| # |
| # turtle.py: a Tkinter based turtle graphics module for Python |
| # Version 1.0b1 - 31. 5. 2008 |
| # |
| # Copyright (C) 2006 - 2008 Gregor Lingl |
| # email: glingl@aon.at |
| # |
| # This software is provided 'as-is', without any express or implied |
| # warranty. In no event will the authors be held liable for any damages |
| # arising from the use of this software. |
| # |
| # Permission is granted to anyone to use this software for any purpose, |
| # including commercial applications, and to alter it and redistribute it |
| # freely, subject to the following restrictions: |
| # |
| # 1. The origin of this software must not be misrepresented; you must not |
| # claim that you wrote the original software. If you use this software |
| # in a product, an acknowledgment in the product documentation would be |
| # appreciated but is not required. |
| # 2. Altered source versions must be plainly marked as such, and must not be |
| # misrepresented as being the original software. |
| # 3. This notice may not be removed or altered from any source distribution. |
| |
| |
| """ |
| Turtle graphics is a popular way for introducing programming to |
| kids. It was part of the original Logo programming language developed |
| by Wally Feurzig and Seymour Papert in 1966. |
| |
| Imagine a robotic turtle starting at (0, 0) in the x-y plane. Give it |
| the command turtle.forward(15), and it moves (on-screen!) 15 pixels in |
| the direction it is facing, drawing a line as it moves. Give it the |
| command turtle.left(25), and it rotates in-place 25 degrees clockwise. |
| |
| By combining together these and similar commands, intricate shapes and |
| pictures can easily be drawn. |
| |
| ----- turtle.py |
| |
| This module is an extended reimplementation of turtle.py from the |
| Python standard distribution up to Python 2.5. (See: http://www.python.org) |
| |
| It tries to keep the merits of turtle.py and to be (nearly) 100% |
| compatible with it. This means in the first place to enable the |
| learning programmer to use all the commands, classes and methods |
| interactively when using the module from within IDLE run with |
| the -n switch. |
| |
| Roughly it has the following features added: |
| |
| - Better animation of the turtle movements, especially of turning the |
| turtle. So the turtles can more easily be used as a visual feedback |
| instrument by the (beginning) programmer. |
| |
| - Different turtle shapes, gif-images as turtle shapes, user defined |
| and user controllable turtle shapes, among them compound |
| (multicolored) shapes. Turtle shapes can be stretched and tilted, which |
| makes turtles very versatile geometrical objects. |
| |
| - Fine control over turtle movement and screen updates via delay(), |
| and enhanced tracer() and speed() methods. |
| |
| - Aliases for the most commonly used commands, like fd for forward etc., |
| following the early Logo traditions. This reduces the boring work of |
| typing long sequences of commands, which often occur in a natural way |
| when kids try to program fancy pictures on their first encounter with |
| turtle graphics. |
| |
| - Turtles now have an undo()-method with configurable undo-buffer. |
| |
| - Some simple commands/methods for creating event driven programs |
| (mouse-, key-, timer-events). Especially useful for programming games. |
| |
| - A scrollable Canvas class. The default scrollable Canvas can be |
| extended interactively as needed while playing around with the turtle(s). |
| |
| - A TurtleScreen class with methods controlling background color or |
| background image, window and canvas size and other properties of the |
| TurtleScreen. |
| |
| - There is a method, setworldcoordinates(), to install a user defined |
| coordinate-system for the TurtleScreen. |
| |
| - The implementation uses a 2-vector class named Vec2D, derived from tuple. |
| This class is public, so it can be imported by the application programmer, |
| which makes certain types of computations very natural and compact. |
| |
| - Appearance of the TurtleScreen and the Turtles at startup/import can be |
| configured by means of a turtle.cfg configuration file. |
| The default configuration mimics the appearance of the old turtle module. |
| |
| - If configured appropriately the module reads in docstrings from a docstring |
| dictionary in some different language, supplied separately and replaces |
| the English ones by those read in. There is a utility function |
| write_docstringdict() to write a dictionary with the original (English) |
| docstrings to disc, so it can serve as a template for translations. |
| |
| Behind the scenes there are some features included with possible |
| extensions in in mind. These will be commented and documented elsewhere. |
| |
| """ |
| |
| _ver = "turtle 1.0b1 - for Python 2.6 - 30. 5. 2008, 18:08" |
| |
| #print _ver |
| |
| import Tkinter as TK |
| import types |
| import math |
| import time |
| import os |
| |
| from os.path import isfile, split, join |
| from copy import deepcopy |
| |
| from math import * ## for compatibility with old turtle module |
| |
| _tg_classes = ['ScrolledCanvas', 'TurtleScreen', 'Screen', |
| 'RawTurtle', 'Turtle', 'RawPen', 'Pen', 'Shape', 'Vec2D'] |
| _tg_screen_functions = ['addshape', 'bgcolor', 'bgpic', 'bye', |
| 'clearscreen', 'colormode', 'delay', 'exitonclick', 'getcanvas', |
| 'getshapes', 'listen', 'mode', 'onkey', 'onscreenclick', 'ontimer', |
| 'register_shape', 'resetscreen', 'screensize', 'setup', |
| 'setworldcoordinates', 'title', 'tracer', 'turtles', 'update', |
| 'window_height', 'window_width'] |
| _tg_turtle_functions = ['back', 'backward', 'begin_fill', 'begin_poly', 'bk', |
| 'circle', 'clear', 'clearstamp', 'clearstamps', 'clone', 'color', |
| 'degrees', 'distance', 'dot', 'down', 'end_fill', 'end_poly', 'fd', |
| 'fill', 'fillcolor', 'forward', 'get_poly', 'getpen', 'getscreen', |
| 'getturtle', 'goto', 'heading', 'hideturtle', 'home', 'ht', 'isdown', |
| 'isvisible', 'left', 'lt', 'onclick', 'ondrag', 'onrelease', 'pd', |
| 'pen', 'pencolor', 'pendown', 'pensize', 'penup', 'pos', 'position', |
| 'pu', 'radians', 'right', 'reset', 'resizemode', 'rt', |
| 'seth', 'setheading', 'setpos', 'setposition', 'settiltangle', |
| 'setundobuffer', 'setx', 'sety', 'shape', 'shapesize', 'showturtle', |
| 'speed', 'st', 'stamp', 'tilt', 'tiltangle', 'towards', 'tracer', |
| 'turtlesize', 'undo', 'undobufferentries', 'up', 'width', |
| 'window_height', 'window_width', 'write', 'xcor', 'ycor'] |
| _tg_utilities = ['write_docstringdict', 'done', 'mainloop'] |
| _math_functions = ['acos', 'asin', 'atan', 'atan2', 'ceil', 'cos', 'cosh', |
| 'e', 'exp', 'fabs', 'floor', 'fmod', 'frexp', 'hypot', 'ldexp', 'log', |
| 'log10', 'modf', 'pi', 'pow', 'sin', 'sinh', 'sqrt', 'tan', 'tanh'] |
| |
| __all__ = (_tg_classes + _tg_screen_functions + _tg_turtle_functions + |
| _tg_utilities + _math_functions) |
| |
| _alias_list = ['addshape', 'backward', 'bk', 'fd', 'ht', 'lt', 'pd', 'pos', |
| 'pu', 'rt', 'seth', 'setpos', 'setposition', 'st', |
| 'turtlesize', 'up', 'width'] |
| |
| _CFG = {"width" : 0.5, # Screen |
| "height" : 0.75, |
| "canvwidth" : 400, |
| "canvheight": 300, |
| "leftright": None, |
| "topbottom": None, |
| "mode": "standard", # TurtleScreen |
| "colormode": 1.0, |
| "delay": 10, |
| "undobuffersize": 1000, # RawTurtle |
| "shape": "classic", |
| "pencolor" : "black", |
| "fillcolor" : "black", |
| "resizemode" : "noresize", |
| "visible" : True, |
| "language": "english", # docstrings |
| "exampleturtle": "turtle", |
| "examplescreen": "screen", |
| "title": "Python Turtle Graphics", |
| "using_IDLE": False |
| } |
| |
| ##print "cwd:", os.getcwd() |
| ##print "__file__:", __file__ |
| ## |
| ##def show(dictionary): |
| ## print "==========================" |
| ## for key in sorted(dictionary.keys()): |
| ## print key, ":", dictionary[key] |
| ## print "==========================" |
| ## print |
| |
| def config_dict(filename): |
| """Convert content of config-file into dictionary.""" |
| f = open(filename, "r") |
| cfglines = f.readlines() |
| f.close() |
| cfgdict = {} |
| for line in cfglines: |
| line = line.strip() |
| if not line or line.startswith("#"): |
| continue |
| try: |
| key, value = line.split("=") |
| except: |
| print "Bad line in config-file %s:\n%s" % (filename,line) |
| continue |
| key = key.strip() |
| value = value.strip() |
| if value in ["True", "False", "None", "''", '""']: |
| value = eval(value) |
| else: |
| try: |
| if "." in value: |
| value = float(value) |
| else: |
| value = int(value) |
| except: |
| pass # value need not be converted |
| cfgdict[key] = value |
| return cfgdict |
| |
| def readconfig(cfgdict): |
| """Read config-files, change configuration-dict accordingly. |
| |
| If there is a turtle.cfg file in the current working directory, |
| read it from there. If this contains an importconfig-value, |
| say 'myway', construct filename turtle_mayway.cfg else use |
| turtle.cfg and read it from the import-directory, where |
| turtle.py is located. |
| Update configuration dictionary first according to config-file, |
| in the import directory, then according to config-file in the |
| current working directory. |
| If no config-file is found, the default configuration is used. |
| """ |
| default_cfg = "turtle.cfg" |
| cfgdict1 = {} |
| cfgdict2 = {} |
| if isfile(default_cfg): |
| cfgdict1 = config_dict(default_cfg) |
| #print "1. Loading config-file %s from: %s" % (default_cfg, os.getcwd()) |
| if "importconfig" in cfgdict1: |
| default_cfg = "turtle_%s.cfg" % cfgdict1["importconfig"] |
| try: |
| head, tail = split(__file__) |
| cfg_file2 = join(head, default_cfg) |
| except: |
| cfg_file2 = "" |
| if isfile(cfg_file2): |
| #print "2. Loading config-file %s:" % cfg_file2 |
| cfgdict2 = config_dict(cfg_file2) |
| ## show(_CFG) |
| ## show(cfgdict2) |
| _CFG.update(cfgdict2) |
| ## show(_CFG) |
| ## show(cfgdict1) |
| _CFG.update(cfgdict1) |
| ## show(_CFG) |
| |
| try: |
| readconfig(_CFG) |
| except: |
| print "No configfile read, reason unknown" |
| |
| |
| class Vec2D(tuple): |
| """A 2 dimensional vector class, used as a helper class |
| for implementing turtle graphics. |
| May be useful for turtle graphics programs also. |
| Derived from tuple, so a vector is a tuple! |
| |
| Provides (for a, b vectors, k number): |
| a+b vector addition |
| a-b vector subtraction |
| a*b inner product |
| k*a and a*k multiplication with scalar |
| |a| absolute value of a |
| a.rotate(angle) rotation |
| """ |
| def __new__(cls, x, y): |
| return tuple.__new__(cls, (x, y)) |
| def __add__(self, other): |
| return Vec2D(self[0]+other[0], self[1]+other[1]) |
| def __mul__(self, other): |
| if isinstance(other, Vec2D): |
| return self[0]*other[0]+self[1]*other[1] |
| return Vec2D(self[0]*other, self[1]*other) |
| def __rmul__(self, other): |
| if isinstance(other, int) or isinstance(other, float): |
| return Vec2D(self[0]*other, self[1]*other) |
| def __sub__(self, other): |
| return Vec2D(self[0]-other[0], self[1]-other[1]) |
| def __neg__(self): |
| return Vec2D(-self[0], -self[1]) |
| def __abs__(self): |
| return (self[0]**2 + self[1]**2)**0.5 |
| def rotate(self, angle): |
| """rotate self counterclockwise by angle |
| """ |
| perp = Vec2D(-self[1], self[0]) |
| angle = angle * math.pi / 180.0 |
| c, s = math.cos(angle), math.sin(angle) |
| return Vec2D(self[0]*c+perp[0]*s, self[1]*c+perp[1]*s) |
| def __getnewargs__(self): |
| return (self[0], self[1]) |
| def __repr__(self): |
| return "(%.2f,%.2f)" % self |
| |
| |
| ############################################################################## |
| ### From here up to line : Tkinter - Interface for turtle.py ### |
| ### May be replaced by an interface to some different graphics toolkit ### |
| ############################################################################## |
| |
| ## helper functions for Scrolled Canvas, to forward Canvas-methods |
| ## to ScrolledCanvas class |
| |
| def __methodDict(cls, _dict): |
| """helper function for Scrolled Canvas""" |
| baseList = list(cls.__bases__) |
| baseList.reverse() |
| for _super in baseList: |
| __methodDict(_super, _dict) |
| for key, value in cls.__dict__.items(): |
| if type(value) == types.FunctionType: |
| _dict[key] = value |
| |
| def __methods(cls): |
| """helper function for Scrolled Canvas""" |
| _dict = {} |
| __methodDict(cls, _dict) |
| return _dict.keys() |
| |
| __stringBody = ( |
| 'def %(method)s(self, *args, **kw): return ' + |
| 'self.%(attribute)s.%(method)s(*args, **kw)') |
| |
| def __forwardmethods(fromClass, toClass, toPart, exclude = ()): |
| """Helper functions for Scrolled Canvas, used to forward |
| ScrolledCanvas-methods to Tkinter.Canvas class. |
| """ |
| _dict = {} |
| __methodDict(toClass, _dict) |
| for ex in _dict.keys(): |
| if ex[:1] == '_' or ex[-1:] == '_': |
| del _dict[ex] |
| for ex in exclude: |
| if _dict.has_key(ex): |
| del _dict[ex] |
| for ex in __methods(fromClass): |
| if _dict.has_key(ex): |
| del _dict[ex] |
| |
| for method, func in _dict.items(): |
| d = {'method': method, 'func': func} |
| if type(toPart) == types.StringType: |
| execString = \ |
| __stringBody % {'method' : method, 'attribute' : toPart} |
| exec execString in d |
| fromClass.__dict__[method] = d[method] |
| |
| |
| class ScrolledCanvas(TK.Frame): |
| """Modeled after the scrolled canvas class from Grayons's Tkinter book. |
| |
| Used as the default canvas, which pops up automatically when |
| using turtle graphics functions or the Turtle class. |
| """ |
| def __init__(self, master, width=500, height=350, |
| canvwidth=600, canvheight=500): |
| TK.Frame.__init__(self, master, width=width, height=height) |
| self._rootwindow = self.winfo_toplevel() |
| self.width, self.height = width, height |
| self.canvwidth, self.canvheight = canvwidth, canvheight |
| self.bg = "white" |
| self._canvas = TK.Canvas(master, width=width, height=height, |
| bg=self.bg, relief=TK.SUNKEN, borderwidth=2) |
| self.hscroll = TK.Scrollbar(master, command=self._canvas.xview, |
| orient=TK.HORIZONTAL) |
| self.vscroll = TK.Scrollbar(master, command=self._canvas.yview) |
| self._canvas.configure(xscrollcommand=self.hscroll.set, |
| yscrollcommand=self.vscroll.set) |
| self.rowconfigure(0, weight=1, minsize=0) |
| self.columnconfigure(0, weight=1, minsize=0) |
| self._canvas.grid(padx=1, in_ = self, pady=1, row=0, |
| column=0, rowspan=1, columnspan=1, sticky='news') |
| self.vscroll.grid(padx=1, in_ = self, pady=1, row=0, |
| column=1, rowspan=1, columnspan=1, sticky='news') |
| self.hscroll.grid(padx=1, in_ = self, pady=1, row=1, |
| column=0, rowspan=1, columnspan=1, sticky='news') |
| self.reset() |
| self._rootwindow.bind('<Configure>', self.onResize) |
| |
| def reset(self, canvwidth=None, canvheight=None, bg = None): |
| """Adjust canvas and scrollbars according to given canvas size.""" |
| if canvwidth: |
| self.canvwidth = canvwidth |
| if canvheight: |
| self.canvheight = canvheight |
| if bg: |
| self.bg = bg |
| self._canvas.config(bg=bg, |
| scrollregion=(-self.canvwidth//2, -self.canvheight//2, |
| self.canvwidth//2, self.canvheight//2)) |
| self._canvas.xview_moveto(0.5*(self.canvwidth - self.width + 30) / |
| self.canvwidth) |
| self._canvas.yview_moveto(0.5*(self.canvheight- self.height + 30) / |
| self.canvheight) |
| self.adjustScrolls() |
| |
| |
| def adjustScrolls(self): |
| """ Adjust scrollbars according to window- and canvas-size. |
| """ |
| 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) |
| if cwidth < self.canvwidth or cheight < self.canvheight: |
| self.hscroll.grid(padx=1, in_ = self, pady=1, row=1, |
| column=0, rowspan=1, columnspan=1, sticky='news') |
| self.vscroll.grid(padx=1, in_ = self, pady=1, row=0, |
| column=1, rowspan=1, columnspan=1, sticky='news') |
| else: |
| self.hscroll.grid_forget() |
| self.vscroll.grid_forget() |
| |
| def onResize(self, event): |
| """self-explanatory""" |
| self.adjustScrolls() |
| |
| def bbox(self, *args): |
| """ 'forward' method, which canvas itself has inherited... |
| """ |
| return self._canvas.bbox(*args) |
| |
| def cget(self, *args, **kwargs): |
| """ 'forward' method, which canvas itself has inherited... |
| """ |
| return self._canvas.cget(*args, **kwargs) |
| |
| def config(self, *args, **kwargs): |
| """ 'forward' method, which canvas itself has inherited... |
| """ |
| self._canvas.config(*args, **kwargs) |
| |
| def bind(self, *args, **kwargs): |
| """ 'forward' method, which canvas itself has inherited... |
| """ |
| self._canvas.bind(*args, **kwargs) |
| |
| def unbind(self, *args, **kwargs): |
| """ 'forward' method, which canvas itself has inherited... |
| """ |
| self._canvas.unbind(*args, **kwargs) |
| |
| def focus_force(self): |
| """ 'forward' method, which canvas itself has inherited... |
| """ |
| self._canvas.focus_force() |
| |
| __forwardmethods(ScrolledCanvas, TK.Canvas, '_canvas') |
| |
| |
| class _Root(TK.Tk): |
| """Root class for Screen based on Tkinter.""" |
| def __init__(self): |
| TK.Tk.__init__(self) |
| |
| def setupcanvas(self, width, height, cwidth, cheight): |
| self._canvas = ScrolledCanvas(self, width, height, cwidth, cheight) |
| self._canvas.pack(expand=1, fill="both") |
| |
| def _getcanvas(self): |
| return self._canvas |
| |
| def set_geometry(self, width, height, startx, starty): |
| self.geometry("%dx%d%+d%+d"%(width, height, startx, starty)) |
| |
| def ondestroy(self, destroy): |
| self.wm_protocol("WM_DELETE_WINDOW", destroy) |
| |
| def win_width(self): |
| return self.winfo_screenwidth() |
| |
| def win_height(self): |
| return self.winfo_screenheight() |
| |
| Canvas = TK.Canvas |
| |
| |
| class TurtleScreenBase(object): |
| """Provide the basic graphics functionality. |
| Interface between Tkinter and turtle.py. |
| |
| To port turtle.py to some different graphics toolkit |
| a corresponding TurtleScreenBase class has to be implemented. |
| """ |
| |
| @staticmethod |
| def _blankimage(): |
| """return a blank image object |
| """ |
| img = TK.PhotoImage(width=1, height=1) |
| img.blank() |
| return img |
| |
| @staticmethod |
| def _image(filename): |
| """return an image object containing the |
| imagedata from a gif-file named filename. |
| """ |
| return TK.PhotoImage(file=filename) |
| |
| def __init__(self, cv): |
| self.cv = cv |
| if isinstance(cv, ScrolledCanvas): |
| w = self.cv.canvwidth |
| h = self.cv.canvheight |
| else: # expected: ordinary TK.Canvas |
| w = int(self.cv.cget("width")) |
| h = int(self.cv.cget("height")) |
| self.cv.config(scrollregion = (-w//2, -h//2, w//2, h//2 )) |
| self.canvwidth = w |
| self.canvheight = h |
| self.xscale = self.yscale = 1.0 |
| |
| def _createpoly(self): |
| """Create an invisible polygon item on canvas self.cv) |
| """ |
| return self.cv.create_polygon((0, 0, 0, 0, 0, 0), fill="", outline="") |
| |
| def _drawpoly(self, polyitem, coordlist, fill=None, |
| outline=None, width=None, top=False): |
| """Configure polygonitem polyitem according to provided |
| arguments: |
| coordlist is sequence of coordinates |
| fill is filling color |
| outline is outline color |
| top is a boolean value, which specifies if polyitem |
| will be put on top of the canvas' displaylist so it |
| will not be covered by other items. |
| """ |
| cl = [] |
| for x, y in coordlist: |
| cl.append(x * self.xscale) |
| cl.append(-y * self.yscale) |
| self.cv.coords(polyitem, *cl) |
| if fill is not None: |
| self.cv.itemconfigure(polyitem, fill=fill) |
| if outline is not None: |
| self.cv.itemconfigure(polyitem, outline=outline) |
| if width is not None: |
| self.cv.itemconfigure(polyitem, width=width) |
| if top: |
| self.cv.tag_raise(polyitem) |
| |
| def _createline(self): |
| """Create an invisible line item on canvas self.cv) |
| """ |
| return self.cv.create_line(0, 0, 0, 0, fill="", width=2, |
| capstyle = TK.ROUND) |
| |
| def _drawline(self, lineitem, coordlist=None, |
| fill=None, width=None, top=False): |
| """Configure lineitem according to provided arguments: |
| coordlist is sequence of coordinates |
| fill is drawing color |
| width is width of drawn line. |
| top is a boolean value, which specifies if polyitem |
| will be put on top of the canvas' displaylist so it |
| will not be covered by other items. |
| """ |
| if coordlist is not None: |
| cl = [] |
| for x, y in coordlist: |
| cl.append(x * self.xscale) |
| cl.append(-y * self.yscale) |
| self.cv.coords(lineitem, *cl) |
| if fill is not None: |
| self.cv.itemconfigure(lineitem, fill=fill) |
| if width is not None: |
| self.cv.itemconfigure(lineitem, width=width) |
| if top: |
| self.cv.tag_raise(lineitem) |
| |
| def _delete(self, item): |
| """Delete graphics item from canvas. |
| If item is"all" delete all graphics items. |
| """ |
| self.cv.delete(item) |
| |
| def _update(self): |
| """Redraw graphics items on canvas |
| """ |
| self.cv.update() |
| |
| def _delay(self, delay): |
| """Delay subsequent canvas actions for delay ms.""" |
| self.cv.after(delay) |
| |
| def _iscolorstring(self, color): |
| """Check if the string color is a legal Tkinter color string. |
| """ |
| try: |
| rgb = self.cv.winfo_rgb(color) |
| ok = True |
| except TK.TclError: |
| ok = False |
| return ok |
| |
| def _bgcolor(self, color=None): |
| """Set canvas' backgroundcolor if color is not None, |
| else return backgroundcolor.""" |
| if color is not None: |
| self.cv.config(bg = color) |
| self._update() |
| else: |
| return self.cv.cget("bg") |
| |
| def _write(self, pos, txt, align, font, pencolor): |
| """Write txt at pos in canvas with specified font |
| and color. |
| Return text item and x-coord of right bottom corner |
| of text's bounding box.""" |
| x, y = pos |
| x = x * self.xscale |
| y = y * self.yscale |
| anchor = {"left":"sw", "center":"s", "right":"se" } |
| item = self.cv.create_text(x-1, -y, text = txt, anchor = anchor[align], |
| fill = pencolor, font = font) |
| x0, y0, x1, y1 = self.cv.bbox(item) |
| self.cv.update() |
| return item, x1-1 |
| |
| ## def _dot(self, pos, size, color): |
| ## """may be implemented for some other graphics toolkit""" |
| |
| def _onclick(self, item, fun, num=1, add=None): |
| """Bind fun to mouse-click event on turtle. |
| fun must be a function with two arguments, the coordinates |
| of the clicked point on the canvas. |
| num, the number of the mouse-button defaults to 1 |
| """ |
| if fun is None: |
| self.cv.tag_unbind(item, "<Button-%s>" % num) |
| else: |
| def eventfun(event): |
| x, y = (self.cv.canvasx(event.x)/self.xscale, |
| -self.cv.canvasy(event.y)/self.yscale) |
| fun(x, y) |
| self.cv.tag_bind(item, "<Button-%s>" % num, eventfun, add) |
| |
| def _onrelease(self, item, fun, num=1, add=None): |
| """Bind fun to mouse-button-release event on turtle. |
| fun must be a function with two arguments, the coordinates |
| of the point on the canvas where mouse button is released. |
| num, the number of the mouse-button defaults to 1 |
| |
| If a turtle is clicked, first _onclick-event will be performed, |
| then _onscreensclick-event. |
| """ |
| if fun is None: |
| self.cv.tag_unbind(item, "<Button%s-ButtonRelease>" % num) |
| else: |
| def eventfun(event): |
| x, y = (self.cv.canvasx(event.x)/self.xscale, |
| -self.cv.canvasy(event.y)/self.yscale) |
| fun(x, y) |
| self.cv.tag_bind(item, "<Button%s-ButtonRelease>" % num, |
| eventfun, add) |
| |
| def _ondrag(self, item, fun, num=1, add=None): |
| """Bind fun to mouse-move-event (with pressed mouse button) on turtle. |
| fun must be a function with two arguments, the coordinates of the |
| actual mouse position on the canvas. |
| num, the number of the mouse-button defaults to 1 |
| |
| Every sequence of mouse-move-events on a turtle is preceded by a |
| mouse-click event on that turtle. |
| """ |
| if fun is None: |
| self.cv.tag_unbind(item, "<Button%s-Motion>" % num) |
| else: |
| def eventfun(event): |
| try: |
| x, y = (self.cv.canvasx(event.x)/self.xscale, |
| -self.cv.canvasy(event.y)/self.yscale) |
| fun(x, y) |
| except: |
| pass |
| self.cv.tag_bind(item, "<Button%s-Motion>" % num, eventfun, add) |
| |
| def _onscreenclick(self, fun, num=1, add=None): |
| """Bind fun to mouse-click event on canvas. |
| fun must be a function with two arguments, the coordinates |
| of the clicked point on the canvas. |
| num, the number of the mouse-button defaults to 1 |
| |
| If a turtle is clicked, first _onclick-event will be performed, |
| then _onscreensclick-event. |
| """ |
| if fun is None: |
| self.cv.unbind("<Button-%s>" % num) |
| else: |
| def eventfun(event): |
| x, y = (self.cv.canvasx(event.x)/self.xscale, |
| -self.cv.canvasy(event.y)/self.yscale) |
| fun(x, y) |
| self.cv.bind("<Button-%s>" % num, eventfun, add) |
| |
| def _onkey(self, fun, key): |
| """Bind fun to key-release event of key. |
| Canvas must have focus. See method listen |
| """ |
| if fun is None: |
| self.cv.unbind("<KeyRelease-%s>" % key, None) |
| else: |
| def eventfun(event): |
| fun() |
| self.cv.bind("<KeyRelease-%s>" % key, eventfun) |
| |
| def _listen(self): |
| """Set focus on canvas (in order to collect key-events) |
| """ |
| self.cv.focus_force() |
| |
| def _ontimer(self, fun, t): |
| """Install a timer, which calls fun after t milliseconds. |
| """ |
| if t == 0: |
| self.cv.after_idle(fun) |
| else: |
| self.cv.after(t, fun) |
| |
| def _createimage(self, image): |
| """Create and return image item on canvas. |
| """ |
| return self.cv.create_image(0, 0, image=image) |
| |
| def _drawimage(self, item, (x, y), image): |
| """Configure image item as to draw image object |
| at position (x,y) on canvas) |
| """ |
| self.cv.coords(item, (x * self.xscale, -y * self.yscale)) |
| self.cv.itemconfig(item, image=image) |
| |
| def _setbgpic(self, item, image): |
| """Configure image item as to draw image object |
| at center of canvas. Set item to the first item |
| in the displaylist, so it will be drawn below |
| any other item .""" |
| self.cv.itemconfig(item, image=image) |
| self.cv.tag_lower(item) |
| |
| def _type(self, item): |
| """Return 'line' or 'polygon' or 'image' depending on |
| type of item. |
| """ |
| return self.cv.type(item) |
| |
| def _pointlist(self, item): |
| """returns list of coordinate-pairs of points of item |
| Example (for insiders): |
| >>> from turtle import * |
| >>> getscreen()._pointlist(getturtle().turtle._item) |
| [(0.0, 9.9999999999999982), (0.0, -9.9999999999999982), |
| (9.9999999999999982, 0.0)] |
| >>> """ |
| cl = self.cv.coords(item) |
| pl = [(cl[i], -cl[i+1]) for i in range(0, len(cl), 2)] |
| return pl |
| |
| def _setscrollregion(self, srx1, sry1, srx2, sry2): |
| self.cv.config(scrollregion=(srx1, sry1, srx2, sry2)) |
| |
| def _rescale(self, xscalefactor, yscalefactor): |
| items = self.cv.find_all() |
| for item in items: |
| coordinates = self.cv.coords(item) |
| newcoordlist = [] |
| while coordinates: |
| x, y = coordinates[:2] |
| newcoordlist.append(x * xscalefactor) |
| newcoordlist.append(y * yscalefactor) |
| coordinates = coordinates[2:] |
| self.cv.coords(item, *newcoordlist) |
| |
| def _resize(self, canvwidth=None, canvheight=None, bg=None): |
| """Resize the canvas the turtles are drawing on. Does |
| not alter the drawing window. |
| """ |
| # needs amendment |
| if not isinstance(self.cv, ScrolledCanvas): |
| return self.canvwidth, self.canvheight |
| if canvwidth is None and canvheight is None and bg is None: |
| return self.cv.canvwidth, self.cv.canvheight |
| if canvwidth is not None: |
| self.canvwidth = canvwidth |
| if canvheight is not None: |
| self.canvheight = canvheight |
| self.cv.reset(canvwidth, canvheight, bg) |
| |
| def _window_size(self): |
| """ Return the width and height of the turtle window. |
| """ |
| width = self.cv.winfo_width() |
| if width <= 1: # the window isn't managed by a geometry manager |
| width = self.cv['width'] |
| height = self.cv.winfo_height() |
| if height <= 1: # the window isn't managed by a geometry manager |
| height = self.cv['height'] |
| return width, height |
| |
| |
| ############################################################################## |
| ### End of Tkinter - interface ### |
| ############################################################################## |
| |
| |
| class Terminator (Exception): |
| """Will be raised in TurtleScreen.update, if _RUNNING becomes False. |
| |
| Thus stops execution of turtle graphics script. Main purpose: use in |
| in the Demo-Viewer turtle.Demo.py. |
| """ |
| pass |
| |
| |
| class TurtleGraphicsError(Exception): |
| """Some TurtleGraphics Error |
| """ |
| |
| |
| class Shape(object): |
| """Data structure modeling shapes. |
| |
| attribute _type is one of "polygon", "image", "compound" |
| attribute _data is - depending on _type a poygon-tuple, |
| an image or a list constructed using the addcomponent method. |
| """ |
| def __init__(self, type_, data=None): |
| self._type = type_ |
| if type_ == "polygon": |
| if isinstance(data, list): |
| data = tuple(data) |
| elif type_ == "image": |
| if isinstance(data, str): |
| if data.lower().endswith(".gif") and isfile(data): |
| data = TurtleScreen._image(data) |
| # else data assumed to be Photoimage |
| elif type_ == "compound": |
| data = [] |
| else: |
| raise TurtleGraphicsError("There is no shape type %s" % type_) |
| self._data = data |
| |
| def addcomponent(self, poly, fill, outline=None): |
| """Add component to a shape of type compound. |
| |
| Arguments: poly is a polygon, i. e. a tuple of number pairs. |
| fill is the fillcolor of the component, |
| outline is the outline color of the component. |
| |
| call (for a Shapeobject namend s): |
| -- s.addcomponent(((0,0), (10,10), (-10,10)), "red", "blue") |
| |
| Example: |
| >>> poly = ((0,0),(10,-5),(0,10),(-10,-5)) |
| >>> s = Shape("compound") |
| >>> s.addcomponent(poly, "red", "blue") |
| ### .. add more components and then use register_shape() |
| """ |
| if self._type != "compound": |
| raise TurtleGraphicsError("Cannot add component to %s Shape" |
| % self._type) |
| if outline is None: |
| outline = fill |
| self._data.append([poly, fill, outline]) |
| |
| |
| class Tbuffer(object): |
| """Ring buffer used as undobuffer for RawTurtle objects.""" |
| def __init__(self, bufsize=10): |
| self.bufsize = bufsize |
| self.buffer = [[None]] * bufsize |
| self.ptr = -1 |
| self.cumulate = False |
| def reset(self, bufsize=None): |
| if bufsize is None: |
| for i in range(self.bufsize): |
| self.buffer[i] = [None] |
| else: |
| self.bufsize = bufsize |
| self.buffer = [[None]] * bufsize |
| self.ptr = -1 |
| def push(self, item): |
| if self.bufsize > 0: |
| if not self.cumulate: |
| self.ptr = (self.ptr + 1) % self.bufsize |
| self.buffer[self.ptr] = item |
| else: |
| self.buffer[self.ptr].append(item) |
| def pop(self): |
| if self.bufsize > 0: |
| item = self.buffer[self.ptr] |
| if item is None: |
| return None |
| else: |
| self.buffer[self.ptr] = [None] |
| self.ptr = (self.ptr - 1) % self.bufsize |
| return (item) |
| def nr_of_items(self): |
| return self.bufsize - self.buffer.count([None]) |
| def __repr__(self): |
| return str(self.buffer) + " " + str(self.ptr) |
| |
| |
| |
| class TurtleScreen(TurtleScreenBase): |
| """Provides screen oriented methods like setbg etc. |
| |
| Only relies upon the methods of TurtleScreenBase and NOT |
| upon components of the underlying graphics toolkit - |
| which is Tkinter in this case. |
| """ |
| # _STANDARD_DELAY = 5 |
| _RUNNING = True |
| |
| def __init__(self, cv, mode=_CFG["mode"], |
| colormode=_CFG["colormode"], delay=_CFG["delay"]): |
| self._shapes = { |
| "arrow" : Shape("polygon", ((-10,0), (10,0), (0,10))), |
| "turtle" : Shape("polygon", ((0,16), (-2,14), (-1,10), (-4,7), |
| (-7,9), (-9,8), (-6,5), (-7,1), (-5,-3), (-8,-6), |
| (-6,-8), (-4,-5), (0,-7), (4,-5), (6,-8), (8,-6), |
| (5,-3), (7,1), (6,5), (9,8), (7,9), (4,7), (1,10), |
| (2,14))), |
| "circle" : Shape("polygon", ((10,0), (9.51,3.09), (8.09,5.88), |
| (5.88,8.09), (3.09,9.51), (0,10), (-3.09,9.51), |
| (-5.88,8.09), (-8.09,5.88), (-9.51,3.09), (-10,0), |
| (-9.51,-3.09), (-8.09,-5.88), (-5.88,-8.09), |
| (-3.09,-9.51), (-0.00,-10.00), (3.09,-9.51), |
| (5.88,-8.09), (8.09,-5.88), (9.51,-3.09))), |
| "square" : Shape("polygon", ((10,-10), (10,10), (-10,10), |
| (-10,-10))), |
| "triangle" : Shape("polygon", ((10,-5.77), (0,11.55), |
| (-10,-5.77))), |
| "classic": Shape("polygon", ((0,0),(-5,-9),(0,-7),(5,-9))), |
| "blank" : Shape("image", self._blankimage()) |
| } |
| |
| self._bgpics = {"nopic" : ""} |
| |
| TurtleScreenBase.__init__(self, cv) |
| self._mode = mode |
| self._delayvalue = delay |
| self._colormode = _CFG["colormode"] |
| self._keys = [] |
| self.clear() |
| |
| def clear(self): |
| """Delete all drawings and all turtles from the TurtleScreen. |
| |
| Reset empty TurtleScreen to its initial state: white background, |
| no backgroundimage, no eventbindings and tracing on. |
| |
| No argument. |
| |
| Example (for a TurtleScreen instance named screen): |
| screen.clear() |
| |
| Note: this method is not available as function. |
| """ |
| self._delayvalue = _CFG["delay"] |
| self._colormode = _CFG["colormode"] |
| self._delete("all") |
| self._bgpic = self._createimage("") |
| self._bgpicname = "nopic" |
| self._tracing = 1 |
| self._updatecounter = 0 |
| self._turtles = [] |
| self.bgcolor("white") |
| for btn in 1, 2, 3: |
| self.onclick(None, btn) |
| for key in self._keys[:]: |
| self.onkey(None, key) |
| Turtle._pen = None |
| |
| def mode(self, mode=None): |
| """Set turtle-mode ('standard', 'logo' or 'world') and perform reset. |
| |
| Optional argument: |
| mode -- on of the strings 'standard', 'logo' or 'world' |
| |
| Mode 'standard' is compatible with turtle.py. |
| Mode 'logo' is compatible with most Logo-Turtle-Graphics. |
| Mode 'world' uses userdefined 'worldcoordinates'. *Attention*: in |
| this mode angles appear distorted if x/y unit-ratio doesn't equal 1. |
| If mode is not given, return the current mode. |
| |
| Mode Initial turtle heading positive angles |
| ------------|-------------------------|------------------- |
| 'standard' to the right (east) counterclockwise |
| 'logo' upward (north) clockwise |
| |
| Examples: |
| >>> mode('logo') # resets turtle heading to north |
| >>> mode() |
| 'logo' |
| """ |
| if mode == None: |
| return self._mode |
| mode = mode.lower() |
| if mode not in ["standard", "logo", "world"]: |
| raise TurtleGraphicsError("No turtle-graphics-mode %s" % mode) |
| self._mode = mode |
| if mode in ["standard", "logo"]: |
| self._setscrollregion(-self.canvwidth//2, -self.canvheight//2, |
| self.canvwidth//2, self.canvheight//2) |
| self.xscale = self.yscale = 1.0 |
| self.reset() |
| |
| def setworldcoordinates(self, llx, lly, urx, ury): |
| """Set up a user defined coordinate-system. |
| |
| Arguments: |
| llx -- a number, x-coordinate of lower left corner of canvas |
| lly -- a number, y-coordinate of lower left corner of canvas |
| urx -- a number, x-coordinate of upper right corner of canvas |
| ury -- a number, y-coordinate of upper right corner of canvas |
| |
| Set up user coodinat-system and switch to mode 'world' if necessary. |
| This performs a screen.reset. If mode 'world' is already active, |
| all drawings are redrawn according to the new coordinates. |
| |
| But ATTENTION: in user-defined coordinatesystems angles may appear |
| distorted. (see Screen.mode()) |
| |
| Example (for a TurtleScreen instance named screen): |
| >>> screen.setworldcoordinates(-10,-0.5,50,1.5) |
| >>> for _ in range(36): |
| left(10) |
| forward(0.5) |
| """ |
| if self.mode() != "world": |
| self.mode("world") |
| xspan = float(urx - llx) |
| yspan = float(ury - lly) |
| wx, wy = self._window_size() |
| self.screensize(wx-20, wy-20) |
| oldxscale, oldyscale = self.xscale, self.yscale |
| self.xscale = self.canvwidth / xspan |
| self.yscale = self.canvheight / yspan |
| srx1 = llx * self.xscale |
| sry1 = -ury * self.yscale |
| srx2 = self.canvwidth + srx1 |
| sry2 = self.canvheight + sry1 |
| self._setscrollregion(srx1, sry1, srx2, sry2) |
| self._rescale(self.xscale/oldxscale, self.yscale/oldyscale) |
| self.update() |
| |
| def register_shape(self, name, shape=None): |
| """Adds a turtle shape to TurtleScreen's shapelist. |
| |
| Arguments: |
| (1) name is the name of a gif-file and shape is None. |
| Installs the corresponding image shape. |
| !! Image-shapes DO NOT rotate when turning the turtle, |
| !! so they do not display the heading of the turtle! |
| (2) name is an arbitrary string and shape is a tuple |
| of pairs of coordinates. Installs the corresponding |
| polygon shape |
| (3) name is an arbitrary string and shape is a |
| (compound) Shape object. Installs the corresponding |
| compound shape. |
| To use a shape, you have to issue the command shape(shapename). |
| |
| call: register_shape("turtle.gif") |
| --or: register_shape("tri", ((0,0), (10,10), (-10,10))) |
| |
| Example (for a TurtleScreen instance named screen): |
| >>> screen.register_shape("triangle", ((5,-3),(0,5),(-5,-3))) |
| |
| """ |
| if shape is None: |
| # image |
| if name.lower().endswith(".gif"): |
| shape = Shape("image", self._image(name)) |
| else: |
| raise TurtleGraphicsError("Bad arguments for register_shape.\n" |
| + "Use help(register_shape)" ) |
| elif isinstance(shape, tuple): |
| shape = Shape("polygon", shape) |
| ## else shape assumed to be Shape-instance |
| self._shapes[name] = shape |
| # print "shape added:" , self._shapes |
| |
| def _colorstr(self, color): |
| """Return color string corresponding to args. |
| |
| Argument may be a string or a tuple of three |
| numbers corresponding to actual colormode, |
| i.e. in the range 0<=n<=colormode. |
| |
| If the argument doesn't represent a color, |
| an error is raised. |
| """ |
| if len(color) == 1: |
| color = color[0] |
| if isinstance(color, str): |
| if self._iscolorstring(color) or color == "": |
| return color |
| else: |
| raise TurtleGraphicsError("bad color string: %s" % str(color)) |
| try: |
| r, g, b = color |
| except: |
| raise TurtleGraphicsError("bad color arguments: %s" % str(color)) |
| if self._colormode == 1.0: |
| r, g, b = [round(255.0*x) for x in (r, g, b)] |
| if not ((0 <= r <= 255) and (0 <= g <= 255) and (0 <= b <= 255)): |
| raise TurtleGraphicsError("bad color sequence: %s" % str(color)) |
| return "#%02x%02x%02x" % (r, g, b) |
| |
| def _color(self, cstr): |
| if not cstr.startswith("#"): |
| return cstr |
| if len(cstr) == 7: |
| cl = [int(cstr[i:i+2], 16) for i in (1, 3, 5)] |
| elif len(cstr) == 4: |
| cl = [16*int(cstr[h], 16) for h in cstr[1:]] |
| else: |
| raise TurtleGraphicsError("bad colorstring: %s" % cstr) |
| return tuple([c * self._colormode/255 for c in cl]) |
| |
| def colormode(self, cmode=None): |
| """Return the colormode or set it to 1.0 or 255. |
| |
| Optional argument: |
| cmode -- one of the values 1.0 or 255 |
| |
| r, g, b values of colortriples have to be in range 0..cmode. |
| |
| Example (for a TurtleScreen instance named screen): |
| >>> screen.colormode() |
| 1.0 |
| >>> screen.colormode(255) |
| >>> turtle.pencolor(240,160,80) |
| """ |
| if cmode is None: |
| return self._colormode |
| if cmode == 1.0: |
| self._colormode = float(cmode) |
| elif cmode == 255: |
| self._colormode = int(cmode) |
| |
| def reset(self): |
| """Reset all Turtles on the Screen to their initial state. |
| |
| No argument. |
| |
| Example (for a TurtleScreen instance named screen): |
| >>> screen.reset() |
| """ |
| for turtle in self._turtles: |
| turtle._setmode(self._mode) |
| turtle.reset() |
| |
| def turtles(self): |
| """Return the list of turtles on the screen. |
| |
| Example (for a TurtleScreen instance named screen): |
| >>> screen.turtles() |
| [<turtle.Turtle object at 0x00E11FB0>] |
| """ |
| return self._turtles |
| |
| def bgcolor(self, *args): |
| """Set or return backgroundcolor of the TurtleScreen. |
| |
| Arguments (if given): a color string or three numbers |
| in the range 0..colormode or a 3-tuple of such numbers. |
| |
| Example (for a TurtleScreen instance named screen): |
| >>> screen.bgcolor("orange") |
| >>> screen.bgcolor() |
| 'orange' |
| >>> screen.bgcolor(0.5,0,0.5) |
| >>> screen.bgcolor() |
| '#800080' |
| """ |
| if args: |
| color = self._colorstr(args) |
| else: |
| color = None |
| color = self._bgcolor(color) |
| if color is not None: |
| color = self._color(color) |
| return color |
| |
| def tracer(self, n=None, delay=None): |
| """Turns turtle animation on/off and set delay for update drawings. |
| |
| Optional arguments: |
| n -- nonnegative integer |
| delay -- nonnegative integer |
| |
| If n is given, only each n-th regular screen update is really performed. |
| (Can be used to accelerate the drawing of complex graphics.) |
| Second arguments sets delay value (see RawTurtle.delay()) |
| |
| Example (for a TurtleScreen instance named screen): |
| >>> screen.tracer(8, 25) |
| >>> dist = 2 |
| >>> for i in range(200): |
| fd(dist) |
| rt(90) |
| dist += 2 |
| """ |
| if n is None: |
| return self._tracing |
| self._tracing = int(n) |
| self._updatecounter = 0 |
| if delay is not None: |
| self._delayvalue = int(delay) |
| if self._tracing: |
| self.update() |
| |
| def delay(self, delay=None): |
| """ Return or set the drawing delay in milliseconds. |
| |
| Optional argument: |
| delay -- positive integer |
| |
| Example (for a TurtleScreen instance named screen): |
| >>> screen.delay(15) |
| >>> screen.delay() |
| 15 |
| """ |
| if delay is None: |
| return self._delayvalue |
| self._delayvalue = int(delay) |
| |
| def _incrementudc(self): |
| "Increment upadate counter.""" |
| if not TurtleScreen._RUNNING: |
| TurtleScreen._RUNNNING = True |
| raise Terminator |
| if self._tracing > 0: |
| self._updatecounter += 1 |
| self._updatecounter %= self._tracing |
| |
| def update(self): |
| """Perform a TurtleScreen update. |
| """ |
| for t in self.turtles(): |
| t._update_data() |
| t._drawturtle() |
| self._update() |
| |
| def window_width(self): |
| """ Return the width of the turtle window. |
| |
| Example (for a TurtleScreen instance named screen): |
| >>> screen.window_width() |
| 640 |
| """ |
| return self._window_size()[0] |
| |
| def window_height(self): |
| """ Return the height of the turtle window. |
| |
| Example (for a TurtleScreen instance named screen): |
| >>> screen.window_height() |
| 480 |
| """ |
| return self._window_size()[1] |
| |
| def getcanvas(self): |
| """Return the Canvas of this TurtleScreen. |
| |
| No argument. |
| |
| Example (for a Screen instance named screen): |
| >>> cv = screen.getcanvas() |
| >>> cv |
| <turtle.ScrolledCanvas instance at 0x010742D8> |
| """ |
| return self.cv |
| |
| def getshapes(self): |
| """Return a list of names of all currently available turtle shapes. |
| |
| No argument. |
| |
| Example (for a TurtleScreen instance named screen): |
| >>> screen.getshapes() |
| ['arrow', 'blank', 'circle', ... , 'turtle'] |
| """ |
| return sorted(self._shapes.keys()) |
| |
| def onclick(self, fun, btn=1, add=None): |
| """Bind fun to mouse-click event on canvas. |
| |
| Arguments: |
| fun -- a function with two arguments, the coordinates of the |
| clicked point on the canvas. |
| num -- the number of the mouse-button, defaults to 1 |
| |
| Example (for a TurtleScreen instance named screen |
| and a Turtle instance named turtle): |
| |
| >>> screen.onclick(turtle.goto) |
| |
| ### Subsequently clicking into the TurtleScreen will |
| ### make the turtle move to the clicked point. |
| >>> screen.onclick(None) |
| |
| ### event-binding will be removed |
| """ |
| self._onscreenclick(fun, btn, add) |
| |
| def onkey(self, fun, key): |
| """Bind fun to key-release event of key. |
| |
| Arguments: |
| fun -- a function with no arguments |
| key -- a string: key (e.g. "a") or key-symbol (e.g. "space") |
| |
| In order to be able to register key-events, TurtleScreen |
| must have focus. (See method listen.) |
| |
| Example (for a TurtleScreen instance named screen |
| and a Turtle instance named turtle): |
| |
| >>> def f(): |
| fd(50) |
| lt(60) |
| |
| |
| >>> screen.onkey(f, "Up") |
| >>> screen.listen() |
| |
| ### Subsequently the turtle can be moved by |
| ### repeatedly pressing the up-arrow key, |
| ### consequently drawing a hexagon |
| """ |
| if fun == None: |
| self._keys.remove(key) |
| elif key not in self._keys: |
| self._keys.append(key) |
| self._onkey(fun, key) |
| |
| def listen(self, xdummy=None, ydummy=None): |
| """Set focus on TurtleScreen (in order to collect key-events) |
| |
| No arguments. |
| Dummy arguments are provided in order |
| to be able to pass listen to the onclick method. |
| |
| Example (for a TurtleScreen instance named screen): |
| >>> screen.listen() |
| """ |
| self._listen() |
| |
| def ontimer(self, fun, t=0): |
| """Install a timer, which calls fun after t milliseconds. |
| |
| Arguments: |
| fun -- a function with no arguments. |
| t -- a number >= 0 |
| |
| Example (for a TurtleScreen instance named screen): |
| |
| >>> running = True |
| >>> def f(): |
| if running: |
| fd(50) |
| lt(60) |
| screen.ontimer(f, 250) |
| |
| >>> f() ### makes the turtle marching around |
| >>> running = False |
| """ |
| self._ontimer(fun, t) |
| |
| def bgpic(self, picname=None): |
| """Set background image or return name of current backgroundimage. |
| |
| Optional argument: |
| picname -- a string, name of a gif-file or "nopic". |
| |
| If picname is a filename, set the corresponing image as background. |
| If picname is "nopic", delete backgroundimage, if present. |
| If picname is None, return the filename of the current backgroundimage. |
| |
| Example (for a TurtleScreen instance named screen): |
| >>> screen.bgpic() |
| 'nopic' |
| >>> screen.bgpic("landscape.gif") |
| >>> screen.bgpic() |
| 'landscape.gif' |
| """ |
| if picname is None: |
| return self._bgpicname |
| if picname not in self._bgpics: |
| self._bgpics[picname] = self._image(picname) |
| self._setbgpic(self._bgpic, self._bgpics[picname]) |
| self._bgpicname = picname |
| |
| def screensize(self, canvwidth=None, canvheight=None, bg=None): |
| """Resize the canvas the turtles are drawing on. |
| |
| Optional arguments: |
| canvwidth -- positive integer, new width of canvas in pixels |
| canvheight -- positive integer, new height of canvas in pixels |
| bg -- colorstring or color-tupel, new backgroundcolor |
| If no arguments are given, return current (canvaswidth, canvasheight) |
| |
| Do not alter the drawing window. To observe hidden parts of |
| the canvas use the scrollbars. (Can make visible those parts |
| of a drawing, which were outside the canvas before!) |
| |
| Example (for a Turtle instance named turtle): |
| >>> turtle.screensize(2000,1500) |
| ### e. g. to search for an erroneously escaped turtle ;-) |
| """ |
| return self._resize(canvwidth, canvheight, bg) |
| |
| onscreenclick = onclick |
| resetscreen = reset |
| clearscreen = clear |
| addshape = register_shape |
| |
| class TNavigator(object): |
| """Navigation part of the RawTurtle. |
| Implements methods for turtle movement. |
| """ |
| START_ORIENTATION = { |
| "standard": Vec2D(1.0, 0.0), |
| "world" : Vec2D(1.0, 0.0), |
| "logo" : Vec2D(0.0, 1.0) } |
| DEFAULT_MODE = "standard" |
| DEFAULT_ANGLEOFFSET = 0 |
| DEFAULT_ANGLEORIENT = 1 |
| |
| def __init__(self, mode=DEFAULT_MODE): |
| self._angleOffset = self.DEFAULT_ANGLEOFFSET |
| self._angleOrient = self.DEFAULT_ANGLEORIENT |
| self._mode = mode |
| self.undobuffer = None |
| self.degrees() |
| self._mode = None |
| self._setmode(mode) |
| TNavigator.reset(self) |
| |
| def reset(self): |
| """reset turtle to its initial values |
| |
| Will be overwritten by parent class |
| """ |
| self._position = Vec2D(0.0, 0.0) |
| self._orient = TNavigator.START_ORIENTATION[self._mode] |
| |
| def _setmode(self, mode=None): |
| """Set turtle-mode to 'standard', 'world' or 'logo'. |
| """ |
| if mode == None: |
| return self._mode |
| if mode not in ["standard", "logo", "world"]: |
| return |
| self._mode = mode |
| if mode in ["standard", "world"]: |
| self._angleOffset = 0 |
| self._angleOrient = 1 |
| else: # mode == "logo": |
| self._angleOffset = self._fullcircle/4. |
| self._angleOrient = -1 |
| |
| def _setDegreesPerAU(self, fullcircle): |
| """Helper function for degrees() and radians()""" |
| self._fullcircle = fullcircle |
| self._degreesPerAU = 360/fullcircle |
| if self._mode == "standard": |
| self._angleOffset = 0 |
| else: |
| self._angleOffset = fullcircle/4. |
| |
| def degrees(self, fullcircle=360.0): |
| """ Set angle measurement units to degrees. |
| |
| Optional argument: |
| fullcircle - a number |
| |
| Set angle measurement units, i. e. set number |
| of 'degrees' for a full circle. Dafault value is |
| 360 degrees. |
| |
| Example (for a Turtle instance named turtle): |
| >>> turtle.left(90) |
| >>> turtle.heading() |
| 90 |
| >>> turtle.degrees(400.0) # angle measurement in gon |
| >>> turtle.heading() |
| 100 |
| |
| """ |
| self._setDegreesPerAU(fullcircle) |
| |
| def radians(self): |
| """ Set the angle measurement units to radians. |
| |
| No arguments. |
| |
| Example (for a Turtle instance named turtle): |
| >>> turtle.heading() |
| 90 |
| >>> turtle.radians() |
| >>> turtle.heading() |
| 1.5707963267948966 |
| """ |
| self._setDegreesPerAU(2*math.pi) |
| |
| def _go(self, distance): |
| """move turtle forward by specified distance""" |
| ende = self._position + self._orient * distance |
| self._goto(ende) |
| |
| def _rotate(self, angle): |
| """Turn turtle counterclockwise by specified angle if angle > 0.""" |
| angle *= self._degreesPerAU |
| self._orient = self._orient.rotate(angle) |
| |
| def _goto(self, end): |
| """move turtle to position end.""" |
| self._position = end |
| |
| def forward(self, distance): |
| """Move the turtle forward by the specified distance. |
| |
| Aliases: forward | fd |
| |
| Argument: |
| distance -- a number (integer or float) |
| |
| Move the turtle forward by the specified distance, in the direction |
| the turtle is headed. |
| |
| Example (for a Turtle instance named turtle): |
| >>> turtle.position() |
| (0.00, 0.00) |
| >>> turtle.forward(25) |
| >>> turtle.position() |
| (25.00,0.00) |
| >>> turtle.forward(-75) |
| >>> turtle.position() |
| (-50.00,0.00) |
| """ |
| self._go(distance) |
| |
| def back(self, distance): |
| """Move the turtle backward by distance. |
| |
| Aliases: back | backward | bk |
| |
| Argument: |
| distance -- a number |
| |
| Move the turtle backward by distance ,opposite to the direction the |
| turtle is headed. Do not change the turtle's heading. |
| |
| Example (for a Turtle instance named turtle): |
| >>> turtle.position() |
| (0.00, 0.00) |
| >>> turtle.backward(30) |
| >>> turtle.position() |
| (-30.00, 0.00) |
| """ |
| self._go(-distance) |
| |
| def right(self, angle): |
| """Turn turtle right by angle units. |
| |
| Aliases: right | rt |
| |
| Argument: |
| angle -- a number (integer or float) |
| |
| Turn turtle right by angle units. (Units are by default degrees, |
| but can be set via the degrees() and radians() functions.) |
| Angle orientation depends on mode. (See this.) |
| |
| Example (for a Turtle instance named turtle): |
| >>> turtle.heading() |
| 22.0 |
| >>> turtle.right(45) |
| >>> turtle.heading() |
| 337.0 |
| """ |
| self._rotate(-angle) |
| |
| def left(self, angle): |
| """Turn turtle left by angle units. |
| |
| Aliases: left | lt |
| |
| Argument: |
| angle -- a number (integer or float) |
| |
| Turn turtle left by angle units. (Units are by default degrees, |
| but can be set via the degrees() and radians() functions.) |
| Angle orientation depends on mode. (See this.) |
| |
| Example (for a Turtle instance named turtle): |
| >>> turtle.heading() |
| 22.0 |
| >>> turtle.left(45) |
| >>> turtle.heading() |
| 67.0 |
| """ |
| self._rotate(angle) |
| |
| def pos(self): |
| """Return the turtle's current location (x,y), as a Vec2D-vector. |
| |
| Aliases: pos | position |
| |
| No arguments. |
| |
| Example (for a Turtle instance named turtle): |
| >>> turtle.pos() |
| (0.00, 240.00) |
| """ |
| return self._position |
| |
| def xcor(self): |
| """ Return the turtle's x coordinate. |
| |
| No arguments. |
| |
| Example (for a Turtle instance named turtle): |
| >>> reset() |
| >>> turtle.left(60) |
| >>> turtle.forward(100) |
| >>> print turtle.xcor() |
| 50.0 |
| """ |
| return self._position[0] |
| |
| def ycor(self): |
| """ Return the turtle's y coordinate |
| --- |
| No arguments. |
| |
| Example (for a Turtle instance named turtle): |
| >>> reset() |
| >>> turtle.left(60) |
| >>> turtle.forward(100) |
| >>> print turtle.ycor() |
| 86.6025403784 |
| """ |
| return self._position[1] |
| |
| |
| def goto(self, x, y=None): |
| """Move turtle to an absolute position. |
| |
| Aliases: setpos | setposition | goto: |
| |
| Arguments: |
| x -- a number or a pair/vector of numbers |
| y -- a number None |
| |
| call: goto(x, y) # two coordinates |
| --or: goto((x, y)) # a pair (tuple) of coordinates |
| --or: goto(vec) # e.g. as returned by pos() |
| |
| Move turtle to an absolute position. If the pen is down, |
| a line will be drawn. The turtle's orientation does not change. |
| |
| Example (for a Turtle instance named turtle): |
| >>> tp = turtle.pos() |
| >>> tp |
| (0.00, 0.00) |
| >>> turtle.setpos(60,30) |
| >>> turtle.pos() |
| (60.00,30.00) |
| >>> turtle.setpos((20,80)) |
| >>> turtle.pos() |
| (20.00,80.00) |
| >>> turtle.setpos(tp) |
| >>> turtle.pos() |
| (0.00,0.00) |
| """ |
| if y is None: |
| self._goto(Vec2D(*x)) |
| else: |
| self._goto(Vec2D(x, y)) |
| |
| def home(self): |
| """Move turtle to the origin - coordinates (0,0). |
| |
| No arguments. |
| |
| Move turtle to the origin - coordinates (0,0) and set its |
| heading to its start-orientation (which depends on mode). |
| |
| Example (for a Turtle instance named turtle): |
| >>> turtle.home() |
| """ |
| self.goto(0, 0) |
| self.setheading(0) |
| |
| def setx(self, x): |
| """Set the turtle's first coordinate to x |
| |
| Argument: |
| x -- a number (integer or float) |
| |
| Set the turtle's first coordinate to x, leave second coordinate |
| unchanged. |
| |
| Example (for a Turtle instance named turtle): |
| >>> turtle.position() |
| (0.00, 240.00) |
| >>> turtle.setx(10) |
| >>> turtle.position() |
| (10.00, 240.00) |
| """ |
| self._goto(Vec2D(x, self._position[1])) |
| |
| def sety(self, y): |
| """Set the turtle's second coordinate to y |
| |
| Argument: |
| y -- a number (integer or float) |
| |
| Set the turtle's first coordinate to x, second coordinate remains |
| unchanged. |
| |
| Example (for a Turtle instance named turtle): |
| >>> turtle.position() |
| (0.00, 40.00) |
| >>> turtle.sety(-10) |
| >>> turtle.position() |
| (0.00, -10.00) |
| """ |
| self._goto(Vec2D(self._position[0], y)) |
| |
| def distance(self, x, y=None): |
| """Return the distance from the turtle to (x,y) in turtle step units. |
| |
| Arguments: |
| x -- a number or a pair/vector of numbers or a turtle instance |
| y -- a number None None |
| |
| call: distance(x, y) # two coordinates |
| --or: distance((x, y)) # a pair (tuple) of coordinates |
| --or: distance(vec) # e.g. as returned by pos() |
| --or: distance(mypen) # where mypen is another turtle |
| |
| Example (for a Turtle instance named turtle): |
| >>> turtle.pos() |
| (0.00, 0.00) |
| >>> turtle.distance(30,40) |
| 50.0 |
| >>> pen = Turtle() |
| >>> pen.forward(77) |
| >>> turtle.distance(pen) |
| 77.0 |
| """ |
| if y is not None: |
| pos = Vec2D(x, y) |
| if isinstance(x, Vec2D): |
| pos = x |
| elif isinstance(x, tuple): |
| pos = Vec2D(*x) |
| elif isinstance(x, TNavigator): |
| pos = x._position |
| return abs(pos - self._position) |
| |
| def towards(self, x, y=None): |
| """Return the angle of the line from the turtle's position to (x, y). |
| |
| Arguments: |
| x -- a number or a pair/vector of numbers or a turtle instance |
| y -- a number None None |
| |
| call: distance(x, y) # two coordinates |
| --or: distance((x, y)) # a pair (tuple) of coordinates |
| --or: distance(vec) # e.g. as returned by pos() |
| --or: distance(mypen) # where mypen is another turtle |
| |
| Return the angle, between the line from turtle-position to position |
| specified by x, y and the turtle's start orientation. (Depends on |
| modes - "standard" or "logo") |
| |
| Example (for a Turtle instance named turtle): |
| >>> turtle.pos() |
| (10.00, 10.00) |
| >>> turtle.towards(0,0) |
| 225.0 |
| """ |
| if y is not None: |
| pos = Vec2D(x, y) |
| if isinstance(x, Vec2D): |
| pos = x |
| elif isinstance(x, tuple): |
| pos = Vec2D(*x) |
| elif isinstance(x, TNavigator): |
| pos = x._position |
| x, y = pos - self._position |
| result = round(math.atan2(y, x)*180.0/math.pi, 10) % 360.0 |
| result /= self._degreesPerAU |
| return (self._angleOffset + self._angleOrient*result) % self._fullcircle |
| |
| def heading(self): |
| """ Return the turtle's current heading. |
| |
| No arguments. |
| |
| Example (for a Turtle instance named turtle): |
| >>> turtle.left(67) |
| >>> turtle.heading() |
| 67.0 |
| """ |
| x, y = self._orient |
| result = round(math.atan2(y, x)*180.0/math.pi, 10) % 360.0 |
| result /= self._degreesPerAU |
| return (self._angleOffset + self._angleOrient*result) % self._fullcircle |
| |
| def setheading(self, to_angle): |
| """Set the orientation of the turtle to to_angle. |
| |
| Aliases: setheading | seth |
| |
| Argument: |
| to_angle -- a number (integer or float) |
| |
| Set the orientation of the turtle to to_angle. |
| Here are some common directions in degrees: |
| |
| standard - mode: logo-mode: |
| -------------------|-------------------- |
| 0 - east 0 - north |
| 90 - north 90 - east |
| 180 - west 180 - south |
| 270 - south 270 - west |
| |
| Example (for a Turtle instance named turtle): |
| >>> turtle.setheading(90) |
| >>> turtle.heading() |
| 90 |
| """ |
| angle = (to_angle - self.heading())*self._angleOrient |
| full = self._fullcircle |
| angle = (angle+full/2.)%full - full/2. |
| self._rotate(angle) |
| |
| def circle(self, radius, extent = None, steps = None): |
| """ Draw a circle with given radius. |
| |
| Arguments: |
| radius -- a number |
| extent (optional) -- a number |
| steps (optional) -- an integer |
| |
| Draw a circle with given radius. The center is radius units left |
| of the turtle; extent - an angle - determines which part of the |
| circle is drawn. If extent is not given, draw the entire circle. |
| If extent is not a full circle, one endpoint of the arc is the |
| current pen position. Draw the arc in counterclockwise direction |
| if radius is positive, otherwise in clockwise direction. Finally |
| the direction of the turtle is changed by the amount of extent. |
| |
| As the circle is approximated by an inscribed regular polygon, |
| steps determines the number of steps to use. If not given, |
| it will be calculated automatically. Maybe used to draw regular |
| polygons. |
| |
| call: circle(radius) # full circle |
| --or: circle(radius, extent) # arc |
| --or: circle(radius, extent, steps) |
| --or: circle(radius, steps=6) # 6-sided polygon |
| |
| Example (for a Turtle instance named turtle): |
| >>> turtle.circle(50) |
| >>> turtle.circle(120, 180) # semicircle |
| """ |
| if self.undobuffer: |
| self.undobuffer.push(["seq"]) |
| self.undobuffer.cumulate = True |
| speed = self.speed() |
| if extent is None: |
| extent = self._fullcircle |
| if steps is None: |
| frac = abs(extent)/self._fullcircle |
| steps = 1+int(min(11+abs(radius)/6.0, 59.0)*frac) |
| w = 1.0 * extent / steps |
| w2 = 0.5 * w |
| l = 2.0 * radius * math.sin(w2*math.pi/180.0*self._degreesPerAU) |
| if radius < 0: |
| l, w, w2 = -l, -w, -w2 |
| tr = self.tracer() |
| dl = self._delay() |
| if speed == 0: |
| self.tracer(0, 0) |
| else: |
| self.speed(0) |
| self._rotate(w2) |
| for i in range(steps): |
| self.speed(speed) |
| self._go(l) |
| self.speed(0) |
| self._rotate(w) |
| self._rotate(-w2) |
| if speed == 0: |
| self.tracer(tr, dl) |
| self.speed(speed) |
| if self.undobuffer: |
| self.undobuffer.cumulate = False |
| |
| ## three dummy methods to be implemented by child class: |
| |
| def speed(self, s=0): |
| """dummy method - to be overwritten by child class""" |
| def tracer(self, a=None, b=None): |
| """dummy method - to be overwritten by child class""" |
| def _delay(self, n=None): |
| """dummy method - to be overwritten by child class""" |
| |
| fd = forward |
| bk = back |
| backward = back |
| rt = right |
| lt = left |
| position = pos |
| setpos = goto |
| setposition = goto |
| seth = setheading |
| |
| |
| class TPen(object): |
| """Drawing part of the RawTurtle. |
| Implements drawing properties. |
| """ |
| def __init__(self, resizemode=_CFG["resizemode"]): |
| self._resizemode = resizemode # or "user" or "noresize" |
| self.undobuffer = None |
| TPen._reset(self) |
| |
| def _reset(self, pencolor=_CFG["pencolor"], |
| fillcolor=_CFG["fillcolor"]): |
| self._pensize = 1 |
| self._shown = True |
| self._pencolor = pencolor |
| self._fillcolor = fillcolor |
| self._drawing = True |
| self._speed = 3 |
| self._stretchfactor = (1, 1) |
| self._tilt = 0 |
| self._outlinewidth = 1 |
| ### self.screen = None # to override by child class |
| |
| def resizemode(self, rmode=None): |
| """Set resizemode to one of the values: "auto", "user", "noresize". |
| |
| (Optional) Argument: |
| rmode -- one of the strings "auto", "user", "noresize" |
| |
| Different resizemodes have the following effects: |
| - "auto" adapts the appearance of the turtle |
| corresponding to the value of pensize. |
| - "user" adapts the appearance of the turtle according to the |
| values of stretchfactor and outlinewidth (outline), |
| which are set by shapesize() |
| - "noresize" no adaption of the turtle's appearance takes place. |
| If no argument is given, return current resizemode. |
| resizemode("user") is called by a call of shapesize with arguments. |
| |
| |
| Examples (for a Turtle instance named turtle): |
| >>> turtle.resizemode("noresize") |
| >>> turtle.resizemode() |
| 'noresize' |
| """ |
| if rmode is None: |
| return self._resizemode |
| rmode = rmode.lower() |
| if rmode in ["auto", "user", "noresize"]: |
| self.pen(resizemode=rmode) |
| |
| def pensize(self, width=None): |
| """Set or return the line thickness. |
| |
| Aliases: pensize | width |
| |
| Argument: |
| width -- positive number |
| |
| Set the line thickness to width or return it. If resizemode is set |
| to "auto" and turtleshape is a polygon, that polygon is drawn with |
| the same line thickness. If no argument is given, current pensize |
| is returned. |
| |
| Example (for a Turtle instance named turtle): |
| >>> turtle.pensize() |
| 1 |
| turtle.pensize(10) # from here on lines of width 10 are drawn |
| """ |
| if width is None: |
| return self._pensize |
| self.pen(pensize=width) |
| |
| |
| def penup(self): |
| """Pull the pen up -- no drawing when moving. |
| |
| Aliases: penup | pu | up |
| |
| No argument |
| |
| Example (for a Turtle instance named turtle): |
| >>> turtle.penup() |
| """ |
| if not self._drawing: |
| return |
| self.pen(pendown=False) |
| |
| def pendown(self): |
| """Pull the pen down -- drawing when moving. |
| |
| Aliases: pendown | pd | down |
| |
| No argument. |
| |
| Example (for a Turtle instance named turtle): |
| >>> turtle.pendown() |
| """ |
| if self._drawing: |
| return |
| self.pen(pendown=True) |
| |
| def isdown(self): |
| """Return True if pen is down, False if it's up. |
| |
| No argument. |
| |
| Example (for a Turtle instance named turtle): |
| >>> turtle.penup() |
| >>> turtle.isdown() |
| False |
| >>> turtle.pendown() |
| >>> turtle.isdown() |
| True |
| """ |
| return self._drawing |
| |
| def speed(self, speed=None): |
| """ Return or set the turtle's speed. |
| |
| Optional argument: |
| speed -- an integer in the range 0..10 or a speedstring (see below) |
| |
| Set the turtle's speed to an integer value in the range 0 .. 10. |
| If no argument is given: return current speed. |
| |
| If input is a number greater than 10 or smaller than 0.5, |
| speed is set to 0. |
| Speedstrings are mapped to speedvalues in the following way: |
| 'fastest' : 0 |
| 'fast' : 10 |
| 'normal' : 6 |
| 'slow' : 3 |
| 'slowest' : 1 |
| speeds from 1 to 10 enforce increasingly faster animation of |
| line drawing and turtle turning. |
| |
| Attention: |
| speed = 0 : *no* animation takes place. forward/back makes turtle jump |
| and likewise left/right make the turtle turn instantly. |
| |
| Example (for a Turtle instance named turtle): |
| >>> turtle.speed(3) |
| """ |
| speeds = {'fastest':0, 'fast':10, 'normal':6, 'slow':3, 'slowest':1 } |
| if speed is None: |
| return self._speed |
| if speed in speeds: |
| speed = speeds[speed] |
| elif 0.5 < speed < 10.5: |
| speed = int(round(speed)) |
| else: |
| speed = 0 |
| self.pen(speed=speed) |
| |
| def color(self, *args): |
| """Return or set the pencolor and fillcolor. |
| |
| Arguments: |
| Several input formats are allowed. |
| They use 0, 1, 2, or 3 arguments as follows: |
| |
| color() |
| Return the current pencolor and the current fillcolor |
| as a pair of color specification strings as are returned |
| by pencolor and fillcolor. |
| color(colorstring), color((r,g,b)), color(r,g,b) |
| inputs as in pencolor, set both, fillcolor and pencolor, |
| to the given value. |
| color(colorstring1, colorstring2), |
| color((r1,g1,b1), (r2,g2,b2)) |
| equivalent to pencolor(colorstring1) and fillcolor(colorstring2) |
| and analogously, if the other input format is used. |
| |
| If turtleshape is a polygon, outline and interior of that polygon |
| is drawn with the newly set colors. |
| For mor info see: pencolor, fillcolor |
| |
| Example (for a Turtle instance named turtle): |
| >>> turtle.color('red', 'green') |
| >>> turtle.color() |
| ('red', 'green') |
| >>> colormode(255) |
| >>> color((40, 80, 120), (160, 200, 240)) |
| >>> color() |
| ('#285078', '#a0c8f0') |
| """ |
| if args: |
| l = len(args) |
| if l == 1: |
| pcolor = fcolor = args[0] |
| elif l == 2: |
| pcolor, fcolor = args |
| elif l == 3: |
| pcolor = fcolor = args |
| pcolor = self._colorstr(pcolor) |
| fcolor = self._colorstr(fcolor) |
| self.pen(pencolor=pcolor, fillcolor=fcolor) |
| else: |
| return self._color(self._pencolor), self._color(self._fillcolor) |
| |
| def pencolor(self, *args): |
| """ Return or set the pencolor. |
| |
| Arguments: |
| Four input formats are allowed: |
| - pencolor() |
| Return the current pencolor as color specification string, |
| possibly in hex-number format (see example). |
| May be used as input to another color/pencolor/fillcolor call. |
| - pencolor(colorstring) |
| s is a Tk color specification string, such as "red" or "yellow" |
| - pencolor((r, g, b)) |
| *a tuple* of r, g, and b, which represent, an RGB color, |
| and each of r, g, and b are in the range 0..colormode, |
| where colormode is either 1.0 or 255 |
| - pencolor(r, g, b) |
| r, g, and b represent an RGB color, and each of r, g, and b |
| are in the range 0..colormode |
| |
| If turtleshape is a polygon, the outline of that polygon is drawn |
| with the newly set pencolor. |
| |
| Example (for a Turtle instance named turtle): |
| >>> turtle.pencolor('brown') |
| >>> tup = (0.2, 0.8, 0.55) |
| >>> turtle.pencolor(tup) |
| >>> turtle.pencolor() |
| '#33cc8c' |
| """ |
| if args: |
| color = self._colorstr(args) |
| if color == self._pencolor: |
| return |
| self.pen(pencolor=color) |
| else: |
| return self._color(self._pencolor) |
| |
| def fillcolor(self, *args): |
| """ Return or set the fillcolor. |
| |
| Arguments: |
| Four input formats are allowed: |
| - fillcolor() |
| Return the current fillcolor as color specification string, |
| possibly in hex-number format (see example). |
| May be used as input to another color/pencolor/fillcolor call. |
| - fillcolor(colorstring) |
| s is a Tk color specification string, such as "red" or "yellow" |
| - fillcolor((r, g, b)) |
| *a tuple* of r, g, and b, which represent, an RGB color, |
| and each of r, g, and b are in the range 0..colormode, |
| where colormode is either 1.0 or 255 |
| - fillcolor(r, g, b) |
| r, g, and b represent an RGB color, and each of r, g, and b |
| are in the range 0..colormode |
| |
| If turtleshape is a polygon, the interior of that polygon is drawn |
| with the newly set fillcolor. |
| |
| Example (for a Turtle instance named turtle): |
| >>> turtle.fillcolor('violet') |
| >>> col = turtle.pencolor() |
| >>> turtle.fillcolor(col) |
| >>> turtle.fillcolor(0, .5, 0) |
| """ |
| if args: |
| color = self._colorstr(args) |
| if color == self._fillcolor: |
| return |
| self.pen(fillcolor=color) |
| else: |
| return self._color(self._fillcolor) |
| |
| def showturtle(self): |
| """Makes the turtle visible. |
| |
| Aliases: showturtle | st |
| |
| No argument. |
| |
| Example (for a Turtle instance named turtle): |
| >>> turtle.hideturtle() |
| >>> turtle.showturtle() |
| """ |
| self.pen(shown=True) |
| |
| def hideturtle(self): |
| """Makes the turtle invisible. |
| |
| Aliases: hideturtle | ht |
| |
| No argument. |
| |
| It's a good idea to do this while you're in the |
| middle of a complicated drawing, because hiding |
| the turtle speeds up the drawing observably. |
| |
| Example (for a Turtle instance named turtle): |
| >>> turtle.hideturtle() |
| """ |
| self.pen(shown=False) |
| |
| def isvisible(self): |
| """Return True if the Turtle is shown, False if it's hidden. |
| |
| No argument. |
| |
| Example (for a Turtle instance named turtle): |
| >>> turtle.hideturtle() |
| >>> print turtle.isvisible(): |
| False |
| """ |
| return self._shown |
| |
| def pen(self, pen=None, **pendict): |
| """Return or set the pen's attributes. |
| |
| Arguments: |
| pen -- a dictionary with some or all of the below listed keys. |
| **pendict -- one or more keyword-arguments with the below |
| listed keys as keywords. |
| |
| Return or set the pen's attributes in a 'pen-dictionary' |
| with the following key/value pairs: |
| "shown" : True/False |
| "pendown" : True/False |
| "pencolor" : color-string or color-tuple |
| "fillcolor" : color-string or color-tuple |
| "pensize" : positive number |
| "speed" : number in range 0..10 |
| "resizemode" : "auto" or "user" or "noresize" |
| "stretchfactor": (positive number, positive number) |
| "outline" : positive number |
| "tilt" : number |
| |
| This dictionary can be used as argument for a subsequent |
| pen()-call to restore the former pen-state. Moreover one |
| or more of these attributes can be provided as keyword-arguments. |
| This can be used to set several pen attributes in one statement. |
| |
| |
| Examples (for a Turtle instance named turtle): |
| >>> turtle.pen(fillcolor="black", pencolor="red", pensize=10) |
| >>> turtle.pen() |
| {'pensize': 10, 'shown': True, 'resizemode': 'auto', 'outline': 1, |
| 'pencolor': 'red', 'pendown': True, 'fillcolor': 'black', |
| 'stretchfactor': (1,1), 'speed': 3} |
| >>> penstate=turtle.pen() |
| >>> turtle.color("yellow","") |
| >>> turtle.penup() |
| >>> turtle.pen() |
| {'pensize': 10, 'shown': True, 'resizemode': 'auto', 'outline': 1, |
| 'pencolor': 'yellow', 'pendown': False, 'fillcolor': '', |
| 'stretchfactor': (1,1), 'speed': 3} |
| >>> p.pen(penstate, fillcolor="green") |
| >>> p.pen() |
| {'pensize': 10, 'shown': True, 'resizemode': 'auto', 'outline': 1, |
| 'pencolor': 'red', 'pendown': True, 'fillcolor': 'green', |
| 'stretchfactor': (1,1), 'speed': 3} |
| """ |
| _pd = {"shown" : self._shown, |
| "pendown" : self._drawing, |
| "pencolor" : self._pencolor, |
| "fillcolor" : self._fillcolor, |
| "pensize" : self._pensize, |
| "speed" : self._speed, |
| "resizemode" : self._resizemode, |
| "stretchfactor" : self._stretchfactor, |
| "outline" : self._outlinewidth, |
| "tilt" : self._tilt |
| } |
| |
| if not (pen or pendict): |
| return _pd |
| |
| if isinstance(pen, dict): |
| p = pen |
| else: |
| p = {} |
| p.update(pendict) |
| |
| _p_buf = {} |
| for key in p: |
| _p_buf[key] = _pd[key] |
| |
| if self.undobuffer: |
| self.undobuffer.push(("pen", _p_buf)) |
| |
| newLine = False |
| if "pendown" in p: |
| if self._drawing != p["pendown"]: |
| newLine = True |
| if "pencolor" in p: |
| if isinstance(p["pencolor"], tuple): |
| p["pencolor"] = self._colorstr((p["pencolor"],)) |
| if self._pencolor != p["pencolor"]: |
| newLine = True |
| if "pensize" in p: |
| if self._pensize != p["pensize"]: |
| newLine = True |
| if newLine: |
| self._newLine() |
| if "pendown" in p: |
| self._drawing = p["pendown"] |
| if "pencolor" in p: |
| self._pencolor = p["pencolor"] |
| if "pensize" in p: |
| self._pensize = p["pensize"] |
| if "fillcolor" in p: |
| if isinstance(p["fillcolor"], tuple): |
| p["fillcolor"] = self._colorstr((p["fillcolor"],)) |
| self._fillcolor = p["fillcolor"] |
| if "speed" in p: |
| self._speed = p["speed"] |
| if "resizemode" in p: |
| self._resizemode = p["resizemode"] |
| if "stretchfactor" in p: |
| sf = p["stretchfactor"] |
| if isinstance(sf, (int, float)): |
| sf = (sf, sf) |
| self._stretchfactor = sf |
| if "outline" in p: |
| self._outlinewidth = p["outline"] |
| if "shown" in p: |
| self._shown = p["shown"] |
| if "tilt" in p: |
| self._tilt = p["tilt"] |
| self._update() |
| |
| ## three dummy methods to be implemented by child class: |
| |
| def _newLine(self, usePos = True): |
| """dummy method - to be overwritten by child class""" |
| def _update(self, count=True, forced=False): |
| """dummy method - to be overwritten by child class""" |
| def _color(self, args): |
| """dummy method - to be overwritten by child class""" |
| def _colorstr(self, args): |
| """dummy method - to be overwritten by child class""" |
| |
| width = pensize |
| up = penup |
| pu = penup |
| pd = pendown |
| down = pendown |
| st = showturtle |
| ht = hideturtle |
| |
| |
| class _TurtleImage(object): |
| """Helper class: Datatype to store Turtle attributes |
| """ |
| |
| def __init__(self, screen, shapeIndex): |
| self.screen = screen |
| self._type = None |
| self._setshape(shapeIndex) |
| |
| def _setshape(self, shapeIndex): |
| screen = self.screen # RawTurtle.screens[self.screenIndex] |
| self.shapeIndex = shapeIndex |
| if self._type == "polygon" == screen._shapes[shapeIndex]._type: |
| return |
| if self._type == "image" == screen._shapes[shapeIndex]._type: |
| return |
| if self._type in ["image", "polygon"]: |
| screen._delete(self._item) |
| elif self._type == "compound": |
| for item in self._item: |
| screen._delete(item) |
| self._type = screen._shapes[shapeIndex]._type |
| if self._type == "polygon": |
| self._item = screen._createpoly() |
| elif self._type == "image": |
| self._item = screen._createimage(screen._shapes["blank"]._data) |
| elif self._type == "compound": |
| self._item = [screen._createpoly() for item in |
| screen._shapes[shapeIndex]._data] |
| |
| |
| class RawTurtle(TPen, TNavigator): |
| """Animation part of the RawTurtle. |
| Puts RawTurtle upon a TurtleScreen and provides tools for |
| its animation. |
| """ |
| screens = [] |
| |
| def __init__(self, canvas=None, |
| shape=_CFG["shape"], |
| undobuffersize=_CFG["undobuffersize"], |
| visible=_CFG["visible"]): |
| if isinstance(canvas, _Screen): |
| self.screen = canvas |
| elif isinstance(canvas, TurtleScreen): |
| if canvas not in RawTurtle.screens: |
| RawTurtle.screens.append(canvas) |
| self.screen = canvas |
| elif isinstance(canvas, (ScrolledCanvas, Canvas)): |
| for screen in RawTurtle.screens: |
| if screen.cv == canvas: |
| self.screen = screen |
| break |
| else: |
| self.screen = TurtleScreen(canvas) |
| RawTurtle.screens.append(self.screen) |
| else: |
| raise TurtleGraphicsError("bad cavas argument %s" % canvas) |
| |
| screen = self.screen |
| TNavigator.__init__(self, screen.mode()) |
| TPen.__init__(self) |
| screen._turtles.append(self) |
| self.drawingLineItem = screen._createline() |
| self.turtle = _TurtleImage(screen, shape) |
| self._poly = None |
| self._creatingPoly = False |
| self._fillitem = self._fillpath = None |
| self._shown = visible |
| self._hidden_from_screen = False |
| self.currentLineItem = screen._createline() |
| self.currentLine = [self._position] |
| self.items = [self.currentLineItem] |
| self.stampItems = [] |
| self._undobuffersize = undobuffersize |
| self.undobuffer = Tbuffer(undobuffersize) |
| self._update() |
| |
| def reset(self): |
| """Delete the turtle's drawings and restore its default values. |
| |
| No argument. |
| , |
| Delete the turtle's drawings from the screen, re-center the turtle |
| and set variables to the default values. |
| |
| Example (for a Turtle instance named turtle): |
| >>> turtle.position() |
| (0.00,-22.00) |
| >>> turtle.heading() |
| 100.0 |
| >>> turtle.reset() |
| >>> turtle.position() |
| (0.00,0.00) |
| >>> turtle.heading() |
| 0.0 |
| """ |
| TNavigator.reset(self) |
| TPen._reset(self) |
| self._clear() |
| self._drawturtle() |
| self._update() |
| |
| def setundobuffer(self, size): |
| """Set or disable undobuffer. |
| |
| Argument: |
| size -- an integer or None |
| |
| If size is an integer an empty undobuffer of given size is installed. |
| Size gives the maximum number of turtle-actions that can be undone |
| by the undo() function. |
| If size is None, no undobuffer is present. |
| |
| Example (for a Turtle instance named turtle): |
| >>> turtle.setundobuffer(42) |
| """ |
| if size is None: |
| self.undobuffer = None |
| else: |
| self.undobuffer = Tbuffer(size) |
| |
| def undobufferentries(self): |
| """Return count of entries in the undobuffer. |
| |
| No argument. |
| |
| Example (for a Turtle instance named turtle): |
| >>> while undobufferentries(): |
| undo() |
| """ |
| if self.undobuffer is None: |
| return 0 |
| return self.undobuffer.nr_of_items() |
| |
| def _clear(self): |
| """Delete all of pen's drawings""" |
| self._fillitem = self._fillpath = None |
| for item in self.items: |
| self.screen._delete(item) |
| self.currentLineItem = self.screen._createline() |
| self.currentLine = [] |
| if self._drawing: |
| self.currentLine.append(self._position) |
| self.items = [self.currentLineItem] |
| self.clearstamps() |
| self.setundobuffer(self._undobuffersize) |
| |
| |
| def clear(self): |
| """Delete the turtle's drawings from the screen. Do not move turtle. |
| |
| No arguments. |
| |
| Delete the turtle's drawings from the screen. Do not move turtle. |
| State and position of the turtle as well as drawings of other |
| turtles are not affected. |
| |
| Examples (for a Turtle instance named turtle): |
| >>> turtle.clear() |
| """ |
| self._clear() |
| self._update() |
| |
| def _update_data(self): |
| self.screen._incrementudc() |
| if self.screen._updatecounter != 0: |
| return |
| if len(self.currentLine)>1: |
| self.screen._drawline(self.currentLineItem, self.currentLine, |
| self._pencolor, self._pensize) |
| |
| def _update(self): |
| """Perform a Turtle-data update. |
| """ |
| screen = self.screen |
| if screen._tracing == 0: |
| return |
| elif screen._tracing == 1: |
| self._update_data() |
| self._drawturtle() |
| screen._update() # TurtleScreenBase |
| screen._delay(screen._delayvalue) # TurtleScreenBase |
| else: |
| self._update_data() |
| if screen._updatecounter == 0: |
| for t in screen.turtles(): |
| t._drawturtle() |
| screen._update() |
| |
| def tracer(self, flag=None, delay=None): |
| """Turns turtle animation on/off and set delay for update drawings. |
| |
| Optional arguments: |
| n -- nonnegative integer |
| delay -- nonnegative integer |
| |
| If n is given, only each n-th regular screen update is really performed. |
| (Can be used to accelerate the drawing of complex graphics.) |
| Second arguments sets delay value (see RawTurtle.delay()) |
| |
| Example (for a Turtle instance named turtle): |
| >>> turtle.tracer(8, 25) |
| >>> dist = 2 |
| >>> for i in range(200): |
| turtle.fd(dist) |
| turtle.rt(90) |
| dist += 2 |
| """ |
| return self.screen.tracer(flag, delay) |
| |
| def _color(self, args): |
| return self.screen._color(args) |
| |
| def _colorstr(self, args): |
| return self.screen._colorstr(args) |
| |
| def _cc(self, args): |
| """Convert colortriples to hexstrings. |
| """ |
| if isinstance(args, str): |
| return args |
| try: |
| r, g, b = args |
| except: |
| raise TurtleGraphicsError("bad color arguments: %s" % str(args)) |
| if self.screen._colormode == 1.0: |
| r, g, b = [round(255.0*x) for x in (r, g, b)] |
| if not ((0 <= r <= 255) and (0 <= g <= 255) and (0 <= b <= 255)): |
| raise TurtleGraphicsError("bad color sequence: %s" % str(args)) |
| return "#%02x%02x%02x" % (r, g, b) |
| |
| def clone(self): |
| """Create and return a clone of the turtle. |
| |
| No argument. |
| |
| Create and return a clone of the turtle with same position, heading |
| and turtle properties. |
| |
| Example (for a Turtle instance named mick): |
| mick = Turtle() |
| joe = mick.clone() |
| """ |
| screen = self.screen |
| self._newLine(self._drawing) |
| |
| turtle = self.turtle |
| self.screen = None |
| self.turtle = None # too make self deepcopy-able |
| |
| q = deepcopy(self) |
| |
| self.screen = screen |
| self.turtle = turtle |
| |
| q.screen = screen |
| q.turtle = _TurtleImage(screen, self.turtle.shapeIndex) |
| |
| screen._turtles.append(q) |
| ttype = screen._shapes[self.turtle.shapeIndex]._type |
| if ttype == "polygon": |
| q.turtle._item = screen._createpoly() |
| elif ttype == "image": |
| q.turtle._item = screen._createimage(screen._shapes["blank"]._data) |
| elif ttype == "compound": |
| q.turtle._item = [screen._createpoly() for item in |
| screen._shapes[self.turtle.shapeIndex]._data] |
| q.currentLineItem = screen._createline() |
| q._update() |
| return q |
| |
| def shape(self, name=None): |
| """Set turtle shape to shape with given name / return current shapename. |
| |
| Optional argument: |
| name -- a string, which is a valid shapename |
| |
| Set turtle shape to shape with given name or, if name is not given, |
| return name of current shape. |
| Shape with name must exist in the TurtleScreen's shape dictionary. |
| Initially there are the following polygon shapes: |
| 'arrow', 'turtle', 'circle', 'square', 'triangle', 'classic'. |
| To learn about how to deal with shapes see Screen-method register_shape. |
| |
| Example (for a Turtle instance named turtle): |
| >>> turtle.shape() |
| 'arrow' |
| >>> turtle.shape("turtle") |
| >>> turtle.shape() |
| 'turtle' |
| """ |
| if name is None: |
| return self.turtle.shapeIndex |
| if not name in self.screen.getshapes(): |
| raise TurtleGraphicsError("There is no shape named %s" % name) |
| self.turtle._setshape(name) |
| self._update() |
| |
| def shapesize(self, stretch_wid=None, stretch_len=None, outline=None): |
| """Set/return turtle's stretchfactors/outline. Set resizemode to "user". |
| |
| Optinonal arguments: |
| stretch_wid : positive number |
| stretch_len : positive number |
| outline : positive number |
| |
| Return or set the pen's attributes x/y-stretchfactors and/or outline. |
| Set resizemode to "user". |
| If and only if resizemode is set to "user", the turtle will be displayed |
| stretched according to its stretchfactors: |
| stretch_wid is stretchfactor perpendicular to orientation |
| stretch_len is stretchfactor in direction of turtles orientation. |
| outline determines the width of the shapes's outline. |
| |
| Examples (for a Turtle instance named turtle): |
| >>> turtle.resizemode("user") |
| >>> turtle.shapesize(5, 5, 12) |
| >>> turtle.shapesize(outline=8) |
| """ |
| if stretch_wid is None and stretch_len is None and outline == None: |
| stretch_wid, stretch_len = self._stretchfactor |
| return stretch_wid, stretch_len, self._outlinewidth |
| if stretch_wid is not None: |
| if stretch_len is None: |
| stretchfactor = stretch_wid, stretch_wid |
| else: |
| stretchfactor = stretch_wid, stretch_len |
| elif stretch_len is not None: |
| stretchfactor = self._stretchfactor[0], stretch_len |
| else: |
| stretchfactor = self._stretchfactor |
| if outline is None: |
| outline = self._outlinewidth |
| self.pen(resizemode="user", |
| stretchfactor=stretchfactor, outline=outline) |
| |
| def settiltangle(self, angle): |
| """Rotate the turtleshape to point in the specified direction |
| |
| Optional argument: |
| angle -- number |
| |
| Rotate the turtleshape to point in the direction specified by angle, |
| regardless of its current tilt-angle. DO NOT change the turtle's |
| heading (direction of movement). |
| |
| |
| Examples (for a Turtle instance named turtle): |
| >>> turtle.shape("circle") |
| >>> turtle.shapesize(5,2) |
| >>> turtle.settiltangle(45) |
| >>> stamp() |
| >>> turtle.fd(50) |
| >>> turtle.settiltangle(-45) |
| >>> stamp() |
| >>> turtle.fd(50) |
| """ |
| tilt = -angle * self._degreesPerAU * self._angleOrient |
| tilt = (tilt * math.pi / 180.0) % (2*math.pi) |
| self.pen(resizemode="user", tilt=tilt) |
| |
| def tiltangle(self): |
| """Return the current tilt-angle. |
| |
| No argument. |
| |
| Return the current tilt-angle, i. e. the angle between the |
| orientation of the turtleshape and the heading of the turtle |
| (its direction of movement). |
| |
| Examples (for a Turtle instance named turtle): |
| >>> turtle.shape("circle") |
| >>> turtle.shapesize(5,2) |
| >>> turtle.tilt(45) |
| >>> turtle.tiltangle() |
| >>> |
| """ |
| tilt = -self._tilt * (180.0/math.pi) * self._angleOrient |
| return (tilt / self._degreesPerAU) % self._fullcircle |
| |
| def tilt(self, angle): |
| """Rotate the turtleshape by angle. |
| |
| Argument: |
| angle - a number |
| |
| Rotate the turtleshape by angle from its current tilt-angle, |
| but do NOT change the turtle's heading (direction of movement). |
| |
| Examples (for a Turtle instance named turtle): |
| >>> turtle.shape("circle") |
| >>> turtle.shapesize(5,2) |
| >>> turtle.tilt(30) |
| >>> turtle.fd(50) |
| >>> turtle.tilt(30) |
| >>> turtle.fd(50) |
| """ |
| self.settiltangle(angle + self.tiltangle()) |
| |
| def _polytrafo(self, poly): |
| """Computes transformed polygon shapes from a shape |
| according to current position and heading. |
| """ |
| screen = self.screen |
| p0, p1 = self._position |
| e0, e1 = self._orient |
| e = Vec2D(e0, e1 * screen.yscale / screen.xscale) |
| e0, e1 = (1.0 / abs(e)) * e |
| return [(p0+(e1*x+e0*y)/screen.xscale, p1+(-e0*x+e1*y)/screen.yscale) |
| for (x, y) in poly] |
| |
| def _drawturtle(self): |
| """Manages the correct rendering of the turtle with respect to |
| its shape, resizemode, strech and tilt etc.""" |
| screen = self.screen |
| shape = screen._shapes[self.turtle.shapeIndex] |
| ttype = shape._type |
| titem = self.turtle._item |
| if self._shown and screen._updatecounter == 0 and screen._tracing > 0: |
| self._hidden_from_screen = False |
| tshape = shape._data |
| if ttype == "polygon": |
| if self._resizemode == "noresize": |
| w = 1 |
| shape = tshape |
| else: |
| if self._resizemode == "auto": |
| lx = ly = max(1, self._pensize/5.0) |
| w = self._pensize |
| tiltangle = 0 |
| elif self._resizemode == "user": |
| lx, ly = self._stretchfactor |
| w = self._outlinewidth |
| tiltangle = self._tilt |
| shape = [(lx*x, ly*y) for (x, y) in tshape] |
| t0, t1 = math.sin(tiltangle), math.cos(tiltangle) |
| shape = [(t1*x+t0*y, -t0*x+t1*y) for (x, y) in shape] |
| shape = self._polytrafo(shape) |
| fc, oc = self._fillcolor, self._pencolor |
| screen._drawpoly(titem, shape, fill=fc, outline=oc, |
| width=w, top=True) |
| elif ttype == "image": |
| screen._drawimage(titem, self._position, tshape) |
| elif ttype == "compound": |
| lx, ly = self._stretchfactor |
| w = self._outlinewidth |
| for item, (poly, fc, oc) in zip(titem, tshape): |
| poly = [(lx*x, ly*y) for (x, y) in poly] |
| poly = self._polytrafo(poly) |
| screen._drawpoly(item, poly, fill=self._cc(fc), |
| outline=self._cc(oc), width=w, top=True) |
| else: |
| if self._hidden_from_screen: |
| return |
| if ttype == "polygon": |
| screen._drawpoly(titem, ((0, 0), (0, 0), (0, 0)), "", "") |
| elif ttype == "image": |
| screen._drawimage(titem, self._position, |
| screen._shapes["blank"]._data) |
| elif ttype == "compound": |
| for item in titem: |
| screen._drawpoly(item, ((0, 0), (0, 0), (0, 0)), "", "") |
| self._hidden_from_screen = True |
| |
| ############################## stamp stuff ############################### |
| |
| def stamp(self): |
| """Stamp a copy of the turtleshape onto the canvas and return its id. |
| |
| No argument. |
| |
| Stamp a copy of the turtle shape onto the canvas at the current |
| turtle position. Return a stamp_id for that stamp, which can be |
| used to delete it by calling clearstamp(stamp_id). |
| |
| Example (for a Turtle instance named turtle): |
| >>> turtle.color("blue") |
| >>> turtle.stamp() |
| 13 |
| >>> turtle.fd(50) |
| """ |
| screen = self.screen |
| shape = screen._shapes[self.turtle.shapeIndex] |
| ttype = shape._type |
| tshape = shape._data |
| if ttype == "polygon": |
| stitem = screen._createpoly() |
| if self._resizemode == "noresize": |
| w = 1 |
| shape = tshape |
| else: |
| if self._resizemode == "auto": |
| lx = ly = max(1, self._pensize/5.0) |
| w = self._pensize |
| tiltangle = 0 |
| elif self._resizemode == "user": |
| lx, ly = self._stretchfactor |
| w = self._outlinewidth |
| tiltangle = self._tilt |
| shape = [(lx*x, ly*y) for (x, y) in tshape] |
| t0, t1 = math.sin(tiltangle), math.cos(tiltangle) |
| shape = [(t1*x+t0*y, -t0*x+t1*y) for (x, y) in shape] |
| shape = self._polytrafo(shape) |
| fc, oc = self._fillcolor, self._pencolor |
| screen._drawpoly(stitem, shape, fill=fc, outline=oc, |
| width=w, top=True) |
| elif ttype == "image": |
| stitem = screen._createimage("") |
| screen._drawimage(stitem, self._position, tshape) |
| elif ttype == "compound": |
| stitem = [] |
| for element in tshape: |
| item = screen._createpoly() |
| stitem.append(item) |
| stitem = tuple(stitem) |
| lx, ly = self._stretchfactor |
| w = self._outlinewidth |
| for item, (poly, fc, oc) in zip(stitem, tshape): |
| poly = [(lx*x, ly*y) for (x, y) in poly] |
| poly = self._polytrafo(poly) |
| screen._drawpoly(item, poly, fill=self._cc(fc), |
| outline=self._cc(oc), width=w, top=True) |
| self.stampItems.append(stitem) |
| self.undobuffer.push(("stamp", stitem)) |
| return stitem |
| |
| def _clearstamp(self, stampid): |
| """does the work for clearstamp() and clearstamps() |
| """ |
| if stampid in self.stampItems: |
| if isinstance(stampid, tuple): |
| for subitem in stampid: |
| self.screen._delete(subitem) |
| else: |
| self.screen._delete(stampid) |
| self.stampItems.remove(stampid) |
| # Delete stampitem from undobuffer if necessary |
| # if clearstamp is called directly. |
| item = ("stamp", stampid) |
| buf = self.undobuffer |
| if item not in buf.buffer: |
| return |
| index = buf.buffer.index(item) |
| buf.buffer.remove(item) |
| if index <= buf.ptr: |
| buf.ptr = (buf.ptr - 1) % buf.bufsize |
| buf.buffer.insert((buf.ptr+1)%buf.bufsize, [None]) |
| |
| def clearstamp(self, stampid): |
| """Delete stamp with given stampid |
| |
| Argument: |
| stampid - an integer, must be return value of previous stamp() call. |
| |
| Example (for a Turtle instance named turtle): |
| >>> turtle.color("blue") |
| >>> astamp = turtle.stamp() |
| >>> turtle.fd(50) |
| >>> turtle.clearstamp(astamp) |
| """ |
| self._clearstamp(stampid) |
| self._update() |
| |
| def clearstamps(self, n=None): |
| """Delete all or first/last n of turtle's stamps. |
| |
| Optional argument: |
| n -- an integer |
| |
| If n is None, delete all of pen's stamps, |
| else if n > 0 delete first n stamps |
| else if n < 0 delete last n stamps. |
| |
| Example (for a Turtle instance named turtle): |
| >>> for i in range(8): |
| turtle.stamp(); turtle.fd(30) |
| ... |
| >>> turtle.clearstamps(2) |
| >>> turtle.clearstamps(-2) |
| >>> turtle.clearstamps() |
| """ |
| if n is None: |
| toDelete = self.stampItems[:] |
| elif n >= 0: |
| toDelete = self.stampItems[:n] |
| else: |
| toDelete = self.stampItems[n:] |
| for item in toDelete: |
| self._clearstamp(item) |
| self._update() |
| |
| def _goto(self, end): |
| """Move the pen to the point end, thereby drawing a line |
| if pen is down. All other methodes for turtle movement depend |
| on this one. |
| """ |
| ## Version mit undo-stuff |
| go_modes = ( self._drawing, |
| self._pencolor, |
| self._pensize, |
| isinstance(self._fillpath, list)) |
| screen = self.screen |
| undo_entry = ("go", self._position, end, go_modes, |
| (self.currentLineItem, |
| self.currentLine[:], |
| screen._pointlist(self.currentLineItem), |
| self.items[:]) |
| ) |
| if self.undobuffer: |
| self.undobuffer.push(undo_entry) |
| start = self._position |
| if self._speed and screen._tracing == 1: |
| diff = (end-start) |
| diffsq = (diff[0]*screen.xscale)**2 + (diff[1]*screen.yscale)**2 |
| nhops = 1+int((diffsq**0.5)/(3*(1.1**self._speed)*self._speed)) |
| delta = diff * (1.0/nhops) |
| for n in range(1, nhops): |
| if n == 1: |
| top = True |
| else: |
| top = False |
| self._position = start + delta * n |
| if self._drawing: |
| screen._drawline(self.drawingLineItem, |
| (start, self._position), |
| self._pencolor, self._pensize, top) |
| self._update() |
| if self._drawing: |
| screen._drawline(self.drawingLineItem, ((0, 0), (0, 0)), |
| fill="", width=self._pensize) |
| # Turtle now at end, |
| if self._drawing: # now update currentLine |
| self.currentLine.append(end) |
| if isinstance(self._fillpath, list): |
| self._fillpath.append(end) |
| ###### vererbung!!!!!!!!!!!!!!!!!!!!!! |
| self._position = end |
| if self._creatingPoly: |
| self._poly.append(end) |
| if len(self.currentLine) > 42: # 42! answer to the ultimate question |
| # of life, the universe and everything |
| self._newLine() |
| self._update() #count=True) |
| |
| def _undogoto(self, entry): |
| """Reverse a _goto. Used for undo() |
| """ |
| old, new, go_modes, coodata = entry |
| drawing, pc, ps, filling = go_modes |
| cLI, cL, pl, items = coodata |
| screen = self.screen |
| if abs(self._position - new) > 0.5: |
| print "undogoto: HALLO-DA-STIMMT-WAS-NICHT!" |
| # restore former situation |
| self.currentLineItem = cLI |
| self.currentLine = cL |
| |
| if pl == [(0, 0), (0, 0)]: |
| usepc = "" |
| else: |
| usepc = pc |
| screen._drawline(cLI, pl, fill=usepc, width=ps) |
| |
| todelete = [i for i in self.items if (i not in items) and |
| (screen._type(i) == "line")] |
| for i in todelete: |
| screen._delete(i) |
| self.items.remove(i) |
| |
| start = old |
| if self._speed and screen._tracing == 1: |
| diff = old - new |
| diffsq = (diff[0]*screen.xscale)**2 + (diff[1]*screen.yscale)**2 |
| nhops = 1+int((diffsq**0.5)/(3*(1.1**self._speed)*self._speed)) |
| delta = diff * (1.0/nhops) |
| for n in range(1, nhops): |
| if n == 1: |
| top = True |
| else: |
| top = False |
| self._position = new + delta * n |
| if drawing: |
| screen._drawline(self.drawingLineItem, |
| (start, self._position), |
| pc, ps, top) |
| self._update() |
| if drawing: |
| screen._drawline(self.drawingLineItem, ((0, 0), (0, 0)), |
| fill="", width=ps) |
| # Turtle now at position old, |
| self._position = old |
| ## if undo is done during crating a polygon, the last vertex |
| ## will be deleted. if the polygon is entirel deleted, |
| ## creatigPoly will be set to False. |
| ## Polygons created before the last one will not be affected by undo() |
| if self._creatingPoly: |
| if len(self._poly) > 0: |
| self._poly.pop() |
| if self._poly == []: |
| self._creatingPoly = False |
| self._poly = None |
| if filling: |
| if self._fillpath == []: |
| self._fillpath = None |
| print "Unwahrscheinlich in _undogoto!" |
| elif self._fillpath is not None: |
| self._fillpath.pop() |
| self._update() #count=True) |
| |
| def _rotate(self, angle): |
| """Turns pen clockwise by angle. |
| """ |
| if self.undobuffer: |
| self.undobuffer.push(("rot", angle, self._degreesPerAU)) |
| angle *= self._degreesPerAU |
| neworient = self._orient.rotate(angle) |
| tracing = self.screen._tracing |
| if tracing == 1 and self._speed > 0: |
| anglevel = 3.0 * self._speed |
| steps = 1 + int(abs(angle)/anglevel) |
| delta = 1.0*angle/steps |
| for _ in range(steps): |
| self._orient = self._orient.rotate(delta) |
| self._update() |
| self._orient = neworient |
| self._update() |
| |
| def _newLine(self, usePos=True): |
| """Closes current line item and starts a new one. |
| Remark: if current line became too long, animation |
| performance (via _drawline) slowed down considerably. |
| """ |
| if len(self.currentLine) > 1: |
| self.screen._drawline(self.currentLineItem, self.currentLine, |
| self._pencolor, self._pensize) |
| self.currentLineItem = self.screen._createline() |
| self.items.append(self.currentLineItem) |
| else: |
| self.screen._drawline(self.currentLineItem, top=True) |
| self.currentLine = [] |
| if usePos: |
| self.currentLine = [self._position] |
| |
| def fill(self, flag=None): |
| """Call fill(True) before drawing a shape to fill, fill(False) when done. |
| |
| Optional argument: |
| flag -- True/False (or 1/0 respectively) |
| |
| Call fill(True) before drawing the shape you want to fill, |
| and fill(False) when done. |
| When used without argument: return fillstate (True if filling, |
| False else) |
| |
| Example (for a Turtle instance named turtle): |
| >>> turtle.fill(True) |
| >>> turtle.forward(100) |
| >>> turtle.left(90) |
| >>> turtle.forward(100) |
| >>> turtle.left(90) |
| >>> turtle.forward(100) |
| >>> turtle.left(90) |
| >>> turtle.forward(100) |
| >>> turtle.fill(False) |
| """ |
| filling = isinstance(self._fillpath, list) |
| if flag is None: |
| return filling |
| screen = self.screen |
| entry1 = entry2 = () |
| if filling: |
| if len(self._fillpath) > 2: |
| self.screen._drawpoly(self._fillitem, self._fillpath, |
| fill=self._fillcolor) |
| entry1 = ("dofill", self._fillitem) |
| if flag: |
| self._fillitem = self.screen._createpoly() |
| self.items.append(self._fillitem) |
| self._fillpath = [self._position] |
| entry2 = ("beginfill", self._fillitem) # , self._fillpath) |
| self._newLine() |
| else: |
| self._fillitem = self._fillpath = None |
| if self.undobuffer: |
| if entry1 == (): |
| if entry2 != (): |
| self.undobuffer.push(entry2) |
| else: |
| if entry2 == (): |
| self.undobuffer.push(entry1) |
| else: |
| self.undobuffer.push(["seq", entry1, entry2]) |
| self._update() |
| |
| def begin_fill(self): |
| """Called just before drawing a shape to be filled. |
| |
| No argument. |
| |
| Example (for a Turtle instance named turtle): |
| >>> turtle.begin_fill() |
| >>> turtle.forward(100) |
| >>> turtle.left(90) |
| >>> turtle.forward(100) |
| >>> turtle.left(90) |
| >>> turtle.forward(100) |
| >>> turtle.left(90) |
| >>> turtle.forward(100) |
| >>> turtle.end_fill() |
| """ |
| self.fill(True) |
| |
| def end_fill(self): |
| """Fill the shape drawn after the call begin_fill(). |
| |
| No argument. |
| |
| Example (for a Turtle instance named turtle): |
| >>> turtle.begin_fill() |
| >>> turtle.forward(100) |
| >>> turtle.left(90) |
| >>> turtle.forward(100) |
| >>> turtle.left(90) |
| >>> turtle.forward(100) |
| >>> turtle.left(90) |
| >>> turtle.forward(100) |
| >>> turtle.end_fill() |
| """ |
| self.fill(False) |
| |
| def dot(self, size=None, *color): |
| """Draw a dot with diameter size, using color. |
| |
| Optional argumentS: |
| size -- an integer >= 1 (if given) |
| color -- a colorstring or a numeric color tuple |
| |
| Draw a circular dot with diameter size, using color. |
| If size is not given, the maximum of pensize+4 and 2*pensize is used. |
| |
| Example (for a Turtle instance named turtle): |
| >>> turtle.dot() |
| >>> turtle.fd(50); turtle.dot(20, "blue"); turtle.fd(50) |
| """ |
| #print "dot-1:", size, color |
| if not color: |
| if isinstance(size, (str, tuple)): |
| color = self._colorstr(size) |
| size = self._pensize + max(self._pensize, 4) |
| else: |
| color = self._pencolor |
| if not size: |
| size = self._pensize + max(self._pensize, 4) |
| else: |
| if size is None: |
| size = self._pensize + max(self._pensize, 4) |
| color = self._colorstr(color) |
| #print "dot-2:", size, color |
| if hasattr(self.screen, "_dot"): |
| item = self.screen._dot(self._position, size, color) |
| #print "dot:", size, color, "item:", item |
| self.items.append(item) |
| if self.undobuffer: |
| self.undobuffer.push(("dot", item)) |
| else: |
| pen = self.pen() |
| if self.undobuffer: |
| self.undobuffer.push(["seq"]) |
| self.undobuffer.cumulate = True |
| try: |
| if self.resizemode() == 'auto': |
| self.ht() |
| self.pendown() |
| self.pensize(size) |
| self.pencolor(color) |
| self.forward(0) |
| finally: |
| self.pen(pen) |
| if self.undobuffer: |
| self.undobuffer.cumulate = False |
| |
| def _write(self, txt, align, font): |
| """Performs the writing for write() |
| """ |
| item, end = self.screen._write(self._position, txt, align, font, |
| self._pencolor) |
| self.items.append(item) |
| if self.undobuffer: |
| self.undobuffer.push(("wri", item)) |
| return end |
| |
| def write(self, arg, move=False, align="left", font=("Arial", 8, "normal")): |
| """Write text at the current turtle position. |
| |
| Arguments: |
| arg -- info, which is to be written to the TurtleScreen |
| move (optional) -- True/False |
| align (optional) -- one of the strings "left", "center" or right" |
| font (optional) -- a triple (fontname, fontsize, fonttype) |
| |
| Write text - the string representation of arg - at the current |
| turtle position according to align ("left", "center" or right") |
| and with the given font. |
| If move is True, the pen is moved to the bottom-right corner |
| of the text. By default, move is False. |
| |
| Example (for a Turtle instance named turtle): |
| >>> turtle.write('Home = ', True, align="center") |
| >>> turtle.write((0,0), True) |
| """ |
| if self.undobuffer: |
| self.undobuffer.push(["seq"]) |
| self.undobuffer.cumulate = True |
| end = self._write(str(arg), align.lower(), font) |
| if move: |
| x, y = self.pos() |
| self.setpos(end, y) |
| if self.undobuffer: |
| self.undobuffer.cumulate = False |
| |
| def begin_poly(self): |
| """Start recording the vertices of a polygon. |
| |
| No argument. |
| |
| Start recording the vertices of a polygon. Current turtle position |
| is first point of polygon. |
| |
| Example (for a Turtle instance named turtle): |
| >>> turtle.begin_poly() |
| """ |
| self._poly = [self._position] |
| self._creatingPoly = True |
| |
| def end_poly(self): |
| """Stop recording the vertices of a polygon. |
| |
| No argument. |
| |
| Stop recording the vertices of a polygon. Current turtle position is |
| last point of polygon. This will be connected with the first point. |
| |
| Example (for a Turtle instance named turtle): |
| >>> turtle.end_poly() |
| """ |
| self._creatingPoly = False |
| |
| def get_poly(self): |
| """Return the lastly recorded polygon. |
| |
| No argument. |
| |
| Example (for a Turtle instance named turtle): |
| >>> p = turtle.get_poly() |
| >>> turtle.register_shape("myFavouriteShape", p) |
| """ |
| ## check if there is any poly? -- 1st solution: |
| if self._poly is not None: |
| return tuple(self._poly) |
| |
| def getscreen(self): |
| """Return the TurtleScreen object, the turtle is drawing on. |
| |
| No argument. |
| |
| Return the TurtleScreen object, the turtle is drawing on. |
| So TurtleScreen-methods can be called for that object. |
| |
| Example (for a Turtle instance named turtle): |
| >>> ts = turtle.getscreen() |
| >>> ts |
| <turtle.TurtleScreen object at 0x0106B770> |
| >>> ts.bgcolor("pink") |
| """ |
| return self.screen |
| |
| def getturtle(self): |
| """Return the Turtleobject itself. |
| |
| No argument. |
| |
| Only reasonable use: as a function to return the 'anonymous turtle': |
| |
| Example: |
| >>> pet = getturtle() |
| >>> pet.fd(50) |
| >>> pet |
| <turtle.Turtle object at 0x0187D810> |
| >>> turtles() |
| [<turtle.Turtle object at 0x0187D810>] |
| """ |
| return self |
| |
| getpen = getturtle |
| |
| |
| ################################################################ |
| ### screen oriented methods recurring to methods of TurtleScreen |
| ################################################################ |
| |
| def window_width(self): |
| """ Returns the width of the turtle window. |
| |
| No argument. |
| |
| Example (for a TurtleScreen instance named screen): |
| >>> screen.window_width() |
| 640 |
| """ |
| return self.screen._window_size()[0] |
| |
| def window_height(self): |
| """ Return the height of the turtle window. |
| |
| No argument. |
| |
| Example (for a TurtleScreen instance named screen): |
| >>> screen.window_height() |
| 480 |
| """ |
| return self.screen._window_size()[1] |
| |
| def _delay(self, delay=None): |
| """Set delay value which determines speed of turtle animation. |
| """ |
| return self.screen.delay(delay) |
| |
| ##### event binding methods ##### |
| |
| def onclick(self, fun, btn=1, add=None): |
| """Bind fun to mouse-click event on this turtle on canvas. |
| |
| Arguments: |
| fun -- a function with two arguments, to which will be assigned |
| the coordinates of the clicked point on the canvas. |
| num -- number of the mouse-button defaults to 1 (left mouse button). |
| add -- True or False. If True, new binding will be added, otherwise |
| it will replace a former binding. |
| |
| Example for the anonymous turtle, i. e. the procedural way: |
| |
| >>> def turn(x, y): |
| left(360) |
| |
| >>> onclick(turn) # Now clicking into the turtle will turn it. |
| >>> onclick(None) # event-binding will be removed |
| """ |
| self.screen._onclick(self.turtle._item, fun, btn, add) |
| self._update() |
| |
| def onrelease(self, fun, btn=1, add=None): |
| """Bind fun to mouse-button-release event on this turtle on canvas. |
| |
| Arguments: |
| fun -- a function with two arguments, to which will be assigned |
| the coordinates of the clicked point on the canvas. |
| num -- number of the mouse-button defaults to 1 (left mouse button). |
| |
| Example (for a MyTurtle instance named joe): |
| >>> class MyTurtle(Turtle): |
| def glow(self,x,y): |
| self.fillcolor("red") |
| def unglow(self,x,y): |
| self.fillcolor("") |
| |
| >>> joe = MyTurtle() |
| >>> joe.onclick(joe.glow) |
| >>> joe.onrelease(joe.unglow) |
| ### clicking on joe turns fillcolor red, |
| ### unclicking turns it to transparent. |
| """ |
| self.screen._onrelease(self.turtle._item, fun, btn, add) |
| self._update() |
| |
| def ondrag(self, fun, btn=1, add=None): |
| """Bind fun to mouse-move event on this turtle on canvas. |
| |
| Arguments: |
| fun -- a function with two arguments, to which will be assigned |
| the coordinates of the clicked point on the canvas. |
| num -- number of the mouse-button defaults to 1 (left mouse button). |
| |
| Every sequence of mouse-move-events on a turtle is preceded by a |
| mouse-click event on that turtle. |
| |
| Example (for a Turtle instance named turtle): |
| >>> turtle.ondrag(turtle.goto) |
| |
| ### Subsequently clicking and dragging a Turtle will |
| ### move it across the screen thereby producing handdrawings |
| ### (if pen is down). |
| """ |
| self.screen._ondrag(self.turtle._item, fun, btn, add) |
| |
| |
| def _undo(self, action, data): |
| """Does the main part of the work for undo() |
| """ |
| if self.undobuffer is None: |
| return |
| if action == "rot": |
| angle, degPAU = data |
| self._rotate(-angle*degPAU/self._degreesPerAU) |
| dummy = self.undobuffer.pop() |
| elif action == "stamp": |
| stitem = data[0] |
| self.clearstamp(stitem) |
| elif action == "go": |
| self._undogoto(data) |
| elif action in ["wri", "dot"]: |
| item = data[0] |
| self.screen._delete(item) |
| self.items.remove(item) |
| elif action == "dofill": |
| item = data[0] |
| self.screen._drawpoly(item, ((0, 0),(0, 0),(0, 0)), |
| fill="", outline="") |
| elif action == "beginfill": |
| item = data[0] |
| self._fillitem = self._fillpath = None |
| self.screen._delete(item) |
| self.items.remove(item) |
| elif action == "pen": |
| TPen.pen(self, data[0]) |
| self.undobuffer.pop() |
| |
| def undo(self): |
| """undo (repeatedly) the last turtle action. |
| |
| No argument. |
| |
| undo (repeatedly) the last turtle action. |
| Number of available undo actions is determined by the size of |
| the undobuffer. |
| |
| Example (for a Turtle instance named turtle): |
| >>> for i in range(4): |
| turtle.fd(50); turtle.lt(80) |
| |
| >>> for i in range(8): |
| turtle.undo() |
| """ |
| if self.undobuffer is None: |
| return |
| item = self.undobuffer.pop() |
| action = item[0] |
| data = item[1:] |
| if action == "seq": |
| while data: |
| item = data.pop() |
| self._undo(item[0], item[1:]) |
| else: |
| self._undo(action, data) |
| |
| turtlesize = shapesize |
| |
| RawPen = RawTurtle |
| |
| ### Screen - Singleton ######################## |
| |
| def Screen(): |
| """Return the singleton screen object. |
| If none exists at the moment, create a new one and return it, |
| else return the existing one.""" |
| if Turtle._screen is None: |
| Turtle._screen = _Screen() |
| return Turtle._screen |
| |
| class _Screen(TurtleScreen): |
| |
| _root = None |
| _canvas = None |
| _title = _CFG["title"] |
| |
| def __init__(self): |
| # XXX there is no need for this code to be conditional, |
| # as there will be only a single _Screen instance, anyway |
| # XXX actually, the turtle demo is injecting root window, |
| # so perhaps the conditional creation of a root should be |
| # preserved (perhaps by passing it as an optional parameter) |
| if _Screen._root is None: |
| _Screen._root = self._root = _Root() |
| self._root.title(_Screen._title) |
| self._root.ondestroy(self._destroy) |
| if _Screen._canvas is None: |
| width = _CFG["width"] |
| height = _CFG["height"] |
| canvwidth = _CFG["canvwidth"] |
| canvheight = _CFG["canvheight"] |
| leftright = _CFG["leftright"] |
| topbottom = _CFG["topbottom"] |
| self._root.setupcanvas(width, height, canvwidth, canvheight) |
| _Screen._canvas = self._root._getcanvas() |
| self.setup(width, height, leftright, topbottom) |
| TurtleScreen.__init__(self, _Screen._canvas) |
| |
| def setup(self, width=_CFG["width"], height=_CFG["height"], |
| startx=_CFG["leftright"], starty=_CFG["topbottom"]): |
| """ Set the size and position of the main window. |
| |
| Arguments: |
| width: as integer a size in pixels, as float a fraction of the screen. |
| Default is 50% of screen. |
| height: as integer the height in pixels, as float a fraction of the |
| screen. Default is 75% of screen. |
| startx: if positive, starting position in pixels from the left |
| edge of the screen, if negative from the right edge |
| Default, startx=None is to center window horizontally. |
| starty: if positive, starting position in pixels from the top |
| edge of the screen, if negative from the bottom edge |
| Default, starty=None is to center window vertically. |
| |
| Examples (for a Screen instance named screen): |
| >>> screen.setup (width=200, height=200, startx=0, starty=0) |
| |
| sets window to 200x200 pixels, in upper left of screen |
| |
| >>> screen.setup(width=.75, height=0.5, startx=None, starty=None) |
| |
| sets window to 75% of screen by 50% of screen and centers |
| """ |
| if not hasattr(self._root, "set_geometry"): |
| return |
| sw = self._root.win_width() |
| sh = self._root.win_height() |
| if isinstance(width, float) and 0 <= width <= 1: |
| width = sw*width |
| if startx is None: |
| startx = (sw - width) / 2 |
| if isinstance(height, float) and 0 <= height <= 1: |
| height = sh*height |
| if starty is None: |
| starty = (sh - height) / 2 |
| self._root.set_geometry(width, height, startx, starty) |
| |
| def title(self, titlestring): |
| """Set title of turtle-window |
| |
| Argument: |
| titlestring -- a string, to appear in the titlebar of the |
| turtle graphics window. |
| |
| This is a method of Screen-class. Not available for TurtleScreen- |
| objects. |
| |
| Example (for a Screen instance named screen): |
| >>> screen.title("Welcome to the turtle-zoo!") |
| """ |
| if _Screen._root is not None: |
| _Screen._root.title(titlestring) |
| _Screen._title = titlestring |
| |
| def _destroy(self): |
| root = self._root |
| if root is _Screen._root: |
| Turtle._pen = None |
| Turtle._screen = None |
| _Screen._root = None |
| _Screen._canvas = None |
| TurtleScreen._RUNNING = True |
| root.destroy() |
| |
| def bye(self): |
| """Shut the turtlegraphics window. |
| |
| Example (for a TurtleScreen instance named screen): |
| >>> screen.bye() |
| """ |
| self._destroy() |
| |
| def exitonclick(self): |
| """Go into mainloop until the mouse is clicked. |
| |
| No arguments. |
| |
| Bind bye() method to mouseclick on TurtleScreen. |
| If "using_IDLE" - value in configuration dictionary is False |
| (default value), enter mainloop. |
| If IDLE with -n switch (no subprocess) is used, this value should be |
| set to True in turtle.cfg. In this case IDLE's mainloop |
| is active also for the client script. |
| |
| This is a method of the Screen-class and not available for |
| TurtleScreen instances. |
| |
| Example (for a Screen instance named screen): |
| >>> screen.exitonclick() |
| |
| """ |
| def exitGracefully(x, y): |
| """Screen.bye() with two dummy-parameters""" |
| self.bye() |
| self.onclick(exitGracefully) |
| if _CFG["using_IDLE"]: |
| return |
| try: |
| mainloop() |
| except AttributeError: |
| exit(0) |
| |
| |
| class Turtle(RawTurtle): |
| """RawTurtle auto-crating (scrolled) canvas. |
| |
| When a Turtle object is created or a function derived from some |
| Turtle method is called a TurtleScreen object is automatically created. |
| """ |
| _pen = None |
| _screen = None |
| |
| def __init__(self, |
| shape=_CFG["shape"], |
| undobuffersize=_CFG["undobuffersize"], |
| visible=_CFG["visible"]): |
| if Turtle._screen is None: |
| Turtle._screen = Screen() |
| RawTurtle.__init__(self, Turtle._screen, |
| shape=shape, |
| undobuffersize=undobuffersize, |
| visible=visible) |
| |
| Pen = Turtle |
| |
| def _getpen(): |
| """Create the 'anonymous' turtle if not already present.""" |
| if Turtle._pen is None: |
| Turtle._pen = Turtle() |
| return Turtle._pen |
| |
| def _getscreen(): |
| """Create a TurtleScreen if not already present.""" |
| if Turtle._screen is None: |
| Turtle._screen = Screen() |
| return Turtle._screen |
| |
| def write_docstringdict(filename="turtle_docstringdict"): |
| """Create and write docstring-dictionary to file. |
| |
| Optional argument: |
| filename -- a string, used as filename |
| default value is turtle_docstringdict |
| |
| Has to be called explicitely, (not used by the turtle-graphics classes) |
| The docstring dictionary will be written to the Python script <filname>.py |
| It is intended to serve as a template for translation of the docstrings |
| into different languages. |
| """ |
| docsdict = {} |
| |
| for methodname in _tg_screen_functions: |
| key = "_Screen."+methodname |
| docsdict[key] = eval(key).__doc__ |
| for methodname in _tg_turtle_functions: |
| key = "Turtle."+methodname |
| docsdict[key] = eval(key).__doc__ |
| |
| f = open("%s.py" % filename,"w") |
| keys = sorted([x for x in docsdict.keys() |
| if x.split('.')[1] not in _alias_list]) |
| f.write('docsdict = {\n\n') |
| for key in keys[:-1]: |
| f.write('%s :\n' % repr(key)) |
| f.write(' """%s\n""",\n\n' % docsdict[key]) |
| key = keys[-1] |
| f.write('%s :\n' % repr(key)) |
| f.write(' """%s\n"""\n\n' % docsdict[key]) |
| f.write("}\n") |
| f.close() |
| |
| def read_docstrings(lang): |
| """Read in docstrings from lang-specific docstring dictionary. |
| |
| Transfer docstrings, translated to lang, from a dictionary-file |
| to the methods of classes Screen and Turtle and - in revised form - |
| to the corresponding functions. |
| """ |
| modname = "turtle_docstringdict_%(language)s" % {'language':lang.lower()} |
| module = __import__(modname) |
| docsdict = module.docsdict |
| for key in docsdict: |
| #print key |
| try: |
| eval(key).im_func.__doc__ = docsdict[key] |
| except: |
| print "Bad docstring-entry: %s" % key |
| |
| _LANGUAGE = _CFG["language"] |
| |
| try: |
| if _LANGUAGE != "english": |
| read_docstrings(_LANGUAGE) |
| except ImportError: |
| print "Cannot find docsdict for", _LANGUAGE |
| except: |
| print ("Unknown Error when trying to import %s-docstring-dictionary" % |
| _LANGUAGE) |
| |
| |
| def getmethparlist(ob): |
| "Get strings describing the arguments for the given object" |
| argText1 = argText2 = "" |
| # bit of a hack for methods - turn it into a function |
| # but we drop the "self" param. |
| if type(ob)==types.MethodType: |
| fob = ob.im_func |
| argOffset = 1 |
| else: |
| fob = ob |
| argOffset = 0 |
| # Try and build one for Python defined functions |
| if type(fob) in [types.FunctionType, types.LambdaType]: |
| try: |
| counter = fob.func_code.co_argcount |
| items2 = list(fob.func_code.co_varnames[argOffset:counter]) |
| realArgs = fob.func_code.co_varnames[argOffset:counter] |
| defaults = fob.func_defaults or [] |
| defaults = list(map(lambda name: "=%s" % repr(name), defaults)) |
| defaults = [""] * (len(realArgs)-len(defaults)) + defaults |
| items1 = map(lambda arg, dflt: arg+dflt, realArgs, defaults) |
| if fob.func_code.co_flags & 0x4: |
| items1.append("*"+fob.func_code.co_varnames[counter]) |
| items2.append("*"+fob.func_code.co_varnames[counter]) |
| counter += 1 |
| if fob.func_code.co_flags & 0x8: |
| items1.append("**"+fob.func_code.co_varnames[counter]) |
| items2.append("**"+fob.func_code.co_varnames[counter]) |
| argText1 = ", ".join(items1) |
| argText1 = "(%s)" % argText1 |
| argText2 = ", ".join(items2) |
| argText2 = "(%s)" % argText2 |
| except: |
| pass |
| return argText1, argText2 |
| |
| def _turtle_docrevise(docstr): |
| """To reduce docstrings from RawTurtle class for functions |
| """ |
| import re |
| if docstr is None: |
| return None |
| turtlename = _CFG["exampleturtle"] |
| newdocstr = docstr.replace("%s." % turtlename,"") |
| parexp = re.compile(r' \(.+ %s\):' % turtlename) |
| newdocstr = parexp.sub(":", newdocstr) |
| return newdocstr |
| |
| def _screen_docrevise(docstr): |
| """To reduce docstrings from TurtleScreen class for functions |
| """ |
| import re |
| if docstr is None: |
| return None |
| screenname = _CFG["examplescreen"] |
| newdocstr = docstr.replace("%s." % screenname,"") |
| parexp = re.compile(r' \(.+ %s\):' % screenname) |
| newdocstr = parexp.sub(":", newdocstr) |
| return newdocstr |
| |
| ## The following mechanism makes all methods of RawTurtle and Turtle available |
| ## as functions. So we can enhance, change, add, delete methods to these |
| ## classes and do not need to change anything here. |
| |
| |
| for methodname in _tg_screen_functions: |
| pl1, pl2 = getmethparlist(eval('_Screen.' + methodname)) |
| if pl1 == "": |
| print ">>>>>>", pl1, pl2 |
| continue |
| defstr = ("def %(key)s%(pl1)s: return _getscreen().%(key)s%(pl2)s" % |
| {'key':methodname, 'pl1':pl1, 'pl2':pl2}) |
| exec defstr |
| eval(methodname).__doc__ = _screen_docrevise(eval('_Screen.'+methodname).__doc__) |
| |
| for methodname in _tg_turtle_functions: |
| pl1, pl2 = getmethparlist(eval('Turtle.' + methodname)) |
| if pl1 == "": |
| print ">>>>>>", pl1, pl2 |
| continue |
| defstr = ("def %(key)s%(pl1)s: return _getpen().%(key)s%(pl2)s" % |
| {'key':methodname, 'pl1':pl1, 'pl2':pl2}) |
| exec defstr |
| eval(methodname).__doc__ = _turtle_docrevise(eval('Turtle.'+methodname).__doc__) |
| |
| |
| done = mainloop = TK.mainloop |
| del pl1, pl2, defstr |
| |
| if __name__ == "__main__": |
| def switchpen(): |
| if isdown(): |
| pu() |
| else: |
| pd() |
| |
| def demo1(): |
| """Demo of old turtle.py - module""" |
| reset() |
| tracer(True) |
| up() |
| backward(100) |
| down() |
| # draw 3 squares; the last filled |
| width(3) |
| for i in range(3): |
| if i == 2: |
| fill(1) |
| for _ in range(4): |
| forward(20) |
| left(90) |
| if i == 2: |
| color("maroon") |
| fill(0) |
| up() |
| forward(30) |
| down() |
| width(1) |
| color("black") |
| # move out of the way |
| tracer(False) |
| up() |
| right(90) |
| forward(100) |
| right(90) |
| forward(100) |
| right(180) |
| down() |
| # some text |
| write("startstart", 1) |
| write("start", 1) |
| color("red") |
| # staircase |
| for i in range(5): |
| forward(20) |
| left(90) |
| forward(20) |
| right(90) |
| # filled staircase |
| tracer(True) |
| fill(1) |
| for i in range(5): |
| forward(20) |
| left(90) |
| forward(20) |
| right(90) |
| fill(0) |
| # more text |
| |
| def demo2(): |
| """Demo of some new features.""" |
| speed(1) |
| st() |
| pensize(3) |
| setheading(towards(0, 0)) |
| radius = distance(0, 0)/2.0 |
| rt(90) |
| for _ in range(18): |
| switchpen() |
| circle(radius, 10) |
| write("wait a moment...") |
| while undobufferentries(): |
| undo() |
| reset() |
| lt(90) |
| colormode(255) |
| laenge = 10 |
| pencolor("green") |
| pensize(3) |
| lt(180) |
| for i in range(-2, 16): |
| if i > 0: |
| begin_fill() |
| fillcolor(255-15*i, 0, 15*i) |
| for _ in range(3): |
| fd(laenge) |
| lt(120) |
| laenge += 10 |
| lt(15) |
| speed((speed()+1)%12) |
| end_fill() |
| |
| lt(120) |
| pu() |
| fd(70) |
| rt(30) |
| pd() |
| color("red","yellow") |
| speed(0) |
| fill(1) |
| for _ in range(4): |
| circle(50, 90) |
| rt(90) |
| fd(30) |
| rt(90) |
| fill(0) |
| lt(90) |
| pu() |
| fd(30) |
| pd() |
| shape("turtle") |
| |
| tri = getturtle() |
| tri.resizemode("auto") |
| turtle = Turtle() |
| turtle.resizemode("auto") |
| turtle.shape("turtle") |
| turtle.reset() |
| turtle.left(90) |
| turtle.speed(0) |
| turtle.up() |
| turtle.goto(280, 40) |
| turtle.lt(30) |
| turtle.down() |
| turtle.speed(6) |
| turtle.color("blue","orange") |
| turtle.pensize(2) |
| tri.speed(6) |
| setheading(towards(turtle)) |
| count = 1 |
| while tri.distance(turtle) > 4: |
| turtle.fd(3.5) |
| turtle.lt(0.6) |
| tri.setheading(tri.towards(turtle)) |
| tri.fd(4) |
| if count % 20 == 0: |
| turtle.stamp() |
| tri.stamp() |
| switchpen() |
| count += 1 |
| tri.write("CAUGHT! ", font=("Arial", 16, "bold"), align="right") |
| tri.pencolor("black") |
| tri.pencolor("red") |
| |
| def baba(xdummy, ydummy): |
| clearscreen() |
| bye() |
| |
| time.sleep(2) |
| |
| while undobufferentries(): |
| tri.undo() |
| turtle.undo() |
| tri.fd(50) |
| tri.write(" Click me!", font = ("Courier", 12, "bold") ) |
| tri.onclick(baba, 1) |
| |
| demo1() |
| demo2() |
| exitonclick() |