#!/usr/bin/env python3 """ ---------------------------------------------- turtleDemo - Help ---------------------------------------------- This document has two sections: (1) How to use the demo viewer (2) How to add your own demos to the demo repository (1) How to use the demo viewer. Select a demoscript from the example menu. The (syntax colored) source code appears in the left source code window. IT CANNOT BE EDITED, but ONLY VIEWED! The demo viewer windows can be resized. The divider between text and canvas can be moved by grabbing it with the mouse. The text font size can be changed from the menu and with Control/Command '-'/'+'. It can also be changed on most systems with Control-mousewheel when the mouse is over the text. Press START button to start the demo. Stop execution by pressing the STOP button. Clear screen by pressing the CLEAR button. Restart by pressing the START button again. SPECIAL demos, such as clock.py are those which run EVENTDRIVEN. Press START button to start the demo. - Until the EVENTLOOP is entered everything works as in an ordinary demo script. - When the EVENTLOOP is entered, you control the application by using the mouse and/or keys (or it's controlled by some timer events) To stop it you can and must press the STOP button. While the EVENTLOOP is running, the examples menu is disabled. - Only after having pressed the STOP button, you may restart it or choose another example script. * * * * * * * * In some rare situations there may occur interferences/conflicts between events concerning the demo script and those concerning the demo-viewer. (They run in the same process.) Strange behaviour may be the consequence and in the worst case you must close and restart the viewer. * * * * * * * * (2) How to add your own demos to the demo repository - Place the file in the same directory as turtledemo/__main__.py IMPORTANT! When imported, the demo should not modify the system by calling functions in other modules, such as sys, tkinter, or turtle. Global variables should be initialized in main(). - The code must contain a main() function which will be executed by the viewer (see provided example scripts). It may return a string which will be displayed in the Label below the source code window (when execution has finished.) - In order to run mydemo.py by itself, such as during development, add the following at the end of the file: if __name__ == '__main__': main() mainloop() # keep window open python -m turtledemo.mydemo # will then run it - If the demo is EVENT DRIVEN, main must return the string "EVENTLOOP". This informs the demo viewer that the script is still running and must be stopped by the user! If an "EVENTLOOP" demo runs by itself, as with clock, which uses ontimer, or minimal_hanoi, which loops by recursion, then the code should catch the turtle.Terminator exception that will be raised when the user presses the STOP button. (Paint is not such a demo; it only acts in response to mouse clicks and movements.) """ import sys import os from tkinter import * from idlelib.ColorDelegator import ColorDelegator, color_config from idlelib.Percolator import Percolator from idlelib.textView import view_text from turtledemo import __doc__ as about_turtledemo import turtle import time demo_dir = os.path.dirname(os.path.abspath(__file__)) darwin = sys.platform == 'darwin' STARTUP = 1 READY = 2 RUNNING = 3 DONE = 4 EVENTDRIVEN = 5 menufont = ("Arial", 12, NORMAL) btnfont = ("Arial", 12, 'bold') txtfont = ['Lucida Console', 10, 'normal'] MINIMUM_FONT_SIZE = 6 MAXIMUM_FONT_SIZE = 100 font_sizes = [8, 9, 10, 11, 12, 14, 18, 20, 22, 24, 30] def getExampleEntries(): return [entry[:-3] for entry in os.listdir(demo_dir) if entry.endswith(".py") and entry[0] != '_'] help_entries = ( # (help_label, help_doc) ('Turtledemo help', __doc__), ('About turtledemo', about_turtledemo), ('About turtle module', turtle.__doc__), ) class DemoWindow(object): def __init__(self, filename=None): self.root = root = turtle._root = Tk() root.title('Python turtle-graphics examples') root.wm_protocol("WM_DELETE_WINDOW", self._destroy) if darwin: import subprocess # Make sure we are the currently activated OS X application # so that our menu bar appears. p = subprocess.Popen( [ 'osascript', '-e', 'tell application "System Events"', '-e', 'set frontmost of the first process whose ' 'unix id is {} to true'.format(os.getpid()), '-e', 'end tell', ], stderr=subprocess.DEVNULL, stdout=subprocess.DEVNULL,) root.grid_rowconfigure(0, weight=1) root.grid_columnconfigure(0, weight=1) root.grid_columnconfigure(1, minsize=90, weight=1) root.grid_columnconfigure(2, minsize=90, weight=1) root.grid_columnconfigure(3, minsize=90, weight=1) self.mBar = Menu(root, relief=RAISED, borderwidth=2) self.mBar.add_cascade(menu=self.makeLoadDemoMenu(self.mBar), label='Examples', underline=0) self.mBar.add_cascade(menu=self.makeFontMenu(self.mBar), label='Fontsize', underline=0) self.mBar.add_cascade(menu=self.makeHelpMenu(self.mBar), label='Help', underline=0) root['menu'] = self.mBar pane = PanedWindow(orient=HORIZONTAL, sashwidth=5, sashrelief=SOLID, bg='#ddd') pane.add(self.makeTextFrame(pane)) pane.add(self.makeGraphFrame(pane)) pane.grid(row=0, columnspan=4, sticky='news') self.output_lbl = Label(root, height= 1, text=" --- ", bg="#ddf", font=("Arial", 16, 'normal'), borderwidth=2, relief=RIDGE) self.start_btn = Button(root, text=" START ", font=btnfont, fg="white", disabledforeground = "#fed", command=self.startDemo) self.stop_btn = Button(root, text=" STOP ", font=btnfont, fg="white", disabledforeground = "#fed", command=self.stopIt) self.clear_btn = Button(root, text=" CLEAR ", font=btnfont, fg="white", disabledforeground="#fed", command = self.clearCanvas) self.output_lbl.grid(row=1, column=0, sticky='news', padx=(0,5)) self.start_btn.grid(row=1, column=1, sticky='ew') self.stop_btn.grid(row=1, column=2, sticky='ew') self.clear_btn.grid(row=1, column=3, sticky='ew') Percolator(self.text).insertfilter(ColorDelegator()) self.dirty = False self.exitflag = False if filename: self.loadfile(filename) self.configGUI(DISABLED, DISABLED, DISABLED, "Choose example from menu", "black") self.state = STARTUP def onResize(self, event): cwidth = self._canvas.winfo_width() cheight = self._canvas.winfo_height() self._canvas.xview_moveto(0.5*(self.canvwidth-cwidth)/self.canvwidth) self._canvas.yview_moveto(0.5*(self.canvheight-cheight)/self.canvheight) def makeTextFrame(self, root): self.text_frame = text_frame = Frame(root) self.text = text = Text(text_frame, name='text', padx=5, wrap='none', width=45) color_config(text) self.vbar = vbar = Scrollbar(text_frame, name='vbar') vbar['command'] = text.yview vbar.pack(side=LEFT, fill=Y) self.hbar = hbar = Scrollbar(text_frame, name='hbar', orient=HORIZONTAL) hbar['command'] = text.xview hbar.pack(side=BOTTOM, fill=X) text['yscrollcommand'] = vbar.set text['xscrollcommand'] = hbar.set text['font'] = tuple(txtfont) shortcut = 'Command' if darwin else 'Control' text.bind_all('<%s-minus>' % shortcut, self.decrease_size) text.bind_all('<%s-underscore>' % shortcut, self.decrease_size) text.bind_all('<%s-equal>' % shortcut, self.increase_size) text.bind_all('<%s-plus>' % shortcut, self.increase_size) text.bind('', self.update_mousewheel) text.bind('', self.increase_size) text.bind('', self.decrease_size) text.pack(side=LEFT, fill=BOTH, expand=1) return text_frame def makeGraphFrame(self, root): turtle._Screen._root = root self.canvwidth = 1000 self.canvheight = 800 turtle._Screen._canvas = self._canvas = canvas = turtle.ScrolledCanvas( root, 800, 600, self.canvwidth, self.canvheight) canvas.adjustScrolls() canvas._rootwindow.bind('', self.onResize) canvas._canvas['borderwidth'] = 0 self.screen = _s_ = turtle.Screen() turtle.TurtleScreen.__init__(_s_, _s_._canvas) self.scanvas = _s_._canvas turtle.RawTurtle.screens = [_s_] return canvas def set_txtsize(self, size): txtfont[1] = size self.text['font'] = tuple(txtfont) self.output_lbl['text'] = 'Font size %d' % size def decrease_size(self, dummy=None): self.set_txtsize(max(txtfont[1] - 1, MINIMUM_FONT_SIZE)) return 'break' def increase_size(self, dummy=None): self.set_txtsize(min(txtfont[1] + 1, MAXIMUM_FONT_SIZE)) return 'break' def update_mousewheel(self, event): # For wheel up, event.delte = 120 on Windows, -1 on darwin. # X-11 sends Control-Button-4 event instead. if (event.delta < 0) == (not darwin): return self.decrease_size() else: return self.increase_size() def configGUI(self, start, stop, clear, txt="", color="blue"): self.start_btn.config(state=start, bg="#d00" if start == NORMAL else "#fca") self.stop_btn.config(state=stop, bg="#d00" if stop == NORMAL else "#fca") self.clear_btn.config(state=clear, bg="#d00" if clear == NORMAL else"#fca") self.output_lbl.config(text=txt, fg=color) def makeLoadDemoMenu(self, master): menu = Menu(master) for entry in getExampleEntries(): def load(entry=entry): self.loadfile(entry) menu.add_command(label=entry, underline=0, font=menufont, command=load) return menu def makeFontMenu(self, master): menu = Menu(master) menu.add_command(label="Decrease (C-'-')", command=self.decrease_size, font=menufont) menu.add_command(label="Increase (C-'+')", command=self.increase_size, font=menufont) menu.add_separator() for size in font_sizes: def resize(size=size): self.set_txtsize(size) menu.add_command(label=str(size), underline=0, font=menufont, command=resize) return menu def makeHelpMenu(self, master): menu = Menu(master) for help_label, help_file in help_entries: def show(help_label=help_label, help_file=help_file): view_text(self.root, help_label, help_file) menu.add_command(label=help_label, font=menufont, command=show) return menu def refreshCanvas(self): if self.dirty: self.screen.clear() self.dirty=False def loadfile(self, filename): self.clearCanvas() turtle.TurtleScreen._RUNNING = False modname = 'turtledemo.' + filename __import__(modname) self.module = sys.modules[modname] with open(self.module.__file__, 'r') as f: chars = f.read() self.text.delete("1.0", "end") self.text.insert("1.0", chars) self.root.title(filename + " - a Python turtle graphics example") self.configGUI(NORMAL, DISABLED, DISABLED, "Press start button", "red") self.state = READY def startDemo(self): self.refreshCanvas() self.dirty = True turtle.TurtleScreen._RUNNING = True self.configGUI(DISABLED, NORMAL, DISABLED, "demo running...", "black") self.screen.clear() self.screen.mode("standard") self.state = RUNNING try: result = self.module.main() if result == "EVENTLOOP": self.state = EVENTDRIVEN else: self.state = DONE except turtle.Terminator: if self.root is None: return self.state = DONE result = "stopped!" if self.state == DONE: self.configGUI(NORMAL, DISABLED, NORMAL, result) elif self.state == EVENTDRIVEN: self.exitflag = True self.configGUI(DISABLED, NORMAL, DISABLED, "use mouse/keys or STOP", "red") def clearCanvas(self): self.refreshCanvas() self.screen._delete("all") self.scanvas.config(cursor="") self.configGUI(NORMAL, DISABLED, DISABLED) def stopIt(self): if self.exitflag: self.clearCanvas() self.exitflag = False self.configGUI(NORMAL, DISABLED, DISABLED, "STOPPED!", "red") turtle.TurtleScreen._RUNNING = False def _destroy(self): turtle.TurtleScreen._RUNNING = False self.root.destroy() self.root = None def main(): demo = DemoWindow() demo.root.mainloop() if __name__ == '__main__': main()