def body(self, master): self.results = None # in case we cancel this gets returned self.results = None # in case we cancel this gets returned self.vars = {} self.widgets = {} self.values = {} colortables = [ ('Jet (blue to red)',matplotlib.cm.jet), ('Gray', matplotlib.cm.gray), ('Heat (black-red-yellow)', matplotlib.cm.gist_heat), ('Copper (black to tan)',matplotlib.cm.copper), ('Stern',matplotlib.cm.gist_stern), ('Prism (repeating rainbow)', matplotlib.cm.prism)] self.colortables = dict(colortables) lf = ttk.LabelFrame(master, text='WebbPSF Advanced Options') r=1 fr2 = ttk.Frame(lf) self.values['force_coron'] = ['regular propagation (MFT)', 'full coronagraphic propagation (FFT/SAM)'] self._add_labeled_dropdown("force_coron", lf, label='Direct imaging calculations use', values=self.values['force_coron'], default = self.values['force_coron'][ 1 if self.input_options['force_coron'] else 0] , width=30, position=(r,0), sticky='W') r+=1 self.values['no_sam'] = ['semi-analytic method if possible', 'basic FFT method always'] self._add_labeled_dropdown("no_sam", lf, label='Coronagraphic calculations use', values=self.values['no_sam'], default=self.values['no_sam'][ 1 if self.input_options['no_sam'] else 0] , width=30, position=(r,0), sticky='W') r+=1 self._add_labeled_dropdown("parity", lf, label='Output pixel grid parity is', values=['odd', 'even', 'either'], default=self.input_options['parity'], width=10, position=(r,0), sticky='W') lf.grid(row=1, sticky='E,W', padx=10,pady=5) lf = ttk.LabelFrame(master, text='PSF Display Options') r=0 self._add_labeled_dropdown("psf_scale", lf, label=' Display scale:', values=['log','linear'],default=self.input_options['psf_scale'], width=5, position=(r,0), sticky='W') r+=1 self._add_labeled_entry("psf_vmin", lf, label=' Min scale value:', value="%.2g" % self.input_options['psf_vmin'], width=7, position=(r,0), sticky='W') r+=1 self._add_labeled_entry("psf_vmax", lf, label=' Max scale value:', value="%.2g" % self.input_options['psf_vmax'], width=7, position=(r,0), sticky='W') r+=1 self._add_labeled_dropdown("psf_normalize", lf, label=' Normalize PSF to:', values=['Total', 'Peak'], default=self.input_options['psf_normalize'], width=5, position=(r,0), sticky='W') r+=1 self._add_labeled_dropdown("psf_cmap", lf, label=' Color table:', values=[a[0] for a in colortables], default=self.input_options['psf_cmap_str'], width=20, position=(r,0), sticky='W') lf.grid(row=2, sticky='E,W', padx=10,pady=5) return self.widgets['force_coron']# return widget to have initial focus
def _createChartInit(self, text): frame = ttk.LabelFrame(self.right_frame, text=text) frame.pack(side='top', fill='both', expand=False, padx=20, pady=10) style = ttk.Style(self.parent) fg = style.lookup('.', 'foreground') or None # use default if fg == '' bg = style.lookup('.', 'background') or None self.fg = fg # w, h = self.tab_x[-1], max(self.tab_y[-1], self.oval_height+40) c = tkinter.Canvas(frame, width=w, height=h, bg=bg, highlightthickness=0) c.pack(fill='both', expand=True) self.canvas = c
def __init__(self, dialog, parent, app, player, gameid): ttk.Frame.__init__(self, parent) self.app = app self.dialog = dialog left_label = ttk.Label(self, image=app.gimages.logos[5]) left_label.pack(side='left', expand=True, fill='both') frame = ttk.LabelFrame(self, text=_('Current game'), padding=(10, 5, 10, 10)) frame.pack(side='top', expand=True, fill='x', padx=10, pady=10) # frame.columnconfigure(0, weight=1) if not self.createTopFrame(frame, player, gameid): ttk.Label(frame, text=_('No TOP for this game') ).pack(padx=10, pady=10) frame = ttk.LabelFrame(self, text=_('All games'), padding=(10, 5, 10, 10)) frame.pack(side='top', expand=True, fill='x', padx=10, pady=10) # frame.columnconfigure(0, weight=1) if not self.createTopFrame(frame, player, 'all'): ttk.Label(frame, text=_('No TOP for all games') ).pack(padx=10, pady=10)
def __init__(self, parent, title, app, gameid, bookmark=None, **kw): kw = self.initKw(kw) MfxDialog.__init__(self, parent, title, kw.resizable, kw.default) top_frame, bottom_frame = self.createFrames(kw) self.createBitmaps(top_frame, kw) # self.app = app self.gameid = gameid self.bookmark = bookmark self.random = None if self.TreeDataHolder_Class.data is None: self.TreeDataHolder_Class.data = self.TreeData_Class(app) # self.top.wm_minsize(400, 200) sw = self.top.winfo_screenwidth() sh = self.top.winfo_screenheight() h = sh * .8 w1, w2 = min(250, sw / 4), max(sw / 2 + ((sw / 4) - 250), sw / 2) # print sw, w1, w2 w2 = max(200, min(w2, 10 + 12 * (app.subsampled_images.CARDW + 10))) # print sw, w1, w2 # padx, pady = kw.padx, kw.pady # padx, pady = kw.padx/2, kw.pady/2 padx, pady = 4, 4 # PanedWindow paned_window = ttk.PanedWindow(top_frame, orient='horizontal') paned_window.pack(expand=True, fill='both', padx=8, pady=8) left_frame = ttk.Frame(paned_window) right_frame = ttk.Frame(paned_window) paned_window.add(left_frame) paned_window.add(right_frame) # Tree font = app.getFont("default") self.tree = self.Tree_Class(self, left_frame, key=gameid, default=kw.default, font=font, width=w1, height=h) self.tree.frame.pack(padx=padx, pady=pady, expand=True, fill='both') # LabelFrame info_frame = ttk.LabelFrame(right_frame, text=_('About game')) info_frame.grid(row=0, column=0, padx=padx, pady=pady, ipadx=4, ipady=4, sticky='nws') stats_frame = ttk.LabelFrame(right_frame, text=_('Statistics')) stats_frame.grid(row=0, column=1, padx=padx, pady=pady, ipadx=4, ipady=4, sticky='nws') # Info self.info_labels = {} for n, t, f, row in ( ('name', _('Name:'), info_frame, 0), ('altnames', _('Alternate names:'), info_frame, 1), ('category', _('Category:'), info_frame, 2), ('type', _('Type:'), info_frame, 3), ('skill_level', _('Skill level:'), info_frame, 4), ('decks', _('Decks:'), info_frame, 5), ('redeals', _('Redeals:'), info_frame, 6), # ('played', _('Played:'), stats_frame, 0), ('won', _('Won:'), stats_frame, 1), ('lost', _('Lost:'), stats_frame, 2), ('time', _('Playing time:'), stats_frame, 3), ('moves', _('Moves:'), stats_frame, 4), ('percent', _('% won:'), stats_frame, 5), ): title_label = ttk.Label(f, text=t, justify='left', anchor='w') title_label.grid(row=row, column=0, sticky='nw', padx=4) text_label = ttk.Label(f, justify='left', anchor='w') text_label.grid(row=row, column=1, sticky='nw', padx=4) self.info_labels[n] = (title_label, text_label) # info_frame.columnconfigure(1, weight=1) info_frame.rowconfigure(6, weight=1) stats_frame.rowconfigure(6, weight=1) # Canvas self.preview = MfxScrolledCanvas(right_frame, width=w2) self.preview.setTile(app, app.tabletile_index, force=True) self.preview.grid(row=1, column=0, columnspan=3, padx=padx, pady=pady, sticky='nsew') right_frame.columnconfigure(1, weight=1) right_frame.rowconfigure(1, weight=1) # focus = self.createButtons(bottom_frame, kw) # set the scale factor self.preview.canvas.preview = 2 # create a preview of the current game self.preview_key = -1 self.preview_game = None self.preview_app = None self.updatePreview(gameid, animations=0) # focus = self.tree.frame self.mainloop(focus, kw.timeout)
def __init__(self, dialog, parent, app, player, gameid, **kw): ttk.Frame.__init__(self, parent) self.mapped = False self.dialog = dialog self.app = app self.player = player self.gameid = gameid self.items = [] self.formatter = ProgressionFormatter(app, player, gameid) frame = ttk.Frame(self) frame.pack(expand=True, fill='both', padx=5, pady=10) frame.columnconfigure(0, weight=1) # constants w = dialog.tkfont.measure('M') * 42 w = max(w, 500) w = min(w, 600) self.canvas_width, self.canvas_height = w, 325 cond = parent.winfo_screenwidth() < 800 or \ parent.winfo_screenheight() < 600 if cond: self.canvas_width, self.canvas_height = 400, 200 self.xmargin, self.ymargin = 10, 10 self.graph_dx, self.graph_dy = 10, 10 self.played_color = '#ff7ee9' self.won_color = '#00dc28' self.percent_color = 'blue' # create canvas self.canvas = canvas = tkinter.Canvas(frame, bg='#dfe8ff', bd=0, highlightthickness=1, highlightbackground='black', width=self.canvas_width, height=self.canvas_height) canvas.pack(side='left', padx=5) # right frame right_frame = ttk.Frame(frame) right_frame.pack(side='left', fill='x', padx=5) self.all_games_variable = var = tkinter.StringVar() var.set('all') b = ttk.Radiobutton(right_frame, text=_('All games'), variable=var, value='all', command=self.updateGraph) b.pack(fill='x', expand=True, padx=3, pady=1) b = ttk.Radiobutton(right_frame, text=_('Current game'), variable=var, value='current', command=self.updateGraph) b.pack(fill='x', expand=True, padx=3, pady=1) label_frame = ttk.LabelFrame(right_frame, text=_('Statistics for')) label_frame.pack(side='top', fill='x', pady=5) self.variable = var = tkinter.StringVar() var.set('week') for v, t in ( ('week', _('Last 7 days')), ('month', _('Last month')), ('year', _('Last year')), ('all', _('All time')), ): b = ttk.Radiobutton(label_frame, text=t, variable=var, value=v, command=self.updateGraph) b.pack(fill='x', expand=True, padx=3, pady=1) label_frame = ttk.LabelFrame(right_frame, text=_('Show graphs')) label_frame.pack(side='top', fill='x', pady=5) self.played_graph_var = tkinter.BooleanVar() self.played_graph_var.set(True) b = ttk.Checkbutton(label_frame, text=_('Played'), command=self.updateGraph, variable=self.played_graph_var) b.pack(fill='x', expand=True, padx=3, pady=1) self.won_graph_var = tkinter.BooleanVar() self.won_graph_var.set(True) b = ttk.Checkbutton(label_frame, text=_('Won'), command=self.updateGraph, variable=self.won_graph_var) b.pack(fill='x', expand=True, padx=3, pady=1) self.percent_graph_var = tkinter.BooleanVar() self.percent_graph_var.set(True) b = ttk.Checkbutton(label_frame, text=_('% won'), command=self.updateGraph, variable=self.percent_graph_var) b.pack(fill='x', expand=True, padx=3, pady=1) label_frame = ttk.LabelFrame(right_frame, text=_('Date format')) label_frame.pack(side='top', fill='x', pady=5) self.date_format = tkinter.StringVar() self.date_format.set(self.app.opt.date_format) b = ttk.Radiobutton(label_frame, text=_('MM-DD'), command=self.updateDateFormat, variable=self.date_format, value='%m-%d') b.pack(fill='x', expand=True, padx=3, pady=1) b = ttk.Radiobutton(label_frame, text=_('DD-MM'), command=self.updateDateFormat, variable=self.date_format, value='%d-%m') b.pack(fill='x', expand=True, padx=3, pady=1) # self.createGraph() bind(canvas, '<Map>', self.createGraph)
def __init__(self, parent, title, cardset, images, **kw): kw = self.initKw(kw) MfxDialog.__init__(self, parent, title, kw.resizable, kw.default) top_frame, bottom_frame = self.createFrames(kw) self.createBitmaps(top_frame, kw) frame = ttk.Frame(top_frame) frame.pack(fill="both", expand=True, padx=5, pady=10) # # row = 0 info_frame = ttk.LabelFrame(frame, text=_('About cardset')) info_frame.grid(row=row, column=0, columnspan=2, sticky='ew', padx=0, pady=5, ipadx=5, ipady=5) row += 1 styles = nationalities = year = None if cardset.si.styles: styles = '\n'.join([CSI.STYLE[i] for i in cardset.si.styles]) if cardset.si.nationalities: nationalities = '\n'.join([CSI.NATIONALITY[i] for i in cardset.si.nationalities]) if cardset.year: year = str(cardset.year) frow = 0 for n, t in ( # ('Version:', str(cardset.version)), (_('Type:'), CSI.TYPE[cardset.type]), (_('Styles:'), styles), (_('Nationality:'), nationalities), (_('Year:'), year), # (_('Number of cards:'), str(cardset.ncards)), (_('Size:'), '%d x %d' % (cardset.CARDW, cardset.CARDH)), ): if t is not None: label = ttk.Label(info_frame, text=n, anchor='w', justify='left') label.grid(row=frow, column=0, sticky='nw', padx=4) label = ttk.Label(info_frame, text=t, anchor='w', justify='left') label.grid(row=frow, column=1, sticky='nw', padx=4) frow += 1 if images: try: from random import choice im = choice(images) f = os.path.join(cardset.dir, cardset.backname) self.back_image = loadImage(file=f) # store the image label = ttk.Label(info_frame, image=im, padding=5) label.grid(row=0, column=2, rowspan=frow+1, sticky='ne') label = ttk.Label(info_frame, image=self.back_image, padding=(0, 5, 5, 5)) # left margin = 0 label.grid(row=0, column=3, rowspan=frow+1, sticky='ne') info_frame.columnconfigure(2, weight=1) info_frame.rowconfigure(frow, weight=1) except Exception: pass if USE_PIL: padx = 4 pady = 0 settings_frame = ttk.LabelFrame(frame, text=_('Settings')) settings_frame.grid(row=row, column=0, columnspan=2, sticky='ew', padx=0, pady=5, ipadx=5, ipady=5) row += 1 var = tkinter.IntVar() self.x_offset = PysolScale( settings_frame, label=_('X offset:'), from_=5, to=40, resolution=1, orient='horizontal', variable=var, value=cardset.CARD_XOFFSET, # command=self._updateScale ) self.x_offset.grid(row=0, column=0, sticky='ew', padx=padx, pady=pady) var = tkinter.IntVar() self.y_offset = PysolScale( settings_frame, label=_('Y offset:'), from_=5, to=40, resolution=1, orient='horizontal', variable=var, value=cardset.CARD_YOFFSET, # command=self._updateScale ) self.y_offset.grid(row=1, column=0, sticky='ew', padx=padx, pady=pady) row += 1 # bg = top_frame["bg"] bg = 'white' text_w = tkinter.Text(frame, bd=1, relief="sunken", wrap="word", padx=4, width=64, height=16, bg=bg) text_w.grid(row=row, column=0, sticky='nsew') sb = ttk.Scrollbar(frame) sb.grid(row=row, column=1, sticky='ns') text_w.configure(yscrollcommand=sb.set) sb.configure(command=text_w.yview) frame.columnconfigure(0, weight=1) frame.rowconfigure(1, weight=1) # text = '' fn = os.path.join(cardset.dir, "COPYRIGHT") try: with open(fn, "rt") as fh: text = fh.read() except Exception: pass if text: text_w.config(state="normal") text_w.insert("insert", text) text_w.config(state="disabled") # focus = self.createButtons(bottom_frame, kw) # focus = text_w self.mainloop(focus, kw.timeout)
def __init__(self, parent, title, app, **kw): self.app = app kw = self.initKw(kw) MfxDialog.__init__(self, parent, title, kw.resizable, kw.default) top_frame, bottom_frame = self.createFrames(kw) self.createBitmaps(top_frame, kw) # self.saved_opt = app.opt.copy() self.sound = tkinter.BooleanVar() self.sound.set(app.opt.sound != 0) self.sound_mode = tkinter.BooleanVar() self.sound_mode.set(app.opt.sound_mode != 0) self.sample_volume = tkinter.IntVar() self.sample_volume.set(app.opt.sound_sample_volume) self.music = tkinter.BooleanVar() self.music.set(app.opt.music != 0) self.music_volume = tkinter.IntVar() self.music_volume.set(app.opt.sound_music_volume) self.samples = [ ('areyousure', _('Are You Sure'), tkinter.BooleanVar()), ('deal', _('Deal'), tkinter.BooleanVar()), ('dealwaste', _('Deal waste'), tkinter.BooleanVar()), ('turnwaste', _('Turn waste'), tkinter.BooleanVar()), ('startdrag', _('Start drag'), tkinter.BooleanVar()), ('drop', _('Drop'), tkinter.BooleanVar()), ('droppair', _('Drop pair'), tkinter.BooleanVar()), ('autodrop', _('Auto drop'), tkinter.BooleanVar()), ('flip', _('Flip'), tkinter.BooleanVar()), ('autoflip', _('Auto flip'), tkinter.BooleanVar()), ('move', _('Move'), tkinter.BooleanVar()), ('nomove', _('No move'), tkinter.BooleanVar()), ('undo', _('Undo'), tkinter.BooleanVar()), ('redo', _('Redo'), tkinter.BooleanVar()), ('autopilotlost', _('Autopilot lost'), tkinter.BooleanVar()), ('autopilotwon', _('Autopilot won'), tkinter.BooleanVar()), ('gamefinished', _('Game finished'), tkinter.BooleanVar()), ('gamelost', _('Game lost'), tkinter.BooleanVar()), ('gamewon', _('Game won'), tkinter.BooleanVar()), ('gameperfect', _('Perfect game'), tkinter.BooleanVar()), ('extra', _('Other'), tkinter.BooleanVar()), ] # frame = ttk.Frame(top_frame) frame.pack(expand=True, fill='both', padx=5, pady=5) frame.columnconfigure(1, weight=1) # row = 0 w = ttk.Checkbutton(frame, variable=self.sound, text=_("Sound enabled")) w.grid(row=row, column=0, columnspan=2, sticky='ew') # if os.name == "nt" and pysolsoundserver: row += 1 w = ttk.Checkbutton(frame, variable=self.sound_mode, text=_("Use DirectX for sound playing"), command=self.mOptSoundDirectX) w.grid(row=row, column=0, columnspan=2, sticky='ew') # if app.audio.CAN_PLAY_MUSIC: # and app.startup_opt.sound_mode > 0: row += 1 ttk.Label(frame, text=_('Sample volume:'), anchor='w').grid(row=row, column=0, sticky='ew') w = PysolScale( frame, from_=0, to=128, resolution=1, orient='horizontal', takefocus=0, length="3i", # label=_('Sample volume'), variable=self.sample_volume) w.grid(row=row, column=1, sticky='w', padx=5) row += 1 w = ttk.Checkbutton(frame, variable=self.music, text=_("Music enabled")) w.grid(row=row, column=0, columnspan=2, sticky='ew') row += 1 ttk.Label(frame, text=_('Music volume:'), anchor='w').grid(row=row, column=0, sticky='ew') w = PysolScale( frame, from_=0, to=128, resolution=1, orient='horizontal', takefocus=0, length="3i", # label=_('Music volume'), variable=self.music_volume) w.grid(row=row, column=1, sticky='w', padx=5) else: # remove "Apply" button kw.strings[1] = None # frame = ttk.LabelFrame(top_frame, text=_('Enable samples')) frame.pack(expand=True, fill='both', padx=5, pady=5) frame.columnconfigure(0, weight=1) frame.columnconfigure(1, weight=1) # row = 0 col = 0 for n, t, v in self.samples: v.set(app.opt.sound_samples[n]) w = ttk.Checkbutton(frame, text=t, variable=v) w.grid(row=row, column=col, sticky='ew', padx=3, pady=1) if col == 1: col = 0 row += 1 else: col = 1 # top_frame.columnconfigure(1, weight=1) # focus = self.createButtons(bottom_frame, kw) self.mainloop(focus, kw.timeout)
def _create_widgets(self): """Create a nice GUI using the enhanced widget set provided by the ttk extension to Tkinter, available in Python 2.7 or newer """ #---- create the GUIs insts = ['NIRCam', 'NIRSpec', 'NIRISS', 'MIRI', 'FGS'] self.root = tk.Tk() self.root.geometry('+50+50') self.root.title("James Webb Space Telescope PSF Calculator") frame = ttk.Frame(self.root) #frame = ttk.Frame(self.root, padx=10,pady=10) #ttk.Label(frame, text='James Webb PSF Calculator' ).grid(row=0) #-- star lf = ttk.LabelFrame(frame, text='Source Properties') if _HAS_PYSYNPHOT: self._add_labeled_dropdown("SpType", lf, label=' Spectral Type:', values=poppy.specFromSpectralType( "", return_list=True), default='G0V', width=25, position=(0, 0), sticky='W') ttk.Button(lf, text='Plot spectrum', command=self.ev_plotspectrum).grid(row=0, column=2, sticky='E', columnspan=4) r = 1 fr2 = ttk.Frame(lf) self._add_labeled_entry("source_off_r", fr2, label=' Source Position: r=', value='0.0', width=5, position=(r, 0), sticky='W') self._add_labeled_entry("source_off_theta", fr2, label='arcsec, PA=', value='0', width=3, position=(r, 2), sticky='W') self.vars["source_off_centerpos"] = tk.StringVar() self.vars["source_off_centerpos"].set('corner') ttk.Label(fr2, text='deg, centered on ').grid(row=r, column=4) pixel = ttk.Radiobutton(fr2, text='pixel', variable=self.vars["source_off_centerpos"], value='pixel') pixel.grid(row=r, column=5) corner = ttk.Radiobutton(fr2, text='corner', variable=self.vars["source_off_centerpos"], value='corner') corner.grid(row=r, column=6) fr2.grid(row=r, column=0, columnspan=5, sticky='W') lf.columnconfigure(2, weight=1) lf.grid(row=1, sticky='E,W', padx=10, pady=5) #-- instruments lf = ttk.LabelFrame(frame, text='Instrument Config') notebook = ttk.Notebook(lf) self.widgets['tabset'] = notebook notebook.pack(fill='both') for iname, i in zip(insts, range(len(insts))): page = ttk.Frame(notebook) notebook.add(page, text=iname) notebook.select(i) # make it active self.widgets[notebook.select( )] = iname # save reverse lookup from meaningless widget "name" to string name if iname == 'NIRCam': lframe = ttk.Frame(page) ttk.Label(lframe, text='Configuration Options for ' + iname + ', module: ').grid(row=0, column=0, sticky='W') mname = 'NIRCam module' self.vars[mname] = tk.StringVar() self.widgets[mname] = ttk.Combobox( lframe, textvariable=self.vars[mname], width=2, state='readonly') self.widgets[mname].grid(row=0, column=1, sticky='W') self.widgets[mname]['values'] = ['A', 'B'] self.widgets[mname].set('A') lframe.grid(row=0, columnspan=2, sticky='W') else: ttk.Label(page, text='Configuration Options for ' + iname + " ").grid(row=0, columnspan=2, sticky='W') ttk.Button(page, text='Display Optics', command=self.ev_displayOptics).grid(column=2, row=0, sticky='E', columnspan=3) #if iname != 'TFI': self._add_labeled_dropdown( iname + "_filter", page, label=' Filter:', values=self.instrument[iname].filter_list, default=self.instrument[iname].filter, width=12, position=(1, 0), sticky='W') #else: #ttk.Label(page, text='Etalon wavelength: ' , state='disabled').grid(row=1, column=0, sticky='W') #self.widgets[iname+"_wavelen"] = ttk.Entry(page, width=7) #, disabledforeground="#A0A0A0") #self.widgets[iname+"_wavelen"].insert(0, str(self.instrument[iname].etalon_wavelength)) #self.widgets[iname+"_wavelen"].grid(row=1, column=1, sticky='W') #ttk.Label(page, text=' um' ).grid(row=1, column=2, sticky='W') #self.vars[iname+"_filter"] = tk.StringVar() #self.widgets[iname+"_filter"] = ttk.Combobox(page,textvariable =self.vars[iname+"_filter"], width=10, state='readonly') #self.widgets[iname+"_filter"]['values'] = self.instrument[iname].filter_list #self.widgets[iname+"_filter"].set(self.instrument[iname].filter) #self.widgets[iname+"_filter"]['readonly'] = True #ttk.Label(page, text=' Filter: ' ).grid(row=1, column=0) #self.widgets[iname+"_filter"].grid(row=1, column=1) #if hasattr(self.instrument[iname], 'ifu_wavelength'): if iname == 'NIRSpec' or iname == 'MIRI': fr2 = ttk.Frame(page) #label = 'IFU' if iname !='TFI' else 'TF' ttk.Label(fr2, text=' IFU wavelen: ', state='disabled').grid(row=0, column=0) self.widgets[iname + "_ifu_wavelen"] = ttk.Entry( fr2, width=5) #, disabledforeground="#A0A0A0") self.widgets[iname + "_ifu_wavelen"].insert( 0, str(self.instrument[iname].monochromatic)) self.widgets[iname + "_ifu_wavelen"].grid(row=0, column=1) self.widgets[iname + "_ifu_wavelen"].state(['disabled']) ttk.Label(fr2, text=' um', state='disabled').grid(row=0, column=2) fr2.grid(row=1, column=2, columnspan=6, sticky='E') iname2 = iname + "" # need to make a copy so the following lambda function works right: self.widgets[iname + "_filter"].bind( '<<ComboboxSelected>>', lambda e: self.ev_update_ifu_label(iname2)) if len(self.instrument[iname].image_mask_list) > 0: masks = self.instrument[iname].image_mask_list masks.insert(0, "") self._add_labeled_dropdown(iname + "_coron", page, label=' Coron:', values=masks, width=12, position=(2, 0), sticky='W') #self.vars[iname+"_coron"] = tk.StringVar() #self.widgets[iname+"_coron"] = ttk.Combobox(page,textvariable =self.vars[iname+"_coron"], width=10, state='readonly') #self.widgets[iname+"_coron"]['values'] = masks #ttk.Label(page, text=' Coron: ' ).grid(row=2, column=0) #self.widgets[iname+"_coron"].set(self.widgets[iname+"_coron"]['values'][0]) #self.widgets[iname+"_coron"].grid(row=2, column=1) #fr2 = ttk.Frame(page) #self.vars[iname+"_cor_off_r"] = tk.StringVar() #self.vars[iname+"_cor_off_theta"] = tk.StringVar() #ttk.Label(fr2, text='target offset: r=' ).grid(row=2, column=4) #self.widgets[iname+"_cor_off_r"] = ttk.Entry(fr2,textvariable =self.vars[iname+"_cor_off_r"], width=5) #self.widgets[iname+"_cor_off_r"].insert(0,"0.0") #self.widgets[iname+"_cor_off_r"].grid(row=2, column=5) #ttk.Label(fr2, text='arcsec, PA=' ).grid(row=2, column=6) #self.widgets[iname+"_cor_off_theta"] = ttk.Entry(fr2,textvariable =self.vars[iname+"_cor_off_theta"], width=3) #self.widgets[iname+"_cor_off_theta"].insert(0,"0") #self.widgets[iname+"_cor_off_theta"].grid(row=2, column=7) #ttk.Label(fr2, text='deg' ).grid(row=2, column=8) #fr2.grid(row=2,column=3, sticky='W') if len(self.instrument[iname].image_mask_list) > 0: masks = self.instrument[iname].pupil_mask_list masks.insert(0, "") self._add_labeled_dropdown(iname + "_pupil", page, label=' Pupil:', values=masks, width=12, position=(3, 0), sticky='W') fr2 = ttk.Frame(page) self._add_labeled_entry(iname + "_pupilshift_x", fr2, label=' pupil shift in X:', value='0', width=3, position=(3, 4), sticky='W') self._add_labeled_entry(iname + "_pupilshift_y", fr2, label=' Y:', value='0', width=3, position=(3, 6), sticky='W') ttk.Label(fr2, text='% of pupil').grid(row=3, column=8) fr2.grid(row=3, column=3, sticky='W') ttk.Label(page, text='Configuration Options for the OTE').grid( row=4, columnspan=2, sticky='W') fr2 = ttk.Frame(page) opd_list = self.instrument[iname].opd_list opd_list.insert(0, "Zero OPD (perfect)") #if os.getenv("WEBBPSF_ITM") or 1: if self._enable_opdserver: opd_list.append("OPD from ITM Server") default_opd = self.instrument[iname].pupilopd if self.instrument[ iname].pupilopd is not None else "Zero OPD (perfect)" self._add_labeled_dropdown(iname + "_opd", fr2, label=' OPD File:', values=opd_list, default=default_opd, width=21, position=(0, 0), sticky='W') self._add_labeled_dropdown(iname + "_opd_i", fr2, label=' # ', values=[str(i) for i in range(10)], width=3, position=(0, 2), sticky='W') self.widgets[iname + "_opd_label"] = ttk.Label( fr2, text=' 0 nm RMS ', width=35) self.widgets[iname + "_opd_label"].grid(column=4, sticky='W', row=0) self.widgets[iname + "_opd"].bind( '<<ComboboxSelected>>', lambda e: self.ev_update_OPD_labels()) # The below code does not work, and I can't tell why. This only ever has iname = 'FGS' no matter which instrument. # So instead brute-force it with the above to just update all 5. #lambda e: self.ev_update_OPD_label(self.widgets[iname+"_opd"], self.widgets[iname+"_opd_label"], iname) ) ttk.Button(fr2, text='Display', command=self.ev_displayOPD).grid(column=5, sticky='E', row=0) fr2.grid(row=5, column=0, columnspan=4, sticky='S') # ITM interface here - build the widgets now but they will be hidden by default until the ITM option is selected fr2 = ttk.Frame(page) self._add_labeled_entry(iname + "_coords", fr2, label=' Source location:', value='0, 0', width=12, position=(1, 0), sticky='W') units_list = ['V1,V2 coords', 'detector pixels'] self._add_labeled_dropdown(iname + "_coord_units", fr2, label='in:', values=units_list, default=units_list[0], width=11, position=(1, 2), sticky='W') choose_list = [ '', 'SI center', 'SI upper left corner', 'SI upper right corner', 'SI lower left corner', 'SI lower right corner' ] self._add_labeled_dropdown(iname + "_coord_choose", fr2, label='or select:', values=choose_list, default=choose_list[0], width=21, position=(1, 4), sticky='W') ttk.Label(fr2, text=' ITM output:').grid(row=2, column=0, sticky='W') self.widgets[iname + "_itm_output"] = ttk.Label( fr2, text=' - no file available yet -') self.widgets[iname + "_itm_output"].grid(row=2, column=1, columnspan=4, sticky='W') ttk.Button(fr2, text='Access ITM...', command=self.ev_launch_ITM_dialog).grid(column=5, sticky='E', row=2) fr2.grid(row=6, column=0, columnspan=4, sticky='SW') self.widgets[iname + "_itm_coords"] = fr2 self.ev_update_OPD_labels() lf.grid(row=2, sticky='E,W', padx=10, pady=5) notebook.select(0) lf = ttk.LabelFrame(frame, text='Calculation Options') r = 0 self._add_labeled_entry('FOV', lf, label='Field of View:', width=3, value='5', postlabel='arcsec/side', position=(r, 0)) r += 1 self._add_labeled_entry( 'detector_oversampling', lf, label='Output Oversampling:', width=3, value='2', postlabel='x finer than instrument pixels ', position=(r, 0)) #self.vars['downsamp'] = tk.BooleanVar() #self.vars['downsamp'].set(True) #self.widgets['downsamp'] = ttk.Checkbutton(lf, text='Save in instr. pixel scale, too?', onvalue=True, offvalue=False,variable=self.vars['downsamp']) #self.widgets['downsamp'].grid(row=r, column=4, sticky='E') output_options = [ 'Oversampled PSF only', 'Oversampled + Detector Res. PSFs', 'Mock full image from JWST DMS' ] self._add_labeled_dropdown("output_type", fr2, label='Output format:', values=output_options, default=output_options[1], width=31, position=(r, 4), sticky='W') r += 1 self._add_labeled_entry('fft_oversampling', lf, label='Coronagraph FFT Oversampling:', width=3, value='2', postlabel='x finer than Nyquist', position=(r, 0)) r += 1 self._add_labeled_entry('nlambda', lf, label='# of wavelengths:', width=3, value='', position=(r, 0), postlabel='Leave blank for autoselect') r += 1 self._add_labeled_dropdown("jitter", lf, label='Jitter model:', values=[ 'Just use OPDs', 'Gaussian - 7 mas rms', 'Gaussian - 30 mas rms' ], width=20, position=(r, 0), sticky='W', columnspan=2) r += 1 self._add_labeled_dropdown("output_format", lf, label='Output Format:', values=[ 'Oversampled image', 'Detector sampled image', 'Both as FITS extensions', 'Mock JWST DMS Output' ], width=30, position=(r, 0), sticky='W', columnspan=2) #self._add_labeled_dropdown("jitter", lf, label='Jitter model:', values= ['Just use OPDs', 'Gaussian blur', 'Accurate yet SLOW grid'], width=20, position=(r,0), sticky='W', columnspan=2) lf.grid(row=4, sticky='E,W', padx=10, pady=5) lf = ttk.Frame(frame) def addbutton(self, lf, text, command, pos, disabled=False): self.widgets[text] = ttk.Button(lf, text=text, command=command) self.widgets[text].grid(column=pos, row=0, sticky='E') if disabled: self.widgets[text].state(['disabled']) addbutton(self, lf, 'Compute PSF', self.ev_calc_psf, 0) addbutton(self, lf, 'Display PSF', self.ev_displayPSF, 1, disabled=True) addbutton(self, lf, 'Display profiles', self.ev_displayProfiles, 2, disabled=True) addbutton(self, lf, 'Save PSF As...', self.ev_SaveAs, 3, disabled=True) addbutton(self, lf, 'More options...', self.ev_options, 4, disabled=False) ttk.Button(lf, text='Quit', command=self.quit).grid(column=5, row=0) lf.columnconfigure(2, weight=1) lf.columnconfigure(4, weight=1) lf.grid(row=5, sticky='E,W', padx=10, pady=15) frame.grid(row=0, sticky='N,E,S,W') frame.columnconfigure(0, weight=1) frame.rowconfigure(0, weight=1) self.root.columnconfigure(0, weight=1) self.root.rowconfigure(0, weight=1)
def __init__(self, parent, title, app, gameid, bookmark=None, **kw): kw = self.initKw(kw) MfxDialog.__init__(self, parent, title, kw.resizable, kw.default) top_frame, bottom_frame = self.createFrames(kw) self.createBitmaps(top_frame, kw) # self.app = app self.gameid = gameid self.bookmark = bookmark self.random = None if self.TreeDataHolder_Class.data is None: self.TreeDataHolder_Class.data = self.TreeData_Class(app) # sw = self.top.winfo_screenwidth() sh = self.top.winfo_screenheight() h = int(sh * .8) w = int(sw * .8) w1 = int(min(275, sw / 2.5)) geometry = ("%dx%d+%d+%d" % (w, h, (sw - w) / 2, (sh - h) / 2)) self.top.wm_minsize(400, 200) # print sw, w1, w2 # w2 = max(200, min(w2, 10 + 12 * (app.subsampled_images.CARDW + 10))) # print sw, w1, w2 # padx, pady = kw.padx, kw.pady # padx, pady = kw.padx/2, kw.pady/2 padx, pady = 4, 4 # PanedWindow paned_window = ttk.PanedWindow(top_frame, orient='horizontal') paned_window.pack(expand=True, fill='both', padx=8, pady=8) left_frame = ttk.Frame(paned_window) right_frame = ttk.Frame(paned_window) paned_window.add(left_frame) paned_window.add(right_frame) notebook = ttk.Notebook(left_frame) notebook.pack(expand=True, fill='both') tree_frame = ttk.Frame(notebook) notebook.add(tree_frame, text=_('Tree View')) search_frame = ttk.Frame(notebook) notebook.add(search_frame, text=_('Search')) # Tree font = app.getFont("default") self.tree = self.Tree_Class(self, tree_frame, key=gameid, default=kw.default, font=font, width=w1) self.tree.frame.pack(padx=padx, pady=pady, expand=True, fill='both') # Search searchText = tkinter.StringVar() self.list_searchlabel = tkinter.Label(search_frame, text="Search:", justify='left', anchor='w') self.list_searchlabel.pack(side="top", fill='both', ipadx=1) self.list_searchtext = tkinter.Entry(search_frame, textvariable=searchText) self.list_searchtext.pack(side="top", fill='both', padx=padx, pady=pady, ipadx=1) searchText.trace('w', self.performSearch) self.list_scrollbar = tkinter.Scrollbar(search_frame) self.list_scrollbar.pack(side="right", fill='both') self.createBitmaps(search_frame, kw) self.list = tkinter.Listbox(search_frame, exportselection=False) self.list.pack(padx=padx, pady=pady, expand=True, side='left', fill='both', ipadx=1) self.updateSearchList("") bind(self.list, '<<ListboxSelect>>', self.selectSearchResult) bind(self.list, '<FocusOut>', lambda e: self.list.selection_clear(0, 'end')) self.list.config(yscrollcommand=self.list_scrollbar.set) self.list_scrollbar.config(command=self.list.yview) # LabelFrame info_frame = ttk.LabelFrame(right_frame, text=_('About game')) info_frame.grid(row=0, column=0, padx=padx, pady=pady, ipadx=4, ipady=4, sticky='nws') stats_frame = ttk.LabelFrame(right_frame, text=_('Statistics')) stats_frame.grid(row=0, column=1, padx=padx, pady=pady, ipadx=4, ipady=4, sticky='nws') # Info self.info_labels = {} for n, t, f, row in ( ('name', _('Name:'), info_frame, 0), ('altnames', _('Alternate names:'), info_frame, 1), ('category', _('Category:'), info_frame, 2), ('type', _('Type:'), info_frame, 3), ('skill_level', _('Skill level:'), info_frame, 4), ('decks', _('Decks:'), info_frame, 5), ('redeals', _('Redeals:'), info_frame, 6), # ('played', _('Played:'), stats_frame, 0), ('won', _('Won:'), stats_frame, 1), ('lost', _('Lost:'), stats_frame, 2), ('time', _('Playing time:'), stats_frame, 3), ('moves', _('Moves:'), stats_frame, 4), ('percent', _('% won:'), stats_frame, 5), ): title_label = ttk.Label(f, text=t, justify='left', anchor='w') title_label.grid(row=row, column=0, sticky='nw', padx=4) text_label = ttk.Label(f, justify='left', anchor='w') text_label.grid(row=row, column=1, sticky='nw', padx=4) self.info_labels[n] = (title_label, text_label) # info_frame.columnconfigure(1, weight=1) info_frame.rowconfigure(6, weight=1) stats_frame.rowconfigure(6, weight=1) # Canvas self.preview = MfxScrolledCanvas(right_frame) self.preview.setTile(app, app.tabletile_index, force=True) self.preview.grid(row=1, column=0, columnspan=3, padx=padx, pady=pady, sticky='nsew') right_frame.columnconfigure(1, weight=1) right_frame.rowconfigure(1, weight=1) # focus = self.createButtons(bottom_frame, kw) # set the scale factor self.preview.canvas.preview = 2 # create a preview of the current game self.preview_key = -1 self.preview_game = None self.preview_app = None self.updatePreview(gameid, animations=0) # focus = self.tree.frame self.mainloop(focus, kw.timeout, geometry=geometry)