self.sauce.webNodes + self.sauce.mobileWebNodes
output = []
for node in nodes:
if re.search(filter, node.displayString()):
dc = node.desiredCaps(mustard=mustard)
output.append(dc)
return output
else:
self.start()
# for osx bring selector window to the front
if sys.platform.lower() == 'darwin': # Mac OS
self.root.lift()
self.root.attributes('-topmost', True)
self.root.mainloop()
self.root.destroy()
output = []
for x in range(len(self.devices)):
dc = self.devices[x].desiredCaps(mustard=self.mustard)
if dc not in output:
output.append(dc)
return output
def _saveDevicesDesktop(self):
selected = self.listboxDesktop.curselection()
output = []
for selection in selected:
output.append(self.webData[int(selection)])
self.frame.quit()
self.devices = output
def _saveDevices(self):
selected = self.listboxMobile.curselection()
output = []
for selection in selected:
output.append(self.mobileData[int(selection)])
self.frame.quit()
self.devices = output
class MainWindow(object):
def __init__(self, master):
self.master = master
# TOP Frame for LABEL
frame_1 = LabelFrame(self.master, bd=1, height=80, borderwidth=2)
frame_1.pack(side=TOP, fill="x", padx=1)
# create a label in first frame_1
label_1 = Label(frame_1,
text='Library Management System',
bg="gray72",
height=3,
font=("Courier", 25, 'bold'))
label_1.pack(side=TOP, fill="x")
# Frame 2 for management
frame_2 = LabelFrame(self.master, bd=1, borderwidth=2)
frame_2.pack(fill="x", padx=1, pady=1)
# Create TABS for frame_4
self.tabs = Notebook(frame_2, width=800, height=500)
self.tabs.pack(fill="x")
self.tab1 = Frame(self.tabs)
self.tab2 = Frame(self.tabs)
self.tabs.add(self.tab1, text="Book Management")
self.tabs.add(self.tab2, text="Student Management")
# Book Management in Tab1
# Book Management Frame_1
book_management_frame_1 = LabelFrame(self.tab1,
bd=1,
height=50,
borderwidth=2)
book_management_frame_1.pack(fill="x", padx=1, pady=1)
# Add buttons in book_management_frame_1
btName = ["Add Book", "Return Book", "Delete Book"]
# Dynamically adjust buttons configuration
Grid.rowconfigure(book_management_frame_1, 0, weight=1)
Grid.columnconfigure(book_management_frame_1, 0, weight=1)
Grid.columnconfigure(book_management_frame_1, 1, weight=1)
Grid.columnconfigure(book_management_frame_1, 2, weight=1)
self.addBook = Button(book_management_frame_1,
text=btName[0],
font='bold',
command=self.new_book)
self.addBook.grid(row=0, column=0, sticky="EW", ipadx=60)
self.returnBook = Button(book_management_frame_1,
text=btName[1],
font='bold',
command=self.return_book)
self.returnBook.grid(row=0, column=1, sticky="EW")
self.delBook = Button(book_management_frame_1,
text=btName[2],
font='bold',
command=self.delete_book)
self.delBook.grid(row=0, column=2, sticky="EW")
# Book Management Frame_2
book_management_frame_2 = LabelFrame(self.tab1,
bd=1,
height=80,
borderwidth=2)
book_management_frame_2.pack(fill="x", padx=1, pady=1)
# Create Combobox for Choice
self.book_search_choice = StringVar()
self.combo_book_search_choice = ttk.Combobox(
book_management_frame_2,
font=("", 10),
textvariable=self.book_search_choice,
postcommand=self.show_books)
self.combo_book_search_choice.pack(side=LEFT, padx=10)
# fill comboBox
self.bookSearchChoice = [
'All books', 'Issued book', "Not issued books"
]
self.combo_book_search_choice['values'] = self.bookSearchChoice
# select default
self.combo_book_search_choice.current(0)
self.entry_search_book = Entry(book_management_frame_2,
width=40,
bd=3,
font=("", 15))
self.entry_search_book.pack(side=LEFT, fill="x", padx=10, pady=10)
self.bookSearchBtn = Button(book_management_frame_2,
text='Search',
padx=12,
font="bold",
command=self.book_search)
self.bookSearchBtn.pack(side=LEFT, fill="x", padx=10, ipadx=20)
# Book Management Frame_3
book_management_frame_3 = LabelFrame(self.tab1,
text="",
bd=3,
height=400,
borderwidth=2,
relief=SUNKEN)
book_management_frame_3.pack(fill="x", padx=5, pady=5)
# Create Tab1: Management
self.book_managementBox = Listbox(book_management_frame_3,
width=50,
height=25)
self.book_managementBox_sb = Scrollbar(book_management_frame_3,
orient=VERTICAL)
self.book_managementBox.grid(row=0, column=0, padx=(3, 0), sticky=N)
self.book_managementBox_sb.config(
command=self.book_managementBox.yview)
self.book_managementBox.config(
yscrollcommand=self.book_managementBox_sb.set)
self.book_managementBox_sb.grid(row=0, column=0, sticky=N + S + E)
# Details of books
self.book_managementBox_detail = Listbox(book_management_frame_3,
width=80,
height=25)
self.book_managementBox_detail.grid(row=0,
column=1,
padx=(10, 0),
sticky=N)
# Student Management in Tab2
# Student Management Frame_1
student_management_frame_1 = LabelFrame(self.tab2,
bd=1,
height=50,
borderwidth=2)
student_management_frame_1.pack(fill="x", padx=1, pady=1)
# Add buttons in student_management_frame_1
student_btName = ["Add Student", "Issue Book", "Delete Student"]
# Dynamically adjust buttons configuration
Grid.rowconfigure(student_management_frame_1, 0, weight=1)
Grid.columnconfigure(student_management_frame_1, 0, weight=1)
Grid.columnconfigure(student_management_frame_1, 1, weight=1)
Grid.columnconfigure(student_management_frame_1, 2, weight=1)
self.addStudent = Button(student_management_frame_1,
text=student_btName[0],
font='bold',
command=self.new_student)
self.addStudent.grid(row=0, column=0, sticky="EW", ipadx=60)
self.iBook = Button(student_management_frame_1,
text=student_btName[1],
font='bold',
command=self.issue_book)
self.iBook.grid(row=0, column=1, sticky="EW")
self.delStudent = Button(student_management_frame_1,
text=student_btName[2],
font='bold',
command=self.delete_student)
self.delStudent.grid(row=0, column=2, sticky="EW")
# Student Management Frame_2
student_management_frame_2 = LabelFrame(self.tab2,
bd=1,
height=80,
borderwidth=2)
student_management_frame_2.pack(fill="x", padx=1, pady=1)
# Create Combobox for Choice
self.student_search_choice = StringVar()
self.combo_student_search_choice = ttk.Combobox(
student_management_frame_2,
font=("", 10),
textvariable=self.student_search_choice,
postcommand=self.show_students)
self.combo_student_search_choice.pack(side=LEFT, padx=10)
# fill comboBox
self.studentSearchChoice = [
'All Students', 'Students who issued book',
"Students who didn't issued"
]
self.combo_student_search_choice['values'] = self.studentSearchChoice
# select default
self.combo_student_search_choice.current(0)
self.entry_search_student = Entry(student_management_frame_2,
width=40,
bd=3,
font=("", 15))
self.entry_search_student.pack(side=LEFT, fill="x", padx=10, pady=10)
self.studentSearchBtn = Button(student_management_frame_2,
text='Search',
padx=12,
font="bold",
command=self.student_search)
self.studentSearchBtn.pack(side=LEFT, fill="x", padx=10, ipadx=20)
# student Management Frame_3
student_management_frame_3 = LabelFrame(self.tab2,
text="",
bd=3,
height=400,
borderwidth=2,
relief=SUNKEN)
student_management_frame_3.pack(fill="x", padx=5, pady=5)
# Create Tab1: Management
self.student_managementBox = Listbox(student_management_frame_3,
width=50,
height=25)
self.student_managementBox_sb = Scrollbar(student_management_frame_3,
orient=VERTICAL)
self.student_managementBox.grid(row=0, column=0, padx=(3, 0), sticky=N)
self.student_managementBox_sb.config(
command=self.student_managementBox.yview)
self.student_managementBox.config(
yscrollcommand=self.student_managementBox_sb.set)
self.student_managementBox_sb.grid(row=0, column=0, sticky=N + S + E)
# Details of students
self.student_managementBox_detail = Listbox(student_management_frame_3,
width=80,
height=25)
self.student_managementBox_detail.grid(row=0,
column=1,
padx=(10, 0),
sticky=N)
self.show_students()
self.show_books()
# show student list in message box
def show_students(self):
cur = db.conn.cursor()
if self.studentSearchChoice[0] == self.combo_student_search_choice.get(
):
self.student_managementBox.delete(0, END)
self.student_managementBox_detail.delete(0, END)
print("ALL student")
students = cur.execute("SELECT * FROM students").fetchall()
counter = 0
for student in students:
self.student_managementBox.insert(
counter,
str(counter + 1) + ") " + student[0] + " ( ID: " +
student[3] + " )")
counter += 1
elif self.studentSearchChoice[
1] == self.combo_student_search_choice.get():
self.student_managementBox.delete(0, END)
self.student_managementBox_detail.delete(0, END)
print("Issued student")
students = cur.execute("SELECT * FROM issued").fetchall()
counter = 0
for student in students:
value1 = student[1]
# print(value)
studentDetail = cur.execute(
"SELECT * FROM students WHERE student_id LIKE ?",
('%' + value1 + '%', )).fetchall()
# print(studentDetail)
self.student_managementBox.insert(
counter,
str(counter + 1) + ") " + studentDetail[0][0] + "( ID : " +
studentDetail[0][3] + " )")
counter += 1
else:
self.student_managementBox.delete(0, END)
self.student_managementBox_detail.delete(0, END)
print("not issued student")
students = cur.execute(
"SELECT * FROM students WHERE student_id NOT IN (SELECT student_id FROM issued)"
).fetchall()
# print(students)
counter = 0
for student in students:
self.student_managementBox.insert(
counter,
str(counter + 1) + ") " + student[0] + " ( ID : " +
student[3] + " )")
# show student info
def showStudentInfo(evt):
if self.studentSearchChoice[
0] == self.combo_student_search_choice.get():
value2 = None
try:
value2 = str(
self.student_managementBox.get(
self.student_managementBox.curselection()))
except Exception as e:
print(e)
finally:
if value2 != None:
ID1 = value2.split(')')[1].split(': ')[1][0:3]
# print(ID1)
self.student_managementBox_detail.delete(0, END)
student1 = cur.execute(
"SELECT * FROM students WHERE student_id=?",
(ID1, ))
student_info = student1.fetchall()
# print(student_info)
self.student_managementBox_detail.insert(
0, "Student Name : " + student_info[0][0])
self.student_managementBox_detail.insert(
1, "Father Name : " + student_info[0][2])
self.student_managementBox_detail.insert(
2, "Phone Number : " + student_info[0][1])
else:
print('Value2 : None')
elif self.studentSearchChoice[
1] == self.combo_student_search_choice.get():
value3 = None
try:
value3 = str(
self.student_managementBox.get(
self.student_managementBox.curselection()))
except Exception as e:
print(e)
finally:
if value3 != None:
ID2 = value3.split(') ')[1].split(': ')[1][0:3]
self.student_managementBox_detail.delete(0, END)
print(ID2)
student2 = cur.execute(
"SELECT * FROM students WHERE student_id=?",
(ID2, )).fetchall()
print(student2)
self.student_managementBox_detail.insert(
0, "Student Name : " + student2[0][0])
self.student_managementBox_detail.insert(
1, "Father Name : " + student2[0][2])
self.student_managementBox_detail.insert(
2, "Phone Number : " + student2[0][1])
else:
print('Value3 : None')
else:
value4 = None
try:
value4 = str(
self.student_managementBox.get(
self.student_managementBox.curselection()))
print(value4)
except Exception as e:
if value4 != None:
ID3 = value4.split(') ')[1].split(': ')[1][0:3]
print(ID3)
self.student_managementBox_detail.delete(0, END)
student3 = cur.execute(
"SELECT * FROM students WHERE student_id=?",
(ID3, )).fetchall()
print(student3)
self.student_managementBox_detail.insert(
0, "Student Name : " + student3[0][0])
self.student_managementBox_detail.insert(
1, "Father Name : " + student3[0][2])
self.student_managementBox_detail.insert(
2, "Phone Number : " + student3[0][1])
else:
print('Value4 : None')
# student_managementBox bind with student_managementBox_detail
self.student_managementBox.bind('<<ListboxSelect>>', showStudentInfo)
def student_search(self):
cur = db.conn.cursor()
comboBoxEntry = self.combo_student_search_choice.get()
studentSearchEntry = self.entry_search_student.get()
# print(comboBoxEntry)
# print(studentSearchEntry)
if comboBoxEntry == self.studentSearchChoice[0]:
searchQuery = cur.execute(
"SELECT * FROM students where sname LIKE ?",
('%' + studentSearchEntry + '%', )).fetchall()
self.student_managementBox.delete(0, END)
self.student_managementBox_detail.delete(0, END)
counter = 0
for student in searchQuery:
self.student_managementBox.insert(
counter,
str(counter + 1) + ") " + student[0] + " ( ID: " +
student[3] + " )")
counter += 1
elif comboBoxEntry == self.studentSearchChoice[1]:
searchQuery = cur.execute(
"SELECT * FROM students WHERE sname LIKE ?",
('%' + studentSearchEntry + '%', )).fetchall()
# print(searchQuery)
self.student_managementBox.delete(0, END)
self.student_managementBox_detail.delete(0, END)
counter = 0
for student in searchQuery:
cur = db.conn.cursor()
value = student[3]
# print(value)
studentDetail = cur.execute(
"SELECT count(*) FROM issued WHERE student_id=?",
(value, )).fetchall()
print(studentDetail[0][0])
print(student)
if studentDetail[0][0] != 0:
counter += 1
self.student_managementBox.insert(
counter,
str(counter) + ") " + student[0] + " ( ID : " +
student[3] + " )")
else:
searchQuery = cur.execute(
"SELECT * FROM students WHERE student_id NOT IN (SELECT student_id FROM issued) AND (sname LIKE ?)",
('%' + studentSearchEntry + '%', )).fetchall()
print(searchQuery)
self.student_managementBox.delete(0, END)
self.student_managementBox_detail.delete(0, END)
counter = 0
for student in searchQuery:
cur = db.conn.cursor()
# print(student)
counter += 1
self.student_managementBox.insert(
counter,
str(counter) + ") " + student[0] + " ( ID : " +
student[3] + " )")
# show student list in message box
def show_books(self):
cur = db.conn.cursor()
if self.bookSearchChoice[0] == self.combo_book_search_choice.get():
self.book_managementBox.delete(0, END)
self.book_managementBox_detail.delete(0, END)
print("All Books")
books = cur.execute("SELECT * FROM books").fetchall()
# print(books)
counter = 0
for book in books:
self.book_managementBox.insert(
counter,
str(counter + 1) + ") " + book[0] + " ( ID: " + book[3] +
" )")
counter += 1
elif self.bookSearchChoice[1] == self.combo_book_search_choice.get():
self.book_managementBox.delete(0, END)
self.book_managementBox_detail.delete(0, END)
print("Issued books")
books = cur.execute("SELECT * FROM issued").fetchall()
counter = 0
for book in books:
value1 = book[0]
# print(value1)
bookDetail = cur.execute(
"SELECT * FROM books WHERE book_id LIKE ?",
('%' + value1 + '%', )).fetchall()
print(bookDetail)
self.book_managementBox.insert(
counter,
str(counter + 1) + ") " + bookDetail[0][0] + "( ID : " +
bookDetail[0][3] + " )")
counter += 1
else:
self.book_managementBox.delete(0, END)
self.book_managementBox_detail.delete(0, END)
print("not issued books")
books = cur.execute(
"SELECT * FROM books WHERE book_id NOT IN (SELECT book_id FROM issued)"
).fetchall()
# print(books)
counter = 0
for book in books:
self.book_managementBox.insert(
counter,
str(counter + 1) + ") " + book[0] + " ( ID : " + book[3] +
" )")
counter += 1
# show student info
def showBookInfo(evt):
if self.bookSearchChoice[0] == self.combo_book_search_choice.get():
value2 = None
try:
value2 = str(
self.book_managementBox.get(
self.book_managementBox.curselection()))
except Exception as e:
print(e)
finally:
if value2 != None:
ID1 = value2.split(')')[1].split(': ')[1][0:3]
print(ID1)
self.book_managementBox_detail.delete(0, END)
book1 = cur.execute(
"SELECT * FROM books WHERE book_id=?", (ID1, ))
book_info = book1.fetchall()
print(book_info)
self.book_managementBox_detail.insert(
0, "Book Name : " + book_info[0][0])
self.book_managementBox_detail.insert(
1, "Author Name : " + book_info[0][1])
self.book_managementBox_detail.insert(
2, "Category : " + book_info[0][2])
else:
print('Value2 : None')
elif self.bookSearchChoice[1] == self.combo_book_search_choice.get(
):
value3 = None
try:
value3 = str(
self.book_managementBox.get(
self.book_managementBox.curselection()))
except Exception as e:
print(e)
finally:
if value3 != None:
ID2 = value3.split(') ')[1].split(': ')[1][0:3]
self.book_managementBox_detail.delete(0, END)
print(ID2)
book2 = cur.execute(
"SELECT * FROM books WHERE book_id=?",
(ID2, )).fetchall()
print(book2)
self.book_managementBox_detail.insert(
0, "Book Name : " + book2[0][0])
self.book_managementBox_detail.insert(
1, "Author Name : " + book2[0][1])
self.book_managementBox_detail.insert(
2, "Category : " + book2[0][2])
else:
print('Value3 : None')
else:
value4 = None
try:
value4 = str(
self.book_managementBox.get(
self.book_managementBox.curselection()))
except Exception as e:
print(e)
finally:
if value4 != None:
print(value4)
ID3 = value4.split(') ')[1].split(': ')[1][0:3]
print(ID3)
self.book_managementBox_detail.delete(0, END)
book3 = cur.execute(
"SELECT * FROM books WHERE book_id=?",
(ID3, )).fetchall()
print(book3)
self.book_managementBox_detail.insert(
0, "Book Name : " + book3[0][0])
self.book_managementBox_detail.insert(
1, "Author Name : " + book3[0][1])
self.book_managementBox_detail.insert(
2, "Category : " + book3[0][2])
else:
print('Value4 : None')
# student_managementBox bind with student_managementBox_detail
self.book_managementBox.bind('<<ListboxSelect>>', showBookInfo)
def book_search(self):
cur = db.conn.cursor()
comboBoxEntry = self.combo_book_search_choice.get()
bookSearchEntry = self.entry_search_book.get()
# print(comboBoxEntry)
# print(bookSearchEntry)
if comboBoxEntry == self.bookSearchChoice[0]:
searchQuery = cur.execute(
"SELECT * FROM books where bname LIKE ?",
('%' + bookSearchEntry + '%', )).fetchall()
self.book_managementBox.delete(0, END)
self.book_managementBox_detail.delete(0, END)
counter = 0
for book in searchQuery:
self.book_managementBox.insert(
counter,
str(counter + 1) + ") " + book[0] + " ( ID: " + book[3] +
" )")
counter += 1
elif comboBoxEntry == self.bookSearchChoice[1]:
searchQuery = cur.execute(
"SELECT * FROM books WHERE bname LIKE ?",
('%' + bookSearchEntry + '%', )).fetchall()
# print(searchQuery)
self.book_managementBox.delete(0, END)
self.book_managementBox_detail.delete(0, END)
counter = 0
for book in searchQuery:
cur = db.conn.cursor()
value = book[3]
print(value)
bookDetail = cur.execute(
"SELECT count(*) FROM issued WHERE book_id=?",
(value, )).fetchall()
# print(bookDetail)
# print(book)
if bookDetail[0][0] != 0:
counter += 1
self.book_managementBox.insert(
counter,
str(counter) + ") " + book[0] + " ( ID : " + book[3] +
" )")
else:
searchQuery = cur.execute(
"SELECT * FROM books WHERE book_id NOT IN (SELECT book_id FROM issued) AND (bname LIKE ?)",
('%' + bookSearchEntry + '%', )).fetchall()
print(searchQuery)
self.book_managementBox.delete(0, END)
self.book_managementBox_detail.delete(0, END)
counter = 0
for book in searchQuery:
cur = db.conn.cursor()
# print(book)
counter += 1
self.book_managementBox.insert(
counter,
str(counter) + ") " + book[0] + " ( ID : " + book[3] +
" )")
@staticmethod
def new_student():
newStudent = addstudent.AddStudent()
@staticmethod
def new_book():
newBook = addbook.AddBook()
@staticmethod
def return_book():
ret_book_obj = returnbook.ReturnBook()
@staticmethod
def delete_book():
del_book_obj = deletebook.DeleteBook()
@staticmethod
def issue_book():
issue_book_obj = issuebook.IssueBook()
@staticmethod
def delete_student():
delete_student_obj = deletestudent.DeleteStudent()
class Window(Frame):
def __init__(self, master=None):
Frame.__init__(self, master)
self.master = master
self.master.title("Color Clusters")
self.pack(fill=BOTH, expand=1)
self.init_menu()
self.input_image = Image.new("RGBA", _img_size, 0)
photo = ImageTk.PhotoImage(
img_utils.add_transparency_grid(self.input_image))
self.input_label = Label(self, image=photo)
self.input_label.image = photo
self.input_label.pack(side=LEFT)
self.output_image = Image.new("RGBA", _img_size, 0)
photo = ImageTk.PhotoImage(
img_utils.add_transparency_grid(self.input_image))
self.out_label = Label(self, image=photo)
self.out_label.image = photo
self.out_label.pack(side=RIGHT)
self.button_list = []
self.timerCount = 0
self.messageString = None
self.timerString = None
self.thread_queue = queue.Queue()
self.algorithm_thread = None
self.thread_run_flag = None
self.algorithms = Notebook(self)
self.algorithms.pack(fill=BOTH, expand=1)
def init_menu(self):
menu = Menu(self.master)
self.master.config(menu=menu)
file = Menu(menu)
file.add_command(label="Load Image...", command=self.load_image)
file.add_command(label="Save Image...", command=self.save_image)
file.add_command(label="Exit", command=self.client_exit)
menu.add_cascade(label="File", menu=file)
ctrl = Menu(menu)
ctrl.add_command(label="Suggest Stop", command=self.halt_thread)
menu.add_cascade(label="Control", menu=ctrl)
def load_image(self):
filename = filedialog.askopenfilename(initialdir="../tests/images",
title="Choose an image")
if filename is "":
return
self.input_image = Image.open(filename)
self.reload_image_label(self.input_image, self.input_label)
def save_image(self):
filename = filedialog.asksaveasfilename(parent=self,
initialdir="../tests/images",
initialfile="output.png",
title="Save an image",
defaultextension=".png",
filetypes=(("PNG image",
"*.png"), ))
if filename is "":
return
self.output_image.save(filename)
def reload_image_label(self, image, label):
if image.size[0] > _img_size[0] or image.size[1] > _img_size[1]:
img = ImageOps.scale(
image,
min((expected / actual
for expected, actual in zip(_img_size, image.size))))
else:
img = image
if img.mode != "RGB":
img = img_utils.add_transparency_grid(img)
img_tk = ImageTk.PhotoImage(img)
label.configure(image=img_tk)
label.image = img_tk
def set_button_state(self, state):
for button in self.button_list:
button.config(state=state)
def run_algorithm(self, algorithm_runner, **kwargs):
self.messageString.set("Running!")
self.set_button_state(DISABLED)
# set required arguments
self.thread_run_flag = BooleanVar()
self.thread_run_flag.set(True)
if 'image' not in kwargs:
kwargs['image'] = self.input_image
if 'run_var' not in kwargs:
kwargs['run_var'] = self.thread_run_flag
if 'thread_queue' not in kwargs:
kwargs['thread_queue'] = self.thread_queue
# start the algorithm on a separate thread
self.algorithm_thread = threading.Thread(target=algorithm_runner,
kwargs=kwargs,
daemon=True)
self.algorithm_thread.start()
self.after(_delay_time, self.listen_for_result)
def halt_thread(self):
if self.thread_run_flag is not None:
self.thread_run_flag.set(False)
def add_algorithm(self, name, algorithm, **kwargs):
options = Frame(self.algorithms)
options.pack(fill=BOTH, expand=1)
message = StringVar()
timer = StringVar()
Label(options, textvariable=timer).pack(side=BOTTOM)
Message(options, textvariable=message,
width=_msg_width).pack(side=BOTTOM)
arg_entries = {}
for key in kwargs:
if isinstance(kwargs[key][1], bool):
var = BooleanVar()
var.set(kwargs[key][1])
arg_entries[key] = var
Checkbutton(options, text=kwargs[key][0],
variable=var).pack(pady=5)
else:
Label(options, text=kwargs[key][0]).pack()
var = StringVar()
var.set(str(kwargs[key][1]))
arg_entries[key] = var
if key in _dist_param_names:
OptionMenu(options, var, *_function_names).pack(pady=5)
Label(options, text="Scale factor:").pack()
var = StringVar()
var.set("(1,1,1,1)")
arg_entries[key + "_scale_"] = var
Entry(options, textvariable=var).pack(pady=5)
else:
Entry(options, textvariable=var).pack(pady=5)
# capture the algorithm. not sure if this is necessary to build the closure?
algorithm_runner = algorithm
def callback():
self.messageString = message
self.timerString = timer
self.timerCount = 0
args = {}
for key in arg_entries:
if key in _dist_param_names:
scale = literal_eval(arg_entries[key + "_scale_"].get())
func = dist_func.decode_string(arg_entries[key].get())
if scale.count(1) != len(scale):
print('using scale')
func = dist_func.scaled_distance(func, scale)
args[key] = func
elif key.endswith("_scale_"):
pass #ignore the internally used scale field
else:
args[key] = arg_entries[key].get()
self.run_algorithm(algorithm_runner, **args)
button = Button(options, text="Run %s" % name, command=callback)
button.pack()
self.button_list.append(button)
self.algorithms.add(options, text=name)
def listen_for_result(self):
self.timerCount += 1
self.timerString.set("Time Elapsed: %.1f seconds" %
(self.timerCount * _delay_time / 1000))
try:
# empty the queue
while True:
result = self.thread_queue.get_nowait()
if isinstance(result, str):
self.messageString.set(result)
elif isinstance(result, Image.Image):
self.output_image = result
self.messageString.set("Done!")
self.set_button_state(NORMAL)
self.reload_image_label(self.output_image, self.out_label)
# wait for the thread to finish
self.algorithm_thread.join()
# clear the thread
self.algorithm_thread = None
self.thread_run_flag = None
except queue.Empty:
# continue waiting for an image result
if self.algorithm_thread is not None and self.algorithm_thread.is_alive(
):
self.master.after(_delay_time, self.listen_for_result)
# if the thread stopped unexpectedly, stop checking for it
elif self.algorithm_thread is not None:
self.messageString.set("Error: Thread stopped unexpectedly.")
self.set_button_state(NORMAL)
self.algorithm_thread = None
self.thread_run_flag = None
def client_exit(self):
if self.algorithm_thread is not None:
# do we need to do anything with unfinished threads?
pass
exit()
from tkinter import *
from tkinter.ttk import Notebook
import subprocess as sub
def addText(tab):
tab.insert(END, sub.Popen('python "C:\\Users\\Bosua\\Desktop\\cmd.py"', stdout=sub.PIPE, stderr=sub.PIPE).communicate()[0])
root = Tk()
nb = Notebook(root, height=240, width=480)
tabs = {"foo": [], "bara": []}
for tabname in tabs:
tab = Text(nb)
tabs[tabname] = tab
nb.add(tab, text= tabname)
nb.pack()
# Button(root, text= "Add text!", command = lambda: addText(tabs["foo"])).pack()
quitButton = Button(root, text="Quit", command=root.quit)
quitButton.pack(side=RIGHT, padx=5, pady=5)
bakupButton = Button(root, text="Backup", command=lambda: addText(tabs["foo"]))
bakupButton.pack(side=RIGHT)
root.mainloop()
def initialize(self):
self.master.title("NENR DZ5 - Miljenko Šuflaj")
self.pack(fill="both", expand=True)
notebook = Notebook(self)
notebook.pack()
record_gestures_frame = Frame(self)
classify_gestures_frame = Frame(self)
notebook.add(record_gestures_frame, text="Zabilježi geste")
notebook.add(classify_gestures_frame, text="Klasificiraj geste")
notebook.enable_traversal()
notebook.select(record_gestures_frame)
gesture_classification_frame = Frame(classify_gestures_frame)
gesture_record_frame_2 = Frame(classify_gestures_frame)
gesture_classification_frame.pack(side="top", fill="x", expand=True)
gesture_record_frame_2.pack(fill="both")
# region Record gesture tab
gesture_info_frame = Frame(record_gestures_frame)
gesture_record_frame = Frame(record_gestures_frame)
gesture_end_frame = Frame(record_gestures_frame)
gesture_info_frame.pack(side="top", fill="x")
gesture_record_frame.pack(fill="both")
gesture_end_frame.pack(side="bottom", fill="x")
gesture_name_menu = Menubutton(gesture_info_frame,
text="Odaberi gestu za bilježenje...")
gesture_name_menu.menu = Menu(gesture_name_menu, tearoff=0)
gesture_name_menu["menu"] = gesture_name_menu.menu
for i, label in enumerate(GestureWindow.labels):
gesture_name_menu.menu.add_command(label=label,
command=self.switch_record(i))
self.__recorded_gesture_label = Label(gesture_info_frame)
gesture_record_canvas = Canvas(gesture_record_frame,
width=700,
height=475,
bg="white")
gesture_record_canvas.current_coords = None
gesture_record_canvas.records = list()
gesture_record_save_button = Button(gesture_end_frame,
text="Pohrani u .tsv",
command=self.save_data)
gesture_record_delete_button = Button(gesture_end_frame,
text="Zaboravi učitane podatke",
command=self.delete_internal)
gesture_name_menu.pack(side="left",
fill="x",
padx=5,
pady=5,
expand=True)
self.__recorded_gesture_label.pack(side="left",
fill="x",
padx=5,
pady=5)
gesture_record_canvas.pack(fill="both", padx=5, pady=5, expand=True)
gesture_record_delete_button.pack(side="left",
fill="x",
padx=5,
pady=5)
gesture_record_save_button.pack(side="right", fill="x", padx=5, pady=5)
self.switch_record(self.__recorded_gesture_index)()
# endregion
# region Classify gesture tab
gesture_classification_frame = Frame(classify_gestures_frame)
gesture_record_frame_2 = Frame(classify_gestures_frame)
gesture_classification_frame.pack(side="top", fill="x", expand=True)
gesture_record_frame_2.pack(fill="both")
classification_labels = list()
self.__classification_outputs = list()
for category in GestureWindow.labels:
classification_labels.append(
Label(gesture_classification_frame, text=category))
self.__classification_outputs.append(
Label(gesture_classification_frame,
text=f"{0.:.01f}%",
font=("helvetica", 8)))
classification_blank = Label(gesture_classification_frame)
classification_labels[-1].pack(side="left",
fill="x",
padx=5,
pady=5)
self.__classification_outputs[-1].pack(side="left",
fill="x",
padx=5,
pady=5)
classification_blank.pack(side="left", fill="x", padx=50, pady=5)
gesture_record_canvas_2 = Canvas(gesture_record_frame_2,
width=700,
height=525,
bg="white")
gesture_record_canvas_2.current_coords = None
gesture_record_canvas_2.records = list()
gesture_record_canvas_2.pack(side="left",
fill="both",
padx=5,
pady=5,
expand=True)
# endregion
# region Functionality
for record_canvas in [gesture_record_canvas, gesture_record_canvas_2]:
draw_function = self.get_draw_on_canvas_function(record_canvas)
record_canvas.bind("<B1-Motion>", draw_function)
record_canvas.bind("<ButtonRelease-1>", draw_function)
self.__root_window.bind(
"<BackSpace>",
self.get_delete_currently_drawn(gesture_record_canvas))
self.__root_window.bind(
"<Return>",
self.get_record_gesture_function(gesture_record_canvas))
gesture_record_canvas_2.bind(
"<Leave>",
self.get_evaluate_gesture_function(gesture_record_canvas_2))
self.__root_window.bind(
"<Delete>",
self.get_delete_currently_drawn(gesture_record_canvas_2))
class TranslateBook(tk.Tk):
def __init__(self):
super().__init__()
self.title("Translation Book v3")
self.geometry("500x300")
self.menu = tk.Menu(self, bg="lightgrey", fg="black")
self.languages_menu = tk.Menu(self.menu,
tearoff=0,
bg="lightgrey",
fg="black")
self.languages_menu.add_command(label="Add New",
command=self.show_new_language_popup)
self.languages_menu.add_command(
label="Portuguese",
command=lambda: self.add_new_tab(
LanguageTab(self, "Portuguese", "pt")))
self.menu.add_cascade(label="Languages", menu=self.languages_menu)
self.config(menu=self.menu)
self.notebook = Notebook(self)
self.language_tabs = []
english_tab = ttk.Frame(self.notebook)
self.translate_button = ttk.Button(english_tab,
text="Translate",
command=self.translate)
self.translate_button.pack(side=tk.BOTTOM, fill=tk.X)
self.english_entry = tk.Text(english_tab, bg="white", fg="black")
self.english_entry.pack(side=tk.TOP, expand=1)
self.notebook.add(english_tab, text="English")
self.notebook.pack(fill=tk.BOTH, expand=1)
def translate(self, text=None):
if len(self.language_tabs) < 1:
msg.showerror("No Languages",
"No languages added. Please add some from the menu")
return
if not text:
text = self.english_entry.get(1.0, tk.END).strip()
url = "https://translate.googleapis.com/translate_a/single?client=gtx&sl={}&tl={}&dt=t&q={}"
try:
for language in self.language_tabs:
full_url = url.format("en", language.lang_code, text)
r = requests.get(full_url)
r.raise_for_status()
translation = r.json()[0][0][0]
language.translation_var.set(translation)
except Exception as e:
msg.showerror("Translation Failed", str(e))
else:
msg.showinfo("Translations Successful",
"Text successfully translated")
def add_new_tab(self, tab):
self.language_tabs.append(tab)
self.notebook.add(tab, text=tab.lang_name)
try:
self.languages_menu.entryconfig(tab.lang_name, state="disabled")
except:
# language isn't in menu.
pass
def show_new_language_popup(self):
NewLanguageForm(self)
class PomodoroParams(Frame):
def __init__(self, parent, **options):
""" créer le Toplevel permettant de modifier les paramètres """
Frame.__init__(self, parent, **options)
self.onglets = Notebook(self)
self.onglets.pack(fill='both', expand=True)
self.im_color = PhotoImage(master=self, file=IM_COLOR)
self.im_plus = PhotoImage(master=self, file=IM_ADD)
self.im_moins = PhotoImage(master=self, file=IM_DEL)
self.okfct = self.register(only_nb)
self.style = Style(self)
self.nb_task = len(CONFIG.options("PomodoroTasks"))
# --- Général (temps, police et langue)
self.general = Frame(self.onglets, padding=10)
self.general.columnconfigure(1, weight=1)
self.onglets.add(self.general, text=_("General"))
# --- --- Temps
Label(self.general, text=_("Times (min)"),
style='title.TLabel').grid(row=0,
pady=4,
padx=(2, 10),
sticky="w")
self.time_frame = Frame(self.general)
self.time_frame.grid(row=0, column=1, sticky="w", padx=4)
Label(self.time_frame, text=_("Work")).grid(row=0, padx=4, column=0)
self.travail = Entry(self.time_frame,
width=4,
justify='center',
validatecommand=(self.okfct, '%P'),
validate='key')
self.travail.insert(0, CONFIG.get("Pomodoro", "work_time"))
self.travail.grid(row=0, column=1, padx=(0, 10))
Label(self.time_frame, text=_("Break")).grid(row=0, column=2, padx=4)
self.pause = Entry(self.time_frame,
width=4,
justify='center',
validatecommand=(self.okfct, '%P'),
validate='key')
self.pause.insert(0, CONFIG.get("Pomodoro", "break_time"))
self.pause.grid(row=0, column=3, padx=(0, 10))
Label(self.time_frame, text=_("Rest")).grid(row=0, column=4, padx=4)
self.rest = Entry(self.time_frame,
width=4,
justify='center',
validatecommand=(self.okfct, '%P'),
validate='key')
self.rest.insert(0, CONFIG.get("Pomodoro", "rest_time"))
self.rest.grid(row=0, column=5)
Separator(self.general, orient='horizontal').grid(row=1,
columnspan=2,
sticky="ew",
pady=10)
# --- --- Police
Label(self.general, text=_("Font"),
style='title.TLabel').grid(row=2, sticky='nw', padx=(2, 10))
self.font = FontFrame(self.general,
font=CONFIG.get('Pomodoro', 'font'),
sample_text="02:17")
self.font.grid(row=2, column=1, padx=4, sticky='w')
Separator(self.general, orient='horizontal').grid(row=3,
columnspan=2,
sticky="ew",
pady=10)
# --- --- Opacity
self.opacity = OpacityFrame(self.general)
self.opacity.grid(row=5, columnspan=2, sticky='w', padx=(2, 4), pady=4)
Separator(self.general, orient='horizontal').grid(row=6,
columnspan=2,
sticky="ew",
pady=10)
# --- --- Son
self.sound = SoundFrame(self.general,
CONFIG.get("Pomodoro", "beep"),
mute=CONFIG.getboolean("Pomodoro", "mute"),
label=_("Sound"),
style='title.TLabel')
self.sound.grid(row=7, columnspan=2, sticky='ew', pady=4)
# --- Couleurs
self.couleurs = Frame(self.onglets, padding=10)
self.couleurs.columnconfigure(3, weight=1)
self.onglets.add(self.couleurs, text=_("Colors"))
self.bg = ColorFrame(self.couleurs, CONFIG.get("Pomodoro",
"background"),
_("Background"))
self.work_bg = ColorFrame(self.couleurs,
CONFIG.get("Pomodoro", "work_bg"),
_("Background"))
self.break_bg = ColorFrame(self.couleurs,
CONFIG.get("Pomodoro", "break_bg"),
_("Background"))
self.rest_bg = ColorFrame(self.couleurs,
CONFIG.get("Pomodoro", "rest_bg"),
_("Background"))
self.fg = ColorFrame(self.couleurs, CONFIG.get("Pomodoro",
"foreground"),
_("Foreground"))
self.work_fg = ColorFrame(self.couleurs,
CONFIG.get("Pomodoro", "work_fg"),
_("Foreground"))
self.break_fg = ColorFrame(self.couleurs,
CONFIG.get("Pomodoro", "break_fg"),
_("Foreground"))
self.rest_fg = ColorFrame(self.couleurs,
CONFIG.get("Pomodoro", "rest_fg"),
_("Foreground"))
Label(self.couleurs, text=_("General"),
style='title.TLabel').grid(row=0,
column=0,
pady=4,
padx=(2, 10),
sticky="w")
self.bg.grid(row=0, column=1, sticky='e', padx=8, pady=4)
self.fg.grid(row=0, column=2, sticky='e', padx=8, pady=4)
Separator(self.couleurs, orient='horizontal').grid(row=1,
sticky="ew",
pady=10,
columnspan=4)
Label(self.couleurs, text=_("Work"),
style='title.TLabel').grid(row=2,
column=0,
pady=4,
padx=(2, 10),
sticky="w")
self.work_bg.grid(row=2, column=1, sticky='e', padx=8, pady=4)
self.work_fg.grid(row=2, column=2, sticky='e', padx=8, pady=4)
Separator(self.couleurs, orient='horizontal').grid(row=3,
sticky="ew",
pady=10,
columnspan=4)
Label(self.couleurs, text=_("Break"),
style='title.TLabel').grid(row=4,
column=0,
pady=4,
padx=(2, 10),
sticky="w")
self.break_bg.grid(row=4, column=1, sticky='e', padx=8, pady=4)
self.break_fg.grid(row=4, column=2, sticky='e', padx=8, pady=4)
Separator(self.couleurs, orient='horizontal').grid(row=5,
sticky="ew",
pady=10,
columnspan=4)
Label(self.couleurs, text=_("Rest"),
style='title.TLabel').grid(row=6,
column=0,
pady=4,
padx=(2, 10),
sticky="w")
self.rest_bg.grid(row=6, column=1, sticky='e', padx=8, pady=4)
self.rest_fg.grid(row=6, column=2, sticky='e', padx=8, pady=4)
# --- Tasks
self.stats = Frame(self.onglets, padding=10)
self.stats.columnconfigure(0, weight=1)
self.stats.rowconfigure(2, weight=1)
self.onglets.add(self.stats, text=_("Tasks"))
# graph legend
legend_frame = Frame(self.stats)
Label(legend_frame,
style='title.TLabel',
text=_('Maximum number of rows in the legend')).pack(side='left')
self.legend_row_nb = Entry(legend_frame,
width=4,
justify='center',
validatecommand=(self.okfct, '%P'),
validate='key')
self.legend_row_nb.insert(
0, CONFIG.get('Pomodoro', 'legend_max_height', fallback='6'))
self.legend_row_nb.pack(side='left', padx=4)
# task colors
can = Canvas(self.stats,
bg=self.style.lookup('TFrame', 'background'),
highlightthickness=0,
width=1,
relief='flat')
scroll = AutoScrollbar(self.stats,
orient='vertical',
command=can.yview)
can.configure(yscrollcommand=scroll.set)
self.task_frame = Frame(can)
can.create_window(0, 0, anchor='nw', window=self.task_frame)
tasks = CONFIG.options("PomodoroTasks")
tasks.sort()
cmap = [CONFIG.get("PomodoroTasks", task) for task in tasks]
self.tasks = {}
self._tasks_btns = {}
for i, (coul, task) in enumerate(zip(cmap, tasks)):
self.tasks[task] = ColorFrame(self.task_frame, coul,
task.capitalize())
self.tasks[task].grid(row=i, column=0, sticky='e', padx=4, pady=4)
b = Button(self.task_frame,
image=self.im_moins,
padding=2,
command=lambda t=task: self.del_task(t))
b.grid(row=i, column=1, sticky='w', padx=4, pady=4)
self._tasks_btns[task] = b
if len(tasks) == 1:
self._tasks_btns[tasks[0]].state(['disabled'])
legend_frame.grid(row=0, columnspan=2, sticky='w', pady=4)
Label(self.stats,
text=_('Colors in the statistic graph'),
style='title.TLabel').grid(row=1, column=0, sticky='w', pady=4)
can.grid(row=2, column=0, sticky='ewns')
scroll.grid(row=2, column=1, sticky='ns')
Button(self.stats, image=self.im_plus,
command=self.add_task).grid(row=3, column=0, sticky='w')
self.update_idletasks()
can.configure(width=self.task_frame.winfo_reqwidth())
can.configure(scrollregion=can.bbox('all'))
can.bind('<4>', lambda e: self._scroll(e, -1))
can.bind('<5>', lambda e: self._scroll(e, 1))
self.task_frame.bind(
'<Configure>',
lambda e: can.configure(scrollregion=can.bbox('all')))
def _scroll(self, event, delta):
if event.widget.yview() != (0, 1):
event.widget.yview_scroll(delta, 'units')
def choix_couleur(self, type_mode):
""" sélection de la couleur du fond/texte pour chaque mode (travail/pause/repos) """
coul = askcolor(self.style.lookup(type_mode + ".TButton",
'background'),
parent=self)
if coul:
self.style.configure(type_mode + ".TButton", background=coul)
def coul_stat(self, i):
""" choix des couleurs pour l'affichage des stats """
coul = askcolor(self.style.lookup("t%i.TButton" % i, "background"),
parent=self)
if coul:
self.style.configure("t%i.TButton" % i, background=coul)
def valide(self):
"""Update config and return whether the pomodor timer should be stopped."""
old_tpsw = CONFIG.getint("Pomodoro", "work_time")
old_tpsp = CONFIG.getint("Pomodoro", "break_time")
old_tpsr = CONFIG.getint("Pomodoro", "rest_time")
try:
tpsw = int(self.travail.get())
except ValueError: # empty entry
tpsw = 0
if tpsw == 0:
tpsw = old_tpsw
try:
tpsp = int(self.pause.get())
except ValueError:
tpsp = 0
if tpsp == 0:
tpsp = old_tpsp
try:
tpsr = int(self.rest.get())
except ValueError:
tpsr = 0
if tpsr == 0:
tpsr = old_tpsr
sound, mute = self.sound.get()
font_prop = self.font.get_font()
font = "{} {}".format(font_prop['family'].replace(' ', '\ '),
font_prop['size'])
try:
legend_rows = int(self.legend_row_nb.get())
except ValueError:
legend_rows = 0
if legend_rows == 0:
legend_rows = CONFIG.getint("Pomodoro", "legend_max_height")
if not os.path.exists(sound):
showerror(
_("Error"),
_("The file {filepath} does not exists, the old file will be used."
).format(filepath=sound))
sound = CONFIG.get("Pomodoro", "beep")
CONFIG.set("Pomodoro", "alpha", str(self.opacity.get_opacity()))
CONFIG.set("Pomodoro", "font", font)
CONFIG.set("Pomodoro", "background", self.bg.get_color())
CONFIG.set("Pomodoro", "foreground", self.fg.get_color())
CONFIG.set("Pomodoro", "work_time", str(tpsw))
CONFIG.set("Pomodoro", "work_bg", self.work_bg.get_color())
CONFIG.set("Pomodoro", "work_fg", self.work_fg.get_color())
CONFIG.set("Pomodoro", "break_time", str(tpsp))
CONFIG.set("Pomodoro", "break_bg", self.break_bg.get_color())
CONFIG.set("Pomodoro", "break_fg", self.break_fg.get_color())
CONFIG.set("Pomodoro", "rest_time", str(tpsr))
CONFIG.set("Pomodoro", "rest_bg", self.rest_bg.get_color())
CONFIG.set("Pomodoro", "rest_fg", self.rest_fg.get_color())
CONFIG.set("Pomodoro", "beep", sound)
CONFIG.set("Pomodoro", "mute", str(mute))
CONFIG.set("Pomodoro", "legend_max_height", str(legend_rows))
for task, widget in self.tasks.items():
CONFIG.set("PomodoroTasks", task, widget.get_color())
return old_tpsw != tpsw or old_tpsp != tpsp or old_tpsr != old_tpsr
def del_task(self, task):
""" Suppression de tâches """
rep = askyesno(
_("Confirmation"),
_("Are you sure you want to delete the task {task}? This action cannot be undone."
).format(task=task.capitalize()))
if rep:
CONFIG.remove_option("PomodoroTasks", task)
# remove stats
db = sqlite3.connect(PATH_STATS)
cursor = db.cursor()
try:
cursor.execute('DROP TABLE {}'.format(
scrub(task.lower().replace(' ', '_'))))
db.commit()
except sqlite3.OperationalError:
pass # no stats yet
db.close()
self.tasks[task].destroy()
self._tasks_btns[task].destroy()
del self.tasks[task]
del self._tasks_btns[task]
if len(CONFIG.options("PomodoroTasks")) == 1:
CONFIG.set("PomodoroTasks", _("Work"), CMAP[0])
self._tasks_btns[CONFIG.options("PomodoroTasks")[0]].state(
['disabled'])
save_config()
def add_task(self):
def ajoute(event=None):
task = nom.get().lower().strip()
if task in self.tasks:
showerror(
_("Error"),
_("The task {task} already exists.").format(task=task),
parent=self)
elif task:
coul = CMAP[(len(self.tasks) + 1) % len(CMAP)]
i = self.task_frame.grid_size()[1] + 1
self.tasks[task] = ColorFrame(self.task_frame, coul,
task.capitalize())
self.tasks[task].grid(row=i,
column=0,
sticky='e',
padx=4,
pady=4)
b = Button(self.task_frame,
image=self.im_moins,
padding=2,
command=lambda t=task: self.del_task(t))
b.grid(row=i, column=1, sticky='w', padx=4, pady=4)
self._tasks_btns[task] = b
self._tasks_btns[CONFIG.options("PomodoroTasks")[0]].state(
['!disabled'])
top.destroy()
top = Toplevel(self)
top.title(_("New task"))
top.transient(self)
top.grab_set()
nom = Entry(top, width=20, justify='center')
nom.grid(row=0, columnspan=2, sticky="ew")
nom.focus_set()
nom.bind('<Key-Return>', ajoute)
Button(top, text=_("Cancel"), command=top.destroy).grid(row=1,
column=0)
Button(top, text=_("Ok"), command=ajoute).grid(row=1, column=1)
top.wait_window(top)
class GUI:
# Constructor
def __init__(self,
title='PyCX Simulator',
interval=0,
stepSize=1,
parameterSetters=[]):
## all GUI variables moved to inside constructor by Hiroki Sayama 10/09/2018
self.titleText = title
self.timeInterval = interval
self.stepSize = stepSize
self.parameterSetters = parameterSetters
self.varEntries = {}
self.statusStr = ""
self.running = False
self.modelFigure = None
self.currentStep = 0
# initGUI() removed by Hiroki Sayama 10/09/2018
#create root window
self.rootWindow = Tk()
self.statusText = StringVar(
self.rootWindow,
value=self.statusStr) # at this point, statusStr = ""
# added "self.rootWindow" above by Hiroki Sayama 10/09/2018
self.setStatusStr("Simulation not yet started")
self.rootWindow.wm_title(
self.titleText) # titleText = 'PyCX Simulator'
self.rootWindow.protocol('WM_DELETE_WINDOW', self.quitGUI)
self.rootWindow.geometry('450x300')
self.rootWindow.columnconfigure(0, weight=1)
self.rootWindow.rowconfigure(0, weight=1)
self.notebook = Notebook(self.rootWindow)
# self.notebook.grid(row=0,column=0,padx=2,pady=2,sticky='nswe') # commented out by toshi on 2016-06-21(Tue) 18:30:25
self.notebook.pack(side=TOP, padx=2, pady=2)
# added "self.rootWindow" by Hiroki Sayama 10/09/2018
self.frameRun = Frame(self.rootWindow)
self.frameSettings = Frame(self.rootWindow)
self.frameParameters = Frame(self.rootWindow)
self.frameInformation = Frame(self.rootWindow)
self.notebook.add(self.frameRun, text="Run")
self.notebook.add(self.frameSettings, text="Settings")
self.notebook.add(self.frameParameters, text="Parameters")
self.notebook.add(self.frameInformation, text="Info")
self.notebook.pack(expand=NO, fill=BOTH, padx=5, pady=5, side=TOP)
# self.notebook.grid(row=0, column=0, padx=5, pady=5, sticky='nswe') # commented out by toshi on 2016-06-21(Tue) 18:31:02
self.status = Label(self.rootWindow,
width=40,
height=3,
relief=SUNKEN,
bd=1,
textvariable=self.statusText)
# self.status.grid(row=1,column=0,padx=5,pady=5,sticky='nswe') # commented out by toshi on 2016-06-21(Tue) 18:31:17
self.status.pack(side=TOP, fill=X, padx=5, pady=5, expand=NO)
# -----------------------------------
# frameRun
# -----------------------------------
# buttonRun
self.runPauseString = StringVar(
self.rootWindow
) # added "self.rootWindow" by Hiroki Sayama 10/09/2018
self.runPauseString.set("Run")
self.buttonRun = Button(self.frameRun,
width=30,
height=2,
textvariable=self.runPauseString,
command=self.runEvent)
self.buttonRun.pack(side=TOP, padx=5, pady=5)
self.showHelp(
self.buttonRun,
"Runs the simulation (or pauses the running simulation)")
# buttonStep
self.buttonStep = Button(self.frameRun,
width=30,
height=2,
text='Step Once',
command=self.stepOnce)
self.buttonStep.pack(side=TOP, padx=5, pady=5)
self.showHelp(self.buttonStep, "Steps the simulation only once")
# buttonReset
self.buttonReset = Button(self.frameRun,
width=30,
height=2,
text='Reset',
command=self.resetModel)
self.buttonReset.pack(side=TOP, padx=5, pady=5)
self.showHelp(self.buttonReset, "Resets the simulation")
# -----------------------------------
# frameSettings
# -----------------------------------
can = Canvas(self.frameSettings)
lab = Label(can,
width=25,
height=1,
text="Step size ",
justify=LEFT,
anchor=W,
takefocus=0)
lab.pack(side='left')
self.stepScale = Scale(can,
from_=1,
to=50,
resolution=1,
command=self.changeStepSize,
orient=HORIZONTAL,
width=25,
length=150)
self.stepScale.set(self.stepSize)
self.showHelp(
self.stepScale,
"Skips model redraw during every [n] simulation steps\nResults in a faster model run."
)
self.stepScale.pack(side='left')
can.pack(side='top')
can = Canvas(self.frameSettings)
lab = Label(can,
width=25,
height=1,
text="Step visualization delay in ms ",
justify=LEFT,
anchor=W,
takefocus=0)
lab.pack(side='left')
self.stepDelay = Scale(can,
from_=0,
to=max(2000, self.timeInterval),
resolution=10,
command=self.changeStepDelay,
orient=HORIZONTAL,
width=25,
length=150)
self.stepDelay.set(self.timeInterval)
self.showHelp(
self.stepDelay,
"The visualization of each step is delays by the given number of milliseconds."
)
self.stepDelay.pack(side='left')
can.pack(side='top')
# --------------------------------------------
# frameInformation
# --------------------------------------------
scrollInfo = Scrollbar(self.frameInformation)
self.textInformation = Text(self.frameInformation,
width=45,
height=13,
bg='lightgray',
wrap=WORD,
font=("Courier", 10))
scrollInfo.pack(side=RIGHT, fill=Y)
self.textInformation.pack(side=LEFT, fill=BOTH, expand=YES)
scrollInfo.config(command=self.textInformation.yview)
self.textInformation.config(yscrollcommand=scrollInfo.set)
# --------------------------------------------
# ParameterSetters
# --------------------------------------------
for variableSetter in self.parameterSetters:
can = Canvas(self.frameParameters)
lab = Label(can,
width=25,
height=1,
text=variableSetter.__name__ + " ",
anchor=W,
takefocus=0)
lab.pack(side='left')
ent = Entry(can, width=11)
ent.insert(0, str(variableSetter()))
if variableSetter.__doc__ != None and len(
variableSetter.__doc__) > 0:
self.showHelp(ent, variableSetter.__doc__.strip())
ent.pack(side='left')
can.pack(side='top')
self.varEntries[variableSetter] = ent
if len(self.parameterSetters) > 0:
self.buttonSaveParameters = Button(
self.frameParameters,
width=50,
height=1,
command=self.saveParametersCmd,
text="Save parameters to the running model",
state=DISABLED)
self.showHelp(
self.buttonSaveParameters,
"Saves the parameter values.\nNot all values may take effect on a running model\nA model reset might be required."
)
self.buttonSaveParameters.pack(side='top', padx=5, pady=5)
self.buttonSaveParametersAndReset = Button(
self.frameParameters,
width=50,
height=1,
command=self.saveParametersAndResetCmd,
text="Save parameters to the model and reset the model")
self.showHelp(
self.buttonSaveParametersAndReset,
"Saves the given parameter values and resets the model")
self.buttonSaveParametersAndReset.pack(side='top', padx=5, pady=5)
# <<<<< Init >>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>
def setStatusStr(self, newStatus):
self.statusStr = newStatus
self.statusText.set(self.statusStr)
# model control functions for changing parameters
def changeStepSize(self, val):
self.stepSize = int(val)
def changeStepDelay(self, val):
self.timeInterval = int(val)
def saveParametersCmd(self):
for variableSetter in self.parameterSetters:
variableSetter(float(self.varEntries[variableSetter].get()))
self.setStatusStr("New parameter values have been set")
def saveParametersAndResetCmd(self):
self.saveParametersCmd()
self.resetModel()
# <<<< runEvent >>>>>
# This event is envoked when "Run" button is clicked.
def runEvent(self):
self.running = not self.running
if self.running:
self.rootWindow.after(self.timeInterval, self.stepModel)
self.runPauseString.set("Pause")
self.buttonStep.configure(state=DISABLED)
self.buttonReset.configure(state=DISABLED)
if len(self.parameterSetters) > 0:
self.buttonSaveParameters.configure(state=NORMAL)
self.buttonSaveParametersAndReset.configure(state=DISABLED)
else:
self.runPauseString.set("Continue Run")
self.buttonStep.configure(state=NORMAL)
self.buttonReset.configure(state=NORMAL)
if len(self.parameterSetters) > 0:
self.buttonSaveParameters.configure(state=NORMAL)
self.buttonSaveParametersAndReset.configure(state=NORMAL)
def stepModel(self):
if self.running:
self.modelStepFunc()
self.currentStep += 1
self.setStatusStr("Step " + str(self.currentStep))
self.status.configure(foreground='black')
if (self.currentStep) % self.stepSize == 0:
self.drawModel()
self.rootWindow.after(int(self.timeInterval * 1.0 / self.stepSize),
self.stepModel)
def stepOnce(self):
self.running = False
self.runPauseString.set("Continue Run")
self.modelStepFunc()
self.currentStep += 1
self.setStatusStr("Step " + str(self.currentStep))
self.drawModel()
if len(self.parameterSetters) > 0:
self.buttonSaveParameters.configure(state=NORMAL)
def resetModel(self):
self.running = False
self.runPauseString.set("Run")
self.modelInitFunc()
self.currentStep = 0
self.setStatusStr("Model has been reset")
self.drawModel()
def drawModel(self):
plt.ion() #SM 3/26/2020
if self.modelFigure == None or self.modelFigure.canvas.manager.window == None:
self.modelFigure = plt.figure() #SM 3/26/2020
self.modelDrawFunc()
self.modelFigure.canvas.manager.window.update()
plt.show() # bug fix by Hiroki Sayama in 2016 #SM 3/26/2020
def start(self, func=[]):
if len(func) == 3:
self.modelInitFunc = func[0]
self.modelDrawFunc = func[1]
self.modelStepFunc = func[2]
if (self.modelStepFunc.__doc__ != None
and len(self.modelStepFunc.__doc__) > 0):
self.showHelp(self.buttonStep,
self.modelStepFunc.__doc__.strip())
if (self.modelInitFunc.__doc__ != None
and len(self.modelInitFunc.__doc__) > 0):
self.textInformation.config(state=NORMAL)
self.textInformation.delete(1.0, END)
self.textInformation.insert(END,
self.modelInitFunc.__doc__.strip())
self.textInformation.config(state=DISABLED)
self.modelInitFunc()
self.drawModel()
self.rootWindow.mainloop()
def quitGUI(self):
self.running = False # HS 06/29/2020
self.rootWindow.quit()
plt.close('all') # HS 06/29/2020
self.rootWindow.destroy()
def showHelp(self, widget, text):
def setText(self):
self.statusText.set(text)
self.status.configure(foreground='blue')
def showHelpLeave(self):
self.statusText.set(self.statusStr)
self.status.configure(foreground='black')
widget.bind("<Enter>", lambda e: setText(self))
widget.bind("<Leave>", lambda e: showHelpLeave(self))
class TranslateBook(tk.Tk):
def __init__(self):
super().__init__()
self.title("Interface da Cifra v1")
self.geometry("500x300")
self.notebook = Notebook(self)
english_tab = tk.Frame(self.notebook)
italian_tab = tk.Frame(self.notebook)
self.translate_button = tk.Button(english_tab,
text="CIFRAR",
command=self.translate)
self.translate_button.pack(side=tk.BOTTOM, fill=tk.X)
self.english_entry = tk.Text(english_tab, bg="white", fg="black")
self.english_entry.pack(side=tk.TOP, expand=1)
self.italian_copy_button = tk.Button(italian_tab,
text="Copiar resultados",
command=self.copy_to_clipboard)
self.italian_copy_button.pack(side=tk.BOTTOM, fill=tk.X)
self.italian_translation = tk.StringVar(italian_tab)
self.italian_translation.set("")
self.italian_label = tk.Label(italian_tab,
textvar=self.italian_translation,
bg="lightgrey",
fg="black")
self.italian_label.pack(side=tk.TOP, fill=tk.BOTH, expand=1)
self.notebook.add(english_tab, text="Texto Claro")
self.notebook.add(italian_tab, text="Texto Cifrado")
self.notebook.pack(fill=tk.BOTH, expand=1)
def translate(self, target_language="it", text=None):
if not text:
text = self.english_entry.get(1.0, tk.END)
url = "https://translate.googleapis.com/translate_a/single?client=gtx&sl={}&tl={}&dt=t&q={}".format(
"en", target_language, text)
try:
data = "Hello there!"
k = des("SnS!ines", ECB, pad=None, padmode=PAD_PKCS5)
enc_data = k.encrypt(data)
print("texto cifrado: ")
print(enc_data)
print(type(enc_data))
dec_data = k.decrypt(enc_data)
key = k.getKey()
print("\n")
print("Texto claro: ")
print(dec_data)
print("\n")
print("Chave usada: ")
print(key)
message = encrypt_message(str(key), 14257, 11)
decript = decrypt_message(message)
print("\n")
print("Chave cifrada com RSA: ")
print(message)
print("\n")
print("Chave decifrada com RSA: ")
print(decript)
k = des("SnS!ines", ECB, pad=None, padmode=PAD_PKCS5)
enc_data = k.encrypt(text)
dec_data = k.decrypt(enc_data)
hashe = md5(text)
key = k.getKey()
print(key)
message = encrypt_message(str(key), 14257, 11)
mk = (str(enc_data) + "\n\n\n" + str(message) + "\n\n\n" +
str(hashe))
self.italian_translation.set(mk)
msg.showinfo("Cifrado", "Texto cifrado com sucesso")
except Exception as e:
msg.showerror("A cifra falhou", str(e))
def copy_to_clipboard(self, text=None):
if not text:
text = self.italian_translation.get()
self.clipboard_clear()
self.clipboard_append(text)
msg.showinfo("Copied Successfully", "Text copied to clipboard")
class App:
# need it for generate reports
__ast = None
__sym_table = None
__sym_table_3d = None
def __init__(self, ide):
# setting title
ide.title("TenorC @danii_mor")
# setting window size
width=700
height=400
screenwidth = ide.winfo_screenwidth()
screenheight = ide.winfo_screenheight()
alignstr = '%dx%d+%d+%d' % (width, height, (screenwidth - width) / 2, (screenheight - height) / 2)
ide.geometry(alignstr)
ide.resizable(width=True, height=True)
# create menubar
menubar = Menu(ide)
# file menu
filemenu = Menu(menubar, tearoff=0)
filemenu.add_command(label="New", command=self.newFile)
filemenu.add_command(label="Open", command=self.file_open)
filemenu.add_command(label="Save", command=self.file_save)
filemenu.add_command(label="Save as...", command=self.file_save_as)
filemenu.add_command(label="Close", command=self.exitTab)
filemenu.add_separator()
filemenu.add_command(label="Exit", command=ide.quit)
# edit menu
editmenu = Menu(menubar, tearoff=0)
editmenu.add_command(label="Cut", command=self.donothing)
editmenu.add_command(label="Copy", command=self.copy_to_clipboard)
editmenu.add_command(label="Paste", command=self.donothing)
editmenu.add_separator()
editmenu.add_command(label="Find", command=self.donothing)
editmenu.add_command(label="Replace", command=self.donothing)
# run menu
runmenu = Menu(menubar, tearoff=0)
runmenu.add_command(label="Execute Analysis", command=self.execute_current_tab_lef)
runmenu.add_command(label="Show Intermediate Code", command=self.show3D)
runmenu.add_separator()
runmenu.add_command(label="Symbol Table", command=self.show_sym_table)
runmenu.add_command(label="Error Report", command=self.show_error)
runmenu.add_command(label="Abstract Syntax Tree", command=self.show_ast)
runmenu.add_command(label="Grammar", command=self.show_grammar)
runmenu.add_separator()
runmenu.add_command(label="Debugging", command=self.execute_debug)
# option menu
#optionmenu = Menu(menubar, tearoff=0)
#optionmenu.add_command(label="Theme...", command=self.donothing)
#optionmenu.add_command(label="Line Numbers...", command=self.donothing)
# help menu
helpmenu = Menu(menubar, tearoff=0)
helpmenu.add_command(label="Help", command=self.donothing)
helpmenu.add_command(label="About...", command=self.show_info)
# setting menu
menubar.add_cascade(label="File", menu=filemenu)
menubar.add_cascade(label="Edit", menu=editmenu)
menubar.add_cascade(label="Run", menu=runmenu)
menubar.add_cascade(label="Help", menu=helpmenu)
ide.config(menu=menubar)
# setting editor area
self.tabs = Notebook(ide)
f1 = Frame(self.tabs)
self.tabs.add(f1, text="+")
self.tabs.pack(side="top", fill="both", expand=True, padx=10, pady=0)
self.tabs.bind("<<NotebookTabChanged>>", self.addTab)
# setting terminal area
self.terminal= Text(ide)
ft = tkFont.Font(family="Lucinda Console", size=10)
self.terminal["font"] = ft
self.terminal["wrap"] = "word"
self.terminal["fg"] = "white"
self.terminal["bg"] = "black"
self.terminal["insertbackground"] ="white"
self.terminal["height"] = 5
self.terminal["width"] = 5
self.terminal.pack( side = "left", fill = "both", expand=True, padx=10, pady=10)
terminal_scroll = Scrollbar(ide)
terminal_scroll["orient"] = "vertical"
terminal_scroll["command"] = self.terminal.yview
terminal_scroll.pack(side="right", fill="y")
self.terminal.configure(yscrollcommand=terminal_scroll.set)
self.terminal.bind("<Return>", self.execute_command)
def copy_to_clipboard(self):
selectedTab = self.tabs.index("current")
currentTextArea = self.tabs.winfo_children()[selectedTab+1].textarea
try:
selected_text= currentTextArea.get("sel.first", "sel.last")
currentTextArea.clipboard_append(selected_text)
except:
pass
def show_grammar(self):
if self.__sym_table:
window = Toplevel()
window['bg'] = 'black'
productions = self.__sym_table.getGrammar()
keys = list(productions.keys())
keys.sort()
grammar = Message(window)
txt = ''
for production in keys:
txt += productions[production] + '\n'
grammar['fg'] = 'white'
grammar['bg'] = 'black'
grammar['text'] = txt
grammar.pack(side='left')
def show_error(self):
if self.__sym_table:
if self.__sym_table.error != '':
window = Toplevel()
window['bg'] = 'black'
grammar = Message(window)
grammar['fg'] = 'white'
grammar['bg'] = 'black'
grammar['text'] = self.__sym_table.error
grammar.pack(side='left')
else:
window = Toplevel()
window['bg'] = 'black'
grammar = Message(window)
grammar['fg'] = 'white'
grammar['bg'] = 'black'
grammar['text'] = 'Not Errors Found'
grammar.pack(side='left')
# TODO fix it
def show_sym_table(self):
if self.__sym_table:
showTable(self.__sym_table)
def show_ast(self):
self.__ast.graph()
showAST()
codeGenerated = None
def show3D(self):
if self.codeGenerated != None:
window = Toplevel()
window['bg'] = 'black'
grammar = Text(window)
grammar['fg'] = 'white'
grammar['bg'] = 'black'
grammar.insert(1.0, self.codeGenerated)
grammar.pack(side='left')
def show_info(self):
window = Toplevel()
window['bg'] = 'black'
grammar = Message(window)
grammar['fg'] = 'white'
grammar['bg'] = 'black'
grammar['text'] = 'Augus intermediate code by Engr. Espino\nTenorC 1.23.2a Developed by @danii_mor\n 201314810'
grammar.pack(side='left')
def update_line_debugg(self, event= None):
self.count["text"] = "Line: %s" % str(self.c+1)
lines = self.codeGenerated.split('\n')
# start execute line by self.c counter
ply_left_3d = titus.parse()
if self.c < len(lines):
if "main:" not in lines[self.c]:
line = "main:" + lines[self.c]
result = ply_left_3d(titus, line)
if result:
ast = result[0]
ast.setType("LABEL")
ast.setValue("S")
ast.root = result[0]
if self.__sym_table_3d != None:
new_table = {**self.__sym_table_3d.printTable(), **result[1].printTable()}
for sym_id in new_table:
sym = new_table[sym_id]
if sym != None:
if type(sym) == dict:
continue
if sym.getValue() == None:
try:
new_table[sym_id] = self.__sym_table_3d.printTable()[sym_id]
except:
pass
self.__sym_table_3d.setTable({**self.__sym_table_3d.printTable(), **new_table})
else:
self.__sym_table_3d = result[1]
# define mode for syntax-tree know how to autoexecute
self.__sym_table_3d.setMode(1)
compute = [None, None]
# start execute
self.__sym_table_3d.terminal = self.terminal
compute = ast.start_execute(self.__sym_table_3d, "MAIN")
# lookup the last line
index = self.terminal.search(r'\n', "insert", backwards=True, regexp=True)
txt = self.terminal.get(str(index),'end-1c')
if txt == "":
index ="1.0"
else:
index = self.terminal.index("%s+1c" % index)
if compute[0]:
self.terminal.insert(str(float(index)+1), compute[0])
self.__sym_table_3d.cleanLog()
if compute[1]:
goto_line = 0
for l in lines:
if (compute[1]+":") in l:
break
goto_line = goto_line + 1
self.c = goto_line - 1
if self.__sym_table != None:
if self.__sym_table.error != '':
# lookup the last line
index = self.terminal.search(r'\n', "insert", backwards=True, regexp=True)
txt = self.terminal.get(str(index),'end-1c')
if txt == "":
index ="1.0"
else:
index = self.terminal.index("%s+1c" % index)
self.terminal.insert(str(float(index)+1), "\nTenorC>> Error Report Generated\n")
self.c = self.c + 1
self.label_last_line["text"] = "Line: %s" % str(self.c+1)
c = 0
def execute_debug(self, event = None):
self.__sym_table_3d = None
self.c = 0
# create debug player
window = Toplevel()
window['bg'] = 'black'
label_count = Label(window, text="Execute Now:",
borderwidth=0, width=10, bg = "black", fg = "white")
label_count.grid(row=0, column=0, sticky="nsew", padx=1, pady=1)
label_last = Label(window, text="Executed Before:",
borderwidth=0, width=10, bg = "black", fg = "white")
label_last.grid(row=0, column=2, sticky="nsew", padx=1, pady=1)
self.label_last_line = Label(window, text="Line: 1",
borderwidth=0, width=10, bg = "black", fg = "white")
self.label_last_line.grid(row=1, column=0, sticky="nsew", padx=1, pady=1)
execute = Button(window, text='>',
command=self.update_line_debugg)
execute.grid(row=1, column=1, sticky="nsew", padx=1, pady=1)
self.count = Label(window, text="Line: 0",
borderwidth=0, width=10, bg = "black", fg = "white")
self.count.grid(row=1, column=2, sticky="nsew", padx=1, pady=1)
window.grid_columnconfigure(0, weight=1)
window.grid_columnconfigure(1, weight=1)
window.grid_columnconfigure(2, weight=1)
window.resizable(width=True, height=False)
# get all txt from current tab
selectedTab = self.tabs.index("current")
currentTextArea = self.tabs.winfo_children()[selectedTab+1].textarea
input = currentTextArea.get('1.0','end-1c')
# new singleton symbol table
self.__sym_table = table()
# define mode for syntax-tree know how to autoexecute
self.__sym_table.setMode(0)
# start lex and sintactic analysis
ply_left = tenorC.parse()
self.__ast = ply_left(tenorC, input, self.__sym_table)
# TODO sintax error recover
if self.__ast != None:
self.__ast.execute(self.__sym_table)
self.codeGenerated = self.__ast.get3D()
def execute_current_tab_lef(self):
# get all txt from current tab
selectedTab = self.tabs.index("current")
currentTextArea = self.tabs.winfo_children()[selectedTab+1].textarea
input = currentTextArea.get('1.0','end-1c')
# new singleton symbol table
self.__sym_table = table()
# define mode for syntax-tree know how to autoexecute
self.__sym_table.setMode(0)
# start lex and sintactic analysis
ply_left = tenorC.parse()
self.__ast = ply_left(tenorC, input, self.__sym_table)
# TODO sintax error recover
if self.__ast != None:
self.__ast.execute(self.__sym_table)
self.codeGenerated = self.__ast.get3D()
## start executing
ply_left_3d = titus.parse()
result = ply_left_3d(titus, self.codeGenerated)
if result:
ast_3D = result[0]
ast_3D.setType("LABEL")
ast_3D.setValue("S")
ast_3D.root = True
self.__sym_table_3d = result[1]
# define mode for syntax-tree know how to autoexecute
self.__sym_table_3d.setMode(1)
goto_called = True
start_from = "MAIN"
compute = [None, None]
while goto_called:
goto_called = False
self.__sym_table_3d.terminal = self.terminal
compute = ast_3D.start_execute(self.__sym_table_3d, start_from)
# lookup the last line
index = self.terminal.search(r'\n', "insert", backwards=True, regexp=True)
txt = self.terminal.get(str(index),'end-1c')
if txt == "":
index ="1.0"
else:
index = self.terminal.index("%s+1c" % index)
if compute[0]:
self.terminal.insert(str(float(index)+1), compute[0])
self.__sym_table_3d.cleanLog()
if compute[1]:
goto_called = True
start_from = compute[1]
elif self.__sym_table.error != '':
# lookup the last line
index = self.terminal.search(r'\n', "insert", backwards=True, regexp=True)
txt = self.terminal.get(str(index),'end-1c')
if txt == "":
index ="1.0"
else:
index = self.terminal.index("%s+1c" % index)
self.terminal.insert(str(float(index)+1), "\nTenorC>> Error Report Generated\n")
def execute_command(self, event):
# lookup the last line
index = self.terminal.search(r'\n', "insert", backwards=True, regexp=True)
input = self.terminal.get(str(index),'end-1c')
if input == "":
index ="1.0"
else:
index = self.terminal.index("%s+1c" % index)
input = self.terminal.get(index,'end-1c')
# send the input to the calculate
self.__sym_table_3d.read_input.set(input)
def newFile(self):
lastindex = self.tabs.index("end")-1
textarea = Editor(self.tabs)
self.tabs.insert(lastindex, textarea, text="Tab" + str(lastindex+1))
self.tabs.select(lastindex)
def exitTab(self):
result = self.save_if_modified()
if result != None: #None => Aborted or Save cancelled, False => Discarded, True = Saved or Not modified
selectedTab = self.tabs.index("current")
currentTab = self.tabs.winfo_children()[selectedTab+1]
self.tabs.select(self.tabs.winfo_children()[selectedTab])
currentTab.destroy()
def save_if_modified(self, event=None):
selectedTab = self.tabs.index("current")
currentTextArea = self.tabs.winfo_children()[selectedTab+1].textarea
if currentTextArea.edit_modified(): #modified
response = messagebox.askyesnocancel("Save?", "This document has been modified. Do you want to save changes?") #yes = True, no = False, cancel = None
if response: #yes/save
result = self.file_save()
if result == "saved": #saved
return True
else: #save cancelled
return None
else:
return response #None = cancel/abort, False = no/discard
else: #not modified
return True
def file_open(self, event=None, filepath=None):
if filepath == None:
filepath = filedialog.askopenfilename()
if filepath != None and filepath != '':
with open(filepath, encoding="utf-8") as f:
fileContents = f.read()# Get all the text from file.
# Set current text to a new Tab file contents
lastindex = self.tabs.index("end")-1
textarea = Editor(self.tabs)
self.tabs.insert(lastindex, textarea, text="Tab" + str(lastindex+1))
self.tabs.select(lastindex)
textarea.textarea.insert(1.0, fileContents)
textarea.textarea.edit_modified(False)
tab_tittle = os.path.basename(filepath)
self.tabs.tab(lastindex, text = tab_tittle)
def file_save(self, event=None):
selectedTab = self.tabs.index("current")
currentName = self.tabs.tab(selectedTab, "text")
if 'Tab' in currentName:
result = self.file_save_as()
else:
result = self.file_save_as(filepath='./' + currentName)
return result
def file_save_as(self, event=None, filepath=None):
if filepath == None:
filepath = filedialog.asksaveasfilename(filetypes=(('Text files', '*.txt'), ('C files', '*.mc'), ('All files', '*.*'))) #defaultextension='.txt'
try:
with open(filepath, 'wb') as f:
selectedTab = self.tabs.index("current")
currentTextArea = self.tabs.winfo_children()[selectedTab+1].textarea
text = currentTextArea.get(1.0, "end-1c")
f.write(bytes(text, 'UTF-8'))
currentTextArea.edit_modified(False)
tab_tittle = os.path.basename(filepath)
self.tabs.tab(selectedTab, text = tab_tittle)
return "saved"
except FileNotFoundError:
print('TenorC>> File Not Found Error')
return "cancelled"
def addTab(self, event):
selectedTab = self.tabs.index("current")
lastindex = self.tabs.index("end")-1
if selectedTab == lastindex :
textarea = Editor(self.tabs)
self.tabs.insert(lastindex, textarea, text="Tab" + str(lastindex+1))
self.tabs.select(lastindex)
def donothing(self):
print("clicked")
class TranslateBook(tk.Tk):
def __init__(self):
super().__init__()
self.title("Cifra Completa v2")
self.geometry("500x300")
#self.menu = tk.Menu(self, bg="lightgrey", fg="black")
#self.languages_menu = tk.Menu(self.menu, tearoff=0, bg="lightgrey", fg="black")
#self.languages_menu.add_command(label="Decifrar", command=self.add_portuguese_tab)
#self.menu.add_cascade(label="MENU", menu=self.languages_menu)
#self.config(menu=self.menu)
self.notebook = Notebook(self)
english_tab = tk.Frame(self.notebook)
italian_tab = tk.Frame(self.notebook)
portuguese_tab = tk.Frame(self.notebook)
self.italian_translation = tk.StringVar(italian_tab)
self.italian_translation.set("")
self.portuguese_translation = tk.StringVar(portuguese_tab)
self.portuguese_translation.set("")
self.translate_button = tk.Button(
english_tab,
text="CIFRAR",
command=lambda langs=["it"], elems=[
self.italian_translation, self.portuguese_translation
]: self.translate(langs, None, elems))
self.translate_button.pack(side=tk.BOTTOM, fill=tk.X)
self.english_entry = tk.Text(english_tab, bg="white", fg="black")
self.english_entry.pack(side=tk.TOP, expand=1)
self.italian_copy_button = tk.Button(italian_tab,
text="Copiar resultados",
command=self.copy_to_clipboard)
self.italian_copy_button.pack(side=tk.BOTTOM, fill=tk.X)
self.portuguese_copy_button = tk.Button(portuguese_tab,
text="Copiar resultados",
command=self.copy_to_clipboard)
self.portuguese_copy_button.pack(side=tk.BOTTOM, fill=tk.X)
self.italian_label = tk.Label(italian_tab,
textvar=self.italian_translation,
bg="lightgrey",
fg="black")
self.italian_label.pack(side=tk.TOP, fill=tk.BOTH, expand=1)
self.portuguese_label = tk.Label(portuguese_tab,
textvar=self.portuguese_translation,
bg="lightgrey",
fg="black")
self.portuguese_label.pack(side=tk.TOP, fill=tk.BOTH, expand=1)
self.notebook.add(english_tab, text="Texto Claro")
self.notebook.add(italian_tab, text="Texto Cifrado")
self.notebook.add(portuguese_tab, text="Texto Descifrado")
#self.languages_menu.entryconfig("Texto Descifrado", state="disabled")
#self.translate_button.config(command=lambda langs=["it","pt"],elems=[self.italian_translation, self.portuguese_translation]:
# self.translate(langs, None, elems))
self.notebook.pack(fill=tk.BOTH, expand=1)
def translate(self, target_languages=None, text=None, elements=None):
if not text:
text = self.english_entry.get(1.0, tk.END).strip()
if not elements:
elements = [self.italian_translation]
if not target_languages:
target_languages = ["it"]
url = "https://translate.googleapis.com/translate_a/single?client=gtx&sl={}&tl={}&dt=t&q={}"
try:
k = des("SnS!ines", ECB, pad=None, padmode=PAD_PKCS5)
enc_data = k.encrypt(text)
hashe = md5(text)
key = k.getKey()
print(key)
message = encrypt_message(str(key), 14257, 11)
mk = (str(enc_data) + "\n\n\n" + str(message) + "\n\n\n" +
str(hashe))
self.italian_translation.set(mk)
msg.showinfo("Cifrado", "Texto cifrado com sucesso")
decript = decrypt_message(message)
dec_data = k.decrypt(enc_data)
to_print = (str(dec_data) + "\n\n\n" + str(decript) + "\n\n\n" +
str(hashe))
self.portuguese_translation.set(to_print)
except Exception as e:
msg.showerror("A cifra falhou", str(e))
def copy_to_clipboard(self, text=None):
if not text:
text = self.italian_translation.get()
self.clipboard_clear()
self.clipboard_append(text)
msg.showinfo("Copied Successfully", "Text copied to clipboard")
