My goal is to have a "sizegrip widget" that enables the user to resize a text widget.
Picture to illustrate: (I apologize for the bad gridding)
Is it possible to make the sizegrip widget resize a text widget instead of the root window?
Any alternative widget that fits my needs?
If you really want to do this here is an example that uses place to manage the frame containing the text widget, scrollbar and sizegrip. If you remove the default bindings and supply new ones for the sizegrip then you can prevent it from changing the toplevel geometry and make it do something else.
Note that a paned window or two is the more normal UI design for this kind of thing.
import sys
import tkinter as tk
import tkinter.ttk as ttk
class App(ttk.Frame):
def __init__(self, parent, title=None):
super().__init__(parent)
parent.wm_geometry("600x400")
parent.wm_title(title)
self.top = tk.Frame(self, height=100, background="green4")
self.middle = tk.Frame(self, background="red4")
self.lower = tk.Frame(self, height=100, background="blue4")
self.textframe = ttk.Frame(self.middle)
self.text = tk.Text(self.textframe)
self.vs = ttk.Scrollbar(self.textframe,
command=self.text.yview)
self.sg = ttk.Sizegrip(self.textframe)
self.text.configure(yscrollcommand=self.vs.set)
self.text.grid(row=0, column=0, sticky="news")
self.vs.grid(row=0, column=1, sticky="news")
self.sg.grid(row=1, column=1, sticky="sew")
self.textframe.grid_rowconfigure(0, weight=1)
self.textframe.grid_columnconfigure(0, weight=1)
self.middle.bind('<Map>', self.Place)
self.sg.bindtags((self.sg, '.','all'))
self.sg.bind('<Button-1>', self.Press)
self.sg.bind('<B1-Motion>', self.Drag)
self.sg.bind('<ButtonRelease-1>', self.Release)
self.top.grid(row=0, column=0, sticky="news")
self.middle.grid(row=1, column=0, sticky="news")
self.lower.grid(row=2, column=0, sticky="news")
self.grid_rowconfigure(1, weight=1)
self.grid_columnconfigure(0, weight=1)
self.grid(row=0,column=0, sticky="news")
parent.grid_rowconfigure(0, weight=1)
parent.grid_columnconfigure(0, weight=1)
def Press(self, ev):
self.dragging=True
self.dragpos = (ev.x_root, ev.y_root)
def Drag(self, ev):
if self.dragging:
dx = ev.x_root - self.dragpos[0]
dy = ev.y_root - self.dragpos[1]
sgx = self.sg.winfo_x() + dx
sgy = self.sg.winfo_y() + dy
sgw = self.sg.winfo_reqwidth()
sgh = self.sg.winfo_reqheight()
max_w = self.middle.winfo_width() - sgw
max_h = self.middle.winfo_height() - sgh
if sgx < 0 or sgx > max_w or sgy < 0 or sgy > max_h:
return
self.textframe.place(x=0, y=0,
width=sgx+sgw, height=sgy+sgh)
self.dragpos = (ev.x_root, ev.y_root)
def Release(self, ev):
self.dragging=False
def Place(self, ev):
"""Place the text widget controls once the rest of the
application has been mapped so we actually have a size
to work from.
Reset the Map event to avoid re-calling this code."""
self.textframe.bind('<Map>', None)
self.textframe.place(x=0, y=0,
width=self.middle.winfo_width(),
height=self.middle.winfo_height())
def main(args=None):
root = tk.Tk()
app = App(root, "Sizegrip demo")
root.mainloop()
return 0
if __name__ == '__main__':
sys.exit(main(sys.argv[1:]))
The result:
I'm creating a game, and I am using tkinter to build the GUI.
In this game, I want the user to start with a window, filled by a Canvas, with an image as background, and some buttons in some sort of item windows. And this Canvas is the home Canvas of the game.
The problem is that I want the user to click on a Button to land on other Canvas, who will host other things like the map or others buttons for others actions. Actually, I would like to superimpose several canvas (as in the Z-index method), and put a canvas on the top of the list, when I want it (if I click on a button for example).
I already searched and I had to change my mind several times, and now I really don't know how to do it.
I find the following code here on Stack Overflow, but it is coded for Python 2 (I think), and I'm starting coding in Python 3, so I am not able to translate it to Python 3 and solve my problem.
import Tkinter as tk
class SampleApp(tk.Tk):
def __init__(self, *args, **kwargs):
tk.Tk.__init__(self, *args, **kwargs)
self.frame = tk.Frame(self)
self.frame.pack(side="top", fill="both", expand=True)
self.label = tk.Label(self, text="Hello, world")
button1 = tk.Button(self, text="Click to hide label",
command=self.hide_label)
button2 = tk.Button(self, text="Click to show label",
command=self.show_label)
self.label.pack(in_=self.frame)
button1.pack(in_=self.frame)
button2.pack(in_=self.frame)
def show_label(self, event=None):
self.label.lift(self.frame)
def hide_label(self, event=None):
self.label.lower(self.frame)
if __name__ == "__main__":
app = SampleApp()
app.mainloop()
My code using grid :
from tkinter import *
fenetre = Tk()
fenetre.title(my game)
# acceuil
# variable acceuil
largeur = 700
hauteur = 430
BG_acceuil = PhotoImage(file="BG_acceuil.gif")
acceuil = Canvas(fenetre, width=largeur, height=hauteur)
acceuil.create_image(0, 0, anchor=NW, image=BG_acceuil)
acceuil.grid(row=0)
acceuil.pack()
# fond
fond = PhotoImage(file="BG_acceuil.gif")
acceuil2 = Canvas(fenetre, width=largeur, height=hauteur)
acceuil2.create_image(0, 0, anchor=NW, image=fond)
acceuil2.pack()
# variable bt_jouer
x0 = 80
y0 = 230
class hide_me():
def hide_me(event, widget, pos):
widget.grid_forget()
def show_me(event, widget, pos):
widget.grid(row=pos)
# Boutton jouer
BT_jouer = Button(acceuil, text="Jouer", command=hide_me())
BT_jouer.configure(width=10, activebackground="#33B5E5", relief=GROOVE)
BT_jouer_window = acceuil.create_window(x0, y0, window=BT_jouer,)
BT_jouer.bind('<Button-1>', lambda event: hide_me(event, BT_jouer, 1))
BT_jouer.grid(row=1)
# Bouton règle
BT_regle = Button(acceuil2, text="Règles", command=fenetre.destroy)
BT_regle.configure(width=10, activebackground="#33B5E5", relief=FLAT, bd=0)
BT_regle_window = acceuil2.create_window(x0, y0 + 50, window=BT_regle)
# Boutton quitter
BT_quit = Button(acceuil, text="Quitter", command=fenetre.destroy)
BT_quit.configure(width=10, activebackground="#33B5E5", relief=FLAT)
BT_quit_window = acceuil.create_window(x0, y0 + 100, window=BT_quit)
fenetre.mainloop()
The answer is very easy: To convert to Python3, change Tkinter to tkinter, and it works!
import tkinter as tk
class SampleApp(tk.Tk):
def __init__(self, *args, **kwargs):
tk.Tk.__init__(self, *args, **kwargs)
self.frame = tk.Frame(self)
self.frame.pack(side="top", fill="both", expand=True)
self.label = tk.Label(self, text="Hello, world")
button1 = tk.Button(self, text="Click to hide label",
command=self.hide_label)
button2 = tk.Button(self, text="Click to show label",
command=self.show_label)
self.label.pack(in_=self.frame)
button1.pack(in_=self.frame)
button2.pack(in_=self.frame)
def show_label(self, event=None):
self.label.lift(self.frame)
def hide_label(self, event=None):
self.label.lower(self.frame)
def main():
app = SampleApp()
app.mainloop()
return 0
if __name__ == '__main__':
main()
Note: You are not really hiding the label - it still occupies space on the canvas. The following code, from this entry, really removes the item. It can then be recalled with a pack() call:
from Tkinter import *
def hide_me(event):
event.widget.pack_forget()
root = Tk()
btn=Button(root, text="Click")
btn.bind('<Button-1>', hide_me)
btn.pack()
btn2=Button(root, text="Click too")
btn2.bind('<Button-1>', hide_me)
btn2.pack()
root.mainloop()
I did some testing, and made an equivalent program to yours... The only problem is that the unhidden widget is always packed at the end:
from tkinter import *
def hide_me(event, widget):
widget.pack_forget()
def show_me(event, widget):
widget.pack()
root = Tk()
lbl = Label(root, text="Victim")
btn = Button(root, text="Hide the victim")
btn.bind('<Button-1>', lambda event: hide_me(event, lbl))
btn.pack()
btn2 = Button(root, text="Show the victim")
btn2.bind('<Button-1>', lambda event: show_me(event, lbl))
btn2.pack()
lbl.pack()
root.mainloop()
A better version uses the grid() packer. Here you can actually restore the 'forgotten' widget to its original position. Only slightly more complicated :)
from tkinter import *
def hide_me(event, widget, pos):
widget.grid_forget()
def show_me(event, widget, pos):
widget.grid(row = pos)
root = Tk()
lbl = Label(root, text="Victim")
lbl.grid(row = 0)
btn = Button(root, text="Hide the victim")
btn.bind('<Button-1>', lambda event: hide_me(event, lbl, 0))
btn.grid(row = 1)
btn2 = Button(root, text="Show the victim")
btn2.bind('<Button-1>', lambda event: show_me(event, lbl, 0))
btn2.grid(row = 2)
root.mainloop()
EDIT: Another observation from the comments: Bryan Oakley commented that if you use .grid_remove() instead of .grid_forget(), then the coordinates will not be lost, and a simple .grid() will restore the widget at its location.
My objective is to add a vertical scroll bar to a frame which has several labels in it. The scroll bar should automatically enabled as soon as the labels inside the frame exceed the height of the frame. After searching through, I found this useful post. Based on that post I understand that in order to achieve what i want, (correct me if I am wrong, I am a beginner) I have to create a Frame first, then create a Canvas inside that frame and stick the scroll bar to that frame as well. After that, create another frame and put it inside the canvas as a window object. So, I finally come up with this:
from Tkinter import *
def data():
for i in range(50):
Label(frame,text=i).grid(row=i,column=0)
Label(frame,text="my text"+str(i)).grid(row=i,column=1)
Label(frame,text="..........").grid(row=i,column=2)
def myfunction(event):
canvas.configure(scrollregion=canvas.bbox("all"),width=200,height=200)
root=Tk()
sizex = 800
sizey = 600
posx = 100
posy = 100
root.wm_geometry("%dx%d+%d+%d" % (sizex, sizey, posx, posy))
myframe=Frame(root,relief=GROOVE,width=50,height=100,bd=1)
myframe.place(x=10,y=10)
canvas=Canvas(myframe)
frame=Frame(canvas)
myscrollbar=Scrollbar(myframe,orient="vertical",command=canvas.yview)
canvas.configure(yscrollcommand=myscrollbar.set)
myscrollbar.pack(side="right",fill="y")
canvas.pack(side="left")
canvas.create_window((0,0),window=frame,anchor='nw')
frame.bind("<Configure>",myfunction)
data()
root.mainloop()
Am I doing it right? Is there better/smarter way to achieve the output this code gave me?
Why must I use grid method? (I tried place method, but none of the labels appear on the canvas.)
What so special about using anchor='nw' when creating window on canvas?
Please keep your answer simple, as I am a beginner.
Here's example code adapted from the VerticalScrolledFrame page on the now defunct Tkinter Wiki that's been modified to run on Python 2.7 and 3+.
try: # Python 2
import tkinter as tk
import tkinter.ttk as ttk
from tkinter.constants import *
except ImportError: # Python 2
import Tkinter as tk
import ttk
from tkinter.constants import *
# Based on
# https://web.archive.org/web/20170514022131id_/http://tkinter.unpythonic.net/wiki/VerticalScrolledFrame
class VerticalScrolledFrame(ttk.Frame):
"""A pure Tkinter scrollable frame that actually works!
* Use the 'interior' attribute to place widgets inside the scrollable frame.
* Construct and pack/place/grid normally.
* This frame only allows vertical scrolling.
"""
def __init__(self, parent, *args, **kw):
ttk.Frame.__init__(self, parent, *args, **kw)
# Create a canvas object and a vertical scrollbar for scrolling it.
vscrollbar = ttk.Scrollbar(self, orient=VERTICAL)
vscrollbar.pack(fill=Y, side=RIGHT, expand=FALSE)
canvas = tk.Canvas(self, bd=0, highlightthickness=0,
yscrollcommand=vscrollbar.set)
canvas.pack(side=LEFT, fill=BOTH, expand=TRUE)
vscrollbar.config(command=canvas.yview)
# Reset the view
canvas.xview_moveto(0)
canvas.yview_moveto(0)
# Create a frame inside the canvas which will be scrolled with it.
self.interior = interior = ttk.Frame(canvas)
interior_id = canvas.create_window(0, 0, window=interior,
anchor=NW)
# Track changes to the canvas and frame width and sync them,
# also updating the scrollbar.
def _configure_interior(event):
# Update the scrollbars to match the size of the inner frame.
size = (interior.winfo_reqwidth(), interior.winfo_reqheight())
canvas.config(scrollregion="0 0 %s %s" % size)
if interior.winfo_reqwidth() != canvas.winfo_width():
# Update the canvas's width to fit the inner frame.
canvas.config(width=interior.winfo_reqwidth())
interior.bind('<Configure>', _configure_interior)
def _configure_canvas(event):
if interior.winfo_reqwidth() != canvas.winfo_width():
# Update the inner frame's width to fill the canvas.
canvas.itemconfigure(interior_id, width=canvas.winfo_width())
canvas.bind('<Configure>', _configure_canvas)
if __name__ == "__main__":
class SampleApp(tk.Tk):
def __init__(self, *args, **kwargs):
root = tk.Tk.__init__(self, *args, **kwargs)
self.frame = VerticalScrolledFrame(root)
self.frame.pack()
self.label = ttk.Label(self, text="Shrink the window to activate the scrollbar.")
self.label.pack()
buttons = []
for i in range(10):
buttons.append(ttk.Button(self.frame.interior, text="Button " + str(i)))
buttons[-1].pack()
app = SampleApp()
app.mainloop()
It does not yet have the mouse wheel bound to the scrollbar but it is possible. Scrolling with the wheel can get a bit bumpy, though.
edit:
to 1)
IMHO scrolling frames is somewhat tricky in Tkinter and does not seem to be done a lot. It seems there is no elegant way to do it.
One problem with your code is that you have to set the canvas size manually - that's what the example code I posted solves.
to 2)
You are talking about the data function? Place works for me, too. (In general I prefer grid).
to 3)
Well, it positions the window on the canvas.
One thing I noticed is that your example handles mouse wheel scrolling by default while the one I posted does not. Will have to look at that some time.
"Am i doing it right?Is there better/smarter way to achieve the output this code gave me?"
Generally speaking, yes, you're doing it right. Tkinter has no native scrollable container other than the canvas. As you can see, it's really not that difficult to set up. As your example shows, it only takes 5 or 6 lines of code to make it work -- depending on how you count lines.
"Why must i use grid method?(i tried place method, but none of the labels appear on the canvas?)"
You ask about why you must use grid. There is no requirement to use grid. Place, grid and pack can all be used. It's simply that some are more naturally suited to particular types of problems. In this case it looks like you're creating an actual grid -- rows and columns of labels -- so grid is the natural choice.
"What so special about using anchor='nw' when creating window on canvas?"
The anchor tells you what part of the window is positioned at the coordinates you give. By default, the center of the window will be placed at the coordinate. In the case of your code above, you want the upper left ("northwest") corner to be at the coordinate.
Please see my class that is a scrollable frame. It's vertical scrollbar is binded to <Mousewheel> event as well. So, all you have to do is to create a frame, fill it with widgets the way you like, and then make this frame a child of my ScrolledWindow.scrollwindow. Feel free to ask if something is unclear.
Used a lot from # Brayan Oakley answers to close to this questions
class ScrolledWindow(tk.Frame):
"""
1. Master widget gets scrollbars and a canvas. Scrollbars are connected
to canvas scrollregion.
2. self.scrollwindow is created and inserted into canvas
Usage Guideline:
Assign any widgets as children of <ScrolledWindow instance>.scrollwindow
to get them inserted into canvas
__init__(self, parent, canv_w = 400, canv_h = 400, *args, **kwargs)
docstring:
Parent = master of scrolled window
canv_w - width of canvas
canv_h - height of canvas
"""
def __init__(self, parent, canv_w = 400, canv_h = 400, *args, **kwargs):
"""Parent = master of scrolled window
canv_w - width of canvas
canv_h - height of canvas
"""
super().__init__(parent, *args, **kwargs)
self.parent = parent
# creating a scrollbars
self.xscrlbr = ttk.Scrollbar(self.parent, orient = 'horizontal')
self.xscrlbr.grid(column = 0, row = 1, sticky = 'ew', columnspan = 2)
self.yscrlbr = ttk.Scrollbar(self.parent)
self.yscrlbr.grid(column = 1, row = 0, sticky = 'ns')
# creating a canvas
self.canv = tk.Canvas(self.parent)
self.canv.config(relief = 'flat',
width = 10,
heigh = 10, bd = 2)
# placing a canvas into frame
self.canv.grid(column = 0, row = 0, sticky = 'nsew')
# accociating scrollbar comands to canvas scroling
self.xscrlbr.config(command = self.canv.xview)
self.yscrlbr.config(command = self.canv.yview)
# creating a frame to inserto to canvas
self.scrollwindow = ttk.Frame(self.parent)
self.canv.create_window(0, 0, window = self.scrollwindow, anchor = 'nw')
self.canv.config(xscrollcommand = self.xscrlbr.set,
yscrollcommand = self.yscrlbr.set,
scrollregion = (0, 0, 100, 100))
self.yscrlbr.lift(self.scrollwindow)
self.xscrlbr.lift(self.scrollwindow)
self.scrollwindow.bind('<Configure>', self._configure_window)
self.scrollwindow.bind('<Enter>', self._bound_to_mousewheel)
self.scrollwindow.bind('<Leave>', self._unbound_to_mousewheel)
return
def _bound_to_mousewheel(self, event):
self.canv.bind_all("<MouseWheel>", self._on_mousewheel)
def _unbound_to_mousewheel(self, event):
self.canv.unbind_all("<MouseWheel>")
def _on_mousewheel(self, event):
self.canv.yview_scroll(int(-1*(event.delta/120)), "units")
def _configure_window(self, event):
# update the scrollbars to match the size of the inner frame
size = (self.scrollwindow.winfo_reqwidth(), self.scrollwindow.winfo_reqheight())
self.canv.config(scrollregion='0 0 %s %s' % size)
if self.scrollwindow.winfo_reqwidth() != self.canv.winfo_width():
# update the canvas's width to fit the inner frame
self.canv.config(width = self.scrollwindow.winfo_reqwidth())
if self.scrollwindow.winfo_reqheight() != self.canv.winfo_height():
# update the canvas's width to fit the inner frame
self.canv.config(height = self.scrollwindow.winfo_reqheight())
For anyone who stumbles across this (as it did when looking for my own gist) I maintain a gist for exactly this purpose at https://gist.github.com/mp035/9f2027c3ef9172264532fcd6262f3b01 It has scrollwheel support for various operating systems, is commented, and has a built-in demo in the file.
We can add scroll bar even without using Canvas. I have read it in many other post we can't add vertical scroll bar in frame directly etc etc. But after doing many experiment found out way to add vertical as well as horizontal scroll bar :). Please find below code which is used to create scroll bar in treeView and frame.
f = Tkinter.Frame(self.master,width=3)
f.grid(row=2, column=0, columnspan=8, rowspan=10, pady=30, padx=30)
f.config(width=5)
self.tree = ttk.Treeview(f, selectmode="extended")
scbHDirSel =tk.Scrollbar(f, orient=Tkinter.HORIZONTAL, command=self.tree.xview)
scbVDirSel =tk.Scrollbar(f, orient=Tkinter.VERTICAL, command=self.tree.yview)
self.tree.configure(yscrollcommand=scbVDirSel.set, xscrollcommand=scbHDirSel.set)
self.tree["columns"] = (self.columnListOutput)
self.tree.column("#0", width=40)
self.tree.heading("#0", text='SrNo', anchor='w')
self.tree.grid(row=2, column=0, sticky=Tkinter.NSEW,in_=f, columnspan=10, rowspan=10)
scbVDirSel.grid(row=2, column=10, rowspan=10, sticky=Tkinter.NS, in_=f)
scbHDirSel.grid(row=14, column=0, rowspan=2, sticky=Tkinter.EW,in_=f)
f.rowconfigure(0, weight=1)
f.columnconfigure(0, weight=1)
It is nessesery to configure Scrollbar in case of using with Canvas
by sending to Canvas xscrollcommand attribute Scrollbar.set method and
to Scrollbar command attribute Canvas.yview (xview) method.
Canvas.yview method after scrollbar was moved recieve *args in next formatting:
tuple('move_to', '<some_absolute_float_value_of_top_of_scrollbar_region>')
In case of implementing scrollability to widget,
Recieving region and translating scrollbar_region (whith element viewable and whith not) features must be created.
Region is `tuple(float, float)' representing open to see part of all elements.
Not ideal bechavior showed in this solution (without using tk.Canvas)
import tkinter as tk
from tkinter import ttk
class ItemizeFrame(ttk.Frame, list):
def __init__(self,
*args,
scroll_upd_callback = lambda x: x,
visible_els: int = 10,
**kwargs):
list.__init__(self)
ttk.Frame.__init__(self, *args, **kwargs)
ttk.Style().configure('Small.TButton', background='red', width=2, height=2, padx=3, pady=3)
ttk.Style().configure('Sep.TFrame', padx=3, pady=3)
self.scroll_upd_callback = scroll_upd_callback
self.visible_els = visible_els
self.visible_st_idx = 0
self.pseudo_scroll_element_cursor_line = 0.5*1/visible_els
def append(self, item: ttk.Widget, **kw):
e = item(self, **kw)
super().append(e)
e.pack(fill='x')
self._update_visible_els()
def _update_visable_id_callback(self):
for id_, entry_ in enumerate(self):
entry_.set_id(id_)
def pop(self, index=None):
e = super().pop(index)
e.destroy()
self._update_visible_els()
def __getitem__(self, idx) -> ttk.Widget:
return list.__getitem__(self, idx)
# indicators computing and application
#property
def visible_end_idx(self):
return self.visible_st_idx + self.visible_els -1
#property
def visible_area_ratio(self) -> tuple[float, float]:
total = len(self)
st_val = 0.0
end_val = 1.0
if total > self.visible_els:
end_val = 1.0 - (total-self.visible_end_idx)/total
st_val = self.visible_st_idx / total
st_val = st_val + self.pseudo_scroll_element_cursor_line
end_val = end_val + self.pseudo_scroll_element_cursor_line
return (st_val, end_val)
def _update_scroll_widget(self):
self.scroll_upd_callback(*self.visible_area_ratio)
def set_yview(self, move_to_ratio):
base_pseudo_ratio = 0.5*1/self.visible_els
total = len(self)
max_ratio = (total - self.visible_els)/total+base_pseudo_ratio
if move_to_ratio < 0:
possible_st_el_pseudo_part = base_pseudo_ratio
possible_st_el_idx = 0
if max_ratio < move_to_ratio:
possible_st_el_idx = total - self.visible_els
possible_st_el_pseudo_part = base_pseudo_ratio
else :
el_idx_raw = move_to_ratio * total
el_idx_round = round(el_idx_raw)
el_idx_pseudo = (el_idx_raw - el_idx_round)*1/self.visible_els
possible_st_el_idx = el_idx_round
possible_st_el_pseudo_part = el_idx_pseudo
self.visible_st_idx = possible_st_el_idx
self.pseudo_scroll_element_cursor_line = possible_st_el_pseudo_part
self._update_visible_els()
def _update_visible_els(self):
for el in self:
el.pack_forget()
for num, el in enumerate(self):
if self.visible_st_idx <= num and num <= self.visible_end_idx:
el.pack()
self._update_scroll_widget()
class ScrollableFrame(ttk.Frame):
def __init__(self, *args, **kwargs):
kw = dict(width=400, height=300)
kw.update(kwargs)
super().__init__(*args, **kw)
self.scroll = ttk.Scrollbar(self, command=self.on_scroll)
self.scroll.pack(expand=True, fill='y', side='right')
self.view = ItemizeFrame(
self,
scroll_upd_callback=self.scroll.set,
**kwargs
)
self.view.pack(expand=True, fill='both')#, side='left')
def on_scroll(self, *args, **kwargs):
value_raw = float(args[1])
self.view.set_yview(value_raw)
Usecase
class App(tk.Tk):
def __init__(self):
super().__init__()
self.frame = ScrollableFrame(self)
self.frame.pack()
def test_fill(self):
for i in range(15):
self.frame.view.append(ttk.Entry)
class Test:
#staticmethod
def v2():
app = App()
app.test_fill()
app.mainloop()
Test.v2()
After I watching many answers, I got it:
import tkinter as tk
root = tk.Tk()
root.title("音樂編輯器")
root.geometry("600x480")
def onFrameConfigure(canvas):
'''Reset the scroll region to encompass the inner frame'''
canvas.configure(scrollregion=canvas.bbox("all"))
'''When window size change, canvas size will change,
use this line to change its item size (width).'''
canvas.itemconfigure(wrapFrame, width=canvas.winfo_width())
canvas = tk.Canvas(root, highlightthickness=0)
frame = tk.Frame(canvas, background="#FFFFFF")
vsb = tk.Scrollbar(root, orient="vertical", command=canvas.yview)
canvas.configure(yscrollcommand=vsb.set)
vsb.pack(side="right", fill="y")
canvas.pack(fill="both", expand=1, anchor="nw") #canvas size is relative to window size.
wrapFrame = canvas.create_window((0,0), window=frame, anchor="nw")
# When the window size change, it will call this function
canvas.bind("<Configure>", lambda event, canvas=canvas: onFrameConfigure(canvas))
L1 = tk.Label(frame, text="音樂編輯器", bg="#556644", font=("",25))
L1.pack(anchor="n")
for i in range(100):
input = tk.Entry(frame)
input.pack()
root.mainloop()
Specifies the size of the scrollable frame by changing canvas and scrollbar position and size.
import tkinter as tk
root = tk.Tk()
root.title("音樂編輯器")
root.geometry("600x480")
def onFrameConfigure(canvas):
'''Reset the scroll region to encompass the inner frame'''
canvas.configure(scrollregion=canvas.bbox("all"))
canvas.itemconfigure(wrapFrame, width=canvas.winfo_width())
canvas = tk.Canvas(root, highlightthickness=0)
frame = tk.Frame(canvas, background="#FFFFFF")
vsb = tk.Scrollbar(root, orient="vertical", command=canvas.yview)
canvas.configure(yscrollcommand=vsb.set)
vsb.place(relx=0.9, y=0, relwidth=0.1, relheight=0.5)
canvas.place(x=0, y=0, relwidth=0.9, relheight=0.5)
wrapFrame = canvas.create_window((0,0), window=frame, anchor="nw")
canvas.bind("<Configure>", lambda event, canvas=canvas: onFrameConfigure(canvas))
L1 = tk.Label(frame, text="音樂編輯器", bg="#556644", font=("",25))
L1.pack(anchor="n")
for i in range(100):
input = tk.Entry(frame)
input.pack()
root.mainloop()
Specifies the size of the scrollable frame by writing them to outerFrame.
import tkinter as tk
root = tk.Tk()
root.title("音樂編輯器")
root.geometry("600x480")
def onFrameConfigure(canvas):
'''Reset the scroll region to encompass the inner frame'''
canvas.configure(scrollregion=canvas.bbox("all"))
canvas.itemconfigure(wrapFrame, width=canvas.winfo_width())
outerFrame = tk.Frame(root)
canvas = tk.Canvas(outerFrame, highlightthickness=0)
frame = tk.Frame(canvas, background="#FFFFFF")
vsb = tk.Scrollbar(outerFrame, orient="vertical", command=canvas.yview)
canvas.config(yscrollcommand=vsb.set)
outerFrame.place(relx=0.25, rely=0.1, relwidth=0.5, relheight=0.5)
vsb.pack(side="right", fill="y")
canvas.pack(fill="both", expand=1, anchor="nw")
wrapFrame = canvas.create_window((0,0), window=frame, anchor="nw")
canvas.bind("<Configure>", lambda event, canvas=canvas: onFrameConfigure(canvas))
L1 = tk.Label(frame, text="音樂編輯器", bg="#556644", font=("",25))
L1.pack(anchor="n")
for i in range(100):
input = tk.Entry(frame)
input.pack()
root.mainloop()
The items inner the frame can use pack or grid (only choose one), but place cannot be used alone. If you want to use place, you need to expand the layout(height) with pack or grid first.
import tkinter as tk
root = tk.Tk()
root.title("音樂編輯器")
root.geometry("600x480")
def onFrameConfigure(canvas):
'''Reset the scroll region to encompass the inner frame'''
canvas.configure(scrollregion=canvas.bbox("all"))
canvas.itemconfigure(wrapFrame, width=canvas.winfo_width())
canvas = tk.Canvas(root, highlightthickness=0)
frame = tk.Frame(canvas, background="#FFFFFF")
vsb = tk.Scrollbar(root, orient="vertical", command=canvas.yview)
canvas.configure(yscrollcommand=vsb.set)
vsb.pack(side="right", fill="y")
canvas.pack(fill="both", expand=1, anchor="nw")
wrapFrame = canvas.create_window((0,0), window=frame, anchor="nw")
canvas.bind("<Configure>", lambda event, canvas=canvas: onFrameConfigure(canvas))
L1 = tk.Label(frame, text="音樂編輯器", bg="#556644", font=("",25))
L1.pack(anchor="n")
for i in range(100):
input = tk.Entry(frame)
input.pack()
L1 = tk.Label(frame, text="我是Label")
L1.place(x=0, rely=0.5)
root.mainloop()
Use mouse wheel:
tkinter: binding mousewheel to scrollbar
import tkinter as tk
root = tk.Tk()
root.title("音樂編輯器")
root.geometry("600x480")
def onFrameConfigure(canvas):
canvas.configure(scrollregion=canvas.bbox("all"))
canvas.itemconfigure(wrapFrame, width=canvas.winfo_width())
def on_mouse_wheel(event, scale=3):
#only care event.delta is - or +, scroll down or up
if event.delta<0:
canvas.yview_scroll(scale, "units")
else:
canvas.yview_scroll(-scale, "units")
canvas = tk.Canvas(root, highlightthickness=0)
frame = tk.Frame(canvas, background="#FFFFFF")
vsb = tk.Scrollbar(root, orient="vertical", command=canvas.yview)
canvas.configure(yscrollcommand=vsb.set)
vsb.pack(side="right", fill="y")
canvas.pack(fill="both", expand=1, anchor="nw")
wrapFrame = canvas.create_window((0,0), window=frame, anchor="nw")
canvas.bind("<Configure>", lambda event, canvas=canvas: onFrameConfigure(canvas))
canvas.bind("<Enter>", lambda event: canvas.bind_all("<MouseWheel>", on_mouse_wheel)) # on mouse enter
canvas.bind("<Leave>", lambda event: canvas.unbind_all("<MouseWheel>")) # on mouse leave
L1 = tk.Label(frame, text="音樂編輯器", bg="#556644", font=("",25))
L1.pack(anchor="n")
for i in range(100):
input = tk.Entry(frame)
input.pack()
root.mainloop()
Export to class:
import tkinter as tk
root = tk.Tk()
root.title("音樂編輯器")
root.geometry("600x480")
class scrollFrame():
def __init__(self, **options):
outerFrame = tk.Frame(root)
canvas = tk.Canvas(outerFrame, highlightthickness=0)
vsb = tk.Scrollbar(outerFrame, orient="vertical", command=canvas.yview)
vsb.pack(side="right", fill="y")
canvas.pack(fill="both", expand=1, anchor="nw")
frame = tk.Frame(canvas, **options)
wrapFrameId = canvas.create_window((0,0), window=frame, anchor="nw")
canvas.config(yscrollcommand=vsb.set)
canvas.bind("<Configure>", lambda event: self.onFrameConfigure())
canvas.bind("<Enter>", lambda event: canvas.bind_all("<MouseWheel>", self.on_mouse_wheel)) # on mouse enter
canvas.bind("<Leave>", lambda event: canvas.unbind_all("<MouseWheel>")) # on mouse leave
self.outerFrame, self.canvas, self.vsb, self.frame, self.wrapFrameId = outerFrame, canvas, vsb, frame, wrapFrameId
def onFrameConfigure(self):
canvas = self.canvas
'''Reset the scroll region to encompass the inner frame'''
canvas.configure(scrollregion=canvas.bbox("all"))
canvas.itemconfigure(self.wrapFrameId, width=canvas.winfo_width())
def on_mouse_wheel(self, event, scale=3):
canvas = self.canvas
#only care event.delta is - or +, scroll down or up
if event.delta<0:
canvas.yview_scroll(scale, "units")
else:
canvas.yview_scroll(-scale, "units")
frame = scrollFrame(background="#FFFFFF")
frame.outerFrame.place(relx=0.15, rely=0.1, relwidth=0.7, relheight=0.8)
L1 = tk.Label(frame.frame, text="音樂編輯器", bg="#556644", font=("",25))
L1.pack(anchor="n")
for i in range(100):
input = tk.Entry(frame.frame)
input.pack()
root.mainloop()
According:
https://stackoverflow.com/a/3092341/19470749
https://stackoverflow.com/a/16198198/19470749
https://anzeljg.github.io/rin2/book2/2405/docs/tkinter/create_window.html
Not 100% sure if this solution is on topic (since it explicitely asks for a scrollable FRAME), but the text widget is basically a scrollable Frame.
From documentation of the Text widget:
"Like canvas widgets, text widgets can contain images and any other Tk widgets (including frames containing many other widgets). In a sense, this allows the text widget to work as a geometry manager in its own right. "
Text widgets are very easy to use, and can be made scrollable. So instead of using a special Class like the Scrollable Frame, I think the Text widget is a great option.
Below my code, for a basic example of a scrollable text widget holding 100 buttons:
from tkinter import Tk, Button, Text,Scrollbar
class test:
def __init__(self):
self.win = Tk()
text = Text(self.win, width=40, height=10, wrap = "none")
ys = Scrollbar(self.win, orient = 'vertical', command = text.yview)
text['yscrollcommand'] = ys.set
text.grid(column = 0, row = 0, sticky = 'nwes')
ys.grid(column = 1, row = 0, sticky = 'ns')
for x in range(1,100):
b = Button(text, text='Push Me')
text.window_create("end", window=b)
text.insert("end",'\n')
self.win.mainloop()
test = test()
This is at least the method I am going to use for my scrollable frames. Not sure if there is a better solution then the newline insertion to make the widgets organised vertically. But it works.