CustomTkinter/customtkinter/customtkinter_slider.py

377 lines
16 KiB
Python

import tkinter
import sys
from .customtkinter_frame import CTkFrame
from .appearance_mode_tracker import AppearanceModeTracker
from .customtkinter_color_manager import CTkColorManager
class CTkSlider(tkinter.Frame):
""" tkinter custom slider, always horizontal """
def __init__(self,
bg_color=None,
border_color=None,
fg_color=CTkColorManager.SLIDER_BG,
progress_color=None,
button_color=CTkColorManager.MAIN,
button_hover_color=CTkColorManager.MAIN_HOVER,
from_=0,
to=1,
number_of_steps=None,
width=160,
height=16,
border_width=5,
command=None,
*args, **kwargs):
super().__init__(*args, **kwargs)
AppearanceModeTracker.add(self.change_appearance_mode)
self.appearance_mode = AppearanceModeTracker.get_mode() # 0: "Light" 1: "Dark"
self.bg_color = self.detect_color_of_master() if bg_color is None else bg_color
self.border_color = self.bg_color if border_color is None else border_color
self.fg_color = fg_color
self.progress_color = progress_color if progress_color is not None else fg_color
self.button_color = self.bg_color if button_color is None else button_color
self.button_hover_color = self.bg_color if button_hover_color is None else button_hover_color
self.width = width
self.height = self.calc_optimal_height(height)
self.border_width = round(border_width)
self.callback_function = command
self.value = 0.5 # initial value of slider in percent
self.hover_state = False
self.from_ = from_
self.to = to
self.number_of_steps = number_of_steps
self.output_value = self.from_ + (self.value * (self.to - self.from_))
self.configure(width=self.width, height=self.height)
if sys.platform == "darwin":
self.configure(cursor="pointinghand")
self.canvas = tkinter.Canvas(master=self,
highlightthickness=0,
width=self.width,
height=self.height)
self.canvas.place(x=0, y=0)
self.canvas.bind("<Enter>", self.on_enter)
self.canvas.bind("<Leave>", self.on_leave)
self.canvas.bind("<Button-1>", self.clicked)
self.canvas.bind("<B1-Motion>", self.clicked)
self.draw()
def destroy(self):
AppearanceModeTracker.remove(self.change_appearance_mode)
super().destroy()
def detect_color_of_master(self):
if isinstance(self.master, CTkFrame):
return self.master.fg_color
else:
return self.master.cget("bg")
@staticmethod
def calc_optimal_height(user_height):
if sys.platform == "darwin":
return user_height # on macOS just use given value (canvas has Antialiasing)
else:
# make sure the value is always with uneven for better rendering of the ovals
if user_height == 0:
return 0
elif user_height % 2 == 0:
return user_height + 1
else:
return user_height
def draw(self, no_color_updates=False):
# decide the drawing method
if sys.platform == "darwin":
# on macOS draw button with polygons (positions are more accurate, macOS has Antialiasing)
self.draw_with_polygon_shapes()
else:
# on Windows and other draw with ovals (corner_radius can be optimised to look better than with polygons)
self.draw_with_ovals_and_rects()
if no_color_updates is False:
self.canvas.configure(bg=CTkColorManager.single_color(self.bg_color, self.appearance_mode))
self.canvas.itemconfig("border_parts", fill=CTkColorManager.single_color(self.border_color, self.appearance_mode))
self.canvas.itemconfig("inner_parts", fill=CTkColorManager.single_color(self.fg_color, self.appearance_mode))
self.canvas.itemconfig("progress_parts", fill=CTkColorManager.single_color(self.progress_color, self.appearance_mode))
self.canvas.itemconfig("button_parts", fill=CTkColorManager.single_color(self.button_color, self.appearance_mode))
def draw_with_polygon_shapes(self):
""" draw the slider parts with just three polygons that have a rounded border """
coordinate_shift = -1
width_reduced = -1
# create border parts
if self.border_width > 0:
if not self.canvas.find_withtag("border_parts"):
self.canvas.create_line((0, 0, 0, 0), tags=("border_line_1", "border_parts"))
self.canvas.coords("border_line_1",
(self.height / 2,
self.height / 2,
self.width - self.height / 2 + coordinate_shift,
self.height / 2))
self.canvas.itemconfig("border_line_1",
capstyle=tkinter.ROUND,
width=self.height + width_reduced)
# create inner button parts
if not self.canvas.find_withtag("inner_parts"):
self.canvas.create_line((0, 0, 0, 0), tags=("inner_line_1", "inner_parts"))
if self.progress_color != self.fg_color:
if not self.canvas.find_withtag("progress_parts"):
self.canvas.create_line((0, 0, 0, 0), tags=("inner_line_progress", "progress_parts"))
self.canvas.tag_raise("button_parts")
else:
self.canvas.delete("progress_parts")
self.canvas.coords("inner_line_1",
(self.height / 2,
self.height / 2,
self.width - self.height / 2 + coordinate_shift,
self.height / 2))
if self.progress_color != self.fg_color:
self.canvas.coords("inner_line_progress",
(self.height / 2,
self.height / 2,
((self.width + coordinate_shift - self.height) * self.value + self.height / 2),
self.height / 2))
self.canvas.itemconfig("inner_parts",
capstyle=tkinter.ROUND,
width=self.height - self.border_width * 2 + width_reduced)
self.canvas.itemconfig("progress_parts",
capstyle=tkinter.ROUND,
width=self.height - self.border_width * 2 + width_reduced)
# button parts
if not self.canvas.find_withtag("button_parts"):
self.canvas.create_line((0, 0, 0, 0), tags=("button_line_1", "button_parts"))
self.canvas.coords("button_line_1",
(self.height / 2 + (self.width + coordinate_shift - self.height) * self.value,
self.height / 2,
self.height / 2 + (self.width + coordinate_shift - self.height) * self.value,
self.height / 2))
self.canvas.itemconfig("button_line_1",
capstyle=tkinter.ROUND,
width=self.height + width_reduced)
def draw_with_ovals_and_rects(self):
""" draw the progress bar parts with ovals and rectangles """
# ovals and rects are always rendered too large and need to be made smaller by -1
oval_bottom_right_shift = -1
rect_bottom_right_shift = 0
# frame_border
if self.border_width > 0:
if not self.canvas.find_withtag("border_parts"):
self.canvas.create_oval((0, 0, 0, 0), tags=("border_oval_1", "border_parts"), width=0)
self.canvas.create_rectangle((0, 0, 0, 0), tags=("border_rect_1", "border_parts"), width=0)
self.canvas.create_oval((0, 0, 0, 0), tags=("border_oval_2", "border_parts"), width=0)
self.canvas.coords("border_oval_1", (0,
0,
self.height + oval_bottom_right_shift,
self.height + oval_bottom_right_shift))
self.canvas.coords("border_rect_1", (self.height/2,
0,
self.width-(self.height/2) + rect_bottom_right_shift,
self.height + rect_bottom_right_shift))
self.canvas.coords("border_oval_2", (self.width-self.height,
0,
self.width + oval_bottom_right_shift,
self.height + oval_bottom_right_shift))
# foreground
if not self.canvas.find_withtag("inner_parts"):
self.canvas.create_rectangle((0, 0, 0, 0), tags=("inner_rect_2", "inner_parts"), width=0)
self.canvas.create_oval((0, 0, 0, 0), tags=("inner_oval_2", "inner_parts"), width=0)
# progress parts
if not self.canvas.find_withtag("inner_oval_1"):
self.canvas.delete("inner_oval_1", "inner_rect_1")
if self.progress_color != self.fg_color:
self.canvas.create_oval((0, 0, 0, 0), tags=("inner_oval_1", "progress_parts"), width=0)
self.canvas.create_rectangle((0, 0, 0, 0), tags=("inner_rect_1", "progress_parts"), width=0)
else:
self.canvas.create_oval((0, 0, 0, 0), tags=("inner_oval_1", "inner_parts"), width=0)
if self.progress_color != self.fg_color:
self.canvas.coords("inner_rect_1", (self.height / 2,
self.border_width,
(self.width - self.height) * self.value + (self.height / 2 + rect_bottom_right_shift),
self.height - self.border_width + rect_bottom_right_shift))
self.canvas.coords("inner_rect_2", ((self.width - self.height) * self.value + (self.height / 2 + rect_bottom_right_shift),
self.border_width,
self.width - (self.height / 2 + rect_bottom_right_shift),
self.height - self.border_width + rect_bottom_right_shift))
else:
self.canvas.coords("inner_rect_2", (self.height/2,
self.border_width,
self.width-(self.height/2 + rect_bottom_right_shift),
self.height-self.border_width + rect_bottom_right_shift))
self.canvas.coords("inner_oval_1", (self.border_width,
self.border_width,
self.height - self.border_width + oval_bottom_right_shift,
self.height - self.border_width + oval_bottom_right_shift))
self.canvas.coords("inner_oval_2", (self.width-self.height+self.border_width,
self.border_width,
self.width-self.border_width + oval_bottom_right_shift,
self.height-self.border_width + oval_bottom_right_shift))
# progress parts
if not self.canvas.find_withtag("button_parts"):
self.canvas.create_oval((0, 0, 0, 0), tags=("button_oval_1", "button_parts"), width=0)
self.canvas.coords("button_oval_1",
((self.width - self.height) * self.value,
0,
self.height + (self.width - self.height) * self.value + oval_bottom_right_shift,
self.height + oval_bottom_right_shift))
def clicked(self, event=None):
self.value = event.x / self.width
if self.value > 1:
self.value = 1
if self.value < 0:
self.value = 0
self.output_value = self.round_to_step_size(self.from_ + (self.value * (self.to - self.from_)))
self.value = (self.output_value - self.from_) / (self.to - self.from_)
self.draw(no_color_updates=True)
if self.callback_function is not None:
self.callback_function(self.output_value)
def on_enter(self, event=0):
self.hover_state = True
self.canvas.itemconfig("button_parts", fill=CTkColorManager.single_color(self.button_hover_color, self.appearance_mode))
def on_leave(self, event=0):
self.hover_state = False
self.canvas.itemconfig("button_parts", fill=CTkColorManager.single_color(self.button_color, self.appearance_mode))
def round_to_step_size(self, value):
if self.number_of_steps is not None:
step_size = (self.to - self.from_) / self.number_of_steps
value = self.to - (round((self.to - value) / step_size) * step_size)
return value
else:
return value
def get(self):
return self.output_value
def set(self, output_value):
if output_value > self.to:
output_value = self.to
elif output_value < self.from_:
output_value = self.from_
self.output_value = self.round_to_step_size(output_value)
self.value = (self.output_value - self.from_) / (self.to - self.from_)
self.draw(no_color_updates=True)
if self.callback_function is not None:
self.callback_function(self.output_value)
def config(self, *args, **kwargs):
self.configure(*args, **kwargs)
def configure(self, *args, **kwargs):
require_redraw = False # some attribute changes require a call of self.draw() at the end
if "fg_color" in kwargs:
self.fg_color = kwargs["fg_color"]
require_redraw = True
del kwargs["fg_color"]
if "bg_color" in kwargs:
if kwargs["bg_color"] is None:
self.bg_color = self.detect_color_of_master()
else:
self.bg_color = kwargs["bg_color"]
require_redraw = True
del kwargs["bg_color"]
if "progress_color" in kwargs:
if kwargs["progress_color"] is None:
self.progress_color = self.fg_color
else:
self.progress_color = kwargs["progress_color"]
require_redraw = True
del kwargs["progress_color"]
if "button_color" in kwargs:
self.button_color = kwargs["button_color"]
require_redraw = True
del kwargs["button_color"]
if "button_hover_color" in kwargs:
self.button_hover_color = kwargs["button_hover_color"]
require_redraw = True
del kwargs["button_hover_color"]
if "border_color" in kwargs:
self.border_color = kwargs["border_color"]
require_redraw = True
del kwargs["border_color"]
if "border_width" in kwargs:
self.border_width = kwargs["border_width"]
require_redraw = True
del kwargs["border_width"]
if "from_" in kwargs:
self.from_ = kwargs["from_"]
del kwargs["from_"]
if "to" in kwargs:
self.to = kwargs["to"]
del kwargs["to"]
if "number_of_steps" in kwargs:
self.number_of_steps = kwargs["number_of_steps"]
del kwargs["number_of_steps"]
if "command" in kwargs:
self.callback_function = kwargs["command"]
del kwargs["command"]
super().configure(*args, **kwargs)
if require_redraw:
self.draw()
def change_appearance_mode(self, mode_string):
if mode_string.lower() == "dark":
self.appearance_mode = 1
elif mode_string.lower() == "light":
self.appearance_mode = 0
if isinstance(self.master, CTkFrame):
self.bg_color = self.master.fg_color
else:
self.bg_color = self.master.cget("bg")
self.draw()