def createApp(win): # - Frame - Frame = TTK.LabelFrame(win, borderwidth=2, relief=CTK.FRAMESTYLE, text='tkState', font=CTK.FRAMEFONT, takefocus=1) #BB = CTK.infoBulle(parent=Frame, text='Set information on case.\nCtrl+c to close applet.', temps=0, btype=1) Frame.bind('<Control-c>', hideApp) Frame.bind('<ButtonRelease-3>', displayFrameMenu) Frame.bind('<Enter>', lambda event: Frame.focus_set()) Frame.columnconfigure(0, weight=1) WIDGETS['frame'] = Frame # - Frame menu - FrameMenu = TK.Menu(Frame, tearoff=0) FrameMenu.add_command(label='Close', accelerator='Ctrl+c', command=hideApp) CTK.addPinMenu(FrameMenu, 'tkState') WIDGETS['frameMenu'] = FrameMenu # - VARS - # -0- Pb dim - V = TK.StringVar(win) V.set('3D') VARS.append(V) # -1- Model - V = TK.StringVar(win) V.set('Euler') VARS.append(V) # -2- Mach - V = TK.StringVar(win) V.set('0.5') VARS.append(V) # -3- Reinf - V = TK.StringVar(win) V.set('1.e8') VARS.append(V) # -4- Incidence/Z - V = TK.StringVar(win) V.set('0.') VARS.append(V) # -5- Incidence/Y - V = TK.StringVar(win) V.set('0.') VARS.append(V) # -6- Type de modele de turbulence V = TK.StringVar(win) V.set('SpalartAllmaras') VARS.append(V) # -7- Valeurs pour les grandeurs turbulentes V = TK.StringVar(win) V.set('1.e-6') VARS.append(V) # -8- Jeux de variables definissant l'etat de reference V = TK.StringVar(win) V.set('[adim1] ro,T,a') VARS.append(V) # -9- MutSMuInf V = TK.StringVar(win) V.set('0.2') VARS.append(V) # -10- TurbLevelInf V = TK.StringVar(win) V.set('1.e-4') VARS.append(V) # -11- Adim V = TK.StringVar(win) V.set('adim1(Ro,A,T)') VARS.append(V) # - Pb dim - F = TTK.Frame(Frame, borderwidth=2, relief=CTK.FRAMESTYLE) F.columnconfigure(0, weight=1) F.columnconfigure(1, weight=2) F.columnconfigure(1, weight=2) B = TTK.Label(F, text="Pb dim") B.grid(row=0, column=0, sticky=TK.EW) BB = CTK.infoBulle(parent=B, text='Dimension of the problem.') B = TTK.OptionMenu(F, VARS[0], '3D', '2D', command=setDim) B.grid(row=0, column=1, sticky=TK.EW) B = TTK.Button(F, text="Set dim", command=setDim) BB = CTK.infoBulle(parent=B, text='Set dim in all bases.') B.grid(row=0, column=2, sticky=TK.EW) F.grid(row=0, column=0, sticky=TK.EW) F = TTK.Frame(Frame, borderwidth=2, relief=CTK.FRAMESTYLE) F.columnconfigure(0, weight=1) F.columnconfigure(1, weight=4) # - Modele de fluide - B = TTK.Label(F, text="GovEquations") B.grid(row=1, column=0, sticky=TK.EW) BB = CTK.infoBulle(parent=B, text='Governing equations to solve.') B = TTK.OptionMenu(F, VARS[1], 'Euler', 'NSLaminar', 'NSTurbulent') B.grid(row=1, column=1, sticky=TK.EW) # - Jeu de grandeurs definissant l'etat de reference - #B = TK.Label(F, text="Variables") #B.grid(row=2, column=0, sticky=TK.EW) #BB = CTK.infoBulle(parent=B, text='Change the set of variables defining the reference state.') #B = TK.OptionMenu(F, VARS[8], '[adim1] ro,a,T', '[adim2] ro,u,T', '[dim1] U,T,P,L', '[dim2] ro,u,T,L', '[dim3] ro,u,P,L') #B.grid(row=2, column=1, sticky=TK.EW) # - Mach - B = TTK.Label(F, text="Mach") B.grid(row=2, column=0, sticky=TK.EW) BB = CTK.infoBulle(parent=B, text='Reference (infinite) mach number.') B = TTK.Entry(F, textvariable=VARS[2], background='White') B.grid(row=2, column=1, sticky=TK.EW) # - Reynolds - B = TTK.Label(F, text="Reynolds") B.grid(row=3, column=0, sticky=TK.EW) BB = CTK.infoBulle(parent=B, text='Reference (infinite) Reynolds number.') B = TTK.Entry(F, textvariable=VARS[3], background='White') B.grid(row=3, column=1, sticky=TK.EW) # - Incidence/Z - B = TTK.Label(F, text="Incidence/Z (deg)") BB = CTK.infoBulle(parent=B, text='Angle of incident flow around z axis.') B.grid(row=4, column=0, sticky=TK.EW) B = TTK.Entry(F, textvariable=VARS[4], background='White') B.grid(row=4, column=1, sticky=TK.EW) # - Incidence/Y - B = TTK.Label(F, text="Incidence/Y (deg)") B.grid(row=5, column=0, sticky=TK.EW) BB = CTK.infoBulle(parent=B, text='Angle of incident flow around y axis.') B = TTK.Entry(F, textvariable=VARS[5], background='White') B.grid(row=5, column=1, sticky=TK.EW) # - Modele de turbulence - B = TTK.Label(F, text="TubulenceModel") B.grid(row=6, column=0, sticky=TK.EW) BB = CTK.infoBulle(parent=B, text='Type of turbulence model.') B = TTK.OptionMenu(F, VARS[6], 'SpalartAllmaras', 'JonesLaunder(k-eps)', 'Wilcox(k-w)', 'MenterSST(k-w)') B.grid(row=6, column=1, sticky=TK.EW) # - Valeurs des grandeurs turbulentes - B = TTK.Label(F, text="MutSMu") B.grid(row=7, column=0, sticky=TK.EW) BB = CTK.infoBulle( parent=B, text='Ratio between turbulent viscosity and molecular viscosity.') B = TTK.Entry(F, textvariable=VARS[9], background='White') B.grid(row=7, column=1, sticky=TK.EW) B = TTK.Label(F, text="TurbLevel") B.grid(row=8, column=0, sticky=TK.EW) BB = CTK.infoBulle(parent=B, text='Level of turbulence.') B = TTK.Entry(F, textvariable=VARS[10], background='White') B.grid(row=8, column=1, sticky=TK.EW) # - Adim - B = TTK.Label(F, text="Adim") B.grid(row=9, column=0, sticky=TK.EW) BB = CTK.infoBulle(parent=B, text='Type of adimensionalization.') B = TTK.OptionMenu( F, VARS[11], 'adim1(Ro,A,T)', 'adim2(Ro,U,T)' ) #,'dim1(real UInf,TInf,PInf,Rgp=287.053)', 'dim2(real UInf,TInf,RoInf,Rgp=287.053)','dim3(real UInf,PInf,RoInf,Rgp=287.053)') B.grid(row=9, column=1, sticky=TK.EW) # - get state, inutile a mon avis - B = TTK.Button(F, text="Get state", command=getState) B.grid(row=10, column=0, sticky=TK.EW) BB = CTK.infoBulle(parent=B, text='Read state from pyTree.') # - set state - B = TTK.Button(F, text="Set state", command=setState) B.grid(row=10, column=1, sticky=TK.EW) BB = CTK.infoBulle(parent=B, text='Write state to pyTree.') F.grid(row=1, column=0, sticky=TK.EW)
def createApp(win): ttk = CTK.importTtk() # - Frame - Frame = TTK.LabelFrame(win, borderwidth=2, relief=CTK.FRAMESTYLE, text='tkPerfo', font=CTK.FRAMEFONT, takefocus=1) #BB = CTK.infoBulle(parent=Frame, text='Improve performance of Cassiopee.\nCtrl+c to close applet.', temps=0, btype=1) Frame.bind('<Control-c>', hideApp) Frame.bind('<ButtonRelease-3>', displayFrameMenu) Frame.bind('<Enter>', lambda event : Frame.focus_set()) Frame.columnconfigure(0, weight=1) Frame.columnconfigure(1, weight=4) Frame.columnconfigure(2, weight=1) WIDGETS['frame'] = Frame # - Frame menu - FrameMenu = TK.Menu(Frame, tearoff=0) FrameMenu.add_command(label='Close', accelerator='Ctrl+c', command=hideApp) FrameMenu.add_command(label='Save', command=saveApp) FrameMenu.add_command(label='Reset', command=resetApp) CTK.addPinMenu(FrameMenu, 'tkPerfo') WIDGETS['frameMenu'] = FrameMenu # - VARS - # -0- Displayed field - V = TK.StringVar(win); V.set('All fields'); VARS.append(V) # -1- Oneovern - V = TK.StringVar(win); V.set('All points'); VARS.append(V) if 'tkPerfoPoints' in CTK.PREFS: V.set(CTK.PREFS['tkPerfoPoints']) # -2- Threads V = TK.StringVar(win); V.set('1'); VARS.append(V) # - Field transmission - B = TTK.Label(Frame, text="Display") B.grid(row=0, column=0, sticky=TK.EW) BB = CTK.infoBulle(parent=B, text='Describe what part of the tree is displayed.\nCan fasten the display. In memory tree is not modified.') F = TTK.Frame(Frame, borderwidth=0) F.columnconfigure(0, weight=1) if ttk is None: B = TK.OptionMenu(F, VARS[0], 'All fields', 'No field') B.grid(sticky=TK.EW) F.bind('<Enter>', updateVarNameList) F.grid(row=0, column=1, sticky=TK.EW) BB = CTK.infoBulle(parent=B, text='Display only certain fields.') WIDGETS['fields'] = B else: B = ttk.Combobox(F, textvariable=VARS[0], values=['All fields', 'No field'], state='readonly', width=10) B.grid(sticky=TK.EW) B.bind('<<ComboboxSelected>>', setViewMode2) F.bind('<Enter>', updateVarNameList2) F.grid(row=0, column=1, sticky=TK.EW) BB = CTK.infoBulle(parent=B, text='Display only certain fields.') WIDGETS['fields'] = B # - Point transmission - B = TTK.OptionMenu(Frame, VARS[1], 'All points', 'One over 2', 'One over 3', 'One over 4', 'Exclusive', command=oneovern) B.grid(row=0, column=2, sticky=TK.EW) BB = CTK.infoBulle(parent=B, text='Display less points.') # - OMP threads - B = TTK.Label(Frame, text="Threads") B.grid(row=1, column=0, sticky=TK.EW) BB = CTK.infoBulle(parent=B, text='The number of CPU cores used by Cassiopee.') F = TTK.Frame(Frame, borderwidth=0) F.grid(row=1, column=1, columnspan=1, sticky=TK.EW) B = TTK.Entry(F, textvariable=VARS[2], background='White', width=3) B.grid(row=0, column=0, columnspan=1, sticky=TK.EW) BB = CTK.infoBulle(parent=B, text='Number of threads\n(init value is OMP_NUM_THREADS).') B.bind('<Return>', setThreads) WIDGETS['threads'] = B mxProcs = getMaxProcs() B = TK.Label(F, text='/'+mxProcs) B.grid(row=0, column=1, columnspan=1, sticky=TK.EW) B = TTK.Button(Frame, text="Set", command=setThreads) B.grid(row=1, column=2, sticky=TK.EW) BB = CTK.infoBulle(parent=B, text='Set the number of threads.')
def createApp(win): ttk = CTK.importTtk() # - Frame - Frame = TTK.LabelFrame(win, borderwidth=2, relief=CTK.FRAMESTYLE, text='tkExtractBC', font=CTK.FRAMEFONT, takefocus=1) #BB = CTK.infoBulle(parent=Frame, text='Extract boundary conditions.\nCtrl+c to close applet.', temps=0, btype=1) Frame.bind('<Control-c>', hideApp) Frame.bind('<ButtonRelease-3>', displayFrameMenu) Frame.bind('<Enter>', lambda event : Frame.focus_set()) Frame.columnconfigure(0, weight=2) Frame.columnconfigure(1, weight=2) Frame.columnconfigure(2, weight=0) WIDGETS['frame'] = Frame # - Frame menu - FrameMenu = TK.Menu(Frame, tearoff=0) FrameMenu.add_command(label='Close', accelerator='Ctrl+c', command=hideApp) FrameMenu.add_command(label='Save', command=saveApp) FrameMenu.add_command(label='Reset', command=resetApp) CTK.addPinMenu(FrameMenu, 'tkExtractBC') WIDGETS['frameMenu'] = FrameMenu # - VARS - # - 0 - Type de BC - V = TK.StringVar(win); V.set('-All BC-'); VARS.append(V) if 'tkExtractBCType' in CTK.PREFS: V.set(CTK.PREFS['tkExtractBCType']) # - 1 - List of zoneBCs to recover V = TK.StringVar(win); V.set(''); VARS.append(V) # - Extract type de BC - B = TTK.Button(Frame, text="Extract", command=extract) B.grid(row=0, column=0, sticky=TK.EW) BB = CTK.infoBulle(parent=B, text='Extract specified BC.\nTree is modified.') F = TTK.Frame(Frame, borderwidth=0) F.columnconfigure(0, weight=1) if ttk is None: B = TK.OptionMenu(F, VARS[0], *(Internal.KNOWNBCS)) B.grid(sticky=TK.EW) F.bind('<Enter>', updateFamilyBCNameList) F.grid(row=0, column=1, columnspan=2, sticky=TK.EW) WIDGETS['BC'] = B else: B = ttk.Combobox(F, textvariable=VARS[0], values=Internal.KNOWNBCS, state='readonly', width=10) B.grid(sticky=TK.EW) F.bind('<Enter>', updateFamilyBCNameList2) F.grid(row=0, column=1, columnspan=2, sticky=TK.EW) WIDGETS['BC'] = B # - Recover BCs - B = TTK.Button(Frame, text="Recover", command=recover) B.grid(row=1, column=0, sticky=TK.EW) BB = CTK.infoBulle(parent=B, text='Recover BCs.\nTree is modified.') B = TTK.Button(Frame, command=setBC2Recover, image=iconics.PHOTO[8], padx=0, pady=0) B.grid(row=1, column=2, sticky=TK.EW) BB = CTK.infoBulle(parent=B, text='Set the BC (zones) to recover.') B = TTK.Entry(Frame, textvariable=VARS[1], background='White', width=8) B.grid(row=1, column=1, sticky=TK.EW) BB = CTK.infoBulle(parent=B, text='BCs to recover.')
def createApp(win): ttk = CTK.importTtk() # - Frame - Frame = TTK.LabelFrame(win, borderwidth=2, relief=CTK.FRAMESTYLE, text='tkInteg', font=CTK.FRAMEFONT, takefocus=1) #BB = CTK.infoBulle(parent=Frame, text='Integrate fields.\nCtrl+c to close applet.', temps=0, btype=1) Frame.bind('<Control-c>', hideApp) Frame.bind('<ButtonRelease-3>', displayFrameMenu) Frame.bind('<Enter>', lambda event: Frame.focus_set()) Frame.columnconfigure(0, weight=1) Frame.columnconfigure(1, weight=1) Frame.columnconfigure(2, weight=1) WIDGETS['frame'] = Frame # - Frame menu - FrameMenu = TK.Menu(Frame, tearoff=0) FrameMenu.add_command(label='Close', accelerator='Ctrl+c', command=hideApp) CTK.addPinMenu(FrameMenu, 'tkInteg') WIDGETS['frameMenu'] = FrameMenu # - VARS - # -0- Integration type - V = TK.StringVar(win) V.set('INT(v1dS)') VARS.append(V) # -1- Moment center - V = TK.StringVar(win) V.set('0;0;0') VARS.append(V) # -2- Var0 for integration - V = TK.StringVar(win) V.set('CoordinateX') VARS.append(V) # -3- Var1 for integration - V = TK.StringVar(win) V.set('CoordinateY') VARS.append(V) # -4- Var2 for integration - V = TK.StringVar(win) V.set('CoordinateZ') VARS.append(V) # - Menu des integrations - B = TTK.OptionMenu(Frame, VARS[0], \ 'INT(v1dS)', 'INT(v1.ndS)', \ 'INT((v1,v2,v3).ndS)', \ 'INT((v1,v2,v3)^OMdS)', 'INT(v1n^OMdS)') B.grid(row=0, column=0, sticky=TK.EW) # - Centre des moments - B = TTK.Entry(Frame, textvariable=VARS[1], background='White', width=5) B.grid(row=0, column=1, sticky=TK.EW) BB = CTK.infoBulle(parent=B, text='Moment center.') # - Bouton compute - B = TTK.Button(Frame, text="Compute", command=compute) B.grid(row=0, column=2, sticky=TK.EW) BB = CTK.infoBulle(parent=B, text='Compute integration on contour/surface.') # - Menu des variables - F = TTK.Frame(Frame, borderwidth=0) F.columnconfigure(0, weight=1) if ttk is None: B = TK.OptionMenu(F, VARS[2], '') B.grid(sticky=TK.EW) F.bind('<Enter>', updateVarNameList1) F.grid(row=1, column=0, sticky=TK.EW) BB = CTK.infoBulle(parent=B, text='Variable 1.') WIDGETS['variable1'] = B else: B = ttk.Combobox(F, textvariable=VARS[2], values=[], state='readonly', width=10) B.grid(sticky=TK.EW) F.bind('<Enter>', updateVarNameList1_2) F.grid(row=1, column=0, sticky=TK.EW) BB = CTK.infoBulle(parent=B, text='Variable 1.') WIDGETS['variable1'] = B F = TTK.Frame(Frame, borderwidth=0) F.columnconfigure(0, weight=1) if ttk is None: B = TK.OptionMenu(F, VARS[3], '') B.grid(sticky=TK.EW) F.bind('<Enter>', updateVarNameList2) F.grid(row=1, column=1, sticky=TK.EW) BB = CTK.infoBulle(parent=B, text='Variable 2.') WIDGETS['variable2'] = B else: B = ttk.Combobox(F, textvariable=VARS[3], values=[], state='readonly', width=10) B.grid(sticky=TK.EW) F.bind('<Enter>', updateVarNameList2_2) F.grid(row=1, column=1, sticky=TK.EW) BB = CTK.infoBulle(parent=B, text='Variable 2.') WIDGETS['variable2'] = B F = TTK.Frame(Frame, borderwidth=0) F.columnconfigure(0, weight=1) if ttk is None: B = TK.OptionMenu(F, VARS[4], '') B.grid(sticky=TK.EW) F.bind('<Enter>', updateVarNameList3) F.grid(row=1, column=2, sticky=TK.EW) BB = CTK.infoBulle(parent=B, text='Variable 3.') WIDGETS['variable3'] = B else: B = ttk.Combobox(F, textvariable=VARS[4], values=[], state='readonly', width=10) B.grid(sticky=TK.EW) F.bind('<Enter>', updateVarNameList3_2) F.grid(row=1, column=2, sticky=TK.EW) BB = CTK.infoBulle(parent=B, text='Variable 3.') WIDGETS['variable3'] = B
def createApp(win): # - Frame - Frame = TTK.LabelFrame(win, borderwidth=2, relief=CTK.FRAMESTYLE, text='tkFastSolver', font=CTK.FRAMEFONT, takefocus=1) Frame.bind('<Control-c>', hideApp) Frame.bind('<ButtonRelease-3>', displayFrameMenu) Frame.bind('<Enter>', lambda event: Frame.focus_set()) Frame.columnconfigure(0, weight=0) Frame.columnconfigure(1, weight=1) Frame.columnconfigure(2, weight=0) WIDGETS['frame'] = Frame # - Frame menu - FrameMenu = TK.Menu(Frame, tearoff=0) FrameMenu.add_command(label='Close', accelerator='Ctrl+c', command=hideApp) CTK.addPinMenu(FrameMenu, 'tkFastSolver') WIDGETS['frameMenu'] = FrameMenu # - VARS - # -0- temporal_scheme - V = TK.StringVar(win) V.set('explicit') VARS.append(V) # -1- ss_iteration - V = TK.StringVar(win) V.set('20') VARS.append(V) # -2- modulo_verif - V = TK.StringVar(win) V.set('200') VARS.append(V) # -3- restart_fields - V = TK.StringVar(win) V.set('1') VARS.append(V) # -4- scheme - V = TK.StringVar(win) V.set('ausmpred') VARS.append(V) # -5- Time step - V = TK.DoubleVar(win) V.set(0.002) VARS.append(V) # -6- Snear - V = TK.DoubleVar(win) V.set(0.01) VARS.append(V) # -7- IBC type - V = TK.StringVar(win) V.set('Musker') VARS.append(V) # -8- dfar local - V = TK.DoubleVar(win) V.set(-1.) VARS.append(V) # - temporal scheme - B = TTK.Label(Frame, text="temporal_scheme") B.grid(row=0, column=0, sticky=TK.EW) BB = CTK.infoBulle(parent=B, text='Time integration.') B = TTK.OptionMenu(Frame, VARS[0], 'explicit', 'implicit', 'implicit_local') B.grid(row=0, column=1, columnspan=2, sticky=TK.EW) # - ss_iteration - #B = TTK.Label(Frame, text="ss_iteration") #B.grid(row=1, column=0, sticky=TK.EW) #BB = CTK.infoBulle(parent=B, text='Nbre de sous iterations max.') #B = TTK.Entry(Frame, textvariable=VARS[1]) #B.grid(row=1, column=1, columnspan=2, sticky=TK.EW) # - scheme - B = TTK.Label(Frame, text="scheme") B.grid(row=2, column=0, sticky=TK.EW) BB = CTK.infoBulle(parent=B, text='Numerical scheme.') B = TTK.OptionMenu(Frame, VARS[4], 'ausmpred', 'roe_min') B.grid(row=2, column=1, columnspan=2, sticky=TK.EW) # - time_step - B = TTK.Label(Frame, text="time_step") B.grid(row=3, column=0, sticky=TK.EW) BB = CTK.infoBulle(parent=B, text='Time step.') B = TTK.Entry(Frame, textvariable=VARS[5]) B.grid(row=3, column=1, columnspan=2, sticky=TK.EW) #- Snear settings - B = TTK.Label(Frame, text="snear") B.grid(row=4, column=0, sticky=TK.EW) B = TTK.Entry(Frame, textvariable=VARS[6]) B.grid(row=4, column=1, columnspan=2, sticky=TK.EW) #- dfar settings - B = TTK.Label(Frame, text="dfar") B.grid(row=5, column=0, sticky=TK.EW) B = TTK.Entry(Frame, textvariable=VARS[8]) B.grid(row=5, column=1, columnspan=2, sticky=TK.EW) # - IBC type - B = TTK.Label(Frame, text="IBC type") B.grid(row=6, column=0, sticky=TK.EW) BB = CTK.infoBulle(parent=B, text='Type of IBC.') B = TTK.OptionMenu(Frame, VARS[7], 'slip', 'noslip', 'Log', 'Musker', 'outpress', 'inj', 'TBLE') B.grid(row=6, column=1, columnspan=2, sticky=TK.EW) # - Set data - B = TTK.Button(Frame, text="Set data", command=setData) BB = CTK.infoBulle(parent=B, text='Set data into selected zone.') B.grid(row=7, column=0, columnspan=2, sticky=TK.EW) B = TTK.Button(Frame, command=getData, image=iconics.PHOTO[8], padx=0, pady=0, compound=TK.RIGHT) BB = CTK.infoBulle(parent=B, text='Get data from selected zone.') B.grid(row=7, column=2, sticky=TK.EW)
def createApp(win): # - Frame - Frame = TTK.LabelFrame(win, borderwidth=2, relief=CTK.FRAMESTYLE, text='tkDistributor', font=CTK.FRAMEFONT, takefocus=1) #BB = CTK.infoBulle(parent=Frame, text='Distribute blocks\nover processors.\nCtrl+c to close applet.', temps=0, btype=1) Frame.bind('<Control-c>', hideApp) Frame.bind('<ButtonRelease-3>', displayFrameMenu) Frame.bind('<Enter>', lambda event: Frame.focus_set()) Frame.columnconfigure(0, weight=1) Frame.columnconfigure(1, weight=1) Frame.columnconfigure(2, weight=0) WIDGETS['frame'] = Frame # - Frame menu - FrameMenu = TK.Menu(Frame, tearoff=0) FrameMenu.add_command(label='Close', accelerator='Ctrl+c', command=hideApp) FrameMenu.add_command(label='Save', command=saveApp) FrameMenu.add_command(label='Reset', command=resetApp) CTK.addPinMenu(FrameMenu, 'tkDistributor') WIDGETS['frameMenu'] = FrameMenu # - VARS - # -0- NProc - V = TK.StringVar(win) V.set('10') VARS.append(V) if 'tkDistributorNProc' in CTK.PREFS: V.set(CTK.PREFS['tkDistributorNProc']) # -1- ComSpeed - V = TK.StringVar(win) V.set('0.1') VARS.append(V) if 'tkDistributorComSpeed' in CTK.PREFS: V.set(CTK.PREFS['tkDistributorComSpeed']) # -2- Algorithm V = TK.StringVar(win) V.set('graph') VARS.append(V) if 'tkDistributorAlgorithm' in CTK.PREFS: V.set(CTK.PREFS['tkDistributorAlgorithm']) # -3- Communication types V = TK.StringVar(win) V.set('all') VARS.append(V) if 'tkDistributorComType' in CTK.PREFS: V.set(CTK.PREFS['tkDistributorComType']) # -4- Manual proc setting V = TK.StringVar(win) V.set('0') VARS.append(V) # -5- Multigrid level V = TK.StringVar(win) V.set('0') VARS.append(V) if 'tkDistributorMultigrid' in CTK.PREFS: V.set(CTK.PREFS['tkDistributorMultigrid']) # - NProc - B = TTK.Entry(Frame, textvariable=VARS[0], background='White', width=3) BB = CTK.infoBulle(parent=B, text='Number of processors.') B.grid(row=0, column=0, sticky=TK.EW) #B.bind('<Return>', distribute) # - ComSpeed - B = TTK.Entry(Frame, textvariable=VARS[1], background='White', width=3) BB = CTK.infoBulle(parent=B, text='Weight of communication\ncompared to solver.') B.grid(row=0, column=1, sticky=TK.EW) # - Multigrid level for split - B = TTK.OptionMenu(Frame, VARS[5], '0', '1', '2') B.grid(row=0, column=2, sticky=TK.EW) BB = CTK.infoBulle(parent=B, text='Multigrid level.') # - Algorithms - B = TTK.OptionMenu(Frame, VARS[2], 'graph', 'gradient0', 'gradient1', 'genetic', 'fast') B.grid(row=1, column=0, columnspan=1, sticky=TK.EW) BB = CTK.infoBulle(parent=B, text='Distribution algorithm.') # - Com types - B = TTK.OptionMenu(Frame, VARS[3], 'all', 'match', 'overlap', 'bbox', 'none') B.grid(row=1, column=1, columnspan=2, sticky=TK.EW) BB = CTK.infoBulle( parent=B, text='Communication types taken into account while distributing.') # - Distribute - B = TTK.Button(Frame, text="Distribute tree", command=distribute) B.grid(row=2, column=0, sticky=TK.EW) BB = CTK.infoBulle( parent=B, text='Distribute tree over processors.\nAll zones are reassigned.') # - Split and distribute - B = TTK.Button(Frame, text="Split and distribute", command=splitAndDistribute) B.grid(row=2, column=1, columnspan=2, sticky=TK.EW) BB = CTK.infoBulle( parent=B, text= 'Split and distribute tree over processors.\nAll zones are reassigned.' ) # - ProcField - #B = TK.Button(Frame, text="Set proc field", command=setProcField) #B.grid(row=1, column=2, sticky=TK.EW) #BB = CTK.infoBulle(parent=B, text='Create a field with the attributed proc\nfor each block.') # - set proc manually - B = TTK.Button(Frame, text="Set proc", command=setProc) B.grid(row=3, column=0, columnspan=1, sticky=TK.EW) BB = CTK.infoBulle(parent=B, text='Set proc manually in selection.') B = TTK.Entry(Frame, textvariable=VARS[4], background='White', width=5) BB = CTK.infoBulle(parent=B, text='Processor number.') B.grid(row=3, column=1, columnspan=2, sticky=TK.EW) B.bind('<Return>', setProc) # - Canvas - B = TK.Canvas(Frame, width=250, height=60, background='White') B.grid(row=4, column=0, columnspan=3, sticky=TK.EW) BB = CTK.infoBulle(parent=B, text='Distribution stats.') WIDGETS['canvas'] = B WIDGETS['bulle'] = BB
def createApp(win): # - Frame - Frame = TTK.LabelFrame(win, borderwidth=2, relief=CTK.FRAMESTYLE, text='tkMapEdge', font=CTK.FRAMEFONT, takefocus=1) #BB = CTK.infoBulle(parent=Frame, text='Map distributions on edges.\nCtrl+c to close applet.', temps=0, btype=1) Frame.bind('<Control-c>', hideApp) Frame.bind('<ButtonRelease-3>', displayFrameMenu) Frame.bind('<Enter>', lambda event : Frame.focus_set()) Frame.columnconfigure(0, weight=1) Frame.columnconfigure(1, weight=2) Frame.columnconfigure(2, weight=2) Frame.columnconfigure(3, weight=0) WIDGETS['frame'] = Frame # - Frame menu - FrameMenu = TK.Menu(Frame, tearoff=0) FrameMenu.add_command(label='Close', accelerator='Ctrl+c', command=hideApp) FrameMenu.add_command(label='Save', command=saveApp) FrameMenu.add_command(label='Reset', command=resetApp) CTK.addPinMenu(FrameMenu, 'tkMapEdge') WIDGETS['frameMenu'] = FrameMenu # - VARS - # -0- Point density or Npts - V = TK.StringVar(win); V.set('1.'); VARS.append(V) # -1- Enforce height V = TK.StringVar(win); V.set('1.e-6'); VARS.append(V) if 'tkMapEdgeEnforceHeight' in CTK.PREFS: V.set(CTK.PREFS['tkMapEdgeEnforceHeight']) # -2- Option for uniformize V = TK.StringVar(win); V.set('Factor'); VARS.append(V) # -3- Source mesh for copy - V = TK.StringVar(win); V.set(''); VARS.append(V) # -4- Option for refine V = TK.StringVar(win); V.set('Factor'); VARS.append(V) # -5- Number of points/factor for refine V = TK.StringVar(win); V.set('1.'); VARS.append(V) # -6- Smoothing iterations V = TK.StringVar(win); V.set('5'); VARS.append(V) if 'tkMapEdgeSmoothIt' in CTK.PREFS: V.set(CTK.PREFS['tkMapEdgeSmoothIt']) # -7- Smoothing eps V = TK.StringVar(win); V.set('0.5'); VARS.append(V) if 'tkMapEdgeSmoothEps' in CTK.PREFS: V.set(CTK.PREFS['tkMapEdgeSmoothEps']) # - Uniformize - B = TTK.Button(Frame, text="Uniformize", command=uniformize) B.grid(row=0, column=0, sticky=TK.EW) BB = CTK.infoBulle(parent=B, text='Uniformize an edge with regular spacing.') B = TTK.OptionMenu(Frame, VARS[2], 'Factor', 'Density', 'Npts') B.grid(row=0, column=1, sticky=TK.EW) B = TTK.Entry(Frame, textvariable=VARS[0], background='White', width=7) B.grid(row=0, column=2, columnspan=2, sticky=TK.EW) BB = CTK.infoBulle(parent=B, text='Point multiplication factor/point density/number of points.') B.bind('<Return>', uniformize) # - Enforce - B = TTK.Button(Frame, text="Enforce", command=enforce) B.grid(row=1, column=0, columnspan=2, sticky=TK.EW) BB = CTK.infoBulle(parent=B, text='Enforce given spacing in edge.') B = TTK.Entry(Frame, textvariable=VARS[1], background='White', width=7) B.grid(row=1, column=2, columnspan=2, sticky=TK.EW) BB = CTK.infoBulle(parent=B, text='Enforced spacing.') B.bind('<Return>', enforce) # - Refine edge - B = TTK.Button(Frame, text="Refine", command=refine) B.grid(row=2, column=0, sticky=TK.EW) BB = CTK.infoBulle(parent=B, text='Refine an edge keeping distribution.') B = TTK.OptionMenu(Frame, VARS[4], 'Factor', 'Npts') B.grid(row=2, column=1, sticky=TK.EW) B = TTK.Entry(Frame, textvariable=VARS[5], background='White', width=7) B.grid(row=2, column=2, columnspan=2, sticky=TK.EW) BB = CTK.infoBulle(parent=B, text='Refinement factor or number of points.') B.bind('<Return>', refine) # - Copy distribution - B = TTK.Button(Frame, command=setSourceEdge, image=iconics.PHOTO[8], padx=0, pady=0) B.grid(row=3, column=3, sticky=TK.EW) BB = CTK.infoBulle(parent=B, text='Set source edge defining distribution to copy.') B = TTK.Entry(Frame, textvariable=VARS[3], background='White', width=10) B.grid(row=3, column=1, columnspan=2, sticky=TK.EW) BB = CTK.infoBulle(parent=B, text='Source edge for distribution copy.') B = TTK.Button(Frame, text="Copy", command=copyDistrib) B.grid(row=3, column=0, columnspan=1, sticky=TK.EW) BB = CTK.infoBulle(parent=B, text='Copy distribution from source edge.') # - Smooth edge - B = TTK.Button(Frame, text="Smooth", command=smooth) B.grid(row=4, column=0, sticky=TK.EW) BB = CTK.infoBulle(parent=B, text='Smooth an edge distribution.') B = TTK.Entry(Frame, textvariable=VARS[7], background='White', width=7) B.grid(row=4, column=1, sticky=TK.EW) BB = CTK.infoBulle(parent=B, text='Smoother power.') B = TTK.Entry(Frame, textvariable=VARS[6], background='White', width=7) B.grid(row=4, column=2, columnspan=2, sticky=TK.EW) BB = CTK.infoBulle(parent=B, text='Number of smoother iterations.') B.bind('<Return>', smooth)
def createApp(win): ttk = CTK.importTtk() # - Frame - Frame = TTK.LabelFrame(win, borderwidth=2, relief=CTK.FRAMESTYLE, text='tkContainers', font=CTK.FRAMEFONT, takefocus=1) #BB = CTK.infoBulle(parent=Frame, text='Manage container names.\nCtrl+c to close applet.', temps=0, btype=1) Frame.bind('<Control-c>', hideApp) Frame.bind('<ButtonRelease-3>', displayFrameMenu) Frame.bind('<Enter>', lambda event : Frame.focus_set()) Frame.columnconfigure(0, weight=1) Frame.columnconfigure(1, weight=4) WIDGETS['frame'] = Frame # - Frame menu - FrameMenu = TK.Menu(Frame, tearoff=0) FrameMenu.add_command(label='Close', accelerator='Ctrl+c', command=hideApp) FrameMenu.add_command(label='Save', command=saveApp) FrameMenu.add_command(label='Reset', command=resetApp) CTK.addPinMenu(FrameMenu, 'tkContainers') WIDGETS['frameMenu'] = FrameMenu # - VARS - # -0- GridCoordinates container - V = TK.StringVar(win); V.set('GridCoordinates'); VARS.append(V) if 'GridCoordinatesContainer' in CTK.PREFS: V.set(CTK.PREFS['GridCoordinatesContainer']) # -1- FlowSolutionNodes container - V = TK.StringVar(win); V.set('FlowSolution'); VARS.append(V) if 'FlowSolutionNodesContainer' in CTK.PREFS: V.set(CTK.PREFS['FlowSolutionNodesContainer']) # -2- FlowSolutionCenters container - V = TK.StringVar(win); V.set('FlowSolution#Centers'); VARS.append(V) if 'FlowSolutionCentersContainer' in CTK.PREFS: V.set(CTK.PREFS['FlowSolutionCentersContainer']) # - GridCoordinates - B = TTK.Label(Frame, text="GridCoordinates") B.grid(row=0, column=0, sticky=TK.EW) BB = CTK.infoBulle(parent=B, text='This name will be used to find coordinates node in zones.') F = TTK.Frame(Frame, borderwidth=0) F.columnconfigure(0, weight=1) if ttk is None: B = TK.Entry(F, textvariable=VARS[0], background='White') B.grid(sticky=TK.EW) F.bind('<Return>', setNames) F.grid(row=0, column=1, sticky=TK.EW) WIDGETS['GridCoordinates'] = B else: B = ttk.Combobox(F, textvariable=VARS[0], values=[], state='normal') B.grid(sticky=TK.EW) F.bind('<Enter>', updateGridCoordinates) B.bind('<Return>', setNames) F.grid(row=0, column=1, sticky=TK.EW) WIDGETS['GridCoordinates'] = B # - FlowSolutionNodes - B = TTK.Label(Frame, text="FlowSolutionNodes") B.grid(row=1, column=0, sticky=TK.EW) BB = CTK.infoBulle(parent=B, text='This name will be used to find solution node in zones.') F = TTK.Frame(Frame, borderwidth=0) F.columnconfigure(0, weight=1) if ttk is None: B = TK.Entry(F, textvariable=VARS[1], background='White') B.grid(sticky=TK.EW) F.bind('<Return>', setNames) F.grid(row=1, column=1, sticky=TK.EW) WIDGETS['FlowSolution'] = B else: B = ttk.Combobox(F, textvariable=VARS[1], values=[], state='normal') B.grid(sticky=TK.EW) F.bind('<Enter>', updateFlowSolution) B.bind('<Return>', setNames) F.grid(row=1, column=1, sticky=TK.EW) WIDGETS['FlowSolution'] = B # - FlowSolutionCenters - B = TTK.Label(Frame, text="FlowSolutionCenters") B.grid(row=2, column=0, sticky=TK.EW) BB = CTK.infoBulle(parent=B, text='This name will be used to find centers solution node in zones.') F = TTK.Frame(Frame, borderwidth=0) F.columnconfigure(0, weight=1) if ttk is None: B = TK.Entry(F, textvariable=VARS[2], background='White') B.grid(sticky=TK.EW) F.bind('<Return>', setNames) F.grid(row=2, column=1, sticky=TK.EW) WIDGETS['FlowSolutionCenters'] = B else: B = ttk.Combobox(F, textvariable=VARS[2], values=[], state='normal') B.grid(sticky=TK.EW) F.bind('<Enter>', updateFlowSolutionCenters) B.bind('<Return>', setNames) F.grid(row=2, column=1, sticky=TK.EW) WIDGETS['FlowSolutionCenters'] = B # - set - B = TTK.Button(Frame, text="Set", command=setNames) BB = CTK.infoBulle(parent=B, text='Change the container names used by Cassiopee functions.') B.grid(row=3, column=0, columnspan=2, sticky=TK.EW)
def createApp(win): # - Frame - Frame = TTK.LabelFrame(win, borderwidth=2, relief=CTK.FRAMESTYLE, text='tkLuxRender', font=CTK.FRAMEFONT, takefocus=1) #BB = CTK.infoBulle(parent=Frame, text='Export to LuxRender.\nCtrl+c to close applet.', temps=0, btype=1) Frame.bind('<Control-c>', hideApp) Frame.bind('<ButtonRelease-3>', displayFrameMenu) Frame.bind('<Enter>', lambda event: Frame.focus_set()) Frame.columnconfigure(0, weight=1) Frame.columnconfigure(1, weight=1) WIDGETS['frame'] = Frame # - Frame menu - FrameMenu = TK.Menu(Frame, tearoff=0) FrameMenu.add_command(label='Close', accelerator='Ctrl+c', command=hideApp) FrameMenu.add_command(label='Save', command=saveApp) FrameMenu.add_command(label='Reset', command=resetApp) CTK.addPinMenu(FrameMenu, 'tkLuxRender') WIDGETS['frameMenu'] = FrameMenu # - VARS - # -0- Image size V = TK.StringVar(win) V.set('800x600') VARS.append(V) if 'tkLuxRenderSize' in CTK.PREFS: V.set(CTK.PREFS['tkLuxRenderSize']) # -1- Rep name V = TK.StringVar(win) V.set('LuxRender') VARS.append(V) if 'tkLuxRenderOutput' in CTK.PREFS: V.set(CTK.PREFS['tkLuxRenderOutput']) # -2- Interior / exterior V = TK.StringVar(win) V.set('Exterior') VARS.append(V) if 'tkLuxRenderType' in CTK.PREFS: V.set(CTK.PREFS['tkLuxRenderType']) # - Type of scene B = TTK.OptionMenu(Frame, VARS[2], 'Exterior', 'Interior') B.grid(row=1, column=0, sticky=TK.EW) BB = CTK.infoBulle(parent=B, text='Type of scene.') # - Rep - B = TTK.Entry(Frame, textvariable=VARS[1], background='White') B.grid(row=0, column=0, columnspan=2, sticky=TK.EW) BB = CTK.infoBulle(parent=B, text='Directory name for output.') # - Image size - B = TTK.OptionMenu(Frame, VARS[0], '320x200', '800x600', '1024x768', '1600x1200') B.grid(row=1, column=1, sticky=TK.EW) BB = CTK.infoBulle(parent=B, text='Output image resolution.') # - Export scene - B = TTK.Button(Frame, text="Export", command=createFiles) B.grid(row=2, column=0, columnspan=2, sticky=TK.EW) BB = CTK.infoBulle(parent=B, text='Create all lux render files.')
def createApp(win): ttk = CTK.importTtk() # - Frame - Frame = TTK.LabelFrame(win, borderwidth=2, relief=CTK.FRAMESTYLE, text='tkPlot', font=CTK.FRAMEFONT, takefocus=1) #BB = CTK.infoBulle(parent=Frame, text='My personal applet.\nCtrl+c to close applet.', temps=0, btype=1) Frame.bind('<Control-c>', hideApp) Frame.bind('<ButtonRelease-3>', displayFrameMenu) Frame.bind('<Enter>', lambda event: Frame.focus_set()) Frame.columnconfigure(0, weight=1) Frame.columnconfigure(1, weight=1) Frame.columnconfigure(2, weight=1) WIDGETS['frame'] = Frame # - Frame menu - FrameMenu = TK.Menu(Frame, tearoff=0) FrameMenu.add_command(label='Close', accelerator='Ctrl+c', command=hideApp) FrameMenu.add_command(label='Save', command=saveApp) FrameMenu.add_command(label='Reset', command=resetApp) CTK.addPinMenu(FrameMenu, 'tkPlot') WIDGETS['frameMenu'] = FrameMenu # - VARS - # -0- Direction - V = TK.StringVar(win) V.set('None') VARS.append(V) if 'tkPlotDirection' in CTK.PREFS: V.set(CTK.PREFS['tkPlotDirection']) # -1- grid size - V = TK.StringVar(win) V.set('3;3') VARS.append(V) if 'tkPlotGridSize' in CTK.PREFS: V.set(CTK.PREFS['tkPlotGridSize']) # -2- grid pos - V = TK.StringVar(win) V.set('0;0') VARS.append(V) if 'tkPlotGridPos' in CTK.PREFS: V.set(CTK.PREFS['tkPlotGridPos']) # -3- Var1 V = TK.StringVar(win) V.set('CoordinateX') VARS.append(V) # -4- Var2 V = TK.StringVar(win) V.set('CoordinateX') VARS.append(V) # -5- Slot V = TK.StringVar(win) V.set('0') VARS.append(V) # - Slot - B = TTK.Entry(Frame, textvariable=VARS[5], width=2) BB = CTK.infoBulle(parent=B, text='Slot.') B.grid(row=0, column=0, columnspan=1, sticky=TK.EW) # - grid size - B = TTK.Entry(Frame, textvariable=VARS[1], width=2) BB = CTK.infoBulle(parent=B, text='Grid size (1;1).') B.grid(row=0, column=1, columnspan=1, sticky=TK.EW) # - grid pos - B = TTK.Entry(Frame, textvariable=VARS[2], width=2) BB = CTK.infoBulle(parent=B, text='Position of slot in grid (0;0).') B.grid(row=0, column=2, columnspan=1, sticky=TK.EW) # - Element 1D - B = TTK.OptionMenu(Frame, VARS[0], 'None', 'X (Y)', 'Y (X)', 'Z (X)', 'X (Z)', 'Y (Z)', 'Z (Y)', 'I', 'J', 'K', 'Elements') B.grid(row=1, column=0, columnspan=3, sticky=TK.EW) # Var1 F = TTK.Frame(Frame, borderwidth=0) F.columnconfigure(0, weight=1) if ttk is None: B = TK.OptionMenu(F, VARS[3], '') B.grid(sticky=TK.EW) F.bind('<Enter>', updateVar1NameList) F.grid(row=2, column=1, columnspan=2, sticky=TK.EW) BB = CTK.infoBulle(parent=B, text='Variable 1 (abcsiss).') WIDGETS['var1'] = B else: B = ttk.Combobox(F, textvariable=VARS[3], values=[], state='readonly', width=10) B.grid(sticky=TK.EW) F.bind('<Enter>', updateVar1NameList2) F.grid(row=2, column=1, columnspan=2, sticky=TK.EW) BB = CTK.infoBulle(parent=B, text='Variable 1 (absciss).') WIDGETS['var1'] = B # Var2 F = TTK.Frame(Frame, borderwidth=0) F.columnconfigure(0, weight=1) if ttk is None: B = TK.OptionMenu(F, VARS[4], '') B.grid(sticky=TK.EW) F.bind('<Enter>', updateVar2NameList) F.grid(row=2, column=0, columnspan=1, sticky=TK.EW) BB = CTK.infoBulle(parent=B, text='Variable 2 (ordinates).') WIDGETS['var2'] = B else: B = ttk.Combobox(F, textvariable=VARS[4], values=[], state='readonly', width=10) B.grid(sticky=TK.EW) F.bind('<Enter>', updateVar2NameList2) F.grid(row=2, column=0, columnspan=1, sticky=TK.EW) BB = CTK.infoBulle(parent=B, text='Variable 2 (ordinates).') WIDGETS['var2'] = B # - Ranges - B = TTK.Scale(Frame, from_=0, to=100, orient=TK.HORIZONTAL, showvalue=0, borderwidth=1, command=display1D, value=50) WIDGETS['rangePos'] = B B.grid(row=3, column=0, columnspan=1, sticky=TK.EW) BB = CTK.infoBulle(parent=B, text='Move range.') B = TTK.Scale(Frame, from_=0, to=100, orient=TK.HORIZONTAL, showvalue=0, borderwidth=1, command=display1D, value=0) WIDGETS['rangeZoom'] = B B.grid(row=3, column=1, columnspan=2, sticky=TK.EW) BB = CTK.infoBulle(parent=B, text='Zoom range.') # - Set in slot - B = TTK.Button(Frame, text="Set", command=display1D) B.grid(row=4, column=0, columnspan=3, sticky=TK.EW)
def createApp(win): ttk = CTK.importTtk() # - Frame - Frame = TTK.LabelFrame(win, borderwidth=2, relief=CTK.FRAMESTYLE, text='tkTreeOps', font=CTK.FRAMEFONT, takefocus=1) #BB = CTK.infoBulle(parent=Frame, text='Operations on pyTree.\nCtrl+c to close applet.', temps=0, btype=1) Frame.bind('<Control-c>', hideApp) Frame.bind('<ButtonRelease-3>', displayFrameMenu) Frame.bind('<Enter>', lambda event: Frame.focus_set()) Frame.columnconfigure(0, weight=1) Frame.columnconfigure(1, weight=1) Frame.columnconfigure(2, weight=1) WIDGETS['frame'] = Frame # - Frame menu - FrameMenu = TK.Menu(Frame, tearoff=0) FrameMenu.add_command(label='Close', accelerator='Ctrl+c', command=hideApp) CTK.addPinMenu(FrameMenu, 'tkTreeOps') WIDGETS['frameMenu'] = FrameMenu # - VARS - # -0- Base to move to - V = TK.StringVar(win) V.set('New Base') VARS.append(V) # -1- Displayed index V = TK.StringVar(win) V.set('0') VARS.append(V) # -2- Displayed node value V = TK.StringVar(win) V.set('') VARS.append(V) # -3- Displayed node type V = TK.StringVar(win) V.set('') VARS.append(V) # -4- Displayed node name V = TK.StringVar(win) V.set('') VARS.append(V) # -5- Name/Type to be deleted V = TK.StringVar(win) V.set('') VARS.append(V) # -6- Type of deletion V = TK.StringVar(win) V.set('Name') VARS.append(V) # - Move selection to base - B = TTK.Button(Frame, text="Move sel. to", command=moveSelection) BB = CTK.infoBulle(parent=B, text='Move selected zones to another base.') B.grid(row=0, column=0, sticky=TK.EW) F = TTK.Frame(Frame, borderwidth=0) F.columnconfigure(0, weight=1) if ttk is None: B = TK.OptionMenu(F, VARS[0], '') B.grid(sticky=TK.EW) F.bind('<Enter>', updateBaseNameList) else: VARS[0].set('newBase') B = ttk.Combobox(F, textvariable=VARS[0], values=[], state='normal') B.grid(sticky=TK.EW) F.bind('<Enter>', updateBaseNameList2) F.grid(row=0, column=1, columnspan=2, sticky=TK.EW) BB = CTK.infoBulle(parent=B, text='Destination Base name.') WIDGETS['base'] = B # - Move nodes up/down/import selection in tkTree B = TTK.Button(Frame, text="Node Up", command=moveNodeUp) BB = CTK.infoBulle(parent=B, text='Move selected node in tkTree up.') B.grid(row=1, column=0, sticky=TK.EW) B = TTK.Button(Frame, text="Node Down", command=moveNodeDown) BB = CTK.infoBulle(parent=B, text='Move selected node in tkTree down.') B.grid(row=1, column=1, columnspan=2, sticky=TK.EW) # - Rm Nodes - #B = TK.Button(Frame, text="Rm node(s)", command=rmNodes) #BB = CTK.infoBulle(parent=B, text='Remove nodes from tree.\nYou can also use the Suppr key.') #B.grid(row=2, column=0, sticky=TK.EW) #B = TK.OptionMenu(Frame, VARS[6], 'Name', 'Type', 'Value') #B.grid(row=2, column=1, sticky=TK.EW) #B = TK.Entry(Frame, textvariable=VARS[5], background='White', width=5) #BB = CTK.infoBulle(parent=B, text='Enter node name or types. Wildcards are accepted.') #B.grid(row=2, column=2, sticky=TK.EW) # - Small node editor - F = TTK.LabelFrame(Frame, borderwidth=2, relief=CTK.FRAMESTYLE, text='Edit node', takefocus=1) F.columnconfigure(0, weight=1) F.columnconfigure(1, weight=4) F.grid(row=3, column=0, columnspan=3, sticky=TK.EW) B = TTK.Entry(F, textvariable=VARS[4], background='White', width=5) B.grid(row=0, column=0, columnspan=1, sticky=TK.EW) BB = CTK.infoBulle( parent=B, text='Selected node name.\nYou can change this by pressing <Enter>.') B.bind('<Return>', setNodeName) B = TTK.Entry(F, textvariable=VARS[3], background='White', width=5) B.grid(row=0, column=1, columnspan=1, sticky=TK.EW) BB = CTK.infoBulle( parent=B, text='Selected node type.\nYou can change this by pressing <Enter>.') B.bind('<Return>', setNodeType) FrameA = TK.Frame(F) FrameA.columnconfigure(0, weight=0) FrameA.columnconfigure(1, weight=1) FrameA.columnconfigure(2, weight=0) FrameA.grid(row=1, column=0, sticky=TK.EW) B = TTK.Entry(FrameA, textvariable=VARS[1], background='White', width=5) B.grid(row=0, column=1, sticky=TK.EW) BB = CTK.infoBulle(parent=B, text='Displayed index (start: 0).') B.bind('<Return>', showNodeValue) B = TTK.Button(FrameA, text="<", command=decreaseIndex, width=2) B.grid(row=0, column=0, sticky=TK.EW) B = TTK.Button(FrameA, text=">", command=increaseIndex, width=2) B.grid(row=0, column=2, sticky=TK.EW) B = TTK.Entry(F, textvariable=VARS[2], background='White', width=5) B.grid(row=1, column=1, columnspan=1, sticky=TK.EW) BB = CTK.infoBulle( parent=B, text= 'Selected node value at given index.\nYou can change this by pressing <Enter>.' ) B.bind('<Return>', setNodeValue)
def createApp(win): # - Frame - Frame = TTK.LabelFrame(win, borderwidth=2, relief=CTK.FRAMESTYLE, text='tkText', font=CTK.FRAMEFONT, takefocus=1) Frame.bind('<Control-c>', hideApp) Frame.bind('<ButtonRelease-3>', displayFrameMenu) Frame.bind('<Enter>', lambda event: Frame.focus_set()) Frame.columnconfigure(0, weight=1) Frame.columnconfigure(1, weight=1) Frame.columnconfigure(2, weight=1) WIDGETS['frame'] = Frame # - Frame menu - FrameMenu = TK.Menu(Frame, tearoff=0) FrameMenu.add_command(label='Close', accelerator='Ctrl+c', command=hideApp) FrameMenu.add_command(label='Save', command=saveApp) FrameMenu.add_command(label='Reset', command=resetApp) CTK.addPinMenu(FrameMenu, 'tkText') WIDGETS['frameMenu'] = FrameMenu # - VARS - # -0- corps du texte - V = TK.StringVar(win) V.set('') VARS.append(V) # -1- 1D/2D/3D - V = TK.StringVar(win) V.set('3D') VARS.append(V) if 'tkTextDim' in CTK.PREFS: V.set(CTK.PREFS['tkTextDim']) # -2- Smoothness - V = TK.StringVar(win) V.set('Regular') VARS.append(V) if 'tkTextSmoothness' in CTK.PREFS: V.set(CTK.PREFS['tkTextSmoothness']) # -3- Font - V = TK.StringVar(win) V.set('text1') VARS.append(V) if 'tkTextFont' in CTK.PREFS: V.set(CTK.PREFS['tkTextFont']) # - 1D/2D/3D - B = TTK.OptionMenu(Frame, VARS[1], '3D', '2D', '1D') BB = CTK.infoBulle(parent=B, text='Text type.') B.grid(row=0, column=0, sticky=TK.EW) # - Font - B = TTK.OptionMenu(Frame, VARS[3], 'text1', 'vera', 'chancery', 'courier', 'nimbus') BB = CTK.infoBulle(parent=B, text='Font type.') B.grid(row=0, column=1, sticky=TK.EW) # - Smoothness - B = TTK.OptionMenu(Frame, VARS[2], 'Regular', 'Smooth', 'Very smooth') BB = CTK.infoBulle(parent=B, text='Font smoothness.') B.grid(row=0, column=2, sticky=TK.EW) # - Text - B = TTK.Entry(Frame, textvariable=VARS[0], background='White') B.bind('<Return>', createText) B.grid(row=1, column=0, columnspan=3, sticky=TK.EW) BB = CTK.infoBulle(parent=B, text='Your text.') # - Create text - B = TTK.Button(Frame, text="Create text", command=createText) B.grid(row=2, column=0, columnspan=2, sticky=TK.EW) BB = CTK.infoBulle(parent=B, text='Create the text in TEXT basis.') # - Replace text - B = TTK.Button(Frame, text="Replace", command=replaceText) B.grid(row=2, column=2, columnspan=1, sticky=TK.EW) BB = CTK.infoBulle(parent=B, text='Replace selected text with new text.')
def createApp(win): # - Frame - Frame = TTK.LabelFrame(win, borderwidth=2, relief=CTK.FRAMESTYLE, text='tkFind', font=CTK.FRAMEFONT, takefocus=1) Frame.bind('<Control-c>', hideApp) Frame.bind('<ButtonRelease-3>', displayFrameMenu) Frame.bind('<Enter>', lambda event: Frame.focus_set()) Frame.columnconfigure(0, weight=1) Frame.columnconfigure(1, weight=4) WIDGETS['frame'] = Frame # - Frame menu - FrameMenu = TK.Menu(Frame, tearoff=0) FrameMenu.add_command(label='Close', accelerator='Ctrl+c', command=hideApp) FrameMenu.add_command(label='Save', command=saveApp) FrameMenu.add_command(label='Reset', command=resetApp) CTK.addPinMenu(FrameMenu, 'tkFind') WIDGETS['frameMenu'] = FrameMenu # - VARS - # -0- type (node/elements/coordinates) - V = TK.StringVar(win) V.set('Node index') VARS.append(V) if 'tkFindDataType' in CTK.PREFS: V.set(CTK.PREFS['tkFindDataType']) # -1- value - V = TK.StringVar(win) V.set('0') VARS.append(V) # - Value - B = TTK.Entry(Frame, textvariable=VARS[1], background='White') B.bind('<Return>', find) B.grid(row=0, column=1, columnspan=1, sticky=TK.EW) BB = CTK.infoBulle( parent=B, text= 'Index to find/extract in selected mesh.\nCan be a global index (0 starts)\nor (i,j,k) (1 starts) for structured grids.\nFor extraction, you can define a list of indices.' ) # - type - B = TTK.OptionMenu(Frame, VARS[0], 'Node index', 'Element index', 'Coordinates') BB = CTK.infoBulle(parent=B, text='Type of data to be searched.') B.grid(row=0, column=0, sticky=TK.EW) # - Find - B = TTK.Button(Frame, text="Find", command=find) B.grid(row=1, column=1, sticky=TK.EW) BB = CTK.infoBulle( parent=B, text='Find the given index/coordinates in selected mesh.') # - Extract - B = TTK.Button(Frame, text="Extract", command=extract) B.grid(row=1, column=0, sticky=TK.EW) BB = CTK.infoBulle(parent=B, text='Extract the given index/coordinates cells.')
def createApp(win): ttk = CTK.importTtk() # - Frame - Frame = TTK.LabelFrame(win, borderwidth=2, relief=CTK.FRAMESTYLE, text='tkVariable', font=CTK.FRAMEFONT, takefocus=1) #BB = CTK.infoBulle(parent=Frame, text='Manage field variables.\nCtrl+c to close applet.', temps=0, btype=1) Frame.bind('<Control-c>', hideApp) Frame.bind('<ButtonRelease-3>', displayFrameMenu) Frame.bind('<Enter>', lambda event: Frame.focus_set()) Frame.columnconfigure(0, weight=1) Frame.columnconfigure(1, weight=4) WIDGETS['frame'] = Frame # - Frame menu - FrameMenu = TK.Menu(Frame, tearoff=0) FrameMenu.add_command(label='Close', accelerator='Ctrl+c', command=hideApp) FrameMenu.add_command(label='Save', command=saveApp) FrameMenu.add_command(label='Reset', command=resetApp) CTK.addPinMenu(FrameMenu, 'tkVariables') WIDGETS['frameMenu'] = FrameMenu # - VARS - # -0- computeVariable name V = TK.StringVar(win) V.set('Pressure') VARS.append(V) if 'tkVariablesName' in CTK.PREFS: V.set(CTK.PREFS['tkVariablesName']) # -1- addVar V = TK.StringVar(win) V.set('Density') VARS.append(V) if 'tkVariablesAddVar' in CTK.PREFS: V.set(CTK.PREFS['tkVariablesAddVar']) # -2- computeGrad - V = TK.StringVar(win) V.set('CoordinateX') VARS.append(V) # -3- computeCurl - V = TK.StringVar(win) V.set('MomentumX;MomentumY;MomentumZ') VARS.append(V) # -4- importFile - V = TK.StringVar(win) V.set('output.plt') VARS.append(V) if 'tkVariablesImportFile' in CTK.PREFS: V.set(CTK.PREFS['tkVariablesImportFile']) # -5- Rm variable V = TK.StringVar(win) V.set('All') VARS.append(V) # -6- Var location V = TK.StringVar(win) V.set('nodes') VARS.append(V) if 'tkVariablesLoc' in CTK.PREFS: V.set(CTK.PREFS['tkVariablesLoc']) # -7- adim type V = TK.StringVar(win) V.set('Adim1 (ro,a,T)') VARS.append(V) if 'tkVariablesAdim' in CTK.PREFS: V.set(CTK.PREFS['tkVariablesAdim']) # -8- center2Node variable V = TK.StringVar(win) V.set('FlowSolutionCenters') VARS.append(V) # -9- node2Center variable V = TK.StringVar(win) V.set('FlowSolutionNodes') VARS.append(V) # -10- renameVar variable - new V = TK.StringVar(win) V.set('CoordinateX') VARS.append(V) # -11- renameVar variable - prev V = TK.StringVar(win) V.set('x') VARS.append(V) # - importFile - norow = 0 B = TTK.Button(Frame, text="Import file", command=importFile) B.grid(row=norow, column=0, sticky=TK.EW) BB = CTK.infoBulle(parent=B, text='Import solution file into existing pyTree.') F = TTK.Frame(Frame, borderwidth=0) F.columnconfigure(0, weight=1) F.columnconfigure(1, weight=0) B = TTK.Entry(F, textvariable=VARS[4], background='White') B.bind('<Return>', importFile) B.grid(row=norow, column=0, sticky=TK.EW) B = TTK.Button(F, text="...", padx=0, command=chooseImportFile) BB = CTK.infoBulle(parent=B, text='Select solution file.') B.grid(row=norow, column=1, sticky=TK.EW) F.grid(row=norow, column=1, sticky=TK.EW) # - addVar - norow += 1 B = TTK.Button(Frame, text="Add/modify variable", command=addVar) B.grid(row=norow, column=0, sticky=TK.EW) BB = CTK.infoBulle( parent=B, text= 'Add a new variable into pyTree. A formula of type: Density=3*{CoordinateX} can be specified.' ) B = TTK.Entry(Frame, textvariable=VARS[1], background='White') B.bind('<Return>', addVar) B.grid(row=norow, column=1, sticky=TK.EW) # - rmVar - norow += 1 B = TTK.Button(Frame, text="Rm variable", command=rmVar) B.grid(row=norow, column=0, sticky=TK.EW) BB = CTK.infoBulle(parent=B, text='Rm variable from pyTree.') F = TTK.Frame(Frame, borderwidth=0) F.columnconfigure(0, weight=1) if ttk is None: B = TK.OptionMenu(F, VARS[5], '') B.grid(sticky=TK.EW) F.bind('<Enter>', updateVarNameList1) F.grid(row=norow, column=1, sticky=TK.EW) BB = CTK.infoBulle(parent=B, text='Removed variable.') WIDGETS['var1'] = B else: B = ttk.Combobox(F, textvariable=VARS[5], values=[], state='readonly') B.grid(sticky=TK.EW) F.bind('<Enter>', updateVarNameList1_2) F.grid(row=norow, column=1, sticky=TK.EW) BB = CTK.infoBulle(parent=B, text='Removed variable.') WIDGETS['var1'] = B # - renameVar - #norow+= 1 #F = TTK.Frame(Frame, borderwidth=0) #F.columnconfigure(0, weight=1) #if ttk is None: # B = TK.OptionMenu(F, VARS[11], '') # B.grid(sticky=TK.EW) # F.bind('<Enter>', updateVarNameList5) # F.grid(row=norow, column=0, sticky=TK.EW) # BB = CTK.infoBulle(parent=B, text='Renamed variable.') # WIDGETS['var5'] = B #else: # B = ttk.Combobox(F, textvariable=VARS[11], # values=[], state='readonly') # B.grid(sticky=TK.EW) # F.bind('<Enter>', updateVarNameList5_2) # F.grid(row=norow, column=0, sticky=TK.EW) # BB = CTK.infoBulle(parent=B, text='Renamed variable.') # WIDGETS['var5'] = B #B = TK.Entry(Frame, textvariable=VARS[10], background='White') #B.bind('<Return>', renameVar) #B.grid(row=norow, column=1, sticky=TK.EW) #norow+=1 #B = TK.Button(Frame, text="Rename variable", command=renameVar) #B.grid(row=norow, column=0, columnspan=2, sticky=TK.EW) #BB = CTK.infoBulle(parent=B, text='Rename variable from pyTree.') # - center2Node var - norow += 1 B = TTK.Button(Frame, text="Center2Node", command=center2NodeVar) B.grid(row=norow, column=0, sticky=TK.EW) BB = CTK.infoBulle(parent=B, text='Put a center variable to nodes in pyTree.') F = TTK.Frame(Frame, borderwidth=0) F.columnconfigure(0, weight=1) if ttk is None: B = TK.OptionMenu(F, VARS[8], '') B.grid(sticky=TK.EW) F.bind('<Enter>', updateVarNameList3) F.grid(row=norow, column=1, sticky=TK.EW) BB = CTK.infoBulle(parent=B, text='Center variable to be set in nodes.') WIDGETS['var3'] = B else: B = ttk.Combobox(F, textvariable=VARS[8], values=[], state='readonly') B.grid(sticky=TK.EW) F.bind('<Enter>', updateVarNameList3_2) F.grid(row=norow, column=1, sticky=TK.EW) BB = CTK.infoBulle(parent=B, text='Center variable to be set in nodes.') WIDGETS['var3'] = B # - node2Center var - norow += 1 B = TTK.Button(Frame, text="Node2Center", command=node2CenterVar) B.grid(row=norow, column=0, sticky=TK.EW) BB = CTK.infoBulle(parent=B, text='Put a node variable to centers in pyTree.') F = TTK.Frame(Frame, borderwidth=0) F.columnconfigure(0, weight=1) if ttk is None: B = TK.OptionMenu(F, VARS[9], '') B.grid(sticky=TK.EW) F.bind('<Enter>', updateVarNameList4) F.grid(row=norow, column=1, sticky=TK.EW) BB = CTK.infoBulle(parent=B, text='Node variable to be set in centers.') WIDGETS['var4'] = B else: B = ttk.Combobox(F, textvariable=VARS[9], values=[], state='readonly') B.grid(sticky=TK.EW) F.bind('<Enter>', updateVarNameList4_2) F.grid(row=norow, column=1, sticky=TK.EW) BB = CTK.infoBulle(parent=B, text='Node variable to be set in centers.') WIDGETS['var4'] = B # - computeGrad - norow += 1 F = TTK.Frame(Frame, borderwidth=0) F.columnconfigure(0, weight=1) F.columnconfigure(1, weight=1) B = TTK.Button(F, text="Grad", command=computeGrad) BB = CTK.infoBulle(parent=B, text='Compute gradient of variables.') B.grid(row=0, column=0, sticky=TK.EW) B = TTK.Button(F, text="Norm", command=computeNormGrad) BB = CTK.infoBulle(parent=B, text='Compute gradient\' norm of variables.') B.grid(row=0, column=1, sticky=TK.EW) F.grid(row=norow, column=0, sticky=TK.EW) F = TTK.Frame(Frame, borderwidth=0) F.columnconfigure(0, weight=1) if ttk is None: B = TK.OptionMenu(F, VARS[2], '') B.grid(sticky=TK.EW) F.bind('<Enter>', updateVarNameList2) F.grid(row=norow, column=1, sticky=TK.EW) BB = CTK.infoBulle(parent=B, text='Variable for gradient.') WIDGETS['var2'] = B else: B = ttk.Combobox(F, textvariable=VARS[2], values=[], state='readonly') B.grid(sticky=TK.EW) F.bind('<Enter>', updateVarNameList2_2) F.grid(row=norow, column=1, sticky=TK.EW) BB = CTK.infoBulle(parent=B, text='Variable for gradient.') WIDGETS['var2'] = B # - computeCurl - norow += 1 F = TTK.Frame(Frame, borderwidth=0) F.columnconfigure(0, weight=1) F.columnconfigure(1, weight=1) B = TTK.Button(F, text="Curl ", command=computeCurl) BB = CTK.infoBulle(parent=B, text='Compute curl of variables.') B.grid(row=0, column=0, sticky=TK.EW) B = TTK.Button(F, text="Norm", command=computeNormCurl) BB = CTK.infoBulle(parent=B, text='Compute gradient\' norm of variables.') B.grid(row=0, column=1, sticky=TK.EW) F.grid(row=norow, column=0, sticky=TK.EW) B = TTK.Entry(Frame, textvariable=VARS[3], background='White') BB = CTK.infoBulle(parent=B, text='Variables for curl.') B.grid(row=norow, column=1, sticky=TK.EW) # - computeVariables - norow += 1 B = TTK.OptionMenu(Frame, VARS[7], 'Adim1 (ro,a,T)', 'Adim2 (ro,u,T)') B.grid(row=norow, column=0, sticky=TK.EW) BB = CTK.infoBulle(parent=B, text='Use this adimensioning for variable computation.') B = TTK.OptionMenu(Frame, VARS[6], 'nodes', 'centers') B.grid(row=norow, column=1, sticky=TK.EW) BB = CTK.infoBulle(parent=B, text='Computed variable will be localized here.') norow += 1 B = TTK.Button(Frame, text="Compute variable", command=computeVariables) B.grid(row=norow, column=0, sticky=TK.EW) B = TTK.OptionMenu(Frame, VARS[0],'Pressure','Temperature', 'VelocityMagnitude','VelocityX',\ 'VelocityY','VelocityZ','Enthalpy','Entropy','Mach',\ 'ViscosityMolecular','PressureStagnation',\ 'TemperatureStagnation', 'PressureDynamic', 'Vorticity', 'VorticityMagnitude', 'QCriterion', 'ShearStress', 'SkinFriction', 'SkinFrictionTangential') B.grid(row=norow, column=1, sticky=TK.EW) # fill missing variables norow += 1 B = TTK.Button(Frame, text="Fill missing variables", command=fillMissingVariables) B.grid(row=norow, column=0, columnspan=2, sticky=TK.EW) BB = CTK.infoBulle(parent=B, text='All zones will have the same variables.')
def createApp(win): ttk = CTK.importTtk() # - Frame - Frame = TTK.LabelFrame(win, borderwidth=2, relief=CTK.FRAMESTYLE, text='tkPrefs', font=CTK.FRAMEFONT, takefocus=1) #BB = CTK.infoBulle(parent=Frame, text='Set Cassiopee preferences.\nCtrl+c to close applet.', temps=0, btype=1) Frame.bind('<Control-c>', hideApp) Frame.bind('<ButtonRelease-3>', displayFrameMenu) Frame.bind('<Enter>', lambda event: Frame.focus_set()) Frame.columnconfigure(0, weight=1) Frame.columnconfigure(1, weight=2) WIDGETS['frame'] = Frame # - Frame menu - FrameMenu = TK.Menu(Frame, tearoff=0) FrameMenu.add_command(label='Close', accelerator='Ctrl+c', command=hideApp) FrameMenu.add_command(label='Save', command=saveApp) #FrameMenu.add_command(label='Reset', command=resetApp) CTK.addPinMenu(FrameMenu, 'tkPrefs') WIDGETS['frameMenu'] = FrameMenu # - VARS - # -0- Default mesh display style - V = TK.StringVar(win) V.set('Monocolor wires+solid') VARS.append(V) # -1- Undo V = TK.StringVar(win) V.set('Active') VARS.append(V) # -2- DisplayInfo V = TK.StringVar(win) V.set('Active') VARS.append(V) # -3- bgColor V = TK.StringVar(win) V.set('Black') VARS.append(V) # -4- auto open apps V = TK.StringVar(win) V.set('') VARS.append(V) # -5- Default solid display style - V = TK.StringVar(win) V.set('Monocolor/1-side') VARS.append(V) # -6- Default envmap V = TK.StringVar(win) V.set('windtunnel.png') VARS.append(V) # -7- Selection style V = TK.StringVar(win) V.set('Blue') VARS.append(V) # -8- Export resolution V = TK.StringVar(win) V.set('1120x820') VARS.append(V) # -9- GUI Theme V = TK.StringVar(win) V.set('default') VARS.append(V) # Init VARS par le fichier de preferences CTK.loadPrefFile() for i in CTK.PREFS: k1 = CTK.PREFS[i] if i == 'undo': if k1 == '1': VARS[1].set('Active') elif k1 == '0': VARS[1].set('Inactive') elif i == 'displayInfo': if k1 == '1': VARS[2].set('Active') elif k1 == '0': VARS[2].set('Inactive') elif i == 'bgColor': if k1 == '0': VARS[3].set('Black') elif k1 == '1': VARS[3].set('White') elif k1 == '2': VARS[3].set('Grey') elif k1 == '3': VARS[3].set('Yellow') elif k1 == '4': VARS[3].set('Blue') elif k1 == '5': VARS[3].set('Red') elif k1 == '6': VARS[3].set('Paper1') elif k1 == '7': VARS[3].set('Paper2') elif k1 == '8': VARS[3].set('Arch') elif k1 == '9': VARS[3].set('Jarvis') elif k1 == '10': VARS[3].set('Onera') elif i == 'auto': VARS[4].set(k1) elif i == 'envmap': VARS[6].set(k1) elif i == 'selectionStyle': VARS[7].set(k1) elif i == 'exportResolution': VARS[8].set(k1) elif i == 'guitheme': VARS[9].set(k1) r = 0 # - gui theme - B = TTK.Label(Frame, text="GUI Theme") B.grid(row=r, column=0, sticky=TK.EW) BB = CTK.infoBulle(parent=B, text='Style for GUI (buttons,...).') F = TTK.Frame(Frame, borderwidth=0) F.columnconfigure(0, weight=1) if ttk is None: B = TTK.OptionMenu(F, VARS[9], 'default') B.grid(sticky=TK.EW) F.bind('<Enter>', updateThemeList) F.grid(row=r, column=1, sticky=TK.EW) WIDGETS['guitheme'] = B else: B = ttk.Combobox(F, textvariable=VARS[9], values=[], state='readonly', width=10) B.bind('<<ComboboxSelected>>', setTheme) B.grid(sticky=TK.EW) F.bind('<Enter>', updateThemeList2) F.grid(row=r, column=1, sticky=TK.EW) WIDGETS['guitheme'] = B r += 1 # - Default display info style - B = TTK.Label(Frame, text="Display Info") B.grid(row=r, column=0, sticky=TK.EW) BB = CTK.infoBulle(parent=B, text='Default display info style.') B = TTK.OptionMenu(Frame, VARS[2], 'Active', 'Inactive', command=setDisplayInfo) B.grid(row=r, column=1, sticky=TK.EW) r += 1 # - Default background color - B = TTK.Label(Frame, text="Background") B.grid(row=r, column=0, sticky=TK.EW) BB = CTK.infoBulle(parent=B, text='Default background color or image.') B = TTK.OptionMenu(Frame, VARS[3], 'Black', 'White', 'Grey', 'Yellow', 'Blue', 'Red', 'Paper1', 'Paper2', 'Arch', 'Jarvis', 'Onera', command=setBgColor) B.grid(row=r, column=1, sticky=TK.EW) r += 1 # - Undo - B = TTK.Label(Frame, text="Undo") B.grid(row=r, column=0, sticky=TK.EW) BB = CTK.infoBulle(parent=B, text='Undo is active.') B = TTK.OptionMenu(Frame, VARS[1], 'Active', 'Inactive', command=setUndo) B.grid(row=r, column=1, sticky=TK.EW) r += 1 # - selection style - B = TTK.Label(Frame, text="Selection") B.grid(row=r, column=0, sticky=TK.EW) BB = CTK.infoBulle(parent=B, text='Selection style.') B = TTK.OptionMenu(Frame, VARS[7], 'Blue', 'Alpha', command=setSelectionStyle) B.grid(row=r, column=1, sticky=TK.EW) r += 1 # - Envmap - B = TTK.Label(Frame, text="Envmap") B.grid(row=r, column=0, sticky=TK.EW) BB = CTK.infoBulle(parent=B, text='Environment map (chrome/glass render).') B = TTK.OptionMenu(Frame, VARS[6], 'windtunnel.png', 'sky.png', 'city.png', 'forest.png', 'house.png', command=setEnvmap) B.grid(row=r, column=1, sticky=TK.EW) r += 1 # - export resolution - B = TTK.Label(Frame, text="Export") B.grid(row=r, column=0, sticky=TK.EW) BB = CTK.infoBulle(parent=B, text='Resolution for image export.') B = TTK.Entry(Frame, textvariable=VARS[8], background='White', width=5) B.bind('<Return>', setExportRes) BB = CTK.infoBulle(parent=B, text='Resolution for image export.') B.grid(row=r, column=1, sticky=TK.EW) r += 1 # - Auto open apps - #B = TK.Button(Frame, text='Opened apps', command=getOpenedApps) #BB = CTK.infoBulle(parent=B, text='Keep currently opened apps for next restart.') #B.grid(row=r, column=0, sticky=TK.EW) #B = TK.Button(Frame, text='Classic apps', command=getClassicApps) #BB = CTK.infoBulle(parent=B, text='Keep a classic set of apps for next restart.') #B.grid(row=r, column=1, sticky=TK.EW) #r += 1 #B = TK.Label(Frame, text="Auto open") #B.grid(row=r, column=0, sticky=TK.EW) #BB = CTK.infoBulle(parent=B, text='Open automatically these apps for next restart (tkTree;tkBC;...)') #B = TK.Entry(Frame, textvariable=VARS[4], background='White') #BB = CTK.infoBulle(parent=B, text='Apps opened for next restart (tkTree;tkBC;...)') #B.grid(row=r, column=1, sticky=TK.EW) #r += 1 # - Set prefs - #B = TK.Button(Frame, text="Set prefs", command=setPrefs) #B.grid(row=r, column=0, columnspan=2, sticky=TK.EW) #BB = CTK.infoBulle(parent=B, text='Set prefs in Cassiopee.') #WIDGETS.append(B); r += 1 # - Save prefs - B = TTK.Button(Frame, text="Save prefs", command=savePrefs) B.grid(row=r, column=0, columnspan=2, sticky=TK.EW) B = CTK.infoBulle(parent=B, text='Save pref file (.cassiopee).') r += 1
def createApp(win): # - Frame - Frame = TTK.LabelFrame(win, borderwidth=2, relief=CTK.FRAMESTYLE, text='tkCollarMesh', font=CTK.FRAMEFONT, takefocus=1) #BB = CTK.infoBulle(parent=Frame, text='Generate collar meshes.\nCtrl+c to close applet.', temps=0, btype=1) Frame.bind('<Control-c>', hideApp) Frame.bind('<ButtonRelease-3>', displayFrameMenu) Frame.bind('<Enter>', lambda event : Frame.focus_set()) Frame.columnconfigure(0, weight=2) Frame.columnconfigure(1, weight=2) Frame.columnconfigure(2, weight=1) Frame.columnconfigure(3, weight=1) WIDGETS['frame'] = Frame # - Frame menu - FrameMenu = TK.Menu(Frame, tearoff=0) FrameMenu.add_command(label='Close', accelerator='Ctrl+c', command=hideApp) FrameMenu.add_command(label='Save', command=saveApp) FrameMenu.add_command(label='Reset', command=resetApp) CTK.addPinMenu(FrameMenu, 'tkCollarMesh') WIDGETS['frameMenu'] = FrameMenu # - VARS - # -0- Surface1- V = TK.StringVar(win); V.set(''); VARS.append(V) # -1- Surface2- V = TK.StringVar(win); V.set(''); VARS.append(V) # -2- hauteur de la maille dans la direction j V = TK.StringVar(win); V.set('1.e-1'); VARS.append(V) if 'tkCollarMeshHj' in CTK.PREFS: V.set(CTK.PREFS['tkCollarMeshHj']) # -3- nombre de layers a ajouter en j V = TK.StringVar(win); V.set('10'); VARS.append(V) if 'tkCollarMeshNj' in CTK.PREFS: V.set(CTK.PREFS['tkCollarMeshNj']) # -4- nombre d'iteration de lissage dans la direction j V = TK.StringVar(win); V.set('50'); VARS.append(V) if 'tkCollarMeshSj' in CTK.PREFS: V.set(CTK.PREFS['tkCollarMeshSj']) # -5- hauteur de la maille dans la direction k V = TK.StringVar(win); V.set('1.e-1'); VARS.append(V) if 'tkCollarMeshHk' in CTK.PREFS: V.set(CTK.PREFS['tkCollarMeshHk']) # -6- nombre de layers a ajouter en k V = TK.StringVar(win); V.set('10'); VARS.append(V) if 'tkCollarMeshNk' in CTK.PREFS: V.set(CTK.PREFS['tkCollarMeshNk']) # -7- nombre d'iteration de lissage dans la direction k V = TK.StringVar(win); V.set('50'); VARS.append(V) if 'tkCollarMeshSk' in CTK.PREFS: V.set(CTK.PREFS['tkCollarMeshSk']) # -8- Constraints for surface1 V = TK.StringVar(win); V.set(''); VARS.append(V) # -9- Constraints for surface2 V = TK.StringVar(win); V.set(''); VARS.append(V) # - Surface1 - B = TTK.Button(Frame, text="Surf1", command=setSurface1, image=iconics.PHOTO[8], padx=0, pady=0, compound=TK.RIGHT) B.grid(row=0, column=2, columnspan=2, sticky=TK.EW) BB = CTK.infoBulle(parent=B, text='Set collar surfaces 1.') B = TTK.Entry(Frame, textvariable=VARS[0], background='White') B.grid(row=0, column=0, columnspan=2, sticky=TK.EW) # - Surface2 - B = TTK.Button(Frame, text="Surf2", command=setSurface2, image=iconics.PHOTO[8], padx=0, pady=0, compound=TK.RIGHT) B.grid(row=1, column=2, columnspan=2, sticky=TK.EW) BB = CTK.infoBulle(parent=B, text='Set collar surfaces 2.') B = TTK.Entry(Frame, textvariable=VARS[1], background='White') B.grid(row=1, column=0, columnspan=2, sticky=TK.EW) # - Constraints1 - B = TTK.Button(Frame, text="Constr.1", command=setConstraintContour1, image=iconics.PHOTO[8], padx=0, pady=0, compound=TK.RIGHT) B.grid(row=2, column=2, columnspan=2, sticky=TK.EW) BB = CTK.infoBulle(parent=B, text='Set constraint contours for Surf1.') B = TTK.Entry(Frame, textvariable=VARS[8], background='White') B.grid(row=2, column=0, columnspan=2, sticky=TK.EW) # - Constraints2 - B = TTK.Button(Frame, text="Constr.2", command=setConstraintContour2, image=iconics.PHOTO[8], padx=0, pady=0, compound=TK.RIGHT) B.grid(row=3, column=2, columnspan=2, sticky=TK.EW) BB = CTK.infoBulle(parent=B, text='Set constraint contours for Surf2.') B = TTK.Entry(Frame, textvariable=VARS[9], background='White') B.grid(row=3, column=0, columnspan=2, sticky=TK.EW) # - Walk in j - B = TTK.Label(Frame, text="j-dir", width=2) B.grid(row=4, column=0, sticky=TK.EW) B = TTK.Entry(Frame, textvariable=VARS[2], background='White', width=5) B.grid(row=4, column=1, sticky=TK.EW) BB = CTK.infoBulle(parent=B, text='Height of each j-layer.') B = TTK.Entry(Frame, textvariable=VARS[3], background='White', width=5) B.grid(row=4, column=2, sticky=TK.EW) BB = CTK.infoBulle(parent=B, text='Number of j-layers.') B = TTK.Entry(Frame, textvariable=VARS[4], background='White', width=5) B.grid(row=4, column=3, sticky=TK.EW) BB = CTK.infoBulle(parent=B, text='Number of j-smoothing iterations.') # - Walk in k - B = TTK.Label(Frame, text="k-dir", width=2) B.grid(row=5, column=0, sticky=TK.EW) B = TTK.Entry(Frame, textvariable=VARS[5], background='White', width=5) B.grid(row=5, column=1, sticky=TK.EW) BB = CTK.infoBulle(parent=B, text='Height of each k-layer.') B = TTK.Entry(Frame, textvariable=VARS[6], background='White', width=5) B.grid(row=5, column=2, sticky=TK.EW) BB = CTK.infoBulle(parent=B, text='Number of k-layers.') B = TTK.Entry(Frame, textvariable=VARS[7], background='White', width=5) B.grid(row=5, column=3, sticky=TK.EW) BB = CTK.infoBulle(parent=B, text='Number of k-smoothing iterations.') # - Union - B = TTK.Button(Frame, text="Union", command=unionCollarMesh) B.grid(row=6, column=0, columnspan=2,sticky=TK.EW) BB = CTK.infoBulle(parent=B, text='Collar mesh for union assembly.') # - Difference - B = TTK.Button(Frame, text="Difference", command=differenceCollarMesh) B.grid(row=6, column=2, columnspan=2,sticky=TK.EW) BB = CTK.infoBulle(parent=B, text='Collar mesh for difference assembly.')
def createApp(win): # - Frame - Frame = TTK.LabelFrame(win, borderwidth=2, relief=CTK.FRAMESTYLE, text='tkCheckPyTree', font=CTK.FRAMEFONT, takefocus=1) #BB = CTK.infoBulle(parent=Frame, text='Check your pyTree.\nCtrl+c to close applet.', temps=0, btype=1) Frame.bind('<Control-c>', hideApp) Frame.bind('<ButtonRelease-3>', displayFrameMenu) Frame.bind('<Enter>', lambda event: Frame.focus_set()) Frame.columnconfigure(0, weight=1) Frame.columnconfigure(1, weight=1) Frame.columnconfigure(2, weight=1) Frame.columnconfigure(3, weight=1) Frame.columnconfigure(4, weight=1) Frame.columnconfigure(5, weight=1) WIDGETS['frame'] = Frame # - Frame menu - FrameMenu = TK.Menu(Frame, tearoff=0) FrameMenu.add_command(label='Close', accelerator='Ctrl+c', command=hideApp) FrameMenu.add_command(label='Save', command=saveApp) FrameMenu.add_command(label='Reset', command=resetApp) CTK.addPinMenu(FrameMenu, 'tkCheckPyTree') WIDGETS['frameMenu'] = FrameMenu # - VARS - # -0- MinPtsPerCoarseGrid - V = TK.StringVar(win) V.set('5') VARS.append(V) if 'tkCheckPyTree0' in CTK.PREFS: V.set(CTK.PREFS['tkCheckPyTree0']) # -1- MinPtsPerCoarseWin - V = TK.StringVar(win) V.set('3') VARS.append(V) if 'tkCheckPyTree1' in CTK.PREFS: V.set(CTK.PREFS['tkCheckPyTree1']) # -2- Multigrid level V = TK.StringVar(win) V.set('1') VARS.append(V) if 'tkCheckPyTree2' in CTK.PREFS: V.set(CTK.PREFS['tkCheckPyTree2']) # -3- global option menu -> things to check V = TK.StringVar(win) V.set('All conformity') VARS.append(V) # - MinPtsPerZone on coarse level - B = TTK.Entry(Frame, textvariable=VARS[0], background='White', width=5) BB = CTK.infoBulle( parent=B, text= 'Checked maximum number of points per zone, \nif Maximum number of nodes is selected. \nChecked minimum number of points per direction on coarse grid \nwhen Multigrid compatibility is selected.' ) B.grid(row=0, column=0, columnspan=2, sticky=TK.EW) # - MinPtsPerWin on coarse level - B = TTK.Entry(Frame, textvariable=VARS[1], background='White', width=5) BB = CTK.infoBulle( parent=B, text= 'Checked minimum number of points per direction in BCs on coarse grid, \nwhen Multigrid compatibility is selected.' ) B.grid(row=0, column=2, columnspan=2, sticky=TK.EW) # - Checked multigrid level - B = TTK.Entry(Frame, textvariable=VARS[2], background='White', width=5) BB = CTK.infoBulle( parent=B, text= 'Checked multigrid level,\nwhen Multigrid compatibility is selected.') B.grid(row=0, column=4, columnspan=2, sticky=TK.EW) # Option menu B = TTK.OptionMenu(Frame, VARS[3], 'All conformity', ' > Node conformity', ' > Unique base name', ' > Unique zone name', ' > Unique BC name', ' > Valid BC ranges', ' > Valid BC match', ' > Referenced families', ' > Valid CGNS types', ' > Valid element nodes', ' > Valid CGNS flowfield name', 'Multigrid compatibility', 'Maximum number of nodes') B.grid(row=1, column=0, columnspan=8, sticky=TK.EW) # - Buttons - B = TTK.Button(Frame, text="Check", command=runCheckPyTree) B.grid(row=2, column=0, columnspan=4, sticky=TK.EW) BB = CTK.infoBulle(parent=B, text='Check pyTree.') B = TTK.Button(Frame, text="Correct", command=correctPyTree) B.grid(row=2, column=4, columnspan=4, sticky=TK.EW) BB = CTK.infoBulle(parent=B, text='Attemp to correct pyTree.')
def createApp(win): ttk = CTK.importTtk() # - Frame - Frame = TTK.LabelFrame(win, borderwidth=2, relief=CTK.FRAMESTYLE, text='tkIsoLine', font=CTK.FRAMEFONT, takefocus=1) #BB = CTK.infoBulle(parent=Frame, text='Compute isolines.\nCtrl+c to close applet.', temps=0, btype=1) Frame.bind('<Control-c>', hideApp) Frame.bind('<ButtonRelease-3>', displayFrameMenu) Frame.bind('<Enter>', lambda event: Frame.focus_set()) Frame.columnconfigure(0, weight=1) Frame.columnconfigure(1, weight=1) Frame.columnconfigure(2, weight=1) WIDGETS['frame'] = Frame # - Frame menu - FrameMenu = TK.Menu(Frame, tearoff=0) FrameMenu.add_command(label='Close', accelerator='Ctrl+c', command=hideApp) FrameMenu.add_command(label='Save', command=saveApp) FrameMenu.add_command(label='Reset', command=resetApp) CTK.addPinMenu(FrameMenu, 'tkIsoLine') WIDGETS['frameMenu'] = FrameMenu # - VARS - # -0- Field name - V = TK.StringVar(win) V.set('CoordinateX') VARS.append(V) # -1- nlevels - V = TK.StringVar(win) V.set('25') VARS.append(V) if 'tkIsoLineLevels' in CTK.PREFS: V.set(CTK.PREFS['tkIsoLineLevels']) # -2- value - V = TK.StringVar(win) V.set('1.') VARS.append(V) if 'tkIsoLineValue' in CTK.PREFS: V.set(CTK.PREFS['tkIsoLineValue']) # -3- min iso V = TK.StringVar(win) V.set('MIN') VARS.append(V) if 'tkIsoLineMin' in CTK.PREFS: V.set(CTK.PREFS['tkIsoLineMin']) # -4- max iso V = TK.StringVar(win) V.set('MAX') VARS.append(V) V = TK.StringVar(win) V.set('MIN') VARS.append(V) if 'tkIsoLineMax' in CTK.PREFS: V.set(CTK.PREFS['tkIsoLineMax']) # - field name - B = TTK.Label(Frame, text="Field:") B.grid(row=0, column=0, sticky=TK.EW) F = TTK.Frame(Frame, borderwidth=0) F.columnconfigure(0, weight=1) if ttk is None: B = TK.OptionMenu(F, VARS[0], '') B.grid(sticky=TK.EW) F.bind('<Enter>', updateVarNameList) F.grid(row=0, column=1, columnspan=2, sticky=TK.EW) BB = CTK.infoBulle(parent=B, text='Extracted field.') WIDGETS['field'] = B else: B = ttk.Combobox(F, textvariable=VARS[0], values=[], state='readonly') B.grid(sticky=TK.EW) F.bind('<Enter>', updateVarNameList2) F.grid(row=0, column=1, columnspan=2, sticky=TK.EW) BB = CTK.infoBulle(parent=B, text='Extracted field.') WIDGETS['field'] = B if CTK.t != []: vars = C.getVarNames(CTK.t) if (len(vars) > 0): if (len(vars[0]) > 0): VARS[0].set(vars[0][0]) # - nlevels - #B = TK.Label(Frame, text="Nlevels:") #B.grid(row=1, column=0, sticky=TK.EW) B = TTK.Entry(Frame, textvariable=VARS[1], background='White', width=7) BB = CTK.infoBulle(parent=B, text='Number of levels.') B.grid(row=1, column=0, sticky=TK.EW) B = TTK.Entry(Frame, textvariable=VARS[3], background='White', width=7) BB = CTK.infoBulle(parent=B, text='Min value.') B.grid(row=1, column=1, sticky=TK.EW) B = TTK.Entry(Frame, textvariable=VARS[4], background='White', width=7) BB = CTK.infoBulle(parent=B, text='Max value.') B.grid(row=1, column=2, sticky=TK.EW) # - Draw all isolines - B = TTK.Button(Frame, text="Extract isolines", command=drawIsoLines) BB = CTK.infoBulle(parent=B, text='Extract isolines.') B.grid(row=2, column=0, columnspan=3, sticky=TK.EW) # - Value - B = TTK.Label(Frame, text="Value:") B.grid(row=3, column=0, sticky=TK.EW) B = TTK.Entry(Frame, textvariable=VARS[2], background='White') B.grid(row=3, column=1, columnspan=2, sticky=TK.EW) # - Extract one isoline - B = TTK.Button(Frame, text="Extract isoline", command=extractIsoLine) B.grid(row=4, column=0, columnspan=3, sticky=TK.EW) BB = CTK.infoBulle(parent=B, text='Extract one isoline to CONTOURS.')
def createApp(win): # - Frame - Frame = TTK.LabelFrame(win, borderwidth=2, relief=CTK.FRAMESTYLE, text='tkBlader', font=CTK.FRAMEFONT, takefocus=1) #BB = CTK.infoBulle(parent=Frame, text='Automatic mesher for\nblades.\nCtrl+c to close applet.', temps=0, btype=1) Frame.bind('<Control-c>', hideApp) Frame.bind('<ButtonRelease-3>', displayFrameMenu) Frame.bind('<Enter>', lambda event: Frame.focus_set()) Frame.columnconfigure(0, weight=0) Frame.columnconfigure(1, weight=1) WIDGETS['frame'] = Frame # - Frame menu - FrameMenu = TK.Menu(Frame, tearoff=0) FrameMenu.add_command(label='Close', accelerator='Ctrl+c', command=hideApp) FrameMenu.add_command(label='Save', command=saveApp) FrameMenu.add_command(label='Reset', command=resetApp) CTK.addPinMenu(FrameMenu, 'tkBlader') WIDGETS['frameMenu'] = FrameMenu # - VARS - # -0- front split % - V = TK.StringVar(win) V.set('0.5') VARS.append(V) if 'tkBladerFrontSplit' in CTK.PREFS: V.set(CTK.PREFS['tkBladerFrontSplit']) # -1- front step - V = TK.StringVar(win) V.set('0.001') VARS.append(V) if 'tkBladerFrontStep' in CTK.PREFS: V.set(CTK.PREFS['tkBladerFrontStep']) # -2- other step - V = TK.StringVar(win) V.set('0.01') VARS.append(V) if 'tkBladerStep' in CTK.PREFS: V.set(CTK.PREFS['tkBladerStep']) # -3- delta line index - V = TK.StringVar(win) V.set('15') VARS.append(V) # -4- Dfar. Mesh height - V = TK.StringVar(win) V.set('0.3') VARS.append(V) if 'tkBladerHeight' in CTK.PREFS: V.set(CTK.PREFS['tkBladerHeight']) # -5- hp: step en envergure - V = TK.StringVar(win) V.set('0.02') VARS.append(V) if 'tkBladerSpanStep' in CTK.PREFS: V.set(CTK.PREFS['tkBladerSpanStep']) # -6- span: longeur de l'envergure - V = TK.StringVar(win) V.set('5.') VARS.append(V) if 'tkBladerSpan' in CTK.PREFS: V.set(CTK.PREFS['tkBladerSpan']) # - Step1 - B = TTK.Label(Frame, text='Front split %:') B.grid(row=0, column=0, sticky=TK.EW) BB = CTK.infoBulle(parent=B, text='Split profile at %.') B = TTK.Entry(Frame, textvariable=VARS[0], background='White', width=5) B.grid(row=0, column=1, sticky=TK.EW) BB = CTK.infoBulle(parent=B, text='Index for front split.') B = TTK.Label(Frame, text='Front step:') B.grid(row=1, column=0, sticky=TK.EW) BB = CTK.infoBulle(parent=B, text='Front step.') B = TTK.Entry(Frame, textvariable=VARS[1], background='White', width=5) B.grid(row=1, column=1, sticky=TK.EW) BB = CTK.infoBulle(parent=B, text='Step for front and back of profile.') B = TTK.Label(Frame, text='Profile step:') B.grid(row=2, column=0, sticky=TK.EW) BB = CTK.infoBulle(parent=B, text='Profile step.') B = TTK.Entry(Frame, textvariable=VARS[2], background='White', width=5) B.grid(row=2, column=1, sticky=TK.EW) BB = CTK.infoBulle(parent=B, text='Step on profile.') B = TTK.Label(Frame, text='Delta line index:') B.grid(row=3, column=0, sticky=TK.EW) BB = CTK.infoBulle(parent=B, text='Index for delta line.') B = TTK.Entry(Frame, textvariable=VARS[3], background='White', width=5) B.grid(row=3, column=1, sticky=TK.EW) BB = CTK.infoBulle(parent=B, text='Index for delta line.') B = TTK.Label(Frame, text='Mesh height:') B.grid(row=4, column=0, sticky=TK.EW) BB = CTK.infoBulle(parent=B, text='Mesh height.') B = TTK.Entry(Frame, textvariable=VARS[4], background='White', width=5) B.grid(row=4, column=1, sticky=TK.EW) BB = CTK.infoBulle(parent=B, text='Mesh height.') B = TTK.Button(Frame, text="Step 1", command=step1) B.grid(row=5, column=0, columnspan=2, sticky=TK.EW) BB = CTK.infoBulle(parent=B, text='Run step 1. Plane mesh.') B = TTK.Label(Frame, text='Span length:') B.grid(row=6, column=0, sticky=TK.EW) BB = CTK.infoBulle(parent=B, text='Span length.') B = TTK.Entry(Frame, textvariable=VARS[6], background='White', width=5) B.grid(row=6, column=1, sticky=TK.EW) BB = CTK.infoBulle(parent=B, text='Span length.') B = TTK.Label(Frame, text='Span step:') B.grid(row=7, column=0, sticky=TK.EW) BB = CTK.infoBulle(parent=B, text='Step in span direction.') B = TTK.Entry(Frame, textvariable=VARS[5], background='White', width=5) B.grid(row=7, column=1, sticky=TK.EW) BB = CTK.infoBulle(parent=B, text='Step in span direction.') B = TTK.Button(Frame, text="Step 2", command=step2) B.grid(row=8, column=0, columnspan=2, sticky=TK.EW) BB = CTK.infoBulle(parent=B, text='Run step 2. Volume mesh.')
def createApp(win): # - Frame - Frame = TTK.LabelFrame(win, borderwidth=2, relief=CTK.FRAMESTYLE, text='tkSlice', font=CTK.FRAMEFONT, takefocus=1) #BB = CTK.infoBulle(parent=Frame, text='Visualize/extract slices.\nCtrl+c to close applet.', btype=1) Frame.bind('<Control-c>', hideApp) Frame.bind('<ButtonRelease-3>', displayFrameMenu) Frame.bind('<Enter>', lambda event: Frame.focus_set()) Frame.columnconfigure(0, weight=1) Frame.columnconfigure(1, weight=1) Frame.columnconfigure(2, weight=4) WIDGETS['frame'] = Frame # - Frame menu - FrameMenu = TK.Menu(Frame, tearoff=0) FrameMenu.add_command(label='Close', accelerator='Ctrl+c', command=hideApp) FrameMenu.add_command(label='Save', command=saveApp) FrameMenu.add_command(label='Reset', command=resetApp) CTK.addPinMenu(FrameMenu, 'tkSlice') WIDGETS['frameMenu'] = FrameMenu # - VARS - # -0- Slice dir V = TK.StringVar(win) V.set('X') VARS.append(V) # -1- position V = TK.StringVar(win) V.set('0') VARS.append(V) #V.trace_add("write", unselect) V.trace("w", lambda name, index, mode, V=V: unselect(V)) # -2- epsilon for 2D slices V = TK.StringVar(win) V.set('1.e-6') VARS.append(V) # -3- Order V = TK.StringVar(win) V.set('2') VARS.append(V) # -4- Delta pour le move V = TK.StringVar(win) V.set('0.1') VARS.append(V) if 'tkSliceStep' in CTK.PREFS: V.set(CTK.PREFS['tkSliceStep']) # -5- slice algorithm V = TK.StringVar(win) V.set('Slice1') VARS.append(V) # - Settings - #B = TK.Entry(Frame, textvariable=VARS[2], background='White', width=3) #B.grid(row=0, column=0, sticky=TK.EW) #BB = CTK.infoBulle(parent=B, text='Tolerance for surface slice.') #B = TK.Entry(Frame, textvariable=VARS[3], background='White', width=3) #B.grid(row=0, column=1, sticky=TK.EW) #BB = CTK.infoBulle(parent=B, text='Order for interpolation.') #B = TK.Button(Frame, text="Fit", command=fit) #B.grid(row=0, column=2, sticky=TK.EW) #BB = CTK.infoBulle(parent=B, text='Fit slice to selection.') # Move B = TTK.Button(Frame, text="+", command=movePlus) B.grid(row=0, column=0, sticky=TK.EW) BB = CTK.infoBulle(parent=B, text='Move slice +.') B = TTK.Button(Frame, text="-", command=moveMoins) B.grid(row=0, column=1, sticky=TK.EW) BB = CTK.infoBulle(parent=B, text='Move slice -.') B = TTK.Entry(Frame, textvariable=VARS[4], background='White', width=3) B.grid(row=0, column=2, sticky=TK.EW) BB = CTK.infoBulle(parent=B, text='Move step.') # Slice algorithm B = TTK.OptionMenu(Frame, VARS[5], 'Slice1', 'Slice2', 'Select+', 'Select-', 'Select=') BB = CTK.infoBulle(parent=B, text='Type of slice.') B.grid(row=1, column=0, columnspan=1, sticky=TK.EW) # - Position / type - B = TTK.OptionMenu(Frame, VARS[0], 'Mesh', 'X', 'Y', 'Z') B.grid(row=1, column=1, columnspan=1, sticky=TK.EW) BB = CTK.infoBulle(parent=B, text='Slice direction.') B = TTK.Entry(Frame, textvariable=VARS[1], background='White', width=3) B.grid(row=1, column=2, sticky=TK.EW) B.bind('<Return>', unselect) BB = CTK.infoBulle( parent=B, text= 'Plane position.\nTaken from selection or set it here with no selection.' ) # - Extract / view - B = TTK.Button(Frame, text="View", command=view) B.grid(row=2, column=0, columnspan=1, sticky=TK.EW) BB = CTK.infoBulle(parent=B, text='View a slice.') B = TTK.Button(Frame, text="Extract", command=extract) B.grid(row=2, column=1, sticky=TK.EW) BB = CTK.infoBulle(parent=B, text='Extract a slice to pyTree.') B = TTK.Button(Frame, text="Fit", command=fit) B.grid(row=2, column=2, sticky=TK.EW) BB = CTK.infoBulle(parent=B, text='Fit slice to selection.')
def createApp(win): # - Frame - Frame = TTK.LabelFrame(win, borderwidth=2, relief=CTK.FRAMESTYLE, text='tkTime', font=CTK.FRAMEFONT, takefocus=1) #BB = CTK.infoBulle(parent=Frame, text='Manage time.\nCtrl+c to close applet.', temps=0, btype=1) Frame.bind('<Control-c>', hideApp) Frame.bind('<ButtonRelease-3>', displayFrameMenu) Frame.bind('<Enter>', lambda event: Frame.focus_set()) Frame.columnconfigure(0, weight=1) Frame.columnconfigure(1, weight=1) Frame.columnconfigure(2, weight=1) WIDGETS['frame'] = Frame # - Frame menu - FrameMenu = TK.Menu(Frame, tearoff=0) FrameMenu.add_command(label='Close', accelerator='Ctrl+c', command=hideApp) FrameMenu.add_command(label='Save', command=saveApp) FrameMenu.add_command(label='Reset', command=resetApp) CTK.addPinMenu(FrameMenu, 'tkTime') WIDGETS['frameMenu'] = FrameMenu # - VARS - # -0- t0 - V = TK.StringVar(win) V.set('0.') VARS.append(V) if 'tkTimeT0' in CTK.PREFS: V.set(CTK.PREFS['tkTimeT0']) # -1- t - V = TK.StringVar(win) V.set('0.5') VARS.append(V) # -2- tf - V = TK.StringVar(win) V.set('1.') VARS.append(V) if 'tkTimeTF' in CTK.PREFS: V.set(CTK.PREFS['tkTimeTF']) # -3- Show only BCWall V = TK.StringVar(win) V.set('0') VARS.append(V) if 'tkTimeWall' in CTK.PREFS: V.set(CTK.PREFS['tkTimeWall']) # -4- time info bulle V = TK.StringVar(win) V.set('Time.') VARS.append(V) # - Times - B = TTK.Entry(Frame, textvariable=VARS[0], background='White', width=5) B.grid(row=0, column=0, sticky=TK.EW) BB = CTK.infoBulle(parent=B, text='Starting time.') B = TTK.Entry(Frame, textvariable=VARS[1], background='White', width=5) B.grid(row=0, column=1, sticky=TK.EW) B.bind('<Return>', setTime) BB = CTK.infoBulle(parent=B, text='Current time.') WIDGETS['time'] = B B = TTK.Entry(Frame, textvariable=VARS[2], background='White', width=5) B.grid(row=0, column=2, sticky=TK.EW) BB = CTK.infoBulle(parent=B, text='Final time.') # - Slider - B = TTK.Scale(Frame, from_=0, to=100, orient=TK.HORIZONTAL, showvalue=0, borderwidth=1, command=setSlider, value=0) WIDGETS['slider'] = B B.grid(row=1, columnspan=3, sticky=TK.EW) BB = CTK.infoBulle(parent=B, textVariable=VARS[4]) # - Options - B = TTK.Checkbutton(Frame, text='Walls', variable=VARS[3], command=setWalls) BB = CTK.infoBulle(parent=B, text='Show only BCWalls.') B.grid(row=2, column=0, sticky=TK.EW) # - Play, stop - B = TTK.Button(Frame, text=">", command=playForward) B.grid(row=3, column=0, sticky=TK.EW) BB = CTK.infoBulle(parent=B, text='Play forward.') B = TTK.Button(Frame, text="||", command=stop) B.grid(row=3, column=1, sticky=TK.EW) BB = CTK.infoBulle(parent=B, text='Stop playing.') B = TTK.Button(Frame, text="<", command=playBackward) B.grid(row=3, column=2, sticky=TK.EW) BB = CTK.infoBulle(parent=B, text='Play backward.')
def createApp(win): # - Frame - Frame = TTK.LabelFrame(win, borderwidth=2, relief=CTK.FRAMESTYLE, text='tkFilter', font=CTK.FRAMEFONT, takefocus=1) #BB = CTK.infoBulle(parent=Frame, text='Display/select certain blocks.\nCtrl+c to close applet.', temps=0, btype=1) Frame.bind('<Control-c>', hideApp) Frame.bind('<ButtonRelease-3>', displayFrameMenu) Frame.bind('<Enter>', lambda event: Frame.focus_set()) Frame.columnconfigure(0, weight=1) Frame.columnconfigure(1, weight=4) WIDGETS['frame'] = Frame # - Frame menu - FrameMenu = TK.Menu(Frame, tearoff=0) FrameMenu.add_command(label='Close', accelerator='Ctrl+c', command=hideApp) FrameMenu.add_command(label='Save', command=saveApp) FrameMenu.add_command(label='Reset', command=resetApp) CTK.addPinMenu(FrameMenu, 'tkFilter') WIDGETS['frameMenu'] = FrameMenu # - VARS - # -0- filter value - V = TK.StringVar(win) V.set('') VARS.append(V) if 'tkFilterValue' in CTK.PREFS: V.set(CTK.PREFS['tkFilterValue']) # -1- filter type V = TK.StringVar(win) V.set('By name') VARS.append(V) if 'tkFilterName' in CTK.PREFS: V.set(CTK.PREFS['tkFilterName']) # -2- action V = TK.StringVar(win) V.set('Activate') VARS.append(V) if 'tkFilterAction' in CTK.PREFS: V.set(CTK.PREFS['tkFilterAction']) # - Options - B = TTK.OptionMenu(Frame, VARS[2], 'Activate', 'Deactivate', 'Select') BB = CTK.infoBulle(parent=B, text='Action to be performed on filtered zones.') B.grid(row=0, column=0, sticky=TK.EW) B = TTK.OptionMenu(Frame, VARS[1], 'By name', 'By size >', 'By size <', 'By MG lvl =', 'By MG lvl !=', 'By proc', 'By priority', 'By number', 'By formula (or)', 'By formula (and)') BB = CTK.infoBulle(parent=B, text='Filter criteria.') B.grid(row=0, column=1, sticky=TK.EW) # - Set filter - B = TTK.Button(Frame, text="Filter", command=setFilter) B.grid(row=1, column=0, sticky=TK.EW) BB = CTK.infoBulle(parent=B, text='Apply filter.') B = TTK.Entry(Frame, textvariable=VARS[0], background='White', width=20) BB = CTK.infoBulle(parent=B, text='Matching string.') B.grid(row=1, column=1, sticky=TK.EW) B.bind('<Return>', setFilter)
def createApp(win): ttk = CTK.importTtk() # - Frame - Frame = TTK.LabelFrame(win, borderwidth=2, relief=CTK.FRAMESTYLE, text='tkMeshInfo', font=CTK.FRAMEFONT, takefocus=1) #BB = CTK.infoBulle(parent=Frame, text='Display mesh informations.\nCtrl+c to close applet.', temps=0, btype=1) Frame.bind('<Control-c>', hideApp) Frame.bind('<ButtonRelease-3>', displayFrameMenu) Frame.bind('<Enter>', lambda event : Frame.focus_set()) Frame.columnconfigure(0, weight=1) Frame.columnconfigure(1, weight=2) WIDGETS['frame'] = Frame # - Frame menu - FrameMenu = TK.Menu(Frame, tearoff=0) FrameMenu.add_command(label='Close', accelerator='Ctrl+c', command=hideApp) CTK.addPinMenu(FrameMenu, 'tkMeshInfo') WIDGETS['frameMenu'] = FrameMenu #- VARS - # -0- Npts - V = TK.StringVar(win); V.set(''); VARS.append(V) # -1- Var min - V = TK.StringVar(win); V.set(''); VARS.append(V) # -2- Var max - V = TK.StringVar(win); V.set(''); VARS.append(V) # -3- Selected block name V = TK.StringVar(win); V.set(''); VARS.append(V) # -4- Selected block type V = TK.StringVar(win); V.set(''); VARS.append(V) # -5- Selected variable V = TK.StringVar(win); V.set('CoordinateX'); VARS.append(V) # -6- NCells - V = TK.StringVar(win); V.set(''); VARS.append(V) # -7- NFaces - V = TK.StringVar(win); V.set(''); VARS.append(V) # - selected block name - B = TTK.Entry(Frame, textvariable=VARS[3], background='White', width=15) B.grid(row=0, column=0, columnspan=1, sticky=TK.EW) BB = CTK.infoBulle(parent=B, text='Currently selected zone name.') # - selected block type - B = TTK.Entry(Frame, textvariable=VARS[4], background='White') B.grid(row=0, column=1, columnspan=1, sticky=TK.EW) BB = CTK.infoBulle(parent=B, text='Currently selected zone type.') # - Npts - B = TTK.Label(Frame, text="Npts") B.grid(row=1, column=0, sticky=TK.EW) BB = CTK.infoBulle(parent=B, text='Number of points in selection.') B = TTK.Entry(Frame, textvariable=VARS[0], background='White', width=10) B.grid(row=1, column=1, sticky=TK.EW) BB = CTK.infoBulle(parent=B, text='Number of points in selection.') # - Ncells - B = TTK.Label(Frame, text="NCells") B.grid(row=2, column=0, sticky=TK.EW) BB = CTK.infoBulle(parent=B, text='Number of cells in selection.') B = TTK.Entry(Frame, textvariable=VARS[6], background='White', width=10) B.grid(row=2, column=1, sticky=TK.EW) BB = CTK.infoBulle(parent=B, text='Number of cells in selection.') # - NFaces - B = TTK.Label(Frame, text="NFaces") B.grid(row=3, column=0, sticky=TK.EW) BB = CTK.infoBulle(parent=B, text='Number of faces in selection.') B = TTK.Entry(Frame, textvariable=VARS[7], background='White', width=10) B.grid(row=3, column=1, sticky=TK.EW) BB = CTK.infoBulle(parent=B, text='Number of faces in selection.') # - Variable - B = TTK.Label(Frame, text="Variable: ") B.grid(row=4, column=0, columnspan=1, sticky=TK.EW) BB = CTK.infoBulle(parent=B, text='Selected var name.') F = TTK.Frame(Frame, borderwidth=0) F.columnconfigure(0, weight=1) if ttk is None: B = TK.OptionMenu(F, VARS[5], '') B.grid(sticky=TK.EW) F.bind('<Enter>', updateVarNameList) F.grid(row=4, column=1, columnspan=1, sticky=TK.EW) BB = CTK.infoBulle(parent=B, text='Selected var name.') WIDGETS['variable'] = B else: B = ttk.Combobox(F, textvariable=VARS[5], values=[], state='readonly') B.grid(sticky=TK.EW) F.bind('<Enter>', updateVarNameList2) F.grid(row=4, column=1, columnspan=1, sticky=TK.EW) BB = CTK.infoBulle(parent=B, text='Selected var name.') WIDGETS['variable'] = B # - Min de la variable - B = TTK.Label(Frame, text="Min:") B.grid(row=5, column=0, sticky=TK.EW) BB = CTK.infoBulle(parent=B, text='Min of variable.') B = TTK.Entry(Frame, textvariable=VARS[1], background='White', width=10) B.grid(row=5, column=1, sticky=TK.EW) BB = CTK.infoBulle(parent=B, text='Min of variable.') # - Max de la variable - B = TTK.Label(Frame, text="Max:") B.grid(row=6, column=0, sticky=TK.EW) BB = CTK.infoBulle(parent=B, text='Max of variable.') B = TTK.Entry(Frame, textvariable=VARS[2], background='White', width=10) B.grid(row=6, column=1, sticky=TK.EW) BB = CTK.infoBulle(parent=B, text='Max of variable.') # - update - B = TTK.Button(Frame, text="Update info", command=updateInfo) B.grid(row=7, column=0, columnspan=2, sticky=TK.EW)
def createApp(win): # - Frame - Frame = TTK.LabelFrame(win, borderwidth=2, relief=CTK.FRAMESTYLE, text='tkSculpt', font=CTK.FRAMEFONT, takefocus=1) #BB = CTK.infoBulle(parent=Frame, text='Sculpt surfaces by deformations.', temps=0, btype=1) Frame.bind('<Control-c>', hideApp) Frame.bind('<ButtonRelease-3>', displayFrameMenu) Frame.bind('<Enter>', lambda event: Frame.focus_set()) Frame.columnconfigure(0, weight=1) Frame.columnconfigure(1, weight=1) WIDGETS['frame'] = Frame # - Frame menu - FrameMenu = TK.Menu(Frame, tearoff=0) FrameMenu.add_command(label='Close', accelerator='Ctrl+c', command=hideApp) CTK.addPinMenu(FrameMenu, 'tkSculpt') WIDGETS['frameMenu'] = FrameMenu # - VARS - # -0- depth - V = TK.StringVar(win) V.set('1.') VARS.append(V) # -1- width - V = TK.StringVar(win) V.set('1.') VARS.append(V) # -2- Brush V = TK.StringVar(win) V.set('Deform') VARS.append(V) # -3- Negative/positive depth V = TK.StringVar(win) V.set('0') VARS.append(V) # -4- Depth info bulle V = TK.StringVar(win) V.set('Depth.') VARS.append(V) # -5- Width info bulle V = TK.StringVar(win) V.set('Width.') VARS.append(V) # - Depth - B = TTK.Scale(Frame, from_=0, to=100, orient=TK.HORIZONTAL, showvalue=0, command=setDepth, borderwidth=1, value=50) WIDGETS['depth'] = B B.grid(row=0, columnspan=2, sticky=TK.EW) BB = CTK.infoBulle(parent=B, textVariable=VARS[4]) #B = TK.Checkbutton(Frame, text='', variable=VARS[3]) #BB = CTK.infoBulle(parent=B, text='Check for additive depth.') #B.grid(row=0, column=1, sticky=TK.EW) # - Width - B = TTK.Scale(Frame, from_=0, to=100, orient=TK.HORIZONTAL, showvalue=0, command=setWidth, borderwidth=1, value=50) WIDGETS['width'] = B B.grid(row=1, columnspan=2, sticky=TK.EW) BB = CTK.infoBulle(parent=B, textVariable=VARS[5]) # - Brush - B = TTK.OptionMenu(Frame, VARS[2], 'Deform', 'Sphere') B.grid(row=2, column=0, sticky=TK.EW) # - Sculpt mode - B = TTK.Button(Frame, text="Sculpt mode", command=sculpt) BB = CTK.infoBulle(parent=B, text='Enter sculpt mode.') B.grid(row=2, column=1, columnspan=1, sticky=TK.EW) WIDGETS['sculpt'] = B
def createApp(win): # - Frame - Frame = TTK.LabelFrame(win, borderwidth=2, relief=CTK.FRAMESTYLE, text='tkPaint', font=CTK.FRAMEFONT, takefocus=1) #BB = CTK.infoBulle(parent=Frame, text='Paint fields.\nCtrl+c to close applet.', temps=0, btype=1) Frame.bind('<Control-c>', hideApp) Frame.bind('<ButtonRelease-3>', displayFrameMenu) Frame.bind('<Enter>', lambda event: Frame.focus_set()) Frame.columnconfigure(0, weight=2) Frame.columnconfigure(1, weight=0) Frame.columnconfigure(2, weight=1) WIDGETS['frame'] = Frame # - Frame menu - FrameMenu = TK.Menu(Frame, tearoff=0) FrameMenu.add_command(label='Close', accelerator='Ctrl+c', command=hideApp) CTK.addPinMenu(FrameMenu, 'tkPaint') WIDGETS['frameMenu'] = FrameMenu # - VARS - # -0- value - V = TK.StringVar(win) V.set('1.') VARS.append(V) # -1- width - V = TK.StringVar(win) V.set('1.') VARS.append(V) # -2- Brush V = TK.StringVar(win) V.set('Sphere') VARS.append(V) # - Value - B = TTK.Entry(Frame, textvariable=VARS[0], background='White', width=5) B.grid(row=0, column=0, columnspan=1, sticky=TK.EW) BB = CTK.infoBulle(parent=B, text='Value.') WIDGETS['value'] = B B = TTK.Button(Frame, command=getValue, image=iconics.PHOTO[8], padx=0, pady=0) B.grid(row=0, column=1, columnspan=1, sticky=TK.EW) BB = CTK.infoBulle(parent=B, text='Get value from mouse pointer.') # - Width - #B = TTK.Entry(Frame, textvariable=VARS[1], background='White', width=5) #B.grid(row=0, column=1, columnspan=1, sticky=TK.EW) #BB = CTK.infoBulle(parent=B, text='Width.') #WIDGETS['width'] = B # - Brush - #B = TTK.OptionMenu(Frame, VARS[2], 'Sphere') #BB = CTK.infoBulle(parent=B, text='Brush shape.') #B.grid(row=1, column=0, sticky=TK.EW) # - Paint mode - B = TTK.Button(Frame, text="Paint mode", command=paint) BB = CTK.infoBulle( parent=B, text='Enter paint mode.\nValue of field (scalar mode) is modified.') B.grid(row=0, column=2, columnspan=1, sticky=TK.EW) WIDGETS['paint'] = B
def createApp(win): ttk = CTK.importTtk() # - Frame - Frame = TTK.LabelFrame(win, borderwidth=2, relief=CTK.FRAMESTYLE, text='tkStream', font=CTK.FRAMEFONT, takefocus=1) #BB = CTK.infoBulle(parent=Frame, text='Compute stream lines/surfaces.\nCtrl+c to close applet.', temps=0, btype=1) Frame.bind('<Control-c>', hideApp) Frame.bind('<ButtonRelease-3>', displayFrameMenu) Frame.bind('<Enter>', lambda event: Frame.focus_set()) Frame.columnconfigure(0, weight=1) Frame.columnconfigure(1, weight=1) Frame.columnconfigure(2, weight=1) WIDGETS['frame'] = Frame # - Frame menu - FrameMenu = TK.Menu(Frame, tearoff=0) FrameMenu.add_command(label='Close', accelerator='Ctrl+c', command=hideApp) FrameMenu.add_command(label='Save', command=saveApp) FrameMenu.add_command(label='Reset', command=resetApp) CTK.addPinMenu(FrameMenu, 'tkStream') WIDGETS['frameMenu'] = FrameMenu # - VARS - # -0- nptsmax - V = TK.StringVar(win) V.set('2000') VARS.append(V) if 'tkStreamNpts' in CTK.PREFS: V.set(CTK.PREFS['tkStreamNpts']) # -1- Var0 for vector - V = TK.StringVar(win) V.set('CoordinateX') VARS.append(V) # -2- Var1 for vector - V = TK.StringVar(win) V.set('CoordinateY') VARS.append(V) # -3- Var2 for vector - V = TK.StringVar(win) V.set('CoordinateZ') VARS.append(V) # - Menu des variables - F = TTK.Frame(Frame, borderwidth=0) F.columnconfigure(0, weight=1) if ttk is None: B = TK.OptionMenu(F, VARS[1], '') B.grid(sticky=TK.EW) F.bind('<Enter>', updateVarNameList1) F.grid(row=0, column=0, sticky=TK.EW) BB = CTK.infoBulle(parent=B, text='Variable 1.') WIDGETS['variable1'] = B else: B = ttk.Combobox(F, textvariable=VARS[1], values=[], state='readonly', width=10) B.grid(sticky=TK.EW) F.bind('<Enter>', updateVarNameList1_2) F.grid(row=0, column=0, sticky=TK.EW) BB = CTK.infoBulle(parent=B, text='Variable 1.') WIDGETS['variable1'] = B F = TTK.Frame(Frame, borderwidth=0) F.columnconfigure(0, weight=1) if ttk is None: B = TK.OptionMenu(F, VARS[2], '') B.grid(sticky=TK.EW) F.bind('<Enter>', updateVarNameList2) F.grid(row=0, column=1, sticky=TK.EW) BB = CTK.infoBulle(parent=B, text='Variable 2.') WIDGETS['variable2'] = B else: B = ttk.Combobox(F, textvariable=VARS[2], values=[], state='readonly', width=10) B.grid(sticky=TK.EW) F.bind('<Enter>', updateVarNameList2_2) F.grid(row=0, column=1, sticky=TK.EW) BB = CTK.infoBulle(parent=B, text='Variable 2.') WIDGETS['variable2'] = B F = TTK.Frame(Frame, borderwidth=0) F.columnconfigure(0, weight=1) if ttk is None: B = TK.OptionMenu(F, VARS[3], '') B.grid(sticky=TK.EW) F.bind('<Enter>', updateVarNameList3) F.grid(row=0, column=2, sticky=TK.EW) BB = CTK.infoBulle(parent=B, text='Variable 3.') WIDGETS['variable3'] = B else: B = ttk.Combobox(F, textvariable=VARS[3], values=[], state='readonly', width=10) B.grid(sticky=TK.EW) F.bind('<Enter>', updateVarNameList3_2) F.grid(row=0, column=2, sticky=TK.EW) BB = CTK.infoBulle(parent=B, text='Variable 3.') WIDGETS['variable3'] = B # - nptsmax - B = TTK.Label(Frame, text="nptsmax") B.grid(row=1, column=0, sticky=TK.EW) BB = CTK.infoBulle(parent=B, text='Max number of points of streams.') B = TTK.Entry(Frame, textvariable=VARS[0], background='White', width=5) BB = CTK.infoBulle(parent=B, text='Max number of points of streams.') B.grid(row=1, column=1, columnspan=2, sticky=TK.EW) # - Stream line - B = TTK.Button(Frame, text="Line", command=streamLine) B.grid(row=2, column=0, columnspan=1, sticky=TK.EW) BB = CTK.infoBulle(parent=B, text='Draw a stream line.') # - Stream ribbon - B = TTK.Button(Frame, text="Ribbon", command=streamRibbon) B.grid(row=2, column=1, columnspan=1, sticky=TK.EW) BB = CTK.infoBulle(parent=B, text='Draw a stream ribbon.') # - Stream surface - B = TTK.Button(Frame, text="Surface", command=streamSurface) B.grid(row=2, column=2, columnspan=1, sticky=TK.EW) BB = CTK.infoBulle(parent=B, text='Draw a stream surface from a BAR.')