class AxesTabWidgetPresenter: def __init__(self, fig, view=None, parent=None): self.fig = fig if not view: self.view = AxesTabWidgetView(parent) else: self.view = view # Store a copy of the current view props. This allows us to tell if any # properties have been changed by the user; especially solving issues # with x and y axis limits interfering with figure autoscaling self.current_view_props = {} self.current_axis = "x" # Dictionary mapping ax name to Axes object self.axes_names_dict = get_axes_names_dict(self.fig) # Add axes names to "select axes" combo box self.populate_select_axes_combo_box() # Display top axes' properties in input fields self.update_view() # Signals self.view.select_axes_combo_box.currentIndexChanged.connect( self.update_view) self.view.axis_button_group.buttonClicked.connect(self.axis_changed) self.view.apply_all_button.clicked.connect(self.apply_all_properties) self.view.show_minor_ticks_check_box.toggled.connect( self.show_minor_ticks_checked) def apply_properties(self): """Update the axes with the user inputted properties""" # Make sure current_view_props is up to date if values have been changed self.axis_changed() ax = self.get_selected_ax() self.set_ax_title(ax, self.current_view_props['title']) self.set_ax_canvas_color(ax, self.current_view_props['canvas_color']) if not isinstance(ax, Axes3D): if self.current_view_props['minor_ticks']: ax.minorticks_on() else: ax.minorticks_off() ax.show_minor_gridlines = self.current_view_props[ 'minor_gridlines'] # If the grid is enabled update it if ax.show_minor_gridlines: if ax.xaxis._gridOnMajor and ax.yaxis._gridOnMajor: ax.grid(True, which='minor') elif ax.xaxis._gridOnMajor: ax.grid(True, axis='x', which='minor') elif ax.yaxis._gridOnMajor: ax.grid(True, axis='y', which='minor') else: ax.grid(False, which='minor') if "xlabel" in self.current_view_props: ax.set_xlabel(self.current_view_props['xlabel']) ax.set_xscale(self.current_view_props['xscale']) if isinstance(ax, Axes3D): ax.set_xlim3d(self.current_view_props['xlim']) else: ax.set_xlim(self.current_view_props['xlim']) if "ylabel" in self.current_view_props: ax.set_ylabel(self.current_view_props['ylabel']) ax.set_yscale(self.current_view_props['yscale']) if isinstance(ax, Axes3D): ax.set_ylim3d(self.current_view_props['ylim']) else: ax.set_ylim(self.current_view_props['ylim']) if "zlabel" in self.current_view_props: ax.set_zlabel(self.current_view_props['zlabel']) ax.set_zscale(self.current_view_props['zscale']) ax.set_zlim3d(self.current_view_props['zlim']) self.update_view() def apply_all_properties(self): """Update the axes with the user inputted properties""" # Make sure current_view_props is up to date if values have been changed self.axis_changed() view_props = self.current_view_props for ax in self.axes_names_dict.values(): self.set_ax_canvas_color(ax, view_props['canvas_color']) if self.current_view_props['minor_ticks']: ax.minorticks_on() else: ax.minorticks_off() ax.show_minor_gridlines = self.current_view_props[ 'minor_gridlines'] # If the grid is enabled update it if ax.show_minor_gridlines: if ax.xaxis._gridOnMajor and ax.yaxis._gridOnMajor: ax.grid(True, which='minor') elif ax.xaxis._gridOnMajor: ax.grid(True, axis='x', which='minor') elif ax.yaxis._gridOnMajor: ax.grid(True, axis='y', which='minor') else: ax.grid(False, which='minor') if "xlabel" in view_props: ax.set_xlabel(view_props['xlabel']) ax.set_xscale(view_props['xscale']) if isinstance(ax, Axes3D): ax.set_xlim3d(view_props['xlim']) else: ax.set_xlim(view_props['xlim']) if "ylabel" in view_props: ax.set_ylabel(view_props['ylabel']) ax.set_yscale(view_props['yscale']) if isinstance(ax, Axes3D): ax.set_ylim3d(view_props['ylim']) else: ax.set_ylim(view_props['ylim']) if "zlabel" in view_props: ax.set_zlabel(view_props['zlabel']) ax.set_zscale(view_props['zscale']) ax.set_zlim3d(view_props['zlim']) ax.figure.canvas.draw() self.update_view() def get_selected_ax(self): """Get Axes object of selected axes""" return self.axes_names_dict[self.view.get_selected_ax_name()] def get_selected_ax_name(self): """Get name of selected axes""" return self.view.get_selected_ax_name() def get_selected_ax_properties(self): """Get axes properties from selected axes""" return AxProperties.from_ax_object(self.get_selected_ax()) def populate_select_axes_combo_box(self): """Add axes' names to the 'select axes' combo box""" # Sort names by axes position names = sorted(self.axes_names_dict.keys(), key=lambda x: x[x.rfind("("):]) self.view.populate_select_axes_combo_box(names) def rename_selected_axes(self, new_name): """ Rename the selected axes, updating the axes_names_dict and the select_axes_combo_box """ old_name = self.get_selected_ax_name() self.view.set_selected_axes_selector_text(new_name) self.axes_names_dict[new_name] = self.axes_names_dict.pop(old_name) def set_ax_title(self, ax, new_title): """Set axes' title and update its entry in the axes selector""" ax.set_title(new_title) self.rename_selected_axes(generate_ax_name(ax)) def set_ax_canvas_color(self, ax, color_rgb): """Set axes canvas color""" ax.set_facecolor(color_rgb) def update_view(self): """Update the properties in the view from the selected axes""" self.current_view_props.clear() ax_props = self.get_selected_ax_properties() plot_is_3d = "zlim" in ax_props # Enable the z-axis option if the plot is 3D. self.view.z_radio_button.setEnabled(plot_is_3d) # For tiled plots if not plot_is_3d and self.view.z_radio_button.isChecked(): self.view.x_radio_button.click() # Changing the axis scale doesn't work with 3D plots, this is a known matplotlib issue, # so the scale option is disabled. self.view.scale_combo_box.setEnabled("zlim" not in ax_props) # Minor ticks/gridlines are currently not supported for 3D plots. self.view.show_minor_gridlines_check_box.setVisible(not plot_is_3d) self.view.show_minor_ticks_check_box.setVisible(not plot_is_3d) ax = self.view.get_axis() self.view.set_title(ax_props.title) color_hex = convert_color_to_hex(ax_props["canvas_color"]) self.view.set_canvas_color(color_hex) if not plot_is_3d: self.view.set_show_minor_ticks(ax_props.minor_ticks) self.view.show_minor_gridlines_check_box.setEnabled( ax_props.minor_ticks) self.view.set_show_minor_gridlines(ax_props.minor_gridlines) lim = ax_props[f"{ax}lim"] self.view.set_lower_limit(lim[0]) self.view.set_upper_limit(lim[1]) self.view.set_label(ax_props[f"{ax}label"]) self.view.set_scale(ax_props[f"{ax}scale"]) self.current_view_props.update(self.view.get_properties()) def axis_changed(self): ax = self.current_axis self.current_view_props['title'] = self.view.get_title() self.current_view_props[ 'minor_ticks'] = self.view.get_show_minor_ticks() self.current_view_props[ 'minor_gridlines'] = self.view.get_show_minor_gridlines() self.current_view_props[f"{ax}lim"] = (self.view.get_lower_limit(), self.view.get_upper_limit()) self.current_view_props[f"{ax}label"] = self.view.get_label() self.current_view_props[f"{ax}scale"] = self.view.get_scale() self.current_view_props["canvas_color"] = self.view.get_canvas_color() new_ax = self.view.get_axis() self.current_axis = new_ax if f"{new_ax}lim" in self.current_view_props: lim = self.current_view_props[f"{new_ax}lim"] self.view.set_lower_limit(lim[0]) self.view.set_upper_limit(lim[1]) self.view.set_label(self.current_view_props[f"{new_ax}label"]) self.view.set_scale(self.current_view_props[f"{new_ax}scale"]) else: ax_props = self.get_selected_ax_properties() ax = self.view.get_axis() lim = ax_props[f"{ax}lim"] self.view.set_lower_limit(lim[0]) self.view.set_upper_limit(lim[1]) self.view.set_label(ax_props[f"{ax}label"]) self.view.set_scale(ax_props[f"{ax}scale"]) def show_minor_ticks_checked(self, checked): # Can't have minor gridlines without minor ticks self.view.show_minor_gridlines_check_box.setEnabled(checked) if not checked: self.view.show_minor_gridlines_check_box.setChecked(False)
class AxesTabWidgetPresenter: def __init__(self, fig, view=None, parent=None): self.fig = fig if not view: self.view = AxesTabWidgetView(parent) else: self.view = view # Store a copy of the current view props. This allows us to tell if any # properties have been changed by the user; especially solving issues # with x and y axis limits interfering with figure autoscaling self.current_view_props = {} self.current_axis = "x" # Dictionary mapping ax name to Axes object self.axes_names_dict = get_axes_names_dict(self.fig) # Add axes names to "select axes" combo box self.populate_select_axes_combo_box() # Display top axes' properties in input fields self.update_view() # Signals self.view.select_axes_combo_box.currentIndexChanged.connect( self.update_view) self.view.axis_button_group.buttonClicked.connect( self.axis_changed) def apply_properties(self): """Update the axes with the user inputted properties""" # Make sure current_view_props is up to date if values have been changed self.axis_changed() ax = self.get_selected_ax() self.set_ax_title(ax, self.current_view_props['title']) if "xlabel" in self.current_view_props: ax.set_xlabel(self.current_view_props['xlabel']) ax.set_xscale(self.current_view_props['xscale']) if isinstance(ax, Axes3D): ax.set_xlim3d(self.current_view_props['xlim']) else: ax.set_xlim(self.current_view_props['xlim']) if "ylabel" in self.current_view_props: ax.set_ylabel(self.current_view_props['ylabel']) ax.set_yscale(self.current_view_props['yscale']) if isinstance(ax, Axes3D): ax.set_ylim3d(self.current_view_props['ylim']) else: ax.set_ylim(self.current_view_props['ylim']) if "zlabel" in self.current_view_props: ax.set_zlabel(self.current_view_props['zlabel']) ax.set_zscale(self.current_view_props['zscale']) ax.set_zlim3d(self.current_view_props['zlim']) self.update_view() def get_selected_ax(self): """Get Axes object of selected axes""" return self.axes_names_dict[self.view.get_selected_ax_name()] def get_selected_ax_name(self): """Get name of selected axes""" return self.view.get_selected_ax_name() def get_selected_ax_properties(self): """Get axes properties from selected axes""" return AxProperties.from_ax_object(self.get_selected_ax()) def populate_select_axes_combo_box(self): """Add axes' names to the 'select axes' combo box""" # Sort names by axes position names = sorted(self.axes_names_dict.keys(), key=lambda x: x[x.rfind("("):]) self.view.populate_select_axes_combo_box(names) def rename_selected_axes(self, new_name): """ Rename the selected axes, updating the axes_names_dict and the select_axes_combo_box """ old_name = self.get_selected_ax_name() self.view.set_selected_axes_selector_text(new_name) self.axes_names_dict[new_name] = self.axes_names_dict.pop(old_name) def set_ax_title(self, ax, new_title): """Set axes' title and update its entry in the axes selector""" ax.set_title(new_title) self.rename_selected_axes(generate_ax_name(ax)) def update_view(self): """Update the properties in the view from the selected axes""" self.current_view_props.clear() ax_props = self.get_selected_ax_properties() plot_is_3d = "zlim" in ax_props # Enable the z-axis option if the plot is 3D. self.view.z_radio_button.setEnabled(plot_is_3d) # For tiled plots if not plot_is_3d and self.view.z_radio_button.isChecked(): self.view.x_radio_button.click() # Changing the axis scale doesn't work with 3D plots, this is a known matplotlib issue, # so the scale option is disabled. self.view.scale_combo_box.setEnabled("zlim" not in ax_props) ax = self.view.get_axis() self.view.set_title(ax_props.title) lim = ax_props[f"{ax}lim"] self.view.set_lower_limit(lim[0]) self.view.set_upper_limit(lim[1]) self.view.set_label(ax_props[f"{ax}label"]) self.view.set_scale(ax_props[f"{ax}scale"]) self.current_view_props.update(self.view.get_properties()) def axis_changed(self): ax = self.current_axis self.current_view_props['title'] = self.view.get_title() self.current_view_props[f"{ax}lim"] = (self.view.get_lower_limit(), self.view.get_upper_limit()) self.current_view_props[f"{ax}label"] = self.view.get_label() self.current_view_props[f"{ax}scale"] = self.view.get_scale() new_ax = self.view.get_axis() self.current_axis = new_ax if f"{new_ax}lim" in self.current_view_props: lim = self.current_view_props[f"{new_ax}lim"] self.view.set_lower_limit(lim[0]) self.view.set_upper_limit(lim[1]) self.view.set_label(self.current_view_props[f"{new_ax}label"]) self.view.set_scale(self.current_view_props[f"{new_ax}scale"]) else: ax_props = self.get_selected_ax_properties() ax = self.view.get_axis() lim = ax_props[f"{ax}lim"] self.view.set_lower_limit(lim[0]) self.view.set_upper_limit(lim[1]) self.view.set_label(ax_props[f"{ax}label"]) self.view.set_scale(ax_props[f"{ax}scale"])
class AxesTabWidgetPresenter: def __init__(self, fig, view=None, parent=None): self.fig = fig if not view: self.view = AxesTabWidgetView(parent) else: self.view = view # Store a copy of the current view props. This allows us to tell if any # properties have been changed by the user; especially solving issues # with x and y axis limits interfering with figure autoscaling self.current_view_props = None # Dictionary mapping ax name to Axes object self.axes_names_dict = get_axes_names_dict(self.fig) # Add axes names to "select axes" combo box self.populate_select_axes_combo_box() # Display top axes' properties in input fields self.update_view() # Signals self.view.select_axes_combo_box.currentIndexChanged.connect( self.update_view) def apply_properties(self): """Update the axes with the user inputted properties""" ax = self.get_selected_ax() try: new_props = self.view.get_properties() except ValueError as e: self.view.error_occurred(str(e)) else: self.set_ax_title(ax, new_props.title) ax.set_xlabel(new_props.xlabel) ax.set_xscale(new_props.xscale) if new_props.xscale == 'Log' and new_props.xlim[0] < 0: ax.set_xlim(new_props.xlim[1] * 0.01, new_props.xlim[1]) else: ax.set_xlim(new_props.xlim) ax.set_ylabel(new_props.ylabel) ax.set_yscale(new_props.yscale) if new_props.yscale == 'Log' and new_props.ylim[0] < 0: ax.set_ylim(new_props.ylim[1] * 0.01, new_props.ylim[1]) else: ax.set_ylim(new_props.ylim) self.update_view() def get_selected_ax(self): """Get Axes object of selected axes""" return self.axes_names_dict[self.view.get_selected_ax_name()] def get_selected_ax_name(self): """Get name of selected axes""" return self.view.get_selected_ax_name() def get_selected_ax_properties(self): """Get axes properties from selected axes""" return AxProperties.from_ax_object(self.get_selected_ax()) def populate_select_axes_combo_box(self): """Add axes' names to the 'select axes' combo box""" # Sort names by axes position names = sorted(self.axes_names_dict.keys(), key=lambda x: x[x.rfind("("):]) self.view.populate_select_axes_combo_box(names) def rename_selected_axes(self, new_name): """ Rename the selected axes, updating the axes_names_dict and the select_axes_combo_box """ old_name = self.get_selected_ax_name() self.view.set_selected_axes_selector_text(new_name) self.axes_names_dict[new_name] = self.axes_names_dict.pop(old_name) def set_ax_title(self, ax, new_title): """Set axes' title and update its entry in the axes selector""" ax.set_title(new_title) self.rename_selected_axes(generate_ax_name(ax)) def update_view(self): """Update the properties in the view from the selected axes""" ax_props = self.get_selected_ax_properties() self.view.set_title(ax_props.title) self.view.set_xlower_limit(ax_props.xlim[0]) self.view.set_xupper_limit(ax_props.xlim[1]) self.view.set_xlabel(ax_props.xlabel) self.view.set_xscale(ax_props.xscale) self.view.set_ylower_limit(ax_props.ylim[0]) self.view.set_yupper_limit(ax_props.ylim[1]) self.view.set_ylabel(ax_props.ylabel) self.view.set_yscale(ax_props.yscale) self.current_view_props = AxProperties.from_view(self.view)
class AxesTabWidgetPresenter: def __init__(self, fig, view=None, parent=None, success_callback=None, error_callback=None): self.fig = fig if not view: self.view = AxesTabWidgetView(parent) else: self.view = view self.success_callback = success_callback self.error_callback = error_callback # Store a copy of the current view props. self.current_view_props = {} self.current_axis = "x" # Dictionary mapping ax name to Axes object self.axes_names_dict = get_axes_names_dict(self.fig) # Add axes names to "select axes" combo box self.populate_select_axes_combo_box() # Display top axes' properties in input fields self.update_view() # Signals self.view.select_axes_combo_box.currentIndexChanged.connect( self.update_view) self.view.axis_tab_bar.currentChanged.connect(self.axis_changed) self.view.show_minor_ticks_check_box.toggled.connect( self.show_minor_ticks_checked) self.view.autoscale.toggled.connect(self.autoscale_changed) if self.success_callback and self.error_callback: self.view.apply_all_button.clicked.connect( self._apply_all_properties_with_errors) else: self.view.apply_all_button.clicked.connect( self.apply_all_properties) def apply_properties(self): """Update the axes with the user inputted properties""" # Make sure current_view_props is up to date if values have been changed self.axis_changed() ax = self.get_selected_ax() self.set_ax_title(ax, self.current_view_props['title']) self._apply_properties_to_axes(ax) self.update_view() def apply_all_properties(self): """Update the axes with the user inputted properties""" # Make sure current_view_props is up to date if values have been changed self.axis_changed() for ax in self.axes_names_dict.values(): self._apply_properties_to_axes(ax) ax.figure.canvas.draw() self.update_view() def _apply_properties_to_axes(self, ax): """Apply current properties to given set of axes""" self.set_ax_canvas_color(ax, self.current_view_props['canvas_color']) if not isinstance(ax, Axes3D): if self.current_view_props['minor_ticks']: ax.minorticks_on() else: ax.minorticks_off() ax.show_minor_gridlines = self.current_view_props[ 'minor_gridlines'] # If the grid is enabled update it if ax.show_minor_gridlines: if ax.xaxis._major_tick_kw[ 'gridOn'] and ax.yaxis._major_tick_kw['gridOn']: ax.grid(True, which='minor') elif ax.xaxis._major_tick_kw['gridOn']: ax.grid(True, axis='x', which='minor') elif ax.yaxis._major_tick_kw['gridOn']: ax.grid(True, axis='y', which='minor') else: ax.grid(False, which='minor') if "xlabel" in self.current_view_props: ax.set_xlabel(self.current_view_props['xlabel']) ax.set_xscale(self.current_view_props['xscale']) if self.current_view_props['xautoscale']: if ax.images: axesfunctions.update_colorplot_datalimits(ax, ax.images, axis='x') else: ax.autoscale(True, axis="x") else: if isinstance(ax, Axes3D): ax.set_xlim3d(self.current_view_props['xlim']) else: ax.set_xlim(self.current_view_props['xlim']) if "ylabel" in self.current_view_props: ax.set_ylabel(self.current_view_props['ylabel']) ax.set_yscale(self.current_view_props['yscale']) if self.current_view_props['yautoscale']: if ax.images: axesfunctions.update_colorplot_datalimits(ax, ax.images, axis='y') else: ax.autoscale(True, axis="y") else: if isinstance(ax, Axes3D): ax.set_ylim3d(self.current_view_props['ylim']) else: ax.set_ylim(self.current_view_props['ylim']) if isinstance(ax, Axes3D) and "zlabel" in self.current_view_props: ax.set_zlabel(self.current_view_props['zlabel']) ax.set_zscale(self.current_view_props['zscale']) if self.current_view_props['zautoscale']: ax.autoscale(True, axis="z") else: ax.set_zlim3d(self.current_view_props['zlim']) def get_selected_ax(self): """Get Axes object of selected axes""" return self.axes_names_dict[self.view.get_selected_ax_name()] def get_selected_ax_name(self): """Get name of selected axes""" return self.view.get_selected_ax_name() def get_selected_ax_properties(self): """Get axes properties from selected axes""" return AxProperties.from_ax_object(self.get_selected_ax()) def populate_select_axes_combo_box(self): """Add axes' names to the 'select axes' combo box""" # Sort names by axes position names = sorted(self.axes_names_dict.keys(), key=lambda x: x[x.rfind("("):]) self.view.populate_select_axes_combo_box(names) def rename_selected_axes(self, new_name): """ Rename the selected axes, updating the axes_names_dict and the select_axes_combo_box """ old_name = self.get_selected_ax_name() self.view.set_selected_axes_selector_text(new_name) self.axes_names_dict[new_name] = self.axes_names_dict.pop(old_name) def set_ax_title(self, ax, new_title): """Set axes' title and update its entry in the axes selector""" ax.set_title(new_title) self.rename_selected_axes(generate_ax_name(ax)) def set_ax_canvas_color(self, ax, color_rgb): """Set axes canvas color""" ax.set_facecolor(color_rgb) def update_view(self): """Update the properties in the view from the selected axes""" self.current_view_props.clear() ax_props = self.get_selected_ax_properties() ax = self.get_selected_ax() plot_is_3d = isinstance(ax, Axes3D) # Enable the z-axis option if the plot is 3D. self.view.set_z_axis_selector_enabled(plot_is_3d) # For tiled plots if not plot_is_3d and self.view.get_z_axis_selector_checked(): self.view.set_x_axis_selector_click() # Changing the axis scale doesn't work with 3D plots, this is a known matplotlib issue, # so the scale option is disabled. self.view.set_scale_combo_box_enabled(not plot_is_3d) # Minor ticks/gridlines are currently not supported for 3D plots. self.view.set_minor_grid_tick_controls_visible(not plot_is_3d) ax = self.current_axis self.view.set_title(ax_props.title) color_hex = convert_color_to_hex(ax_props["canvas_color"]) self.view.set_canvas_color(color_hex) if not plot_is_3d: self.view.set_show_minor_ticks(ax_props.minor_ticks) self.view.set_minor_gridlines_check_box_enabled( ax_props.minor_ticks) self.view.set_show_minor_gridlines(ax_props.minor_gridlines) self.view.set_autoscale_enabled(ax_props[f"{ax}autoscale"]) self.view.set_limit_input_enabled(not ax_props[f"{ax}autoscale"]) lim = ax_props[f"{ax}lim"] self.view.set_lower_limit(lim[0]) self.view.set_upper_limit(lim[1]) self.view.set_label(ax_props[f"{ax}label"]) self.view.set_scale(ax_props[f"{ax}scale"]) self.current_view_props.update(self.view.get_properties()) def autoscale_changed(self): autoscale_enabled = self.view.get_autoscale_enabled() self.view.set_limit_input_enabled(not autoscale_enabled) def axis_changed(self): ax = self.current_axis self.current_view_props['title'] = self.view.get_title() self.current_view_props[ 'minor_ticks'] = self.view.get_show_minor_ticks() self.current_view_props[ 'minor_gridlines'] = self.view.get_show_minor_gridlines() self.current_view_props[f"{ax}lim"] = (self.view.get_lower_limit(), self.view.get_upper_limit()) self.current_view_props[f"{ax}label"] = self.view.get_label() self.current_view_props[f"{ax}scale"] = self.view.get_scale() self.current_view_props[ f"{ax}autoscale"] = self.view.get_autoscale_enabled() self.current_view_props["canvas_color"] = self.view.get_canvas_color() new_ax = self.view.get_axis() self.current_axis = new_ax if f"{new_ax}lim" in self.current_view_props: self.view.set_autoscale_enabled( self.current_view_props[f"{new_ax}autoscale"]) self.view.set_limit_input_enabled( not self.current_view_props[f"{new_ax}autoscale"]) lim = self.current_view_props[f"{new_ax}lim"] self.view.set_lower_limit(lim[0]) self.view.set_upper_limit(lim[1]) self.view.set_label(self.current_view_props[f"{new_ax}label"]) self.view.set_scale(self.current_view_props[f"{new_ax}scale"]) else: ax_props = self.get_selected_ax_properties() ax = self.view.get_axis() self.view.set_autoscale_enabled(ax_props[f"{ax}autoscale"]) self.view.set_limit_input_enabled(not ax_props[f"{ax}autoscale"]) lim = ax_props[f"{ax}lim"] self.view.set_lower_limit(lim[0]) self.view.set_upper_limit(lim[1]) self.view.set_label(ax_props[f"{ax}label"]) self.view.set_scale(ax_props[f"{ax}scale"]) def show_minor_ticks_checked(self, checked): # Can't have minor gridlines without minor ticks self.view.set_minor_gridlines_check_box_enabled(checked) if not checked: self.view.set_show_minor_gridlines(False) def _apply_all_properties_with_errors(self): """Call apply_all_properties, notifying the parent presenter of whether there were any errors""" try: self.apply_all_properties() except (AssertionError, IndexError, KeyError, TypeError, ValueError) as exception: self.error_callback(str(exception)) return self.success_callback()