def create_settings_window(settings): sg.theme(settings['color_theme']) def TextLabel(text): return sg.Text(text+':', justification='r', size=(25,1)) layout = [ [sg.Text('Settings', font=('Work Sans', 12))], [TextLabel('Track Hedge Address(es)'),sg.Input(key='-ADDR-')], [TextLabel('Coordinate System'), sg.Combo(COORD_SYS_CHOICES, key='-COORD_SYS-')], [TextLabel('Units'), sg.Combo(UNITS_CHOICES, key='-UNITS-')], [TextLabel('Precision'), sg.Combo(PREC_CHOICES, key='-PREC-')], [TextLabel('Refresh Rate (ms)'), sg.Input(key='-FREQ-')], [TextLabel('Logfile Folder'),sg.Input(key='-LOGDIR-'), sg.FolderBrowse(target='-LOGDIR-')], [TextLabel('Number of position values to average'),sg.Input(key='-NUMLINES-')], [TextLabel('Time until log considered stale (ms)'), sg.Input(key='-ALLOW_DELTA_T-')], [TextLabel('Color Theme'),sg.Combo(sg.theme_list(), key='-THEME-')], [sg.Button('Save'), sg.Button('Restore Defaults'), sg.Button('Exit')] ] window = sg.Window('Settings', layout, keep_on_top=True, finalize=True) for key in SETTINGS_KEYS_TO_ELEMENT_KEYS: # update window with the values read from settings file try: window[SETTINGS_KEYS_TO_ELEMENT_KEYS[key]].update(value=settings[key]) except Exception as e: print(f'Problem updating PySimpleGUI window from settings. Key = {key}') return window
def init_gui(): global window global adapters global values sg.theme("Reddit") layout_frame = [ [sg.Checkbox("DHCP", key="DHCP", enable_events=True)], [sg.Text("")], [sg.Text("IP: ", size=(15, 1)), sg.Input(size=(15, 1), key="IP")], [sg.Text("Sub: ", size=(15, 1)), sg.Input(size=(15, 1), key="SUB")], [ sg.Text("Gateway: ", size=(15, 1)), sg.Input(size=(15, 1), key="GATE") ], ] layout = [[ sg.Combo(adapters, enable_events=True, key="DROP", readonly=True), ], [ sg.Frame( "Network", layout_frame, ), ], [sg.Button("Update", size=(15, 1), key="UPDATE")]] window = sg.Window("IP", layout, icon="favicon.png") window.read(1) update_text(window, 0)
def getInputOutputWindow(titletext="Select File"): layout = [[sg.Text('Input File')], [sg.Input(), sg.FileBrowse(initial_folder=home)], [sg.Text('Output File')], [sg.Input(), sg.FileSaveAs(initial_folder=home)], [sg.OK(), sg.Cancel()]] window = sg.Window(titletext, layout) event, values = window.Read() return event, values
def rclonewindow(): layout = [[sg.Text("What is the Drive you want to access?")], [sg.Input("Drive")], [sg.Text("What is the folder you want to see?")], [sg.Input()], [sg.Cancel(), sg.OK()]] window = sg.Window("rclone", layout=layout) event, values = window.Read() window.Close() return event, values
def build_ext_window(self): self.layout = self.build_basic_layout() for param, param_info in self.effect_params.items(): if param in ['self', 'area']: continue if param_info.annotation is Color: self.layout.extend([[sg.Text(param)], [ sg.Input(visible=False, enable_events=True, key=f'COLOR_{param}'), sg.ColorChooserButton( 'Pick a color', key=f'COLOR_{param}_btn', target=f'COLOR_{param}') ]]) elif param_info.annotation is List[Color]: self.layout.extend([[sg.Text(param)]]) for i in range(8): self.layout.extend( [[ sg.Input(visible=False, enable_events=True, key=f'COLOR_LIST_{i}_{param}') ], [ sg.ColorChooserButton( 'Pick a color', key=f'COLOR_LIST_{i}_{param}_btn', target=f'COLOR_LIST_{i}_{param}') ]]) else: self.layout.extend([[ sg.Text(param) ], [sg.InputText(key=param, default_text=param_info.default)]]) self.layout.extend( [[sg.Button('Run', key='RUN')], [sg.Button('Stop', key='STOP', visible=False)], [sg.Button('Save as default', key='SAVE', visible=True)], [ sg.Button('Load defaults', key='LOAD', visible=self.has_defaults) ], [ sg.Text('Waiting for the effect thread to stop...', justification='center', key='STOP_TXT', visible=False), sg.Input(visible=False, enable_events=True, key='THREAD_STOPPED') ]]) self.window = sg.Window('Mystic Why', self.layout, finalize=True)
def gui_select_tracks(tracks: List[dict], start_time: int, config: dict) -> dict: chataigne_path_cfg = config.get("chataigneProjectPath") if not chataigne_path_cfg: chataigne_path_cfg = "" start_time_cfg = config.get("startTime") if not start_time_cfg: start_time_cfg = start_time tracks_cfg = config.get("tracks") if tracks_cfg is None: tracks_cfg = {} layout = [[sg.Text('Chataigne base project:')], [sg.Input(chataigne_path_cfg, key='-CH_PATH-'), sg.FileBrowse()], [sg.Text('Start time'), sg.Input(default_text=start_time_cfg, key='-START_TIME-')], [sg.Text('Select tracks, DMX channel')]] for i, track in enumerate(tracks): track_cfg = tracks_cfg.get(track["name"]) if track_cfg is None: include = False dmx = None else: include = track_cfg["include"] dmx = track_cfg["dmx"] if dmx is None: dmx = "" layout.append( [sg.Checkbox(track["name"], default=include, key=f"-TRACK_{i}-"), sg.Input(dmx, key=f"-DMX_{i}-")]) layout.append([sg.Submit("Convert selected tracks!", bind_return_key=True)]) window = sg.Window('Select DMX tracks', layout) event, values = window.read() window.close() if event == None: exit() start_time_cfg = re.sub('[^0-9]', '', values["-START_TIME-"]) start_time_cfg = int(start_time_cfg) if start_time_cfg else start_time config = {"chataigneProjectPath": values["-CH_PATH-"], "startTime": start_time_cfg, "tracks": {}} for i, track in enumerate(tracks): checked = values[f'-TRACK_{i}-'] dmx = re.sub('[^0-9]', '', values[f'-DMX_{i}-']) dmx = int(dmx) if dmx else None config["tracks"][track["name"]] = {"include": checked, "dmx": dmx} return config
def start_dialog(): left_frame = [[sg.Image(filename='', key='_IMAGE_')]] right_frame = [[sg.Image(filename='', key='_PERSON_')], [sg.Text("Who is it?")], [sg.Input()], [sg.Button('Capture')], [sg.Button('Quit')]] layout = [[sg.Frame("", left_frame), sg.Frame("", right_frame)]] window = sg.Window('Face recognition training centre', layout) cap = cv2.VideoCapture(0) ret, frame = cap.read() mirror = flipHorizontal = cv2.flip(frame, 1) while True: event, values = window.Read(timeout=20, timeout_key='timeout') if event is None or event == 'Quit': break if event == 'Capture': person_name = values[0] if person_name is not None and person_name != "": process_image(person_name, frame) ret, frame = cap.read() mirror = flipHorizontal = cv2.flip(frame, 1) imgbytes = cv2.imencode('.png', mirror)[1].tobytes() window.FindElement('_IMAGE_').Update(data=imgbytes) person_img = get_first_face(mirror, 200, 200) if person_img is not None: imgbytes = cv2.imencode('.png', person_img)[1].tobytes() window.FindElement('_PERSON_').Update(data=imgbytes) window.close() cap.release()
def main(): # Define theme for the GUI sg.theme('Light Grey 1') # Create a list of all of the accounts in the userdata file. account_names = userdata.get_names() # Define the icon in base64 format - this is the FontAwesome arrows-alt icon. # Create a column for the account list and the post GUI. acct_col = [[sg.Text('Select accounts to post to:')], [sg.Listbox(values=account_names, size=(20, 12))]] post_col = [[sg.Text('Subject/Content Warning (leave blank for none)')], [sg.Input(size=(50, 1))], [sg.Text("What's on your mind?")], [sg.Multiline(size=(50, 15))], [ sg.Text(justification='right', key='-CHARS-', margins=(10, 10, 10, 10)), sg.Button("Post!", size=(10, 1)) ]] # Combine both columns in one layout, and define the layout in the main window. layout = [[sg.Column(acct_col), sg.Column(post_col)]] window = sg.Window('Cross - A Mastodon/Hubzilla cross-poster', layout, icon=common.fa_arrows) # Start an loop that watches for window events and post length. while True: # This will update the post length counter every 20 milliseconds if I'm understanding correctly. # And, of course, will also do the event listening and monitor the values of the different items. event, values = window.read(timeout=20) if event in (None, 'Post!'): if event == 'Post!': # If we get here, the user pressed the post button. # Let's do a few sanity checks - first, let's make sure an account was selected to post to. if not values[0]: # If we're here, no accounts were selected. sg.popup_ok( "You didn't select any accounts!\n" "Try selecting an account before posting.\n", title="Error making post", icon=common.fa_arrows) # Next, let's make sure they actually wrote a post. elif values[2] == "": # They didn't actually write a post. Error out and let them know why. sg.popup_ok( "You didn't actually write a post, silly!\n" "Try writing one first.", title="Error making post", icon=common.fa_arrows) # We /should/ be good to continue at this point. else: userdata.post_sel_accts(values[0], values[1], values[2]) # And once we get here, we're done! Print a thank-you message in the console, break, and exit. print() print("Done! Thank you for using Cross.") # We've either finished posting or the user closed the window. Either way, let's break. break # If we get here, we're not breaking or posting, so update the post length counter with # the combined length of the subject/content warning and the post. window['-CHARS-'].update(str(len(values[1]) + len(values[2]))) window.close()
def test2(): layout = [[sg.Text('请输入用户名和密码',text_color='blue', background_color='green')], [sg.Image(filename="/Users/netbox-wangdong/Downloads/logo-srap.png")], [sg.Input(default_text="请输入账号",background_color='yellow',text_color='blue')], [sg.Input(default_text="请输入密码",password_char='*')], [sg.Button('登录',size=(5,2),button_color=('red','yellow'),visible=True,tooltip="click me" ), sg.Button("退出",size=(5,1))]] window = sg.Window('pyRoboartIM登录窗口', layout,location=(500,100)) while True: event, values = window.Read() if event is None or event == 'Exit': break print(event, values) window.Close()
def getInputWindow(titletext="Inputfile"): layout = [[sg.Text("Select a file to convert:")], [sg.Input(), sg.FileBrowse("Select File", initial_folder=home)], [sg.OK(), sg.Cancel()]] window = sg.Window(titletext, layout) event, values = window.Read() window.Close() return event, values
def getOutputWindow(titletext="Outputfile", prefill=""): layout = [[sg.Text("Where should it be saved?")], [ sg.Text("Save under:"), sg.Input(), sg.FileSaveAs(initial_folder=prefill) ], [sg.OK(), sg.Cancel()]] window = sg.Window(titletext, layout) event, values = window.Read() window.Close() return event, values
def getFolderInputWindow(titletext="Inputfolder", initial_folder=home): layout = [[sg.Text("Select a folder:")], [ sg.Input(), sg.FolderBrowse("Select Folder", initial_folder=initial_folder) ], [sg.OK(), sg.Cancel()]] window = sg.Window(titletext, layout) event, values = window.Read() window.Close() return event, values
def layout(self): # fmt: off self.img = psg.Image(filename=None) return [ [self.img], [ psg.Text(self.cfg.uie.eval_text), psg.Input(key=self.cfg.uie.eval_key), psg.FileBrowse(self.cfg.uie.browse_btn, file_types=self.cfg.uie.allowed_files) ], [ psg.Text(self.cfg.uie.gt_text), psg.Input(key=self.cfg.uie.gt_key), psg.FileBrowse(self.cfg.uie.browse_btn, file_types=self.cfg.uie.allowed_files) ], [psg.Button(cfg.uie.eval_btn)], ]
def settings_gui(self, setting): layout = [ [g.T(setting[0].upper() + setting[1:], font=('Arial', 15))] ] count = 0 col1 = [] col2 = [] col3 = [] col4 = [] for k, v in self.parser.current_settings[setting].items(): if count == 0: col1.append([ g.T(str(k[0].upper() + k[1:].lower().replace('_', ' '))), g.Input(str(v.replace('\n', '')), key=k) ]) count += 1 elif count == 1: col2.append([ g.T(str(k[0].upper() + k[1:].lower().replace('_', ' '))), g.Input(str(v.replace('\n', '')), key=k) ]) count += 1 elif count == 2: col3.append([ g.T(str(k[0].upper() + k[1:].lower().replace('_', ' '))), g.Input(str(v.replace('\n', '')), key=k) ]) count = 0 layout.append([ g.Column(col1), g.Column(col2), g.Column(col3) ]) layout.append([ g.Button('Back'), g.B('Save') ]) window = g.Window(setting[0].upper() + setting[1:], no_titlebar=True, grab_anywhere=True, keep_on_top=True, layout=layout) while True: event, values = window.Read() if event == 'Back': window.Close() self.first_menu() if event == 'Save': self.parser.update_settings(setting, values) # runCharlatano()
def gui_ltp_path(last_ltp_path): layout = [[sg.Text('Lighttoys project:')], [sg.Input(last_ltp_path, key='-PATH-'), sg.FileBrowse()], [sg.Submit('Next', bind_return_key=True)]] window = sg.Window('Select project', layout) event, values = window.read() window.close() if event == None: exit() path = values['-PATH-'] return path
def __init__(self): layout = [[sg.Text('Enter Text')], [sg.Input(size=(17, 1), key='input1', do_not_clear=True)], [ sg.InputText(size=(17, 1), key='input2', do_not_clear=True) ], [sg.Button('on-screen keyboard', key='keyboard')], [sg.Button('close', key='close')]] self.mainWindow = sg.Window( 'On-screen test', grab_anywhere=True, no_titlebar=False, ).Layout(layout).Finalize() self.keyboard = keyboard() self.focus = None
def statusMenu(): if os.path.exists(CONF_PATH) == True: config = ConfigParser() config.read(CONF_PATH) devId = config['DEVICE']['model'] else: devId = '' layout = [[p.T('Enter Device Identifier [ex: iPhone8,1]: ')], [p.Input(devId, key='_DEVID_', do_not_clear=True)], [ p.Image(data_base64=Images.close_b, click_submits=True, key='Close'), p.Image(data_base64=Images.start_b, click_submits=True, key='Start') ]] lmao = p.Window('Sushi Status', no_titlebar=True, keep_on_top=True, grab_anywhere=True).Layout(layout) while True: event, values = lmao.Read() if event == 'Start': devId = values['_DEVID_'] signed = getSignedFirmwares(devId) p.Window( 'Signed Firmwares', keep_on_top=True, grab_anywhere=True, no_titlebar=True, auto_close=True, auto_close_duration=5).Layout([[ p.T('Signed Firmwares:' + signed, justification='center') ]], ).Read() elif event == 'Close': break lmao.Close()
def __init__(self, ConsoleWinName="Default Name"): psg.theme("BtrConsole") print( f"Better Console by ultraflame42 [Version-{v}]\nGithub:{github}\n\n" ) layout = [[ psg.Text("Filters:", size=(17, 0.7)), psg.Button("Normal", size=(17, 0.7)), psg.Button("Debug", size=(17, 0.7)), psg.Button("Info", size=(17, 0.7)), psg.Button("Warning", size=(17, 0.7)), psg.Button("Error", size=(17, 0.7)), psg.Button("Critical", size=(17, 0.7)) ], [psg.Multiline(size=(180, 40), font=("Courier", 10), key='-Out-')], [ psg.Button(">>>", size=(4, 1), bind_return_key=True), psg.Input(size=(175.6, 1), do_not_clear=False, key="-In-") ]] self.win = psg.Window( f" {ConsoleWinName} - [Better Console <version: {v}> by ultraflame42 ]", layout, return_keyboard_events=True, ) self.consoleOutputText = '' self.GlobalLineCounter = 0 self.inputHistoryHandler = inputHistoryHandler(self.win) self.FilterButtonController = FilterButtonsController() self.commandHandler = CommandsHandler() print( "Finished Initialization. Please wait... Better Console window will show up shortly..." ) self.win.read(timeout=10) self.FilterButtonController._start(self.win)
def __init__(self, core: CoreBI): self.core = core layout = [[ sg.Text('', key=self.msgKey, size=(20, 1), auto_size_text=True, font=(self.font, 20), justification='center') ], [ sg.Text('Current time: '), sg.Text('', key=self.currentTimeKey, size=(20, 1)) ], [ sg.Text('Full time: '), sg.Input(self.core.getSetting("timer_time"), key=self.durationKey, tooltip=f"in the format {self.durationFormat}", enable_events=True), sg.Button('Set', button_color=('white', '#FF8800'), bind_return_key=True) ], [ sg.Button('Start', button_color=('white', '#00FF00')), sg.Button('Stop', button_color=('white', '#FF0000')), sg.Button('Reset', button_color=('white', '#FF8800')) ], [sg.Quit()]] self.window = sg.Window(title='Simple Clock', layout=layout, keep_on_top=self.core.keepOnTop, icon=get_abs_path("icon-play.png")) # , icon=) self.normalFontColor = self.window[self.currentTimeKey].TextColor self.run_window_loop()
def the_gui(): """Starts and executes the GUI Returns when the user exits / closes the window """ ffmpeg_path = Path('ffmpeg_hevc.exe') settings_path = Path("settings.json") presets = { 0: "placebo", 1: "placebo", 2: "placebo", 3: "placebo", 4: "veryslow", 5: "slower", 6: "slow", 7: "medium", 8: "fast", 9: "faster", 10: "veryfast", 11: "superfast", 12: "ultrafast" } # queue used to communicate between the gui and the threads gui_queue = queue.Queue() encode_queue = queue.Queue() encode_list = [] encode_event = queue.Queue( ) # queue for handling when encodes finish and start # Define default settings to make it possible to generate settings.json settings = {"settings": {"theme": "Default1"}} status_deque = deque(maxlen=1) # deque for handling the status bar element check_paths(ffmpeg_path, gui_queue) # Load settings from json if it exist if settings_path.exists(): with settings_path.open() as file: settings = json.load(file) sg.change_look_and_feel(settings["settings"]["theme"]) else: print("Could not find settings.json") write_settings(settings_path, settings) tooltips = { # ENCODE "tune": "0 = visual quality, 1 = psnr/ssim, 2 = vmaf", "preset": "Trades speed for quality and compression.\n'Veryfast' and up only works for 1080p or higher, while 'ultrafast' and 'superfast' is 4k and higher only.\nYou might have a file that is just a few pixels away fitting 1080p, and you will be limited to the 'faster' preset or slower\nBest to stay around medium unless you have a godly pc/trash pc", "drc": "Enables variable bitrate. Lets the encoder vary the targeted quality. \nIf you are unsure, leave it off", "qmin": "Minimum quality level in DRC mode. Must be lower than qmax", "qmax": "Maximum quality level in DRC mode. Must be higher than qmin", "qp": "The quality the encoder will target. Lower values result in higher quality, but much larger filesize. \nUsually stay around 20 for h.264 content, but can often go lower for mpeg2 content. Recommend 22 or 23 for 1080p with high bitrate. \nExperiment with quality by enabling test encode!", # FILTERS "sharpen": "How much to sharpen the image with unsharp, with a moderate impact to encode speed. \nIt is usually a good idea to sharpen the image a bit when transcoding. I recommend about 0.2 to 0.3", # AUDIO "skip_audio": "Enable to skip all audio tracks. Disable to passthrough audio", # BUTTONS "pause_queue": "Once the queue is paused the current job will finish, but the next job will not be started.", "start_encode": "Add job to queue, start it if no encode is currently running.", # MISC "test_encode": "Only encode part of the video. Lets you compare quality of encode to source, and estimate filesize. \nSpecify how many frames, usually 1000 is enough" } params = { "input": "", "output": "", "skip_audio": "", "qp": 20, "subtitles": False, "enable_filters": "-vf", "drc": 0, "qmin": 19, "qmax": 21, "sharpen_mode": "", "crop": "", "tune": 0, "preset": 7, "test_encode": "", "n_frames": "1000", "start_time": "00:00:00.000", "end_time": "", } old_params = params.copy() video_metadata = { "contains_video": False, "frame_count": None, "size": None, "fps": None, "duration": None, "width": None, "height": None, } menu_def = [['&Settings', ['&Themes', '!&Preferences', '---', 'E&xit']], ['&Presets', ['!&Save preset', '---', '!Preset1']]] drc_col = [ [ sg.Checkbox("Dynamic rate control", key="-DRC-", enable_events=True, tooltip=tooltips["drc"]) ], [ sg.Text("minQP", size=(5, 1), tooltip=tooltips["qmin"]), sg.Spin([i for i in range(1, 51)], initial_value=params["qmin"], key="-QMIN-", size=(5, 1), enable_events=True, disabled=True, tooltip=tooltips["qmin"]), sg.Text("maxQP", size=(5, 1), tooltip=tooltips["qmax"]), sg.Spin([i for i in range(1, 51)], initial_value=params["qmax"], key="-QMAX-", size=(5, 1), enable_events=True, disabled=True, tooltip=tooltips["qmax"]), ], ] encoding_col = [ [ sg.Column([ [sg.Text("Quality", tooltip=tooltips["qp"])], [ sg.Text("QP", size=(2, 1)), sg.Spin([i for i in range(1, 51)], initial_value=params["qp"], key="-QP-", size=(5, 1), enable_events=True, tooltip=tooltips["qp"]) ], ]), sg.VerticalSeparator(), sg.Column(drc_col), sg.VerticalSeparator(), sg.Column([[ sg.Text("Preset (medium)", size=(10, 1), key="-PRESET_TEXT-", tooltip=tooltips["preset"]) ], [ sg.Slider(range=(0, 12), default_value=7, orientation="horizontal", key="-PRESET-", enable_events=True, tooltip=tooltips["preset"]) ]]), # sg.Column([[sg.Text("Tune", size=(5, 1), tooltip=tooltips["tune"])], [sg.DropDown([0, 1, 2], default_value=0, key="-TUNE-", enable_events=True, tooltip=tooltips["tune"])]]) # Tune is no longer an option ], ] audio_col = [[ sg.Checkbox("Skip audio", key="-AUDIO-", enable_events=True, default=False, tooltip=tooltips["skip_audio"]) ]] def range_with_floats(start, stop, step): """Func for generating a range of decimals""" while stop > start: yield round( start, 2) # adding round() to our function and rounding to 2 digits start += step filter_col = [[ sg.Checkbox("Sharpen", key="-SHARP_CONTROL-", size=(8, 1), enable_events=True, tooltip=tooltips["sharpen"]), sg.Spin([i for i in range_with_floats(-1.50, 1.50, 0.05)], key="-SHARPEN-", initial_value=0.25, size=(6, 1), enable_events=True, disabled=True, tooltip=tooltips["sharpen"]) ]] video_col = [[ sg.T("Resolution"), sg.Input(default_text="WDxHG", disabled=True, key="-RESOLUTION-"), sg.T("Crop"), sg.Input(key="-CROP-", enable_events=True), sg.Button("Autocrop") ]] layout = [ [sg.Menu(menu_def)], [sg.Text("Browse or drag n drop video file")], [ sg.Text("Input"), sg.Input(key="-INPUT-", enable_events=True), sg.FileBrowse(enable_events=True) ], # [ sg.Text("Output"), sg.Input(key="-OUTPUT-", enable_events=True), sg.SaveAs(enable_events=True) ], [sg.Frame("Encode options", encoding_col)], [ sg.Frame("Audio options", audio_col), sg.Frame("Filters", filter_col) ], [sg.Frame("Video", video_col)], [ sg.Frame("Misc", [[ sg.Checkbox("Test encode (n frames)", size=(16, 1), key="-TEST_ENCODE-", enable_events=True, tooltip=tooltips["test_encode"]), sg.Input(default_text=params["n_frames"], size=(5, 1), enable_events=True, key="-TEST_FRAMES-", disabled=True, tooltip=tooltips["test_encode"]) ], [ sg.T("Start time", size=(7, 1)), sg.Input(default_text=params["start_time"], enable_events=True, key="-START_TIME-", size=(9, 1), tooltip="Start timestamp"), sg.T("End time", size=(6, 1)), sg.Input(default_text="00:00:00.000", enable_events=True, key="-END_TIME-", size=(9, 1), tooltip="End timestamp") ]]) ], # [sg.Frame("Command", [[sg.Column([[sg.Multiline(key="-COMMAND-", size=(60, 3))]])]])], [ sg.Frame("Queue", [[ sg.Column([[sg.Listbox(values=[], key="-QUEUE_DISPLAY-")], [ sg.Button("Remove task", size=(15, 1)), sg.Button("UP", size=(7, 1)), sg.Button("DOWN", size=(7, 1)) ]]) ]]) ], [ sg.Button("Start encode / add to queue", key="Start encode", size=(20, 1), tooltip=tooltips["start_encode"]), sg.Button("Stop encode", size=(20, 1)), sg.Button("Pause queue", key="Pause queue", size=(20, 1), tooltip=tooltips["pause_queue"]) ], [sg.T("", key="-STATUS_BOX-")], [sg.Output()], # Disable this line to get output to the console # [sg.ProgressBar(100, key="-PROGRESSBAR-")], [sg.Button('Exit')], ] window = sg.Window('SVT_GUI', layout) encoder = threading.Thread(target=encode_thread, args=(encode_queue, gui_queue, status_deque, encode_event), daemon=True) try: encoder.start() except Exception as e: print('Error starting work thread. Bad input?\n ' + str(e)) encode_queue_active.set() # Start active # progressbar = window["-PROGRESSBAR-"] def update_command(): window["-COMMAND-"].update(' '.join(format_command())) def format_command(): input_text = "" output_text = "" if params["input"] != "": input_path = Path(params["input"]) input_text = str(input_path) if params["output"] != "": output_path = Path(params["output"]) output_text = str(output_path) enable_filters = params[ "enable_filters"] if params["sharpen_mode"] != "" or params[ "crop"] else "" # todo: Add check for each filter here filters = ",".join( filter(None, [params["sharpen_mode"], params["crop"]])) print("filters: " + (filters if filters else "None")) n_frames = params["n_frames"] if params[ "test_encode"] != "" else "" # Disable vframes number if we dont want to do test encode # Filter list before return to remove empty strings return list( filter(None, [ "-i", input_text, "-y", "-ss", params["start_time"], ("-to" if params["end_time"] else ""), params["end_time"], "-sn", params["skip_audio"], "-map", "0", enable_filters, filters, "-c:v", "libsvt_hevc", params["test_encode"], n_frames, "-rc", str(params["drc"]), "-qmin", str(params["qmin"]), "-qmax", str(params["qmax"]), "-qp", str(params["qp"]), "-preset", str(params["preset"]), output_text ])) def toggle_queue(): if encode_queue_active.is_set(): encode_queue_active.clear() window.Element("Pause queue").update("Unpause Queue") else: encode_queue_active.set() window.Element("Pause queue").update("Pause Queue") def pause_queue(): if encode_queue_active.is_set(): encode_queue_active.clear() window.Element("Pause queue").update("Unpause Queue") def autocrop(): try: # TODO: If the video is shorter than around 16 seconds we might not get any crop values because of the low framerate and start time start_time = int( (video_metadata["duration"] / 4) / 1000) # Start detecting crop at 1/4 of the video duration command = [ ffmpeg_path.absolute().as_posix(), "-ss", str(start_time), "-i", str(Path(params["input"])), "-t", "01:20", "-vsync", "vfr", "-vf", "fps=0.2,cropdetect", "-f", "null", "-" ] process = subprocess.Popen(command, stdout=subprocess.PIPE, stderr=subprocess.STDOUT, universal_newlines=True, close_fds=True) # out, err = process.communicate() crop_values = [] for line in process.stdout: # print(line) if "crop=" in line: crop_values.append(line.split("crop=")[1]) if len(crop_values) > 0: most_common = max(set(crop_values), key=crop_values.count) print("CROP: " + most_common) if most_common: return most_common else: print("Could not generate a crop :(") return "" except Exception as ex: print(ex.args) print("Could not generate a crop :(") return "" def update_queue_display(): window.Element("-QUEUE_DISPLAY-").update(values=[ i["status"] + " | " + i["title"] + " - " + i["uuid"] for i in encode_list ]) def build_encode_queue(): clear_queue(encode_queue) for i in encode_list: if i["status"] == "⏱ waiting": encode_queue.put(i) # # # --------------------- EVENT LOOP --------------------- # while True: event, values = window.read(timeout=100) if event in (None, 'Exit'): break elif event == "-INPUT-": window.Element("-INPUT-").update( background_color="white") # Reset background color file_string = values["-INPUT-"].replace("file:///", "") input_file = Path(file_string) if input_file.exists() and input_file.is_file(): params["input"] = input_file.absolute() # Update params # Fill in output based on folder and filename of input new_file = input_file while new_file.exists(): new_file = Path( new_file.with_name(new_file.stem + "_new.mkv")) params["output"] = str(new_file.absolute()) window.Element("-OUTPUT-").update(str(new_file.absolute())) print("** Analyzing input using mediainfo... **") media_info = MediaInfo.parse(str(input_file.absolute())) for track in media_info.tracks: if track: if track.track_type == "General": video_metadata["name"] = track.file_name_extension elif track.track_type == 'Video': video_metadata["contains_video"] = True video_metadata["frame_count"] = track.frame_count video_metadata["size"] = int( track.stream_size ) / 1048576 if track.stream_size else None # in MiB video_metadata["fps"] = track.frame_rate video_metadata["width"] = track.width video_metadata["height"] = track.height # Reset the start and end time params params["end_time"] = "" params["start_time"] = "00:00:00.000" if track.height and track.width: window.Element("-RESOLUTION-").update( "%ix%i" % (track.width, track.height)) if track.duration: video_metadata["duration"] = float( track.duration) # hours, rem = divmod(float(track.duration), 3600) # minutes, seconds = divmod(rem, 60) milliseconds = float(track.duration) seconds = (milliseconds / 1000) % 60 minutes = int( (milliseconds / (1000 * 60)) % 60) hours = int( (milliseconds / (1000 * 60 * 60)) % 24) formatted_duration = "{:0>2}:{:0>2}:{:06.3f}".format( hours, minutes, seconds) print("Duration:", formatted_duration) window.Element("-END_TIME-").update( disabled=False) window.Element("-END_TIME-").update( formatted_duration) else: window.Element("-END_TIME-").update( disabled=True) if video_metadata["frame_count"] is None and video_metadata[ "contains_video"]: print( "Could not extract frame count, will not be able to report progress %" ) if not video_metadata["contains_video"]: print( "This file is either not a video file or does not contain a video stream." ) window.Element("-INPUT-").update(background_color="red") print('** Analyze done **') else: print("Can't find file: " + str(input_file.absolute())) elif event == "-OUTPUT-": if values[ "-OUTPUT-"] == "": # If the user clicks the saveAs button and cancels, the output string will be empty. Better to keep the old value in that case window.Element("-OUTPUT-").update(params["output"]) else: file_string = values["-OUTPUT-"].replace("file:///", "") params["output"] = file_string ################## # ENCODE SETTINGS elif event == "-QP-": params["qp"] = values["-QP-"] elif event == "-DRC-": val = values["-DRC-"] if val: params["drc"] = 1 window.Element("-QMIN-").update(disabled=False) window.Element("-QMAX-").update(disabled=False) window.Element("-QP-").update(disabled=True) else: params["drc"] = 0 window.Element("-QMIN-").update(disabled=True) window.Element("-QMAX-").update(disabled=True) window.Element("-QP-").update(disabled=False) elif event == "-PRESET-": # TODO: handle limiting preset by resolution as per https://github.com/OpenVisualCloud/SVT-HEVC/blob/master/Docs/svt-hevc_encoder_user_guide.md#encoding-presets-table window.Element("-PRESET_TEXT-").update("Preset ({})".format( presets[values["-PRESET-"]])) params["preset"] = values["-PRESET-"] elif event == "-TEST_ENCODE-": val = values["-TEST_ENCODE-"] if val: window.Element("-TEST_FRAMES-").update(disabled=False) params["test_encode"] = "-vframes" else: window.Element("-TEST_FRAMES-").update(disabled=True) params["test_encode"] = "" elif event == "-TEST_FRAMES-": val = ''.join( i for i in values["-TEST_FRAMES-"] if i.isdigit()) # Remove any non numbers from the input window.Element("-TEST_FRAMES-").update(val) params["n_frames"] = val elif event == "-START_TIME-": params["start_time"] = values["-START_TIME-"] elif event == "-END_TIME-": params["end_time"] = values["-END_TIME-"] ################## # AUDIO SETTINGS elif event == "-AUDIO-": if values["-AUDIO-"]: params["skip_audio"] = "-an" else: params["skip_audio"] = "" ################## # FILTER SETTINGS elif event == "-SHARPEN-": params["sharpen_mode"] = "unsharp=5:5:{}:5:5:{}".format( values["-SHARPEN-"], values["-SHARPEN-"]) elif event == "-CROP-": if values["-CROP-"]: params["crop"] = "crop=" + values["-CROP-"] else: params["crop"] = "" elif event == "-SHARP_CONTROL-": if values["-SHARP_CONTROL-"]: window.Element("-SHARPEN-").update(disabled=False) params["sharpen_mode"] = "unsharp=5:5:{}:5:5:{}".format( values["-SHARPEN-"], values["-SHARPEN-"]) else: window.Element("-SHARPEN-").update(disabled=True) params["sharpen_mode"] = "" ################## # QUEUE BUTTONS elif event == "Remove task": if values["-QUEUE_DISPLAY-"]: for queue_item in values[ "-QUEUE_DISPLAY-"]: # TODO: make alternative to nesting loops job_id = queue_item.split()[-1] for i, job in enumerate(encode_list): if job["uuid"] == job_id and job[ "status"] != "▶ started": encode_list.pop(i) build_encode_queue() update_queue_display() elif event == "UP": if values["-QUEUE_DISPLAY-"] and len( values["-QUEUE_DISPLAY-"]) == 1 and len(encode_list) > 1: job_id = values["-QUEUE_DISPLAY-"][0].split()[-1] for i, job in enumerate(encode_list): if job["uuid"] == job_id and i != 0: encode_list.insert(i - 1, encode_list.pop(i)) build_encode_queue() update_queue_display() elif event == "DOWN": if values["-QUEUE_DISPLAY-"] and len( values["-QUEUE_DISPLAY-"]) == 1 and len(encode_list) > 1: job_id = values["-QUEUE_DISPLAY-"][0].split()[-1] for i, job in enumerate(encode_list): if job["uuid"] == job_id and i != len(encode_list) - 1: encode_list.insert(i + 1, encode_list.pop(i)) build_encode_queue() update_queue_display() ################## # OTHER INTERACTS elif event == "Start encode": if not params["input"] or params["input"] == "": print("Missing input") elif not params["output"] or params["output"] == "": print("Missing output") elif not video_metadata["contains_video"]: print( "Cannot start encode because input file does not have a video track" ) else: finished_command = [ffmpeg_path.absolute().as_posix() ] + format_command() try: job_id = uuid.uuid4().hex encode_list.append({ "title": video_metadata["name"], "uuid": job_id, "status": "⏱ waiting", "output_file": Path(params["output"]), "command": finished_command, "metadata": video_metadata, "test_encode": int(params["n_frames"]) if params["test_encode"] != "" else False }) build_encode_queue() update_queue_display() except Exception as e: # TODO: make this better. Is it even needed? print('Error adding job. Bad input?:\n "%s"' % finished_command) elif event == "Stop encode": if encoder is not None: stoprequest.set() pause_queue() elif event == "Pause queue": toggle_queue() encode_queue.put(_skip) elif event == "Autocrop": crop = autocrop() params["crop"] = "crop=" + crop window.Element("-CROP-").update(crop) elif event == "Themes": theme = run_themes_window() # Save theme if theme and settings_path.exists(): settings["settings"]["theme"] = theme write_settings(settings_path, settings) print("Changed theme to {}. Restart the program to apply.". format(theme)) try: window.Element("-STATUS_BOX-").update(status_deque.popleft()) except IndexError: pass # --------------- Check for incoming messages from threads --------------- try: message = gui_queue.get_nowait() except queue.Empty: # get_nowait() will get exception when Queue is empty message = None # break from the loop if no more messages are queued up try: # Check for job events event = encode_event.get_nowait() print(event) for i, job in enumerate(encode_list): if job["uuid"] == event["uuid"]: item = encode_list[i] item["status"] = event["event"] encode_list[i] = item update_queue_display() except queue.Empty: pass # if message received from queue, display the message in the Window if message: print("#> " + message) # Update display of the encode command # if params.items() != old_params.items(): # update_command() # old_params = params.copy() # We have reached the end of the program, so lets clean up. window.disable() window.refresh() # have to refresh window manually outside of event loop if encoder is not None: stoprequest.set() # Clear queue then add sentinel to make thread stop waiting clear_queue(encode_queue) encode_queue.put(_sentinel) encode_queue_active.set( ) # We have to make sure the encode queue is active for it to finish, if not it will keep waiting print("\n** Taking a sec to shut everything down... **\n") window.refresh() encoder.join() if encoder.is_alive(): print("Thread still alive! wtf") window.refresh() window.close()
# !/usr/bin/env python import cx_Oracle import PySimpleGUIQt as sg con = cx_Oracle.connect('EOM/[email protected]/xe') cur = con.cursor(scrollable=True) sg.ChangeLookAndFeel('DarkBlue') layout = [[sg.Stretch(), sg.Text('Add New Classes', font=("Helvetica", 25)), sg.Stretch()], [sg.Stretch(), sg.Text('Course Code', font=("Helvetica", 15)), sg.Stretch()], [sg.Stretch(), sg.Input(size=(20, 2), ), sg.Stretch()], [sg.Stretch(), sg.Text('Period Number', font=("Helvetica", 15)), sg.Stretch()], [sg.Stretch(), sg.Input(size=(20, 2)), sg.Stretch()], [sg.Stretch(), sg.Text('Year', font=("Helvetica", 15)), sg.Stretch(), ], [sg.Stretch(), sg.DropDown(('2016', '2017', '2018', '2019'), size=(12, 2), font=("Helvetica", 15)), sg.Stretch(), ], [sg.Stretch(), sg.ReadButton('Add Course', key='add_new_courses_button', size=(20, 2), bind_return_key=True), sg.Stretch(), ] ] window = sg.Window('Add New Courses', default_element_size=(40, 2)).Layout(layout) while 'add_new_courses_button': event, values = window.Read() if event is None or event == 'Exit': break v_course_code = values[0] v_period_num = values[1] v_year = values[2] print(v_course_code, v_period_num, v_year)
import PySimpleGUIQt as sg col = [[ sg.Button('Button 1'), ] for i in range(10)] col2 = [[sg.Slider((1, 10)) for i in range(10)]] sg.theme('DarkBrown1') num_buttons = 2 layout = [[ sg.Text('Your typed chars appear here:'), sg.Text('', key='_OUTPUT_') ], [sg.Input(do_not_clear=True, key='_IN_')], *[[ sg.Button('Button'), ] for i in range(num_buttons)], [ sg.Slider(range=(1, 100), text_color='white', orientation='h', key='SLIDER'), sg.Drop(('Choice 1', 'choice 2'), key='DROP'), sg.Stretch() ], [ sg.Button('Detailed Info'), sg.Button('Delete Rows'), sg.Button('Disappear'), sg.Button('Reappear') ], [ sg.Button('Show Sliders'),
def main(): sg.ChangeLookAndFeel('GreenTan') # sg.SetOptions(element_padding=(0,0)) # ------ Menu Definition ------ # menu_def = [ ['&File', ['&Open', '&Save', '&Properties', 'E&xit']], [ '&Edit', ['&Paste', [ 'Special', 'Normal', ], 'Undo'], ], ['&Toolbar', ['Command &1', 'Command &2', 'Command &3', 'Command &4']], ['&Help', '&About...'], ] treedata = sg.TreeData() treedata.Insert( "", '_A_', 'Tree Item 1', [1, 2, 3], ) treedata.Insert( "", '_B_', 'B', [4, 5, 6], ) treedata.Insert( "_A_", '_A1_', 'Sub Item 1', ['can', 'be', 'anything'], ) treedata.Insert( "", '_C_', 'C', [], ) treedata.Insert( "_C_", '_C1_', 'C1', ['or'], ) treedata.Insert("_A_", '_A2_', 'Sub Item 2', [None, None]) treedata.Insert("_A1_", '_A3_', 'A30', ['getting deep']) treedata.Insert("_C_", '_C2_', 'C2', ['nothing', 'at', 'all']) for i in range(100): treedata.Insert('_C_', i, i, []) frame1 = [ [sg.Input('Input Text', size=(250, 35)), sg.Stretch()], [ sg.Multiline(size=(250, 75), default_text='Multiline Input'), sg.MultilineOutput(size=(250, 75), default_text='Multiline Output') ], ] frame2 = [ [sg.Listbox(['Listbox 1', 'Listbox 2', 'Listbox 3'], size=(200, 85))], [ sg.Combo(['Combo item 1', 'Combo item 2', 'Combo item 3'], size=(200, 35)) ], [sg.Spin([1, 2, 3], size=(40, 30))], ] frame3 = [ [sg.Checkbox('Checkbox1', True), sg.Checkbox('Checkbox1')], [ sg.Radio('Radio Button1', 1), sg.Radio('Radio Button2', 1, default=True), sg.Stretch() ], ] frame4 = [ [ sg.Slider(range=(0, 100), orientation='v', size=(3, 30), default_value=40), sg.Dial(range=(0, 100), tick_interval=50, size=(150, 150), default_value=40), sg.Stretch() ], ] matrix = [[str(x * y) for x in range(4)] for y in range(3)] frame5 = [ [ sg.Table(values=matrix, max_col_width=25, auto_size_columns=True, display_row_numbers=True, change_submits=False, bind_return_key=True, justification='right', num_rows=8, alternating_row_color='lightblue', key='_table_', text_color='black'), sg.Tree(data=treedata, headings=['col1', 'col2', 'col3'], change_submits=True, auto_size_columns=True, num_rows=10, col0_width=10, key='_TREE_', show_expanded=True, size=(200, 150)), sg.Stretch() ], ] graph_elem = sg.Graph((880, 150), (0, 0), (600, 300), key='+GRAPH+') frame6 = [ [graph_elem, sg.Stretch()], ] tab1 = sg.Tab('Graph Number 1', frame6) tab2 = sg.Tab('Graph Number 2', [[]]) layout = [ [sg.Menu(menu_def)], [ sg.Image(data_base64=logo), sg.Frame('Input Text Group', frame1, title_color='red'), sg.Stretch() ], [ sg.Frame('Multiple Choice Group', frame2, title_color='green'), sg.Frame('Binary Choice Group', frame3, title_color='purple'), sg.Frame('Variable Choice Group', frame4, title_color='blue'), sg.Stretch() ], [ sg.Frame('Structured Data Group', frame5, title_color='red'), ], # [sg.Frame('Graphing Group', frame6)], [sg.TabGroup([[tab1, tab2]])], [ sg.ProgressBar(max_value=600, start_value=400, size=(600, 25), key='+PROGRESS+'), sg.Stretch(), sg.ButtonMenu('&Menu', ['Menu', ['&Pause Graph', 'Menu item']], key='_MENU_'), sg.Button('Button'), sg.Button('Exit') ], ] window = sg.Window('Window Title', font=('Helvetica', 13), default_button_element_size=(100, 30), auto_size_buttons=False, default_element_size=(200, 22)).Layout(layout).Finalize() graph_elem.DrawCircle((200, 200), 50, 'blue') i = 0 graph_paused = False while True: # Event Loop # sg.TimerStart() event, values = window.Read(timeout=0) if event is None or event == 'Exit': break if event == 'Button': print(event, values) if values['_MENU_'] == 'Pause Graph': graph_paused = not graph_paused if not graph_paused: i += 1 if i >= 600: graph_elem.Move(-1, 0) graph_elem.DrawLine((i, 0), (i, randint(0, 300)), width=1, color='#{:06x}'.format(randint(0, 0xffffff))) window.FindElement('+PROGRESS+').UpdateBar(i % 600) # sg.TimerStop() window.Close()
start = True db_stat = 'Connected.' except mysql.connector.errors.ProgrammingError: print('Failed connecting to database') start = False db_stat = 'Not connected' except mysql.connector.errors.InterfaceError: print('Connection refused database is offline') start = False db_stat = 'Not connected' layout = [ [sg.Text('Font:'), sg.Text('QS:')], [ sg.Input(do_not_clear=True, enable_events=False, focus=False, key='_FONT_'), sg.Input(do_not_clear=True, enable_events=False, focus=False, key='_QS_') ], [sg.Button('Refresh'), sg.Exit()], [ sg.Listbox(values=char_list_symbol, size=(15, 5.5), key='_LISTBOX_', enable_events=True, select_mode='single', auto_size_text=True), sg.Listbox(values=[],
"Livro de Receitas", layout=LAYOUT2, size=(1200, 600), keep_on_top=True, ) while 1: event2, values2 = window2.read() if event2 == sg.WINDOW_CLOSED: break window2.close() window.Enable() ABA1_COL1 = [ [sg.Text("Pesquisa por nome (deixe vazio para ver todas as receitas):")], [sg.Input(key="nome_val"), sg.Button("Pesquisar", size=(10, 1), key="pesq_nome")], [ sg.Text( "Pesquisa por ingredientes (separado por vírgula, deixe vazio para ver todas as receitas):" ) ], [ sg.Radio("Apenas", "rgroup", default=True, key="rad_apenas"), sg.Radio("Também", "rgroup", key="rad_tambem"), ], [ sg.Input(key="ingred_val"), sg.Button("Pesquisar", size=(10, 1), key="pesq_ingred"), ], [sg.Text("Resultados:")], [sg.Listbox([], enable_events=True, key="resultados")],
def welcome_layout(): frame_1 = [ [sg.Text('Balança: ')], [sg.Combo(['Nenhuma', 'Toledo', 'Filizola', 'Urano'], font=("verdana", 11), key="balance_name", enable_events=True, size=(13, 0.8))], [sg.Text('Porta Serial: ')], [sg.Combo(get_serial_names(), font=("verdana", 13), key="serial_port", size=(13, 0.8))], [sg.Text('Baud Rate: ')], [sg.Combo([2400, 4800, 9600, 14400, 19200, 38400, 56000, 57600], font=("verdana", 11), key="baudrate", size=(13, 0.8))], [sg.Text('Data Bits: ')], [sg.Combo([5, 6, 7, 8], font=("verdana", 11), key="data_bits", size=(13, 0.8))], [sg.Text('Parity: ')], [sg.Combo(['none', 'odd', 'even', 'mark', 'space'], font=("verdana", 11), key="parity", size=(13, 0.8))], [sg.Text('Stop Bits:')], [sg.Combo([1, 1.5, 2], font=("verdana", 11), key="stop_bits", pad=[1, 0], size=(13, 0.8))], [sg.Text('Handshaking: ')], [sg.Combo(['Nenhum', 'XON/XOFF', 'RTS/CTS', 'DTR/DSR'], font=("verdana", 11), key="handshaking", pad=[1, 0], size=(13, 0.8))] ] frame_2 = [ [sg.Text('')], [sg.Input(get_last_weight(), do_not_clear=True, size=(25, 0.8), tooltip='Último Peso Lido', disabled=True, key='last_weight'), sg.Text(' '), sg.Input('1', do_not_clear=True, size=(15, 0.8), tooltip='Timeout', key='timeout'), sg.Stretch()], [sg.Text('')], [sg.Text('Última Resposta: ')], [sg.Multiline(size=(41.5, 8.6), key='Textbox', disabled=True)], [sg.Text('Pesagem Apurada: ')], [sg.Multiline(size=(41.5, 4.6), default_text=get_last_weight() + ' KG', font=('Helvetica Bold', 48), key='Textbox2', disabled=True)], [sg.Text('')], [sg.Text('')], [sg.Text('')], ] frame_3 = [ [sg.Text('')], [sg.Text(''), sg.Text(' ' * 2), sg.Button('Ativar', size=[14, 0.8], button_color=('white', '#082567'), key="activate"), sg.Text(''), sg.Text('')], [sg.Text('')], [sg.Text(''), sg.Text(' ' * 2), sg.Button('Desativar', size=[14, 0.8], button_color=('white', '#082567'), key="deactivate", disabled=True), sg.Text(''), sg.Text('')], [sg.Text('')], [sg.Text(''), sg.Text(' ' * 2), sg.Button('Ler Peso', size=[14, 0.8], button_color=('white', '#082567'), key="weight_read"), sg.Text(''), sg.Text('')], [sg.Text('')], [sg.Text(''), sg.Text(' ' * 2), sg.Button('Localizar Portas', size=[14, 0.8], button_color=('white', '#082567'), key="find_ports"), sg.Text(''), sg.Text('')], [sg.Text('')], [sg.Text(''), sg.Text(' ' * 2), sg.Button('Limpar', size=[14, 0.8], button_color=('white', '#082567'), key="clean"), sg.Text(''), sg.Text('')], [sg.Text('')], [sg.Text(''), sg.Text(' ' * 2), sg.Button('Sair', size=[14, 0.8], button_color=('white', '#082567'), key="exit"), sg.Text(''), sg.Text('')], [sg.Text('')], ] layout_1 = [ [sg.Text('')], [sg.Text(' '), sg.Frame('Ajustes Técnicos', frame_1, title_color='black', element_justification="l", key='frame_1'), sg.Text(' '), sg.Frame('Visualização de dados', frame_2, title_color='black', element_justification="c", key='frame_2'), sg.Text(' '), sg.Frame('Serviços', frame_3, title_color='black', element_justification="r", key='frame_3'), sg.Stretch()], [sg.Text(f'Versão: {__version__} by {__author__}', text_color="black", font=("verdana", 8)), sg.Text(get_current_date(), justification="right", text_color="black", key="clock", font=("verdana", 8)) ], ] return layout_1
def mainScreen(): p.SetOptions(background_color='white', button_color=('white', '#4286f4')) layout = [ [ p.Image(data_base64=Images.logo, background_color='white', size=(450, 100), click_submits=True, key='_IMAGE_') ], [p.T('Required:', font=('Arial', 13, 'bold'), justification='center')], [p.T('▬' * 35, justification='center')], [ p.T('Choose IPSW Filepath: ', font=('Arial', 10, 'italic'), justification='left') ], [ p.Input('', key='_IPSW_'), p.FileBrowse(button_color=('white', '#4286f4')) ], [ p.T('Choose Blobs Filepath: ', font=('Arial', 10, 'italic'), justification='left') ], [ p.Input('', key='_BLOBS_'), p.FilesBrowse(button_color=('white', '#4286f4')) ], [ p.T('Choose SEP Filepath: ', font=('Arial', 10, 'italic'), justification='left') ], [ p.Input('', key='_SEP_'), p.FileBrowse(button_color=('white', '#4286f4')) ], [ p.Checkbox( 'Use Latest SEP \n(Do Not Set SEP Filepath If Using This!)', key='_LATESTSEP_') ], [ p.T('Choose Baseband Filepath: ', font=('Arial', 10, 'italic'), justification='left') ], [ p.Input('', key='_BASE_'), p.FileBrowse(button_color=('white', '#4286f4')) ], [ p.Checkbox( 'Use Latest Baseband \n(Do Not Set Baseband Filepath If Using This!)', key="_LATESTBASE_") ], [ p.T('Optional: ', font=('Arial', 13, 'bold'), justification='center') ], [p.T('▬' * 35, justification='center')], [ p.T('SEP Manifest: ', font=('Arial', 10, 'italic'), justification='left') ], [ p.Input('', key='_SEPMANI_'), p.FileBrowse(button_color=('white', '#4286f4')) ], [ p.T('Baseband Build Manifest: ', font=('Arial', 10, 'italic'), justification='left') ], [ p.Input('', key='_BASEMANI_'), p.FileBrowse(button_color=('white', '#4286f4')) ], [ p.T('Optional Flags:', justification='center', font=('Arial', 13, 'bold')) ], [p.T('▬' * 35, justification='center')], [ p.Checkbox('Debug', key='_DEBUG_'), p.Checkbox('No Baseband', key='_NOBASEBAND_') ], [ p.Checkbox('Update', key='_UPDATE_'), p.Checkbox('Wait', key="_WAIT_") ], [p.T('▬' * 35, justification='center')], [ p.Button('Exit Recovery', size=(23, 1)), p.Button('Start', size=(23, 1)) ], [p.Button('Exit', size=(23, 1)), p.Button('Donate', size=(23, 1))], [ p.Button('Open TSSSaver', size=(23, 1)), p.Button('Open ipsw.me', size=(23, 1)) ], [ p. T('\nVersion: 1.0.6 | Licensed Under GNU GPLv3 | Click Here For GitHub', click_submits=True, key='_FOOTER_', font=('Arial', 8, 'italic'), justification='center') ] ] window = p.Window('EGTR', no_titlebar=True, keep_on_top=True, grab_anywhere=True).Layout(layout) while True: event, values = window.Read() if event == 'Exit': window.Close() break elif event == 'Exit Recovery': if getTypeFutureRestore() == 1: futurerestore = getRealPath(DOWNLOAD_DIRECTORY + '/futurerestore') elif getTypeFutureRestore() == 2: futurerestore = getRealPath(DOWNLOAD_DIRECTORY + '/futurerestore.exe') os.system(futurerestore + '--exit-recovery') p.Window('Logs:', no_titlebar=True, keep_on_top=True, grab_anywhere=True, auto_close=True, auto_close_duration=5).Layout( [[p.T('Refer To The Terminal For Output ')]]).Read() elif event == 'Donate': webbrowser.open_new_tab('https://paypal.me/m4csdev') elif event == 'Open TSSSaver': webbrowser.open_new_tab('https://tsssaver.1conan.com/') elif event == 'Open ipsw.me': webbrowser.open_new_tab('https://ipsw.me') elif event == '_FOOTER_': webbrowser.open_new_tab( 'https://github.com/M4cs/EGTR-Futurerestore') elif event == 'Start': if values['_LATESTSEP_'] == True: latestsep = ' --latest-sep' sep_path = '' elif values['_LATESTSEP_'] == False: latestsep = '' if values['_LATESTBASE_'] == True: latestbase = ' --latest-baseband' base_path = '' elif values['_LATESTBASE_'] == False: latestbase = '' if values['_IPSW_'] == '': p.Window('Error', auto_close=True, auto_close_duration=3, keep_on_top=True, no_titlebar=True, grab_anywhere=True).Layout([[ p.T('Error: You must enter an IPSW! ') ]]).Read() elif values['_IPSW_'] != '': ipsw_path = " " + getRealPath(values['_IPSW_']) if values['_SEP_'] == '': if values['_LATESTSEP_'] == True: latestsep = '--latest-sep' sep_path = '' elif values['_LATESTSEP_'] == False: p.Window( 'Error', auto_close=True, auto_close_duration=3, keep_on_top=True, no_titlebar=True, grab_anywhere=True ).Layout([[ p. T('Error: You must enter an SEP path or choose Use Latest! ' ) ]]).Read() elif values['_SEP_'] != '': if values['_LATESTSEP_'] == True: sep_path = '' latestsep = ' --latest-sep' elif values['_LATESTSEP_'] == False: sep_path = ' -s ' + getRealPath(values['_SEP_']) latestsep = '' if values['_BASE_'] == '': if values['_LATESTBASE_'] == True: base_path = '' latestbase = ' --latest-base' elif values['_LATESTBASE_'] == False: p.Window( 'Error', auto_close=True, auto_close_duration=3, keep_on_top=True, no_titlebar=True, grab_anywhere=True ).Layout([[ p. T('Error: You must enter an Base path or choose Use Latest! ' ) ]]).Read() elif values['_BASE_'] != '': if values['_LATESTBASE_'] == True: base_path = '' latestbase = ' --latest-base' elif values['_LATESTBASE_'] == False: base_path = ' -b ' + getRealPath(values['_BASE_']) latestbase = '' if values['_BLOBS_'] == '': p.Window('Error', auto_close=True, auto_close_duration=3, keep_on_top=True, no_titlebar=True, grab_anywhere=True).Layout([[ p.T('Error: You must choose SHSH2 Blobs! ') ]]).Read() elif values['_BLOBS_'] != '': blobs_path = ' -t' + getRealPath(values['_BLOBS_']) if values['_DEBUG_'] == True: debug = ' -d' elif values['_DEBUG_'] == False: debug = '' if values['_BASEMANI_'] == '': basemani = '' elif values['_BASEMANI_'] != '': basemani = ' -p' + values['_BASEMANI_'] if values['_SEPMANI_'] == '': sepmani = '' elif values['_SEPMANI_'] != '': sepmani = ' -m ' + values['_SEPMANI_'] if values['_NOBASEBAND_'] == True: nobaseband = ' --no-baseband' base_path = '' basemani = '' elif values['_NOBASEBAND_'] == False: nobaseband = '' if values['_UPDATE_'] == True: update = ' -u' elif values['_UPDATE_'] == False: update = '' if values['_WAIT_'] == True: wait = ' -w' elif values['_WAIT_'] == False: wait = '' if getTypeFutureRestore() == 1: futurerestore = getRealPath(DOWNLOAD_DIRECTORY + '/futurerestore') elif getTypeFutureRestore() == 2: futurerestore = getRealPath(DOWNLOAD_DIRECTORY + '/futurerestore.exe') query = futurerestore + blobs_path + base_path + sep_path + latestbase + latestsep + debug + basemani + sepmani + update + nobaseband + wait + ipsw_path print(query) outputscreen = p.Window( 'Logs:', no_titlebar=True, keep_on_top=True, grab_anywhere=True ).Layout([[ p. T('Are You Sure? You may risk bootlooping or bricking your device! ' ) ], [p.Button('Cancel'), p.Button('Continue')]]) while True: event, values = outputscreen.Read() if event == 'Continue': p.Window('Logs:', no_titlebar=True, keep_on_top=True, grab_anywhere=True, auto_close=True, auto_close_duration=5).Layout([[ p.T('Refer To The Terminal For Output ') ]]).Read() outputscreen.Close() os.system(query) break elif event == 'Cancel': outputscreen.Close() break window.Close()
], [ sg.Text('Request type: ', size=(15, 1)), sg.Combo(values=['GET', 'POST'], default_value='GET', readonly=True, auto_size_text=True, enable_events=True, key='http_request') ], [ sg.Frame( 'Data', layout=[[ sg.Text('Cover data', size=(8, 1)), sg.Input(key='http_cover'), sg.FileBrowse() ], [ sg.Text('Secret data', size=(8, 1)), sg.Input(key='http_secret'), sg.FileBrowse() ], [ sg.Checkbox('RSTEG', key='rsteg', enable_events=True), sg.Text('Retransmission probability'), sg.InputText(default_text='0.07', enable_events=True, key='rprob')
def create_conf_window(parser): sg.theme(parser.get('gui_settings','theme')) def TextLabel(text): return sg.Text(text+':', justification='r', size=(25,1)) layout = [ [sg.Text('Choose Configuration', font = 'Any 20', justification='c')], [sg.Text('')], [TextLabel('Output Directory'), sg.Input(key='-OUTDIR-'), sg.FolderBrowse(target='-OUTDIR-')], [TextLabel('FASTQ Files Directory'), sg.Input(key='-FASTQ-'), sg.FolderBrowse(target='-FASTQ-')], [TextLabel('Spectra Files Directory'), sg.Input(key='-SPECTRA-'), sg.FolderBrowse(target='-SPECTRA-')], [sg.Text('')], [TextLabel('Trinity'), sg.Input(key='-TRINITY-'), sg.FileBrowse(target='-TRINITY-')], [TextLabel('hg19'), sg.Input(key='-HG19-'), sg.FileBrowse(target='-HG19-')], [TextLabel('SearchGUI'), sg.Input(key='-SEARCHGUI-'), sg.FileBrowse(target='-SEARCHGUI-')], [TextLabel('PeptideShaker'), sg.Input(key='-PEPTIDE-'), sg.FileBrowse(target='-PEPTIDE-')], [TextLabel('ACTG'), sg.Input(key='-ACTG-'), sg.FolderBrowse(target='-ACTG-')], [sg.Text('')], [TextLabel('Transcriptome GTF'), sg.Input(key='-GTF-'), sg.FolderBrowse(target='-GTF-')], [TextLabel('Reference genome'), sg.Input(key='-REF-'), sg.FolderBrowse(target='-REF-')], [TextLabel('Mapping Method'), sg.Combo(['PV','PS','VO','SO'],key='-MAP-')], [TextLabel('Protein Database'), sg.Input(key='-DB-'), sg.FileBrowse(target='-DB-')], [TextLabel('Serialization File'), sg.Input(key='-SER-'), sg.FileBrowse(target='-SER-')], [sg.Text('')], [TextLabel('Bamstats'), sg.Input(key='-BAMSTATS-'), sg.FileBrowse(target='-BAMSTATS-')], [TextLabel('BAM Files'), sg.Input(key='-BAM-'), sg.FolderBrowse(target='-BAM-')], [TextLabel('BED File'), sg.Input(key='-BED-'), sg.FileBrowse(target='-BED-')], [sg.Text('')], [TextLabel('DeNoPro Location'), sg.Input(key='-DENOPRO-'), sg.FolderBrowse(target='-DENOPRO-')], [sg.Text('')], [TextLabel('Theme'), sg.Combo(sg.theme_list(), size=(17, 0.8), key='-THEME-')], [sg.Text('')], [sg.Text('')], [sg.Button('Save'), sg.InputText('', do_not_clear=False, visible=False, key='-filename-',enable_events=True), sg.FileSaveAs('Save As'),sg.Button('Exit')] ] window = sg.Window("Config", keep_on_top=True).Layout([[sg.Column(layout,size = (680,720),scrollable=True)]]).Finalize() for k,v in conf_keys.items(): try: window[conf_keys[k][2]].update(value=parser.get(v[0],k)) except Exception as e: print(f'Problem updating GUI window from config. Key = {k}') return window
def main(): sg.theme('SystemDefaultForReal') main_window = None command_to_run = 'denopro ' layout = [ [sg.Text('DeNoPro : de novo Proteogenomics Pipeline', justification='c', font=('Any',22))], [sg.Text('')], [sg.Text('Mode : ', size=(10,1), justification='r'), sg.Combo(['assemble','searchdb','identify','novelorf', 'quantify'],key='mode'), sg.Text('CPU:', justification='r'), sg.Input(key='cpu',font = 'Any 10', size=(5,0.8)), sg.Text('Max mem:', size=(10,1), justification='r'), sg.Input(key='max_mem', font = 'Any 10', size=(5,0.8))], [sg.Text('Config : ', size=(9,1), justification='r'), sg.Input(key='-config-', enable_events=True), sg.FileBrowse('Select',target='-config-',size = (10,0.8),file_types=(('Config Files','*.conf'),('INI files','*.ini'))), sg.Button('Change Configuration', size=(22,0.8))], [sg.Text('')], #output [sg.Text('Final Command:')], [sg.Text(size=(90,3),key='command_line', text_color='red',font='Courier 8')], [sg.Output(size=(90,16), font='Courier 10', key='-ML-')], [sg.Button('Start', button_color=('white','green')), sg.Button('Exit', button_color=('white','#8a2815'))] ] main_window = sg.Window('DeNoGUI', layout, font = 'Helvetica 12', finalize=True) while True: event,values = main_window.read() # define exit if event in (sg.WIN_CLOSED, 'Exit'): break # Config Loop if event == 'Change Configuration': # set the main config (if called) if values['-config-']: chosenConfig = values['-config-'] parser = load_parser(chosenConfig) event,values = create_conf_window(parser).read(close=True) if event == 'Save': save_config(chosenConfig,parser,values) elif event == '-filename-': filename = values['-filename-'] save_config(filename,parser,values) else: sg.popup('No config file selected, will create one for you...') createdParser = create_parser(default_conf) createdParser.set('gui_settings','theme','SystemDefaultForReal') event,values = create_conf_window(createdParser).read(close=True) if event == 'Save': sg.popup('Please Save As a new file.') elif event == '-filename-': filename = values['-filename-'] save_config(filename,createdParser,values) # Main Loop if event == 'Start': params = '' params += f"{values['mode']} -c {values['-config-']}" if values['mode'] == 'assemble': params += f" --cpu {values['cpu']} --max_mem {values['max_mem']}G" command = command_to_run + params main_window['command_line'].update(command) runCommand(cmd = command, window=main_window) main_window.close()