def _add_buttons(self): self.control_frame = FocusLabelFrame(self, text="Controls") self.control_frame.pack(side=tk.TOP, fill='x', padx=5, pady=5) master = self.control_frame self.clicks_options_frame = FocusLabelFrame(master, text="Clicks management") self.clicks_options_frame.pack(side=tk.TOP, fill=tk.X, padx=10, pady=3) self.finish_object_button = \ FocusButton(self.clicks_options_frame, text='Finish\nobject', bg='#b6d7a8', fg='black', width=10, height=2, state=tk.DISABLED, command=self.controller.finish_object) self.finish_object_button.pack(side=tk.LEFT, fill=tk.X, padx=10, pady=3) self.undo_click_button = \ FocusButton(self.clicks_options_frame, text='Undo click', bg='#ffe599', fg='black', width=10, height=2, state=tk.DISABLED, command=self.controller.undo_click) self.undo_click_button.pack(side=tk.LEFT, fill=tk.X, padx=10, pady=3) self.reset_clicks_button = \ FocusButton(self.clicks_options_frame, text='Reset clicks', bg='#ea9999', fg='black', width=10, height=2, state=tk.DISABLED, command=self._reset_last_object) self.reset_clicks_button.pack(side=tk.LEFT, fill=tk.X, padx=10, pady=3) self.zoomin_options_frame = FocusLabelFrame(master, text="ZoomIn options") self.zoomin_options_frame.pack(side=tk.TOP, fill=tk.X, padx=10, pady=3) FocusCheckButton(self.zoomin_options_frame, text='Use ZoomIn', command=self._reset_predictor, variable=self.state['zoomin_params']['use_zoom_in']).grid(rowspan=3, column=0, padx=10) tk.Label(self.zoomin_options_frame, text="Skip clicks").grid(row=0, column=1, pady=1, sticky='e') tk.Label(self.zoomin_options_frame, text="Target size").grid(row=1, column=1, pady=1, sticky='e') tk.Label(self.zoomin_options_frame, text="Expand ratio").grid(row=2, column=1, pady=1, sticky='e') BoundedNumericalEntry(self.zoomin_options_frame, variable=self.state['zoomin_params']['skip_clicks'], min_value=0, max_value=None, vartype=int, name='zoom_in_skip_clicks').grid(row=0, column=2, padx=10, pady=1, sticky='w') BoundedNumericalEntry(self.zoomin_options_frame, variable=self.state['zoomin_params']['target_size'], min_value=100, max_value=self.limit_longest_size, vartype=int, name='zoom_in_target_size').grid(row=1, column=2, padx=10, pady=1, sticky='w') BoundedNumericalEntry(self.zoomin_options_frame, variable=self.state['zoomin_params']['expansion_ratio'], min_value=1.0, max_value=2.0, vartype=float, name='zoom_in_expansion_ratio').grid(row=2, column=2, padx=10, pady=1, sticky='w') self.zoomin_options_frame.columnconfigure((0, 1, 2), weight=1) self.brs_options_frame = FocusLabelFrame(master, text="BRS options") self.brs_options_frame.pack(side=tk.TOP, fill=tk.X, padx=10, pady=3) menu = tk.OptionMenu(self.brs_options_frame, self.state['brs_mode'], *self.brs_modes, command=self._change_brs_mode) menu.config(width=11) menu.grid(rowspan=2, column=0, padx=10) self.net_clicks_label = tk.Label(self.brs_options_frame, text="Network clicks") self.net_clicks_label.grid(row=0, column=1, pady=2, sticky='e') self.net_clicks_entry = BoundedNumericalEntry(self.brs_options_frame, variable=self.state['predictor_params']['net_clicks_limit'], min_value=0, max_value=None, vartype=int, allow_inf=True, name='net_clicks_limit') self.net_clicks_entry.grid(row=0, column=2, padx=10, pady=2, sticky='w') tk.Label(self.brs_options_frame, text="L-BFGS\nmax iterations").grid(row=1, column=1, pady=2, sticky='e') BoundedNumericalEntry(self.brs_options_frame, variable=self.state['lbfgs_max_iters'], min_value=1, max_value=1000, vartype=int, name='lbfgs_max_iters').grid(row=1, column=2, padx=10, pady=2, sticky='w') self.brs_options_frame.columnconfigure((0, 1), weight=1) self.prob_thresh_frame = FocusLabelFrame(master, text="Predictions threshold") self.prob_thresh_frame.pack(side=tk.TOP, fill=tk.X, padx=10, pady=3) FocusHorizontalScale(self.prob_thresh_frame, from_=0.0, to=1.0, command=self._update_prob_thresh, variable=self.state['prob_thresh']).pack(padx=10) self.alpha_blend_frame = FocusLabelFrame(master, text="Alpha blending coefficient") self.alpha_blend_frame.pack(side=tk.TOP, fill=tk.X, padx=10, pady=3) FocusHorizontalScale(self.alpha_blend_frame, from_=0.0, to=1.0, command=self._update_blend_alpha, variable=self.state['alpha_blend']).pack(padx=10, anchor=tk.CENTER) self.click_radius_frame = FocusLabelFrame(master, text="Visualisation click radius") self.click_radius_frame.pack(side=tk.TOP, fill=tk.X, padx=10, pady=3) FocusHorizontalScale(self.click_radius_frame, from_=0, to=7, resolution=1, command=self._update_click_radius, variable=self.state['click_radius']).pack(padx=10, anchor=tk.CENTER)
class InteractiveDemoApp(ttk.Frame): def __init__(self, master, args, model): super().__init__(master) self.master = master master.title("Interactive Segmentation with f-BRS") master.withdraw() master.update_idletasks() x = (master.winfo_screenwidth() - master.winfo_reqwidth()) / 2 y = (master.winfo_screenheight() - master.winfo_reqheight()) / 2 master.geometry("+%d+%d" % (x, y)) self.pack(fill="both", expand=True) self.filename = '' self.filenames = [] self.current_file_index = 0 self.brs_modes = ['NoBRS', 'RGB-BRS', 'DistMap-BRS', 'f-BRS-A', 'f-BRS-B', 'f-BRS-C'] self.limit_longest_size = args.limit_longest_size self.controller = InteractiveController(model, args.device, predictor_params={'brs_mode': 'NoBRS'}, update_image_callback=self._update_image) self._init_state() self._add_menu() self._add_canvas() self._add_buttons() master.bind('<space>', lambda event: self.controller.finish_object()) master.bind('a', lambda event: self.controller.partially_finish_object()) master.bind('<Key-Right>', self._set_next_image) master.bind('<Key-Left>', self._set_forward_image) master.bind('<Control-Key-s>', self._save_mask_force) self.state['zoomin_params']['skip_clicks'].trace(mode='w', callback=self._reset_predictor) self.state['zoomin_params']['target_size'].trace(mode='w', callback=self._reset_predictor) self.state['zoomin_params']['expansion_ratio'].trace(mode='w', callback=self._reset_predictor) self.state['predictor_params']['net_clicks_limit'].trace(mode='w', callback=self._change_brs_mode) self.state['lbfgs_max_iters'].trace(mode='w', callback=self._change_brs_mode) self._reset_predictor() def _init_state(self): self.state = { 'zoomin_params': { 'use_zoom_in': tk.BooleanVar(value=True), 'skip_clicks': tk.IntVar(value=1), 'target_size': tk.IntVar(value=min(480, self.limit_longest_size)), 'expansion_ratio': tk.DoubleVar(value=1.4) }, 'predictor_params': { 'net_clicks_limit': tk.IntVar(value=8) }, 'brs_mode': tk.StringVar(value='f-BRS-B'), 'prob_thresh': tk.DoubleVar(value=0.5), 'lbfgs_max_iters': tk.IntVar(value=20), 'alpha_blend': tk.DoubleVar(value=0.5), 'click_radius': tk.IntVar(value=3), } def _add_menu(self): self.menubar = FocusLabelFrame(self, bd=1) self.menubar.pack(side=tk.TOP, fill='x') button = FocusButton(self.menubar, text='Load image', command=self._load_image_callback) button.pack(side=tk.LEFT) button = FocusButton(self.menubar, text='Save mask', command=self._save_mask_callback) button.pack(side=tk.LEFT) button = FocusButton(self.menubar, text='About', command=self._about_callback) button.pack(side=tk.LEFT) button = FocusButton(self.menubar, text='Exit', command=self.master.quit) button.pack(side=tk.LEFT) def _add_canvas(self): self.canvas_frame = FocusLabelFrame(self, text="Image") self.canvas_frame.rowconfigure(0, weight=1) self.canvas_frame.columnconfigure(0, weight=1) self.canvas = tk.Canvas(self.canvas_frame, highlightthickness=0, cursor="hand1", width=400, height=400) self.canvas.grid(row=0, column=0, sticky='nswe', padx=5, pady=5) self.image_on_canvas = None self.canvas_frame.pack(side=tk.LEFT, fill="both", expand=True, padx=5, pady=5) def _add_buttons(self): self.control_frame = FocusLabelFrame(self, text="Controls") self.control_frame.pack(side=tk.TOP, fill='x', padx=5, pady=5) master = self.control_frame self.clicks_options_frame = FocusLabelFrame(master, text="Clicks management") self.clicks_options_frame.pack(side=tk.TOP, fill=tk.X, padx=10, pady=3) self.finish_object_button = \ FocusButton(self.clicks_options_frame, text='Finish\nobject', bg='#b6d7a8', fg='black', width=10, height=2, state=tk.DISABLED, command=self.controller.finish_object) self.finish_object_button.pack(side=tk.LEFT, fill=tk.X, padx=10, pady=3) self.undo_click_button = \ FocusButton(self.clicks_options_frame, text='Undo click', bg='#ffe599', fg='black', width=10, height=2, state=tk.DISABLED, command=self.controller.undo_click) self.undo_click_button.pack(side=tk.LEFT, fill=tk.X, padx=10, pady=3) self.reset_clicks_button = \ FocusButton(self.clicks_options_frame, text='Reset clicks', bg='#ea9999', fg='black', width=10, height=2, state=tk.DISABLED, command=self._reset_last_object) self.reset_clicks_button.pack(side=tk.LEFT, fill=tk.X, padx=10, pady=3) self.zoomin_options_frame = FocusLabelFrame(master, text="ZoomIn options") self.zoomin_options_frame.pack(side=tk.TOP, fill=tk.X, padx=10, pady=3) FocusCheckButton(self.zoomin_options_frame, text='Use ZoomIn', command=self._reset_predictor, variable=self.state['zoomin_params']['use_zoom_in']).grid(rowspan=3, column=0, padx=10) tk.Label(self.zoomin_options_frame, text="Skip clicks").grid(row=0, column=1, pady=1, sticky='e') tk.Label(self.zoomin_options_frame, text="Target size").grid(row=1, column=1, pady=1, sticky='e') tk.Label(self.zoomin_options_frame, text="Expand ratio").grid(row=2, column=1, pady=1, sticky='e') BoundedNumericalEntry(self.zoomin_options_frame, variable=self.state['zoomin_params']['skip_clicks'], min_value=0, max_value=None, vartype=int, name='zoom_in_skip_clicks').grid(row=0, column=2, padx=10, pady=1, sticky='w') BoundedNumericalEntry(self.zoomin_options_frame, variable=self.state['zoomin_params']['target_size'], min_value=100, max_value=self.limit_longest_size, vartype=int, name='zoom_in_target_size').grid(row=1, column=2, padx=10, pady=1, sticky='w') BoundedNumericalEntry(self.zoomin_options_frame, variable=self.state['zoomin_params']['expansion_ratio'], min_value=1.0, max_value=2.0, vartype=float, name='zoom_in_expansion_ratio').grid(row=2, column=2, padx=10, pady=1, sticky='w') self.zoomin_options_frame.columnconfigure((0, 1, 2), weight=1) self.brs_options_frame = FocusLabelFrame(master, text="BRS options") self.brs_options_frame.pack(side=tk.TOP, fill=tk.X, padx=10, pady=3) menu = tk.OptionMenu(self.brs_options_frame, self.state['brs_mode'], *self.brs_modes, command=self._change_brs_mode) menu.config(width=11) menu.grid(rowspan=2, column=0, padx=10) self.net_clicks_label = tk.Label(self.brs_options_frame, text="Network clicks") self.net_clicks_label.grid(row=0, column=1, pady=2, sticky='e') self.net_clicks_entry = BoundedNumericalEntry(self.brs_options_frame, variable=self.state['predictor_params']['net_clicks_limit'], min_value=0, max_value=None, vartype=int, allow_inf=True, name='net_clicks_limit') self.net_clicks_entry.grid(row=0, column=2, padx=10, pady=2, sticky='w') tk.Label(self.brs_options_frame, text="L-BFGS\nmax iterations").grid(row=1, column=1, pady=2, sticky='e') BoundedNumericalEntry(self.brs_options_frame, variable=self.state['lbfgs_max_iters'], min_value=1, max_value=1000, vartype=int, name='lbfgs_max_iters').grid(row=1, column=2, padx=10, pady=2, sticky='w') self.brs_options_frame.columnconfigure((0, 1), weight=1) self.prob_thresh_frame = FocusLabelFrame(master, text="Predictions threshold") self.prob_thresh_frame.pack(side=tk.TOP, fill=tk.X, padx=10, pady=3) FocusHorizontalScale(self.prob_thresh_frame, from_=0.0, to=1.0, command=self._update_prob_thresh, variable=self.state['prob_thresh']).pack(padx=10) self.alpha_blend_frame = FocusLabelFrame(master, text="Alpha blending coefficient") self.alpha_blend_frame.pack(side=tk.TOP, fill=tk.X, padx=10, pady=3) FocusHorizontalScale(self.alpha_blend_frame, from_=0.0, to=1.0, command=self._update_blend_alpha, variable=self.state['alpha_blend']).pack(padx=10, anchor=tk.CENTER) self.click_radius_frame = FocusLabelFrame(master, text="Visualisation click radius") self.click_radius_frame.pack(side=tk.TOP, fill=tk.X, padx=10, pady=3) FocusHorizontalScale(self.click_radius_frame, from_=0, to=7, resolution=1, command=self._update_click_radius, variable=self.state['click_radius']).pack(padx=10, anchor=tk.CENTER) def _set_next_image(self, event): if self.current_file_index < len(self.filenames): self.current_file_index += 1 self._set_image(self.current_file_index) def _set_forward_image(self, event): if self.current_file_index > 0: self.current_file_index -= 1 self._set_image(self.current_file_index) def _save_mask_force(self, event): self.menubar.focus_set() if self._check_entry(self): mask = self.controller.result_mask if mask is None: return if mask.max() < 256: mask = mask.astype(np.uint8) cv2.imwrite('{}.png'.format(self.filenames[self.current_file_index]), mask) def _set_image(self, value): image = cv2.cvtColor(cv2.imread(self.filenames[value]), cv2.COLOR_BGR2RGB) self.filename = os.path.basename(self.filenames[value]) self.controller.set_image(image) def _load_image_callback(self): self.menubar.focus_set() if self._check_entry(self): self.filenames = filedialog.askopenfilenames(parent=self.master, filetypes=[ ("Images", "*.jpg *.JPG *.jpeg *.png *.bmp *.tiff"), ("All files", "*.*"), ], title="Chose an image") if len(self.filenames) > 0: self._set_image(0) def _save_mask_callback(self): self.menubar.focus_set() if self._check_entry(self): mask = self.controller.result_mask if mask is None: return filename = filedialog.asksaveasfilename(parent=self.master, initialfile='{}.png'.format(self.filename), filetypes=[ ("PNG image", "*.png"), ("BMP image", "*.bmp"), ("All files", "*.*"), ], title="Save current mask as...") if len(filename) > 0: if mask.max() < 256: mask = mask.astype(np.uint8) cv2.imwrite(filename, mask) def _about_callback(self): self.menubar.focus_set() text = [ "Developed by:", "K.Sofiiuk and I. Petrov", "MPL-2.0 License, 2020" ] messagebox.showinfo("About Demo", '\n'.join(text)) def _reset_last_object(self): self.state['alpha_blend'].set(0.5) self.state['prob_thresh'].set(0.5) self.controller.reset_last_object() def _update_prob_thresh(self, value): if self.controller.is_incomplete_mask: self.controller.prob_thresh = self.state['prob_thresh'].get() self._update_image() def _update_blend_alpha(self, value): self._update_image() def _update_click_radius(self, *args): if self.image_on_canvas is None: return self._update_image() def _change_brs_mode(self, *args): if self.state['brs_mode'].get() == 'NoBRS': self.net_clicks_entry.set('INF') self.net_clicks_entry.configure(state=tk.DISABLED) self.net_clicks_label.configure(state=tk.DISABLED) else: if self.net_clicks_entry.get() == 'INF': self.net_clicks_entry.set(8) self.net_clicks_entry.configure(state=tk.NORMAL) self.net_clicks_label.configure(state=tk.NORMAL) self._reset_predictor() def _reset_predictor(self): brs_mode = self.state['brs_mode'].get() prob_thresh = self.state['prob_thresh'].get() net_clicks_limit = None if brs_mode == 'NoBRS' else self.state['predictor_params']['net_clicks_limit'].get() if self.state['zoomin_params']['use_zoom_in'].get(): zoomin_params = { 'skip_clicks': self.state['zoomin_params']['skip_clicks'].get(), 'target_size': self.state['zoomin_params']['target_size'].get(), 'expansion_ratio': self.state['zoomin_params']['expansion_ratio'].get() } else: zoomin_params = None predictor_params = { 'brs_mode': brs_mode, 'prob_thresh': prob_thresh, 'zoom_in_params': zoomin_params, 'predictor_params': { 'net_clicks_limit': net_clicks_limit, 'max_size': self.limit_longest_size }, 'brs_opt_func_params': {'min_iou_diff': 1e-3}, 'lbfgs_params': {'maxfun': self.state['lbfgs_max_iters'].get()} } self.controller.reset_predictor(predictor_params) def _click_callback(self, is_positive, x, y): self.canvas.focus_set() if self.image_on_canvas is None: messagebox.showwarning("Warning", "Please, load an image first") return if self._check_entry(self): self.controller.add_click(x, y, is_positive) def _update_image(self, reset_canvas=False): image = self.controller.get_visualization(alpha_blend=self.state['alpha_blend'].get(), click_radius=self.state['click_radius'].get()) if self.image_on_canvas is None: self.image_on_canvas = CanvasImage(self.canvas_frame, self.canvas) self.image_on_canvas.register_click_callback(self._click_callback) self._set_click_dependent_widgets_state() if image is not None: self.image_on_canvas.reload_image(Image.fromarray(image), reset_canvas) def _set_click_dependent_widgets_state(self): after_1st_click_state = tk.NORMAL if self.controller.is_incomplete_mask else tk.DISABLED before_1st_click_state = tk.DISABLED if self.controller.is_incomplete_mask else tk.NORMAL self.finish_object_button.configure(state=after_1st_click_state) self.undo_click_button.configure(state=after_1st_click_state) self.reset_clicks_button.configure(state=after_1st_click_state) self.zoomin_options_frame.set_frame_state(before_1st_click_state) self.brs_options_frame.set_frame_state(before_1st_click_state) if self.state['brs_mode'].get() == 'NoBRS': self.net_clicks_entry.configure(state=tk.DISABLED) self.net_clicks_label.configure(state=tk.DISABLED) def _check_entry(self, widget): all_checked = True if widget.winfo_children is not None: for w in widget.winfo_children(): all_checked = all_checked and self._check_entry(w) if getattr(widget, "_check_bounds", None) is not None: all_checked = all_checked and widget._check_bounds(widget.get(), '-1') return all_checked
def _add_menu(self): self.menubar = FocusLabelFrame(self, bd=1) self.menubar.pack(side=tk.TOP, fill='x') button = FocusButton(self.menubar, text='Load image', command=self._load_image_callback) button.pack(side=tk.LEFT) button = FocusButton(self.menubar, text='Save mask', command=self._save_mask_callback) button.pack(side=tk.LEFT) button = FocusButton(self.menubar, text='About', command=self._about_callback) button.pack(side=tk.LEFT) button = FocusButton(self.menubar, text='Exit', command=self.master.quit) button.pack(side=tk.LEFT)
class InteractiveDemoApp(ttk.Frame): def __init__(self, master, args, model): super().__init__(master) self.master = master master.title("Interactive Segmentation with f-BRS") master.withdraw() master.update_idletasks() x = (master.winfo_screenwidth() - master.winfo_reqwidth()) / 2 y = (master.winfo_screenheight() - master.winfo_reqheight()) / 2 master.geometry("+%d+%d" % (x, y)) self.pack(fill="both", expand=True) self.brs_modes = [ 'NoBRS', 'RGB-BRS', 'DistMap-BRS', 'f-BRS-A', 'f-BRS-B', 'f-BRS-C' ] self.limit_longest_size = args.limit_longest_size self._init_state() self._add_menu() self._add_canvas() self._add_buttons() self.device = args.device self.net = model.to(self.device) self.predictor = None self.zoomin_params = None self._change_zoomin() master.bind('<space>', lambda event: self._finish_object()) self.state['zoomin_params']['skip_clicks'].trace( mode='w', callback=self._change_zoomin) self.state['zoomin_params']['target_size'].trace( mode='w', callback=self._change_zoomin) self.state['zoomin_params']['expansion_ratio'].trace( mode='w', callback=self._change_zoomin) self.state['predictor_params']['net_clicks_limit'].trace( mode='w', callback=self._change_brs_mode) self.state['lbfgs_max_iters'].trace(mode='w', callback=self._change_brs_mode) self.input_transform = transforms.Compose([ transforms.ToTensor(), transforms.Normalize([.485, .456, .406], [.229, .224, .225]) ]) def _init_state(self): self.state = { 'zoomin_params': { 'use_zoom_in': tk.BooleanVar(value=True), 'skip_clicks': tk.IntVar(value=1), 'target_size': tk.IntVar(value=min(480, self.limit_longest_size)), 'expansion_ratio': tk.DoubleVar(value=1.4) }, '_zoomin_history': [], 'predictor_params': { 'net_clicks_limit': tk.IntVar(value=8) }, 'brs_mode': tk.StringVar(value='f-BRS-B'), 'prob_thresh': tk.DoubleVar(value=0.5), 'lbfgs_max_iters': tk.IntVar(value=20), 'alpha_blend': tk.DoubleVar(value=0.5), 'click_radius': tk.IntVar(value=3), '_image': None, '_image_nd': None, '_pred_probs_history': [], '_object_counter': 0, '_object_masks': [], '_clicks_list': [], '_clicker': None, } def _reset_to_defaults(self): self.state.update({ '_zoomin_history': [], '_clicks_list': [], '_pred_probs_history': [], }) self.state['alpha_blend'].set(0.5) self.state['prob_thresh'].set(0.5) if self.state['_clicker'] is not None: self.state['_clicker'].reset_clicks() if self.predictor.zoom_in is not None: self.predictor.zoom_in.reset() def _add_menu(self): self.menubar = FocusLabelFrame(self, bd=1) self.menubar.pack(side=tk.TOP, fill='x') button = FocusButton(self.menubar, text='Load image', command=self._load_image_callback) button.pack(side=tk.LEFT) button = FocusButton(self.menubar, text='Save mask', command=self._save_mask_callback) button.pack(side=tk.LEFT) button = FocusButton(self.menubar, text='About', command=self._about_callback) button.pack(side=tk.LEFT) button = FocusButton(self.menubar, text='Exit', command=self.master.quit) button.pack(side=tk.LEFT) def _add_canvas(self): self.canvas_frame = FocusLabelFrame(self, text="Image") self.canvas_frame.rowconfigure(0, weight=1) self.canvas_frame.columnconfigure(0, weight=1) self.canvas = tk.Canvas(self.canvas_frame, highlightthickness=0, cursor="hand1", width=400, height=400) self.canvas.grid(row=0, column=0, sticky='nswe', padx=5, pady=5) self.image_on_canvas = None self.canvas_frame.pack(side=tk.LEFT, fill="both", expand=True, padx=5, pady=5) def _add_buttons(self): self.control_frame = FocusLabelFrame(self, text="Controls") self.control_frame.pack(side=tk.TOP, fill='x', padx=5, pady=5) master = self.control_frame self.clicks_options_frame = FocusLabelFrame(master, text="Clicks management") self.clicks_options_frame.pack(side=tk.TOP, fill=tk.X, padx=10, pady=3) self.finish_object_button = \ FocusButton(self.clicks_options_frame, text='Finish\nobject', bg='#b6d7a8', fg='black', width=10, height=2, state=tk.DISABLED, command=self._finish_object) self.finish_object_button.pack(side=tk.LEFT, fill=tk.X, padx=10, pady=3) self.undo_click_button = \ FocusButton(self.clicks_options_frame, text='Undo click', bg='#ffe599', fg='black', width=10, height=2, state=tk.DISABLED, command=self._undo_click) self.undo_click_button.pack(side=tk.LEFT, fill=tk.X, padx=10, pady=3) self.reset_clicks_button = \ FocusButton(self.clicks_options_frame, text='Reset clicks', bg='#ea9999', fg='black', width=10, height=2, state=tk.DISABLED, command=self._reset_clicks_history) self.reset_clicks_button.pack(side=tk.LEFT, fill=tk.X, padx=10, pady=3) self.zoomin_options_frame = FocusLabelFrame(master, text="ZoomIn options") self.zoomin_options_frame.pack(side=tk.TOP, fill=tk.X, padx=10, pady=3) FocusCheckButton( self.zoomin_options_frame, text='Use ZoomIn', command=self._change_zoomin, variable=self.state['zoomin_params']['use_zoom_in']).grid( rowspan=3, column=0, padx=10) tk.Label(self.zoomin_options_frame, text="Skip clicks").grid(row=0, column=1, pady=1, sticky='e') tk.Label(self.zoomin_options_frame, text="Target size").grid(row=1, column=1, pady=1, sticky='e') tk.Label(self.zoomin_options_frame, text="Expand ratio").grid(row=2, column=1, pady=1, sticky='e') BoundedNumericalEntry( self.zoomin_options_frame, variable=self.state['zoomin_params']['skip_clicks'], min_value=0, max_value=None, vartype=int, name='zoom_in_skip_clicks').grid(row=0, column=2, padx=10, pady=1, sticky='w') BoundedNumericalEntry( self.zoomin_options_frame, variable=self.state['zoomin_params']['target_size'], min_value=100, max_value=self.limit_longest_size, vartype=int, name='zoom_in_target_size').grid(row=1, column=2, padx=10, pady=1, sticky='w') BoundedNumericalEntry( self.zoomin_options_frame, variable=self.state['zoomin_params']['expansion_ratio'], min_value=1.0, max_value=2.0, vartype=float, name='zoom_in_expansion_ratio').grid(row=2, column=2, padx=10, pady=1, sticky='w') self.zoomin_options_frame.columnconfigure((0, 1, 2), weight=1) self.brs_options_frame = FocusLabelFrame(master, text="BRS options") self.brs_options_frame.pack(side=tk.TOP, fill=tk.X, padx=10, pady=3) menu = tk.OptionMenu(self.brs_options_frame, self.state['brs_mode'], *self.brs_modes, command=self._change_brs_mode) menu.config(width=11) menu.grid(rowspan=2, column=0, padx=10) self.net_clicks_label = tk.Label(self.brs_options_frame, text="Network clicks") self.net_clicks_label.grid(row=0, column=1, pady=2, sticky='e') self.net_clicks_entry = BoundedNumericalEntry( self.brs_options_frame, variable=self.state['predictor_params']['net_clicks_limit'], min_value=0, max_value=None, vartype=int, allow_inf=True, name='net_clicks_limit') self.net_clicks_entry.grid(row=0, column=2, padx=10, pady=2, sticky='w') tk.Label(self.brs_options_frame, text="L-BFGS\nmax iterations").grid(row=1, column=1, pady=2, sticky='e') BoundedNumericalEntry(self.brs_options_frame, variable=self.state['lbfgs_max_iters'], min_value=1, max_value=1000, vartype=int, name='lbfgs_max_iters').grid(row=1, column=2, padx=10, pady=2, sticky='w') self.brs_options_frame.columnconfigure((0, 1), weight=1) self.prob_thresh_frame = FocusLabelFrame(master, text="Predictions threshold") self.prob_thresh_frame.pack(side=tk.TOP, fill=tk.X, padx=10, pady=3) FocusHorizontalScale(self.prob_thresh_frame, from_=0.0, to=1.0, command=self._update_prob_thresh, variable=self.state['prob_thresh']).pack(padx=10) self.alpha_blend_frame = FocusLabelFrame( master, text="Alpha blending coefficient") self.alpha_blend_frame.pack(side=tk.TOP, fill=tk.X, padx=10, pady=3) FocusHorizontalScale(self.alpha_blend_frame, from_=0.0, to=1.0, command=self._update_blend_alpha, variable=self.state['alpha_blend']).pack( padx=10, anchor=tk.CENTER) self.click_radius_frame = FocusLabelFrame( master, text="Visualisation click radius") self.click_radius_frame.pack(side=tk.TOP, fill=tk.X, padx=10, pady=3) FocusHorizontalScale(self.click_radius_frame, from_=0, to=7, resolution=1, command=self._update_click_radius, variable=self.state['click_radius']).pack( padx=10, anchor=tk.CENTER) # ================================================= Menu callbacks ================================================= def _load_image_callback(self): self.menubar.focus_set() if self._check_entry(self): filename = filedialog.askopenfilename( parent=self.master, filetypes=[ ("Images", "*.jpg *.jpeg *.png *.bmp *.tiff"), ("All files", "*.*"), ], title="Chose an image") if len(filename) > 0: self.state['_image'] = cv2.cvtColor(cv2.imread(filename), cv2.COLOR_BGR2RGB) self.state['_image_nd'] = self.input_transform( self.state['_image']).to(self.device) self.predictor.set_input_image(self.state['_image_nd']) self.state['_object_counter'] = 0 self.state['_clicks_list'] = [] self.state['_clicker'] = clicker.Clicker( np.zeros(self.state['_image'].shape[:2], dtype=np.bool)) self.state['_pred_probs_history'] = [] self.state['_zoomin_history'] = [] self.state['_object_masks'] = [] self._set_click_dependent_widgets_state() self._update_image(reset_canvas=True) def _save_mask_callback(self): self.menubar.focus_set() if self._check_entry(self): mask = self._get_current_mask() if mask is None: # messagebox.showwarning("Can't save an empty mask") return filename = filedialog.asksaveasfilename( parent=self.master, initialfile='mask.png', filetypes=[ ("PNG image", "*.png"), ("BMP image", "*.bmp"), ("All files", "*.*"), ], title="Save current mask as...") if len(filename) > 0: cv2.imwrite(filename, mask) def _about_callback(self): self.menubar.focus_set() text = [ "Developed by:", "K.Sofiiuk and I. Petrov", "MPL-2.0 License, 2020" ] messagebox.showinfo("About Demo", '\n'.join(text)) # ================================================ Button callbacks ================================================ def _finish_object(self): if len(self.state['_pred_probs_history']) == 0: return current_mask = (self.state['_pred_probs_history'][-1] > self.state['prob_thresh'].get()).astype(np.uint8) current_mask = current_mask * (self.state['_object_counter'] + 1) self.state['_object_masks'].append(current_mask) self.state['_object_counter'] += 1 self.state['_clicks_list'] = [] self.state['_clicker'].reset_clicks() self.state['_pred_probs_history'] = [] self.state['_zoomin_history'] = [] self._set_click_dependent_widgets_state() self._update_image() self._reset_predictor() def _undo_click(self): self.state['_clicks_list'] = self.state['_clicks_list'][:-1] self.state['_clicker']._remove_last_click() self.state['_pred_probs_history'] = self.state[ '_pred_probs_history'][:-1] self.state['_zoomin_history'] = self.state['_zoomin_history'][:-1] if len(self.state['_zoomin_history']) > 0: self.predictor.zoom_in._input_image = self.state[ '_zoomin_history'][-1]['_input_image'] self.predictor.zoom_in._prev_probs = self.state['_zoomin_history'][ -1]['_prev_probs'] self.predictor.zoom_in._object_roi = self.state['_zoomin_history'][ -1]['_object_roi'] self.predictor.zoom_in._roi_image = self.state['_zoomin_history'][ -1]['_roi_image'] if len(self.state['_clicks_list']) == 0: self._reset_predictor() self._set_click_dependent_widgets_state() self._update_image() def _reset_clicks_history(self): self._reset_to_defaults() self._reset_predictor() self._set_click_dependent_widgets_state() self._update_image() # =============================================== Variable callbacks =============================================== def _update_prob_thresh(self, value): if len(self.state['_pred_probs_history']) > 0: self._update_image() def _update_blend_alpha(self, value): if self.state['_image'] is not None and \ (len(self.state['_pred_probs_history']) > 0 or self.state['_object_counter'] > 0): self._update_image() def _update_click_radius(self, *args): if self.image_on_canvas is None: return self._update_image() def _change_zoomin(self, *args): if self.state['zoomin_params']['use_zoom_in'].get(): self.zoomin_params = { 'skip_clicks': self.state['zoomin_params']['skip_clicks'].get(), 'target_size': self.state['zoomin_params']['target_size'].get(), 'expansion_ratio': self.state['zoomin_params']['expansion_ratio'].get() } self._reset_predictor() if len(self.state['_zoomin_history']) > 0: self.predictor.zoom_in._input_image = self.state[ '_zoomin_history'][-1]['_input_image'] self.predictor.zoom_in._prev_probs = self.state[ '_zoomin_history'][-1]['_prev_probs'] self.predictor.zoom_in._object_roi = self.state[ '_zoomin_history'][-1]['_object_roi'] self.predictor.zoom_in._roi_image = self.state[ '_zoomin_history'][-1]['_roi_image'] elif self.predictor is not None: self.predictor.zoom_in.reset() else: self.zoomin_params = None self._reset_predictor() def _reset_predictor(self): brs_mode = self.state['brs_mode'].get() prob_thresh = self.state['prob_thresh'].get() net_clicks_limit = None if brs_mode == 'NoBRS' else self.state[ 'predictor_params']['net_clicks_limit'].get() self.predictor = get_predictor( self.net, brs_mode, self.device, prob_thresh=prob_thresh, zoom_in_params=self.zoomin_params, predictor_params={ 'net_clicks_limit': net_clicks_limit, 'max_size': self.limit_longest_size }, brs_opt_func_params={'min_iou_diff': 1e-3}, lbfgs_params={'maxfun': self.state['lbfgs_max_iters'].get()}) if self.state['_image_nd'] is not None: self.predictor.set_input_image(self.state['_image_nd']) def _change_brs_mode(self, *args): if self.state['brs_mode'].get() == 'NoBRS': self.net_clicks_entry.set('INF') self.net_clicks_entry.configure(state=tk.DISABLED) self.net_clicks_label.configure(state=tk.DISABLED) else: if self.net_clicks_entry.get() == 'INF': self.net_clicks_entry.set(8) self.net_clicks_entry.configure(state=tk.NORMAL) self.net_clicks_label.configure(state=tk.NORMAL) self._reset_predictor() assert len(self.state['_pred_probs_history']) == 0 self.state.update({ '_zoomin_history': [], '_pred_probs_history': [], }) if self.state['_clicker'] is not None: self.state['_clicker'].reset_clicks() self.state['_clicks_list'] = [] # ================================================ Canvas callback ================================================= def _click_callback(self, is_positive, x, y): self.canvas.focus_set() if self.image_on_canvas is None: messagebox.showwarning("Warning", "Please, load an image first") return if self._check_entry(self): click = clicker.Click(is_positive=is_positive, coords=(y, x)) self._make_prediction_for_one_click(click) self._set_click_dependent_widgets_state() self._update_image() # ================================================= Other routines ================================================= def _get_current_mask(self): prob_thresh = self.state['prob_thresh'].get() if len(self.state['_pred_probs_history']) > 0: current_mask = (self.state['_pred_probs_history'][-1] > prob_thresh).astype(np.uint8) current_mask = current_mask * (self.state['_object_counter'] + 1) mask = np.stack(self.state['_object_masks'] + [current_mask], axis=0).max(axis=0) elif self.state['_object_counter'] > 0: mask = np.stack(self.state['_object_masks'], axis=0).max(axis=0) else: mask = None return mask def _update_image(self, reset_canvas=False): alpha = self.state['alpha_blend'].get() click_radius = self.state['click_radius'].get() mask = self._get_current_mask() image = vis.draw_with_blend_and_clicks( self.state['_image'], mask=mask, alpha=alpha, clicks_list=self.state['_clicks_list'], radius=click_radius) if self.image_on_canvas is None: self.image_on_canvas = CanvasImage(self.canvas_frame, self.canvas) self.image_on_canvas.register_click_callback(self._click_callback) self.image_on_canvas.reload_image(Image.fromarray(image), reset_canvas) def _make_prediction_for_one_click(self, click): self.state['_clicks_list'].append(click) self.state['_clicker']._add_click(click) pred = self.predictor.get_prediction(self.state['_clicker']) if self.state['zoomin_params']['use_zoom_in'].get(): self.state['_zoomin_history'].append({ '_input_image': self.predictor.zoom_in._input_image, '_prev_probs': self.predictor.zoom_in._prev_probs, '_object_roi': self.predictor.zoom_in._object_roi, '_roi_image': self.predictor.zoom_in._roi_image }) torch.cuda.empty_cache() self.state['_pred_probs_history'].append(pred) # =========================================== Widget and frame routines ============================================ def _set_click_dependent_widgets_state(self): after_1st_click_state = tk.DISABLED if len( self.state['_clicks_list']) == 0 else tk.NORMAL before_1st_click_state = tk.DISABLED if len( self.state['_clicks_list']) > 0 else tk.NORMAL self.finish_object_button.configure(state=after_1st_click_state) self.undo_click_button.configure(state=after_1st_click_state) self.reset_clicks_button.configure(state=after_1st_click_state) self.zoomin_options_frame.set_frame_state(before_1st_click_state) self.brs_options_frame.set_frame_state(before_1st_click_state) if self.state['brs_mode'].get() == 'NoBRS': self.net_clicks_entry.configure(state=tk.DISABLED) self.net_clicks_label.configure(state=tk.DISABLED) def _check_entry(self, widget): all_checked = True if widget.winfo_children is not None: for w in widget.winfo_children(): all_checked = all_checked and self._check_entry(w) if getattr(widget, "_check_bounds", None) is not None: all_checked = all_checked and widget._check_bounds( widget.get(), '-1') return all_checked