I have been trying to understand the drawing of binary trees. I found an excellent starter at
The code provided uses graphic calls that are not part of any python library I recognize, so I have converted the graphics calls to tkinter and have the code running except for one unexpected behavior. When I resize the frame (make it larger) the scroll bars at some point get left behind. They are not staying with the frame as it re-sizes. Here is the code:
from tkinter import * from gen import Tree from demo_trees import trees from knuth import layout r = 30 rh = r*1.5 rw = r*1.5 def drawt(canvas, root, depth): canvas.create_oval(root.x * rw, depth * rh, root.x * rw + r, depth * rh + r, fill = 'white', width = 2) for child in root.children: drawt(canvas, child, depth+1) def drawconn(canvas, root, depth): for child in root.children: canvas.create_line(root.x * rw + (r/2), depth * rh + (r/2), child.x * rw + (r/2), (depth+1) * rh + (r/2), width = 2) drawconn(canvas, child, depth+1) def main(): root = Tk() # Create the main frame. The frame will include a # scrollable canvas. frame = Frame(root, width=500, height=309, relief=SUNKEN) frame.grid_rowconfigure(0, weight=1) frame.grid_columnconfigure(0, weight=1) # Add scroll bars xscrollbar = Scrollbar(frame, orient=HORIZONTAL) xscrollbar.grid(row=1, column=0, sticky=E+W) yscrollbar = Scrollbar(frame) yscrollbar.grid(row=0, column=1, sticky=N+S) # Add the canvas canvas = Canvas(frame, width=500, height=300, scrollregion=(-20, -20, 500, 300), xscrollcommand=xscrollbar.set, yscrollcommand=yscrollbar.set) canvas.grid(row=0, column=0, sticky=N+S+E+W) xscrollbar.config(command=canvas.xview) yscrollbar.config(command=canvas.yview) frame.pack() # Now draw the tree t = layout(trees) drawconn(canvas, t, 0) drawt(canvas, t, 0) root.mainloop() if __name__ == '__main__': main()
The drawing is scrolling properly and everything is fine until the frame is resized (larger) Can anyone tell me why the scroll bars are not moving with the frame?
If anyone is interested, the complete tree drawing code is from the above link, and corresponds to the code in figure2.py of the download provided.