# graphics.py """Simple object oriented graphics library The library is designed to make it very easy for novice programmers to experiment with computer graphics in an object oriented fashion. It is written by John Zelle for use with the book "Python Programming: An Introduction to Computer Science" (Franklin, Beedle & Associates). LICENSE: This is open-source software released under the terms of the GPL (http://www.gnu.org/licenses/gpl.html). PLATFORMS: The package is a wrapper around Tkinter and should run on any platform where Tkinter is available. INSTALLATION: Put this file somewhere where Python can see it. OVERVIEW: There are two kinds of objects in the library. The GraphWin class implements a window where drawing can be done, and various GraphicsObjects are provided that can be drawn into a GraphWin. As a simple example, here is a complete program to draw a circle of radius 10 centered in a 100x100 window: -------------------------------------------------------------------- from graphics import * def main(): win = GraphWin("My Circle", 100, 100) c = Circle(Point(50,50), 10) c.draw(win) main() -------------------------------------------------------------------- GraphWin objects support coordinate transformation through the setCoords method and pointer-based input through getMouse. The library provides the following graphical objects: Point Line Circle Oval Rectangle Polygon Text Entry (for text-based input) Image Various attributes of graphical objects can be set such as outline-color, fill-color and line-width. Graphical objects also support moving and hiding for animation effects. DOCUMENTATION: For complete documentation, see Chapter 5 of "Python Programming: An Introduction to Computer Science" by John Zelle, published by Franklin, Beedle & Associates. """ # Version 2.0 # Updated Documentation # Made Polygon accept a list of Points in constructor # Made all drawing functions call TK update for easier animations # and to make the overall package work better with # Python 2.3 and IDLE 1.0 under Windows (still some issues). # Removed vestigial turtle graphics. # Added ability to configure font for Entry objects (analogous to Text) # Added setTextColor for Text as an alias of setFill # Changed to class-style exceptions # Fixed cloning of Text objects # Version 1.6 # Fixed Entry so StringVar uses _root as master, solves weird # interaction with shell in Idle # Fixed bug in setCoords. X and Y coordinates can increase in # "non-intuitive" direction. # Tweaked wm_protocol so window is not resizable and kill box closes. # Version 1.5 # Fixed bug in Entry. Can now define entry before creating a # GraphWin. All GraphWins are now toplevel windows and share # a fixed root (called _root). # Version 1.4 # Fix Garbage collection of Tkinter images bug. # Add ability to set text atttributes. # Add Entry boxes. import Tkinter tk = Tkinter from copy import copy import exceptions class GraphicsError(exceptions.Exception): """Generic error class for graphics module exceptions.""" def __init__(self, args=None): self.args=args OBJ_ALREADY_DRAWN = "Object currently drawn" UNSUPPORTED_METHOD = "Object doesn't support operation" BAD_OPTION = "Illegal option value" # create an invisible global main root for all windows _root = tk.Tk() _root.withdraw() class GraphWin(tk.Canvas): """A GraphWin is a toplevel window for displaying graphics.""" def __init__(self, title="Graphics Window", width=200, height=200): master = tk.Toplevel(_root) master.protocol("WM_DELETE_WINDOW", self.close) tk.Canvas.__init__(self, master, width=width, height=height) self.master.title(title) self.pack() master.resizable(0,0) self.foreground = "black" self.items = [] self.mouseX = None self.mouseY = None self.bind("", self._onClick) self.height = height self.width = width self._mouseCallback = None self.trans = None _root.update() def setBackground(self, color): """Set background color of the window""" self.config(bg=color) def setCoords(self, x1, y1, x2, y2): """Set coordinates of window to run from (x1,y1) in the lower-left corner to (x2,y2) in the upper-right corner.""" self.trans = Transform(self.width, self.height, x1, y1, x2, y2) def close(self): """Close the window""" self.master.destroy() self.quit() _root.update() def plot(self, x, y, color="black"): """Set pixel (x,y) to the given color""" xs,ys = self.toScreen(x,y) self.create_line(xs,ys,xs+1,ys, fill=color) _root.update() def plotPixel(self, x, y, color="black"): """Set pixel raw (independent of window coordinates) pixel (x,y) to color""" self.create_line(x,y,x+1,y, fill=color) _root.update() def flush(self): """Update drawing to the window (deprecated)""" self.update_idletasks() def getMouse(self): """Wait for mouse click and return Point object representing the click""" self.mouseX = None self.mouseY = None while self.mouseX == None or self.mouseY == None: self.update() x,y = self.toWorld(self.mouseX, self.mouseY) return Point(x,y) def getHeight(self): """Return the height of the window""" return self.height def getWidth(self): """Return the width of the window""" return self.width def toScreen(self, x, y): trans = self.trans if trans: return self.trans.screen(x,y) else: return x,y def toWorld(self, x, y): trans = self.trans if trans: return self.trans.world(x,y) else: return x,y def setMouseHandler(self, func): self._mouseCallback = func def _onClick(self, e): self.mouseX = e.x self.mouseY = e.y if self._mouseCallback: self._mouseCallback(Point(e.x, e.y)) class Transform: """Internal class for 2-D coordinate transformations""" def __init__(self, w, h, xlow, ylow, xhigh, yhigh): # w, h are width and height of window # (xlow,ylow) coordinates of lower-left [raw (0,h-1)] # (xhigh,yhigh) coordinates of upper-right [raw (w-1,0)] xspan = (xhigh-xlow) yspan = (yhigh-ylow) self.xbase = xlow self.ybase = yhigh self.xscale = xspan/float(w-1) self.yscale = yspan/float(h-1) def screen(self,x,y): # Returns x,y in screen (actually window) coordinates xs = (x-self.xbase) / self.xscale ys = (self.ybase-y) / self.yscale return int(xs+0.5),int(ys+0.5) def world(self,xs,ys): # Returns xs,ys in world coordinates x = xs*self.xscale + self.xbase y = self.ybase - ys*self.yscale return x,y # Default values for various item configuration options. Only a subset of # keys may be present in the configuration dictionary for a given item DEFAULT_CONFIG = {"fill":"", "outline":"black", "width":"1", "arrow":"none", "text":"", "justify":"center", "font": ("helvetica", 12, "normal")} class GraphicsObject: """Generic base class for all of the drawable objects""" # A subclass of GraphicsObject should override _draw and # and _move methods. def __init__(self, options): # options is a list of strings indicating which options are # legal for this object. # When an object is drawn, canvas is set to the GraphWin(canvas) # object where it is drawn and id is the TK identifier of the # drawn shape. self.canvas = None self.id = None # config is the dictionary of configuration options for the widget. config = {} for option in options: config[option] = DEFAULT_CONFIG[option] self.config = config def setFill(self, color): """Set interior color to color""" self._reconfig("fill", color) def setOutline(self, color): """Set outline color to color""" self._reconfig("outline", color) def setWidth(self, width): """Set line weight to width""" self._reconfig("width", width) def draw(self, graphwin): """Draw the object in graphwin, which should be a GraphWin object. A GraphicsObject may only be drawn into one window. Raises an error if attempt made to draw an object that is already visible.""" if self.canvas: raise GraphicsError, OBJ_ALREADY_DRAWN self.canvas=graphwin self.id = self._draw(graphwin, self.config) _root.update() def undraw(self): """Undraw the object (i.e. hide it). Returns silently if the object is not currently drawn.""" if not self.canvas: return self.canvas.delete(self.id) self.canvas = None self.id = None _root.update() def move(self, dx, dy): """move object dx units in x direction and dy units in y direction""" self._move(dx,dy) canvas = self.canvas if canvas: trans = canvas.trans if trans: x = dx/ trans.xscale y = -dy / trans.yscale else: x = dx y = dy self.canvas.move(self.id, x, y) _root.update() def _reconfig(self, option, setting): # Internal method for changing configuration of the object # Raises an error if the option does not exist in the config # dictionary for this object if not self.config.has_key(option): raise GraphicsError, UNSUPPORTED_METHOD options = self.config options[option] = setting if self.canvas: self.canvas.itemconfig(self.id, options) _root.update() def _draw(self, canvas, options): """draws appropriate figure on canvas with options provided Returns Tk id of item drawn""" pass # must override in subclass def _move(self, dx, dy): """updates internal state of object to move it dx,dy units""" pass # must override in subclass class Point(GraphicsObject): def __init__(self, x, y): GraphicsObject.__init__(self, ["outline", "fill"]) self.setFill = self.setOutline self.x = x self.y = y def _draw(self, canvas, options): x,y = canvas.toScreen(self.x,self.y) return canvas.create_rectangle(x,y,x+1,y+1,options) def _move(self, dx, dy): self.x = self.x + dx self.y = self.y + dy def clone(self): other = Point(self.x,self.y) other.config = self.config return other def getX(self): return self.x def getY(self): return self.y class _BBox(GraphicsObject): # Internal base class for objects represented by bounding box # (opposite corners) Line segment is a degenerate case. def __init__(self, p1, p2, options=["outline","width","fill"]): GraphicsObject.__init__(self, options) self.p1 = p1.clone() self.p2 = p2.clone() def _move(self, dx, dy): self.p1.x = self.p1.x + dx self.p1.y = self.p1.y + dy self.p2.x = self.p2.x + dx self.p2.y = self.p2.y + dy def getP1(self): return self.p1 def getP2(self): return self.p2 def getCenter(self): p1 = self.p1 p2 = self.p2 return Point((p1.x+p2.x)/2.0, (p1.y+p2.y)/2.0) class Rectangle(_BBox): def __init__(self, p1, p2): _BBox.__init__(self, p1, p2) def _draw(self, canvas, options): p1 = self.p1 p2 = self.p2 x1,y1 = canvas.toScreen(p1.x,p1.y) x2,y2 = canvas.toScreen(p2.x,p2.y) return canvas.create_rectangle(x1,y1,x2,y2,options) def clone(self): other = Rectangle(self.p1, self.p2) other.config = self.config return other class Oval(_BBox): def __init__(self, p1, p2): _BBox.__init__(self, p1, p2) def clone(self): other = Oval(self.p1, self.p2) other.config = self.config return other def _draw(self, canvas, options): p1 = self.p1 p2 = self.p2 x1,y1 = canvas.toScreen(p1.x,p1.y) x2,y2 = canvas.toScreen(p2.x,p2.y) return canvas.create_oval(x1,y1,x2,y2,options) class Circle(Oval): def __init__(self, center, radius): p1 = Point(center.x-radius, center.y-radius) p2 = Point(center.x+radius, center.y+radius) Oval.__init__(self, p1, p2) self.radius = radius def clone(self): other = Circle(self.getCenter(), self.radius) other.config = self.config return other def getRadius(self): return self.radius class Line(_BBox): def __init__(self, p1, p2): _BBox.__init__(self, p1, p2, ["arrow","fill","width"]) self.setFill(DEFAULT_CONFIG['outline']) self.setOutline = self.setFill def clone(self): other = Line(self.p1, self.p2) other.config = self.config return other def _draw(self, canvas, options): p1 = self.p1 p2 = self.p2 x1,y1 = canvas.toScreen(p1.x,p1.y) x2,y2 = canvas.toScreen(p2.x,p2.y) return canvas.create_line(x1,y1,x2,y2,options) def setArrow(self, option): if not option in ["first","last","both","none"]: raise GraphicsError, BAD_OPTION self._reconfig("arrow", option) class Polygon(GraphicsObject): def __init__(self, *points): # if points passed as a list, extract it if len(points) == 1 and type(points[0] == type([])): points = points[0] self.points = map(Point.clone, points) GraphicsObject.__init__(self, ["outline", "width", "fill"]) def clone(self): other = apply(Polygon, self.points) other.config = self.config return other def getPoints(self): return map(Point.clone, self.points) def _move(self, dx, dy): for p in self.points: p.move(dx,dy) def _draw(self, canvas, options): args = [canvas] for p in self.points: x,y = canvas.toScreen(p.x,p.y) args.append(x) args.append(y) args.append(options) return apply(GraphWin.create_polygon, args) class Text(GraphicsObject): def __init__(self, p, text): GraphicsObject.__init__(self, ["justify","fill","text","font"]) self.setText(text) self.anchor = p.clone() self.setFill(DEFAULT_CONFIG['outline']) self.setOutline = self.setFill def _draw(self, canvas, options): p = self.anchor x,y = canvas.toScreen(p.x,p.y) return canvas.create_text(x,y,options) def _move(self, dx, dy): self.anchor.move(dx,dy) def clone(self): other = Text(self.anchor, self.config['text']) other.config = self.config return other def setText(self,text): self._reconfig("text", text) def getText(self): return self.config["text"] def getAnchor(self): return self.anchor.clone() def setFace(self, face): if face in ['helvetica','arial','courier','times roman']: f,s,b = self.config['font'] self._reconfig("font",(face,s,b)) else: raise GraphicsError, BAD_OPTION def setSize(self, size): if 5 <= size <= 36: f,s,b = self.config['font'] self._reconfig("font", (f,size,b)) else: raise GraphicsError, BAD_OPTION def setStyle(self, style): if style in ['bold','normal','italic', 'bold italic']: f,s,b = self.config['font'] self._reconfig("font", (f,s,style)) else: raise GraphicsError, BAD_OPTION def setTextColor(self, color): self.setFill(color) class Entry(GraphicsObject): def __init__(self, p, width): GraphicsObject.__init__(self, []) self.anchor = p.clone() #print self.anchor self.width = width self.text = tk.StringVar(_root) self.text.set("") self.fill = "gray" self.color = "black" self.font = DEFAULT_CONFIG['font'] self.entry = None def _draw(self, canvas, options): p = self.anchor x,y = canvas.toScreen(p.x,p.y) frm = tk.Frame(canvas.master) self.entry = tk.Entry(frm, width=self.width, textvariable=self.text, bg = self.fill, fg = self.color, font=self.font) self.entry.pack() self.setFill(self.fill) return canvas.create_window(x,y,window=frm) def getText(self): return self.text.get() def _move(self, dx, dy): self.anchor.move(dx,dy) def getAnchor(self): return self.anchor.clone() def clone(self): other = Entry(self.anchor, self.width) other.config = self.config other.text = tk.StringVar() other.text.set(self.text.get()) other.fill = self.fill return other def setText(self, t): self.text.set(t) def setFill(self, color): self.fill = color if self.entry: self.entry.config(bg=color) def _setFontComponent(self, which, value): font = list(self.font) font[which] = value self.font = tuple(font) if self.entry: self.entry.config(font=self.font) def setFace(self, face): if face in ['helvetica','arial','courier','times roman']: self._setFontComponent(0, face) else: raise GraphicsError, BAD_OPTION def setSize(self, size): if 5 <= size <= 36: self._setFontComponent(1,size) else: raise GraphicsError, BAD_OPTION def setStyle(self, style): if style in ['bold','normal','italic', 'bold italic']: self._setFontComponent(2,style) else: raise GraphicsError, BAD_OPTION def setTextColor(self, color): self.color=color if self.entry: self.entry.config(fg=color) class Image(GraphicsObject): idCount = 0 imageCache = {} # keep images here to avoid gc def __init__(self, p, file=None): GraphicsObject.__init__(self, []) self.file = file self.anchor = p.clone() self.imageId = Image.idCount Image.idCount = Image.idCount + 1 def _draw(self, canvas, options): p = self.anchor x,y = canvas.toScreen(p.x,p.y) img = tk.PhotoImage(file=self.file, master=canvas) self.imageCache[self.imageId] = img # save in cache to avoid gc return canvas.create_image(x,y,image=img) def _move(self, dx, dy): self.anchor.move(dx,dy) def undraw(self): del self.imageCache[self.imageId] # allow gc of tk photoimage GraphicsObject.undraw(self) def getAnchor(self): return self.anchor.clone() def clone(self): other = Image(self.anchor, self.file) other.config = self.config return other def color_rgb(r,g,b): """r,g,b are intensities of red, green, and blue in range (0-255) Returns color specifier string for the resulting color""" return "#%02x%02x%02x" % (r,g,b) def test(): win = GraphWin() win.setCoords(0,0,10,10) t = Text(Point(5,5), "Centered Text") t.draw(win) p = Polygon(Point(1,1), Point(5,3), Point(2,7)) p.draw(win) e = Entry(Point(5,6), 10) e.draw(win) win.getMouse() p.setFill("red") p.setOutline("blue") p.setWidth(2) s = "" for pt in p.getPoints(): s = s + "(%0.1f,%0.1f) " % (pt.getX(), pt.getY()) t.setText(e.getText()) e.setFill("green") e.setText("Spam!") e.move(2,0) win.getMouse() p.move(2,3) s = "" for pt in p.getPoints(): s = s + "(%0.1f,%0.1f) " % (pt.getX(), pt.getY()) t.setText(s) win.getMouse() p.undraw() e.undraw() t.setStyle("bold") win.getMouse() t.setStyle("normal") win.getMouse() t.setStyle("italic") win.getMouse() t.setStyle("bold italic") win.getMouse() t.setSize(14) win.getMouse() t.setFace("arial") t.setSize(20) win.getMouse() win.close() if __name__ == "__main__": test()