import sys import warnings import tkinter import tkinter.ttk as ttk from typing import Union, Callable, Tuple, Any try: from typing import TypedDict except ImportError: from typing_extensions import TypedDict from .... import windows # import windows for isinstance checks from ..theme import ThemeManager from ..font import CTkFont from ..image import CTkImage from ..appearance_mode import CTkAppearanceModeBaseClass from ..scaling import CTkScalingBaseClass from ..utility import pop_from_dict_by_set, check_kwargs_empty class CTkBaseClass(tkinter.Frame, CTkAppearanceModeBaseClass, CTkScalingBaseClass): """ Base class of every CTk widget, handles the dimensions, bg_color, appearance_mode changes, scaling, bg changes of master if master is not a CTk widget """ # attributes that are passed to and managed by the tkinter frame only: _valid_tk_frame_attributes: set = {"cursor"} _cursor_manipulation_enabled: bool = True def __init__(self, master: Any, width: int = 0, height: int = 0, bg_color: Union[str, Tuple[str, str]] = "transparent", **kwargs): # call init methods of super classes tkinter.Frame.__init__(self, master=master, width=width, height=height, **pop_from_dict_by_set(kwargs, self._valid_tk_frame_attributes)) CTkAppearanceModeBaseClass.__init__(self) CTkScalingBaseClass.__init__(self, scaling_type="widget") # check if kwargs is empty, if not raise error for unsupported arguments check_kwargs_empty(kwargs, raise_error=True) # dimensions independent of scaling self._current_width = width # _current_width and _current_height in pixel, represent current size of the widget self._current_height = height # _current_width and _current_height are independent of the scale self._desired_width = width # _desired_width and _desired_height, represent desired size set by width and height self._desired_height = height # set width and height of tkinter.Frame super().configure(width=self._apply_widget_scaling(self._desired_width), height=self._apply_widget_scaling(self._desired_height)) # save latest geometry function and kwargs class GeometryCallDict(TypedDict): function: Callable kwargs: dict self._last_geometry_manager_call: Union[GeometryCallDict, None] = None # background color self._bg_color: Union[str, Tuple[str, str]] = self._detect_color_of_master() if bg_color == "transparent" else self._check_color_type(bg_color, transparency=True) # set bg color of tkinter.Frame super().configure(bg=self._apply_appearance_mode(self._bg_color)) # add configure callback to tkinter.Frame super().bind('', self._update_dimensions_event) # overwrite configure methods of master when master is tkinter widget, so that bg changes get applied on child CTk widget as well if isinstance(self.master, (tkinter.Tk, tkinter.Toplevel, tkinter.Frame, tkinter.LabelFrame, ttk.Frame, ttk.LabelFrame, ttk.Notebook)) and not isinstance(self.master, (CTkBaseClass, CTkAppearanceModeBaseClass)): master_old_configure = self.master.config def new_configure(*args, **kwargs): if "bg" in kwargs: self.configure(bg_color=kwargs["bg"]) elif "background" in kwargs: self.configure(bg_color=kwargs["background"]) # args[0] is dict when attribute gets changed by widget[] syntax elif len(args) > 0 and type(args[0]) == dict: if "bg" in args[0]: self.configure(bg_color=args[0]["bg"]) elif "background" in args[0]: self.configure(bg_color=args[0]["background"]) master_old_configure(*args, **kwargs) self.master.config = new_configure self.master.configure = new_configure def destroy(self): """ Destroy this and all descendants widgets. """ # call destroy methods of super classes tkinter.Frame.destroy(self) CTkAppearanceModeBaseClass.destroy(self) CTkScalingBaseClass.destroy(self) def _draw(self, no_color_updates: bool = False): """ can be overridden but super method must be called """ if no_color_updates is False: # Configuring color of tkinter.Frame not necessary at the moment? # Causes flickering on Windows and Linux for segmented button for some reason! # super().configure(bg=self._apply_appearance_mode(self._bg_color)) pass def config(self, *args, **kwargs): raise AttributeError("'config' is not implemented for CTk widgets. For consistency, always use 'configure' instead.") def configure(self, require_redraw=False, **kwargs): """ basic configure with bg_color, width, height support, calls configure of tkinter.Frame, updates in the end """ if "width" in kwargs: self._set_dimensions(width=kwargs.pop("width")) if "height" in kwargs: self._set_dimensions(height=kwargs.pop("height")) if "bg_color" in kwargs: new_bg_color = self._check_color_type(kwargs.pop("bg_color"), transparency=True) if new_bg_color == "transparent": self._bg_color = self._detect_color_of_master() else: self._bg_color = self._check_color_type(new_bg_color) require_redraw = True super().configure(**pop_from_dict_by_set(kwargs, self._valid_tk_frame_attributes)) # configure tkinter.Frame # if there are still items in the kwargs dict, raise ValueError check_kwargs_empty(kwargs, raise_error=True) if require_redraw: self._draw() def cget(self, attribute_name: str): """ basic cget with bg_color, width, height support, calls cget of tkinter.Frame """ if attribute_name == "bg_color": return self._bg_color elif attribute_name == "width": return self._desired_width elif attribute_name == "height": return self._desired_height elif attribute_name in self._valid_tk_frame_attributes: return super().cget(attribute_name) # cget of tkinter.Frame else: raise ValueError(f"'{attribute_name}' is not a supported argument. Look at the documentation for supported arguments.") def _check_font_type(self, font: any): """ check font type when passed to widget """ if isinstance(font, CTkFont): return font elif type(font) == tuple and len(font) == 1: warnings.warn(f"{type(self).__name__} Warning: font {font} given without size, will be extended with default text size of current theme\n") return font[0], ThemeManager.theme["text"]["size"] elif type(font) == tuple and 2 <= len(font) <= 6: return font else: raise ValueError(f"Wrong font type {type(font)}\n" + f"For consistency, Customtkinter requires the font argument to be a tuple of len 2 to 6 or an instance of CTkFont.\n" + f"\nUsage example:\n" + f"font=customtkinter.CTkFont(family='', size=)\n" + f"font=('', )\n") def _check_image_type(self, image: any): """ check image type when passed to widget """ if image is None: return image elif isinstance(image, CTkImage): return image else: warnings.warn(f"{type(self).__name__} Warning: Given image is not CTkImage but {type(image)}. Image can not be scaled on HighDPI displays, use CTkImage instead.\n") return image def _update_dimensions_event(self, event): # only redraw if dimensions changed (for performance), independent of scaling if round(self._current_width) != round(self._reverse_widget_scaling(event.width)) or round(self._current_height) != round(self._reverse_widget_scaling(event.height)): self._current_width = self._reverse_widget_scaling(event.width) # adjust current size according to new size given by event self._current_height = self._reverse_widget_scaling(event.height) # _current_width and _current_height are independent of the scale self._draw(no_color_updates=True) # faster drawing without color changes def _detect_color_of_master(self, master_widget=None) -> Union[str, Tuple[str, str]]: """ detect foreground color of master widget for bg_color and transparent color """ if master_widget is None: master_widget = self.master if isinstance(master_widget, (windows.widgets.core_widget_classes.CTkBaseClass, windows.CTk, windows.CTkToplevel, windows.widgets.ctk_scrollable_frame.CTkScrollableFrame)): if master_widget.cget("fg_color") is not None and master_widget.cget("fg_color") != "transparent": return master_widget.cget("fg_color") elif isinstance(master_widget, windows.widgets.ctk_scrollable_frame.CTkScrollableFrame): return self._detect_color_of_master(master_widget.master.master.master) # if fg_color of master is None, try to retrieve fg_color from master of master elif hasattr(master_widget, "master"): return self._detect_color_of_master(master_widget.master) elif isinstance(master_widget, (ttk.Frame, ttk.LabelFrame, ttk.Notebook, ttk.Label)): # master is ttk widget try: ttk_style = ttk.Style() return ttk_style.lookup(master_widget.winfo_class(), 'background') except Exception: return "#FFFFFF", "#000000" else: # master is normal tkinter widget try: return master_widget.cget("bg") # try to get bg color by .cget() method except Exception: return "#FFFFFF", "#000000" def _set_appearance_mode(self, mode_string): super()._set_appearance_mode(mode_string) self._draw() super().update_idletasks() def _set_scaling(self, new_widget_scaling, new_window_scaling): super()._set_scaling(new_widget_scaling, new_window_scaling) super().configure(width=self._apply_widget_scaling(self._desired_width), height=self._apply_widget_scaling(self._desired_height)) if self._last_geometry_manager_call is not None: self._last_geometry_manager_call["function"](**self._apply_argument_scaling(self._last_geometry_manager_call["kwargs"])) def _set_dimensions(self, width=None, height=None): if width is not None: self._desired_width = width if height is not None: self._desired_height = height super().configure(width=self._apply_widget_scaling(self._desired_width), height=self._apply_widget_scaling(self._desired_height)) def bind(self, sequence=None, command=None, add=None): raise NotImplementedError def unbind(self, sequence=None, funcid=None): raise NotImplementedError def unbind_all(self, sequence): raise AttributeError("'unbind_all' is not allowed, because it would delete necessary internal callbacks for all widgets") def bind_all(self, sequence=None, func=None, add=None): raise AttributeError("'bind_all' is not allowed, could result in undefined behavior") def place(self, **kwargs): """ Place a widget in the parent widget. Use as options: in=master - master relative to which the widget is placed in_=master - see 'in' option description x=amount - locate anchor of this widget at position x of master y=amount - locate anchor of this widget at position y of master relx=amount - locate anchor of this widget between 0.0 and 1.0 relative to width of master (1.0 is right edge) rely=amount - locate anchor of this widget between 0.0 and 1.0 relative to height of master (1.0 is bottom edge) anchor=NSEW (or subset) - position anchor according to given direction width=amount - width of this widget in pixel height=amount - height of this widget in pixel relwidth=amount - width of this widget between 0.0 and 1.0 relative to width of master (1.0 is the same width as the master) relheight=amount - height of this widget between 0.0 and 1.0 relative to height of master (1.0 is the same height as the master) bordermode="inside" or "outside" - whether to take border width of master widget into account """ if "width" in kwargs or "height" in kwargs: raise ValueError("'width' and 'height' arguments must be passed to the constructor of the widget, not the place method") self._last_geometry_manager_call = {"function": super().place, "kwargs": kwargs} return super().place(**self._apply_argument_scaling(kwargs)) def place_forget(self): """ Unmap this widget. """ self._last_geometry_manager_call = None return super().place_forget() def pack(self, **kwargs): """ Pack a widget in the parent widget. Use as options: after=widget - pack it after you have packed widget anchor=NSEW (or subset) - position widget according to given direction before=widget - pack it before you will pack widget expand=bool - expand widget if parent size grows fill=NONE or X or Y or BOTH - fill widget if widget grows in=master - use master to contain this widget in_=master - see 'in' option description ipadx=amount - add internal padding in x direction ipady=amount - add internal padding in y direction padx=amount - add padding in x direction pady=amount - add padding in y direction side=TOP or BOTTOM or LEFT or RIGHT - where to add this widget. """ self._last_geometry_manager_call = {"function": super().pack, "kwargs": kwargs} return super().pack(**self._apply_argument_scaling(kwargs)) def pack_forget(self): """ Unmap this widget and do not use it for the packing order. """ self._last_geometry_manager_call = None return super().pack_forget() def grid(self, **kwargs): """ Position a widget in the parent widget in a grid. Use as options: column=number - use cell identified with given column (starting with 0) columnspan=number - this widget will span several columns in=master - use master to contain this widget in_=master - see 'in' option description ipadx=amount - add internal padding in x direction ipady=amount - add internal padding in y direction padx=amount - add padding in x direction pady=amount - add padding in y direction row=number - use cell identified with given row (starting with 0) rowspan=number - this widget will span several rows sticky=NSEW - if cell is larger on which sides will this widget stick to the cell boundary """ self._last_geometry_manager_call = {"function": super().grid, "kwargs": kwargs} return super().grid(**self._apply_argument_scaling(kwargs)) def grid_forget(self): """ Unmap this widget. """ self._last_geometry_manager_call = None return super().grid_forget()