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| author | R. David Murray <rdmurray@bitdance.com> | 2009-05-05 02:08:52 (GMT) |
|---|---|---|
| committer | R. David Murray <rdmurray@bitdance.com> | 2009-05-05 02:08:52 (GMT) |
| commit | f877feb8063e61b910671ce5e391d96f4a3a2d9f (patch) | |
| tree | af6f59dd75994a95340f4eb9bcf94e92a5143cfc /Doc | |
| parent | b18500d39d791c879e9904ebac293402b4a7cd34 (diff) | |
| download | cpython-f877feb8063e61b910671ce5e391d96f4a3a2d9f.zip cpython-f877feb8063e61b910671ce5e391d96f4a3a2d9f.tar.gz cpython-f877feb8063e61b910671ce5e391d96f4a3a2d9f.tar.bz2 | |
Merged revisions 72149 via svnmerge from
svn+ssh://pythondev@svn.python.org/python/trunk
........
r72149 | r.david.murray | 2009-04-30 08:42:32 -0400 (Thu, 30 Apr 2009) | 4 lines
Make the turtle.rst doctests pass. I have a feeling there should be
more cleanup, but I don't know now to kill turtles. Especially
unexpected ones... ;)
........
Diffstat (limited to 'Doc')
| -rw-r--r-- | Doc/library/turtle.rst | 1033 |
1 files changed, 684 insertions, 349 deletions
diff --git a/Doc/library/turtle.rst b/Doc/library/turtle.rst index 64e8ac6..001f349 100644 --- a/Doc/library/turtle.rst +++ b/Doc/library/turtle.rst @@ -6,6 +6,11 @@ :synopsis: Turtle graphics for Tk .. sectionauthor:: Gregor Lingl <gregor.lingl@aon.at> +.. testsetup:: default + + from turtle import * + turtle = Turtle() + Introduction ============ @@ -220,14 +225,16 @@ Turtle motion Move the turtle forward by the specified *distance*, in the direction the turtle is headed. - >>> turtle.position() - (0.00, 0.00) - >>> turtle.forward(25) - >>> turtle.position() - (25.00,0.00) - >>> turtle.forward(-75) - >>> turtle.position() - (-50.00,0.00) + .. doctest:: + + >>> turtle.position() + (0.00,0.00) + >>> turtle.forward(25) + >>> turtle.position() + (25.00,0.00) + >>> turtle.forward(-75) + >>> turtle.position() + (-50.00,0.00) .. function:: back(distance) @@ -239,11 +246,18 @@ Turtle motion Move the turtle backward by *distance*, opposite to the direction the turtle is headed. Do not change the turtle's heading. - >>> turtle.position() - (0.00, 0.00) - >>> turtle.backward(30) - >>> turtle.position() - (-30.00, 0.00) + .. doctest:: + :hide: + + >>> turtle.goto(0, 0) + + .. doctest:: + + >>> turtle.position() + (0.00,0.00) + >>> turtle.backward(30) + >>> turtle.position() + (-30.00,0.00) .. function:: right(angle) @@ -255,11 +269,18 @@ Turtle motion can be set via the :func:`degrees` and :func:`radians` functions.) Angle orientation depends on the turtle mode, see :func:`mode`. - >>> turtle.heading() - 22.0 - >>> turtle.right(45) - >>> turtle.heading() - 337.0 + .. doctest:: + :hide: + + >>> turtle.setheading(22) + + .. doctest:: + + >>> turtle.heading() + 22.0 + >>> turtle.right(45) + >>> turtle.heading() + 337.0 .. function:: left(angle) @@ -271,37 +292,52 @@ Turtle motion can be set via the :func:`degrees` and :func:`radians` functions.) Angle orientation depends on the turtle mode, see :func:`mode`. - >>> turtle.heading() - 22.0 - >>> turtle.left(45) - >>> turtle.heading() - 67.0 + .. doctest:: + :hide: + + >>> turtle.setheading(22) + + .. doctest:: + + >>> turtle.heading() + 22.0 + >>> turtle.left(45) + >>> turtle.heading() + 67.0 + .. function:: goto(x, y=None) setpos(x, y=None) setposition(x, y=None) - :param x: a number or a pair/vector of numbers - :param y: a number or ``None`` + :param x: a number or a pair/vector of numbers + :param y: a number or ``None`` - If *y* is ``None``, *x* must be a pair of coordinates or a :class:`Vec2D` - (e.g. as returned by :func:`pos`). + If *y* is ``None``, *x* must be a pair of coordinates or a :class:`Vec2D` + (e.g. as returned by :func:`pos`). - Move turtle to an absolute position. If the pen is down, draw line. Do - not change the turtle's orientation. + Move turtle to an absolute position. If the pen is down, draw line. Do + not change the turtle's orientation. - >>> 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) + .. doctest:: + :hide: + + >>> turtle.goto(0, 0) + + .. doctest:: + + >>> 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) .. function:: setx(x) @@ -311,11 +347,18 @@ Turtle motion Set the turtle's first coordinate to *x*, leave second coordinate unchanged. - >>> turtle.position() - (0.00, 240.00) - >>> turtle.setx(10) - >>> turtle.position() - (10.00, 240.00) + .. doctest:: + :hide: + + >>> turtle.goto(0, 240) + + .. doctest:: + + >>> turtle.position() + (0.00,240.00) + >>> turtle.setx(10) + >>> turtle.position() + (10.00,240.00) .. function:: sety(y) @@ -324,11 +367,18 @@ Turtle motion Set the turtle's second coordinate to *y*, leave first coordinate unchanged. - >>> turtle.position() - (0.00, 40.00) - >>> turtle.sety(-10) - >>> turtle.position() - (0.00, -10.00) + .. doctest:: + :hide: + + >>> turtle.goto(0, 40) + + .. doctest:: + + >>> turtle.position() + (0.00,40.00) + >>> turtle.sety(-10) + >>> turtle.position() + (0.00,-10.00) .. function:: setheading(to_angle) @@ -348,9 +398,11 @@ Turtle motion 270 - south 270 - west =================== ==================== - >>> turtle.setheading(90) - >>> turtle.heading() - 90 + .. doctest:: + + >>> turtle.setheading(90) + >>> turtle.heading() + 90.0 .. function:: home() @@ -358,6 +410,24 @@ Turtle motion Move turtle to the origin -- coordinates (0,0) -- and set its heading to its start-orientation (which depends on the mode, see :func:`mode`). + .. doctest:: + :hide: + + >>> turtle.setheading(90) + >>> turtle.goto(0, -10) + + .. doctest:: + + >>> turtle.heading() + 90.0 + >>> turtle.position() + (0.00,-10.00) + >>> turtle.home() + >>> turtle.position() + (0.00,0.00) + >>> turtle.heading() + 0.0 + .. function:: circle(radius, extent=None, steps=None) @@ -377,8 +447,23 @@ Turtle motion determines the number of steps to use. If not given, it will be calculated automatically. May be used to draw regular polygons. - >>> turtle.circle(50) - >>> turtle.circle(120, 180) # draw a semicircle + .. doctest:: + + >>> turtle.home() + >>> turtle.position() + (0.00,0.00) + >>> turtle.heading() + 0.0 + >>> turtle.circle(50) + >>> turtle.position() + (-0.00,0.00) + >>> turtle.heading() + 0.0 + >>> turtle.circle(120, 180) # draw a semicircle + >>> turtle.position() + (0.00,240.00) + >>> turtle.heading() + 180.0 .. function:: dot(size=None, *color) @@ -389,8 +474,16 @@ Turtle motion Draw a circular dot with diameter *size*, using *color*. If *size* is not given, the maximum of pensize+4 and 2*pensize is used. - >>> turtle.dot() - >>> turtle.fd(50); turtle.dot(20, "blue"); turtle.fd(50) + + .. doctest:: + + >>> turtle.home() + >>> turtle.dot() + >>> turtle.fd(50); turtle.dot(20, "blue"); turtle.fd(50) + >>> turtle.position() + (100.00,-0.00) + >>> turtle.heading() + 0.0 .. function:: stamp() @@ -399,10 +492,12 @@ Turtle motion position. Return a stamp_id for that stamp, which can be used to delete it by calling ``clearstamp(stamp_id)``. - >>> turtle.color("blue") - >>> turtle.stamp() - 13 - >>> turtle.fd(50) + .. doctest:: + + >>> turtle.color("blue") + >>> turtle.stamp() + 11 + >>> turtle.fd(50) .. function:: clearstamp(stampid) @@ -412,10 +507,18 @@ Turtle motion Delete stamp with given *stampid*. - >>> turtle.color("blue") - >>> astamp = turtle.stamp() - >>> turtle.fd(50) - >>> turtle.clearstamp(astamp) + .. doctest:: + + >>> turtle.position() + (150.00,-0.00) + >>> turtle.color("blue") + >>> astamp = turtle.stamp() + >>> turtle.fd(50) + >>> turtle.position() + (200.00,-0.00) + >>> turtle.clearstamp(astamp) + >>> turtle.position() + (200.00,-0.00) .. function:: clearstamps(n=None) @@ -426,11 +529,21 @@ Turtle motion all stamps, if *n* > 0 delete first *n* stamps, else if *n* < 0 delete last *n* stamps. - >>> for i in range(8): - ... turtle.stamp(); turtle.fd(30) - >>> turtle.clearstamps(2) - >>> turtle.clearstamps(-2) - >>> turtle.clearstamps() + .. doctest:: + + >>> for i in range(8): + ... turtle.stamp(); turtle.fd(30) + 13 + 14 + 15 + 16 + 17 + 18 + 19 + 20 + >>> turtle.clearstamps(2) + >>> turtle.clearstamps(-2) + >>> turtle.clearstamps() .. function:: undo() @@ -438,11 +551,13 @@ Turtle motion Undo (repeatedly) the last turtle action(s). Number of available undo actions is determined by the size of the undobuffer. - >>> for i in range(4): - ... turtle.fd(50); turtle.lt(80) - ... - >>> for i in range(8): - ... turtle.undo() + .. doctest:: + + >>> for i in range(4): + ... turtle.fd(50); turtle.lt(80) + ... + >>> for i in range(8): + ... turtle.undo() .. function:: speed(speed=None) @@ -468,7 +583,16 @@ Turtle motion place. forward/back makes turtle jump and likewise left/right make the turtle turn instantly. - >>> turtle.speed(3) + .. doctest:: + + >>> turtle.speed() + 3 + >>> turtle.speed('normal') + >>> turtle.speed() + 6 + >>> turtle.speed(9) + >>> turtle.speed() + 9 Tell Turtle's state @@ -479,8 +603,10 @@ Tell Turtle's state Return the turtle's current location (x,y) (as a :class:`Vec2D` vector). - >>> turtle.pos() - (0.00, 240.00) + .. doctest:: + + >>> turtle.pos() + (440.00,-0.00) .. function:: towards(x, y=None) @@ -492,32 +618,41 @@ Tell Turtle's state by (x,y), the vector or the other turtle. This depends on the turtle's start orientation which depends on the mode - "standard"/"world" or "logo"). - >>> turtle.pos() - (10.00, 10.00) - >>> turtle.towards(0,0) - 225.0 + .. doctest:: + + >>> turtle.goto(10, 10) + >>> turtle.towards(0,0) + 225.0 .. function:: xcor() Return the turtle's x coordinate. - >>> reset() - >>> turtle.left(60) - >>> turtle.forward(100) - >>> print turtle.xcor() - 50.0 + .. doctest:: + + >>> turtle.home() + >>> turtle.left(50) + >>> turtle.forward(100) + >>> turtle.pos() + (64.28,76.60) + >>> print turtle.xcor() + 64.2787609687 .. function:: ycor() Return the turtle's y coordinate. - >>> reset() - >>> turtle.left(60) - >>> turtle.forward(100) - >>> print turtle.ycor() - 86.6025403784 + .. doctest:: + + >>> turtle.home() + >>> turtle.left(60) + >>> turtle.forward(100) + >>> print turtle.pos() + (50.00,86.60) + >>> print turtle.ycor() + 86.6025403784 .. function:: heading() @@ -525,9 +660,12 @@ Tell Turtle's state Return the turtle's current heading (value depends on the turtle mode, see :func:`mode`). - >>> turtle.left(67) - >>> turtle.heading() - 67.0 + .. doctest:: + + >>> turtle.home() + >>> turtle.left(67) + >>> turtle.heading() + 67.0 .. function:: distance(x, y=None) @@ -538,14 +676,17 @@ Tell Turtle's state Return the distance from the turtle to (x,y), the given vector, or the given other turtle, in turtle step units. - >>> turtle.pos() - (0.00, 0.00) - >>> turtle.distance(30,40) - 50.0 - >>> joe = Turtle() - >>> joe.forward(77) - >>> turtle.distance(joe) - 77.0 + .. doctest:: + + >>> turtle.home() + >>> turtle.distance(30,40) + 50.0 + >>> turtle.distance((30,40)) + 50.0 + >>> joe = Turtle() + >>> joe.forward(77) + >>> turtle.distance(joe) + 77.0 Settings for measurement @@ -558,12 +699,18 @@ Settings for measurement Set angle measurement units, i.e. set number of "degrees" for a full circle. Default value is 360 degrees. - >>> turtle.left(90) - >>> turtle.heading() - 90 - >>> turtle.degrees(400.0) # angle measurement in gon - >>> turtle.heading() - 100 + .. doctest:: + + >>> turtle.home() + >>> turtle.left(90) + >>> turtle.heading() + 90.0 + >>> turtle.degrees(400.0) # angle measurement in gon + >>> turtle.heading() + 100.0 + >>> turtle.degrees(360) + >>> turtle.heading() + 90.0 .. function:: radians() @@ -571,11 +718,20 @@ Settings for measurement Set the angle measurement units to radians. Equivalent to ``degrees(2*math.pi)``. - >>> turtle.heading() - 90 - >>> turtle.radians() - >>> turtle.heading() - 1.5707963267948966 + .. doctest:: + + >>> turtle.home() + >>> turtle.left(90) + >>> turtle.heading() + 90.0 + >>> turtle.radians() + >>> turtle.heading() + 1.5707963267948966 + + .. doctest:: + :hide: + + >>> turtle.degrees(360) Pen control @@ -607,9 +763,11 @@ Drawing state "auto" and turtleshape is a polygon, that polygon is drawn with the same line thickness. If no argument is given, the current pensize is returned. - >>> turtle.pensize() - 1 - >>> turtle.pensize(10) # from here on lines of width 10 are drawn + .. doctest:: + + >>> turtle.pensize() + 1 + >>> turtle.pensize(10) # from here on lines of width 10 are drawn .. function:: pen(pen=None, **pendict) @@ -631,40 +789,45 @@ Drawing state * "outline": positive number * "tilt": number - This dicionary can be used as argument for a subsequent call to :func:`pen` + This dictionary can be used as argument for a subsequent call to :func:`pen` 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. - >>> 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} + .. doctest:: + :options: +NORMALIZE_WHITESPACE + + >>> turtle.pen(fillcolor="black", pencolor="red", pensize=10) + >>> sorted(turtle.pen().items()) + [('fillcolor', 'black'), ('outline', 1), ('pencolor', 'red'), + ('pendown', True), ('pensize', 10), ('resizemode', 'noresize'), + ('shown', True), ('speed', 9), ('stretchfactor', (1, 1)), ('tilt', 0)] + >>> penstate=turtle.pen() + >>> turtle.color("yellow", "") + >>> turtle.penup() + >>> sorted(turtle.pen().items()) + [('fillcolor', ''), ('outline', 1), ('pencolor', 'yellow'), + ('pendown', False), ('pensize', 10), ('resizemode', 'noresize'), + ('shown', True), ('speed', 9), ('stretchfactor', (1, 1)), ('tilt', 0)] + >>> turtle.pen(penstate, fillcolor="green") + >>> sorted(turtle.pen().items()) + [('fillcolor', 'green'), ('outline', 1), ('pencolor', 'red'), + ('pendown', True), ('pensize', 10), ('resizemode', 'noresize'), + ('shown', True), ('speed', 9), ('stretchfactor', (1, 1)), ('tilt', 0)] .. function:: isdown() Return ``True`` if pen is down, ``False`` if it's up. - >>> turtle.penup() - >>> turtle.isdown() - False - >>> turtle.pendown() - >>> turtle.isdown() - True + .. doctest:: + + >>> turtle.penup() + >>> turtle.isdown() + False + >>> turtle.pendown() + >>> turtle.isdown() + True Color control @@ -677,8 +840,8 @@ Color control 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 + Return the current pencolor as color specification string or + as a tuple (see example). May be used as input to another color/pencolor/fillcolor call. ``pencolor(colorstring)`` @@ -697,11 +860,25 @@ Color control If turtleshape is a polygon, the outline of that polygon is drawn with the newly set pencolor. - >>> turtle.pencolor("brown") - >>> tup = (0.2, 0.8, 0.55) - >>> turtle.pencolor(tup) - >>> turtle.pencolor() - "#33cc8c" + .. doctest:: + + >>> colormode() + 1.0 + >>> turtle.pencolor() + 'red' + >>> turtle.pencolor("brown") + >>> turtle.pencolor() + 'brown' + >>> tup = (0.2, 0.8, 0.55) + >>> turtle.pencolor(tup) + >>> turtle.pencolor() + (0.20000000000000001, 0.80000000000000004, 0.5490196078431373) + >>> colormode(255) + >>> turtle.pencolor() + (51, 204, 140) + >>> turtle.pencolor('#32c18f') + >>> turtle.pencolor() + (50, 193, 143) .. function:: fillcolor(*args) @@ -711,8 +888,8 @@ Color control 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 + Return the current fillcolor as color specification string, possibly + in tuple format (see example). May be used as input to another color/pencolor/fillcolor call. ``fillcolor(colorstring)`` @@ -731,10 +908,20 @@ Color control If turtleshape is a polygon, the interior of that polygon is drawn with the newly set fillcolor. - >>> turtle.fillcolor("violet") - >>> col = turtle.pencolor() - >>> turtle.fillcolor(col) - >>> turtle.fillcolor(0, .5, 0) + .. doctest:: + + >>> turtle.fillcolor("violet") + >>> turtle.fillcolor() + 'violet' + >>> col = turtle.pencolor() + >>> col + (50, 193, 143) + >>> turtle.fillcolor(col) + >>> turtle.fillcolor() + (50, 193, 143) + >>> turtle.fillcolor('#ffffff') + >>> turtle.fillcolor() + (255, 255, 255) .. function:: color(*args) @@ -746,7 +933,7 @@ Color control ``color()`` Return the current pencolor and the current fillcolor as a pair of color - specification strings as returned by :func:`pencolor` and + specification strings or tuples as returned by :func:`pencolor` and :func:`fillcolor`. ``color(colorstring)``, ``color((r,g,b))``, ``color(r,g,b)`` @@ -760,13 +947,14 @@ Color control If turtleshape is a polygon, outline and interior of that polygon is drawn with the newly set colors. - >>> turtle.color("red", "green") - >>> turtle.color() - ("red", "green") - >>> colormode(255) - >>> color((40, 80, 120), (160, 200, 240)) - >>> color() - ("#285078", "#a0c8f0") + .. doctest:: + + >>> turtle.color("red", "green") + >>> turtle.color() + ('red', 'green') + >>> color("#285078", "#a0c8f0") + >>> color() + ((40, 80, 120), (160, 200, 240)) See also: Screen method :func:`colormode`. @@ -775,31 +963,41 @@ See also: Screen method :func:`colormode`. Filling ~~~~~~~ +.. doctest:: + :hide: + + >>> turtle.home() + .. function:: filling() Return fillstate (``True`` if filling, ``False`` else). - >>> turtle.begin_fill() - >>> if turtle.filling(): - ... turtle.pensize(5) - else: - ... turtle.pensize(3) + .. doctest:: + + >>> turtle.begin_fill() + >>> if turtle.filling(): + ... turtle.pensize(5) + ... else: + ... turtle.pensize(3) + .. function:: begin_fill() To be called just before drawing a shape to be filled. - >>> turtle.color("black", "red") - >>> turtle.begin_fill() - >>> turtle.circle(60) - >>> turtle.end_fill() - .. function:: end_fill() Fill the shape drawn after the last call to :func:`begin_fill`. + .. doctest:: + + >>> turtle.color("black", "red") + >>> turtle.begin_fill() + >>> turtle.circle(80) + >>> turtle.end_fill() + More drawing control ~~~~~~~~~~~~~~~~~~~~ @@ -809,15 +1007,19 @@ More drawing control Delete the turtle's drawings from the screen, re-center the turtle and set variables to the default values. - >>> turtle.position() - (0.00,-22.00) - >>> turtle.heading() - 100.0 - >>> turtle.reset() - >>> turtle.position() - (0.00,0.00) - >>> turtle.heading() - 0.0 + .. doctest:: + + >>> turtle.goto(0,-22) + >>> turtle.left(100) + >>> turtle.position() + (0.00,-22.00) + >>> turtle.heading() + 100.0 + >>> turtle.reset() + >>> turtle.position() + (0.00,0.00) + >>> turtle.heading() + 0.0 .. function:: clear() @@ -848,15 +1050,6 @@ Turtle state Visibility ~~~~~~~~~~ -.. function:: showturtle() - st() - - Make the turtle visible. - - >>> turtle.hideturtle() - >>> turtle.showturtle() - - .. function:: hideturtle() ht() @@ -864,7 +1057,19 @@ Visibility middle of doing some complex drawing, because hiding the turtle speeds up the drawing observably. - >>> turtle.hideturtle() + .. doctest:: + + >>> turtle.hideturtle() + + +.. function:: showturtle() + st() + + Make the turtle visible. + + .. doctest:: + + >>> turtle.showturtle() .. function:: isvisible() @@ -872,8 +1077,11 @@ Visibility Return True if the Turtle is shown, False if it's hidden. >>> turtle.hideturtle() - >>> print turtle.isvisible(): + >>> turtle.isvisible() False + >>> turtle.showturtle() + >>> turtle.isvisible() + True Appearance @@ -889,11 +1097,13 @@ Appearance "turtle", "circle", "square", "triangle", "classic". To learn about how to deal with shapes see Screen method :func:`register_shape`. - >>> turtle.shape() - "arrow" - >>> turtle.shape("turtle") - >>> turtle.shape() - "turtle" + .. doctest:: + + >>> turtle.shape() + 'classic' + >>> turtle.shape("turtle") + >>> turtle.shape() + 'turtle' .. function:: resizemode(rmode=None) @@ -912,9 +1122,13 @@ Appearance resizemode("user") is called by :func:`shapesize` when used with arguments. - >>> turtle.resizemode("noresize") - >>> turtle.resizemode() - "noresize" + .. doctest:: + + >>> turtle.resizemode() + 'noresize' + >>> turtle.resizemode("auto") + >>> turtle.resizemode() + 'auto' .. function:: shapesize(stretch_wid=None, stretch_len=None, outline=None) @@ -930,9 +1144,17 @@ Appearance stretchfactor in direction of its orientation, *outline* determines the width of the shapes's outline. - >>> turtle.resizemode("user") - >>> turtle.shapesize(5, 5, 12) - >>> turtle.shapesize(outline=8) + .. doctest:: + + >>> turtle.shapesize() + (1, 1, 1) + >>> turtle.resizemode("user") + >>> turtle.shapesize(5, 5, 12) + >>> turtle.shapesize() + (5, 5, 12) + >>> turtle.shapesize(outline=8) + >>> turtle.shapesize() + (5, 5, 8) .. function:: tilt(angle) @@ -942,12 +1164,15 @@ Appearance Rotate the turtleshape by *angle* from its current tilt-angle, but do *not* change the turtle's heading (direction of movement). - >>> turtle.shape("circle") - >>> turtle.shapesize(5,2) - >>> turtle.tilt(30) - >>> turtle.fd(50) - >>> turtle.tilt(30) - >>> turtle.fd(50) + .. doctest:: + + >>> turtle.reset() + >>> turtle.shape("circle") + >>> turtle.shapesize(5,2) + >>> turtle.tilt(30) + >>> turtle.fd(50) + >>> turtle.tilt(30) + >>> turtle.fd(50) .. function:: settiltangle(angle) @@ -958,14 +1183,15 @@ Appearance regardless of its current tilt-angle. *Do not* change the turtle's heading (direction of movement). - >>> turtle.shape("circle") - >>> turtle.shapesize(5,2) - >>> turtle.settiltangle(45) - >>> stamp() - >>> turtle.fd(50) - >>> turtle.settiltangle(-45) - >>> stamp() - >>> turtle.fd(50) + .. doctest:: + + >>> turtle.reset() + >>> turtle.shape("circle") + >>> turtle.shapesize(5,2) + >>> turtle.settiltangle(45) + >>> turtle.fd(50) + >>> turtle.settiltangle(-45) + >>> turtle.fd(50) .. function:: tiltangle() @@ -973,11 +1199,14 @@ Appearance 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). - >>> turtle.shape("circle") - >>> turtle.shapesize(5,2) - >>> turtle.tilt(45) - >>> turtle.tiltangle() - 45 + .. doctest:: + + >>> turtle.reset() + >>> turtle.shape("circle") + >>> turtle.shapesize(5,2) + >>> turtle.tilt(45) + >>> turtle.tiltangle() + 45.0 Using events @@ -995,11 +1224,13 @@ Using events existing bindings are removed. Example for the anonymous turtle, i.e. the procedural way: - >>> def turn(x, y): - ... left(180) - ... - >>> onclick(turn) # Now clicking into the turtle will turn it. - >>> onclick(None) # event-binding will be removed + .. doctest:: + + >>> def turn(x, y): + ... left(180) + ... + >>> onclick(turn) # Now clicking into the turtle will turn it. + >>> onclick(None) # event-binding will be removed .. function:: onrelease(fun, btn=1, add=None) @@ -1013,15 +1244,17 @@ Using events Bind *fun* to mouse-button-release events on this turtle. If *fun* is ``None``, existing bindings are removed. - >>> class MyTurtle(Turtle): - ... def glow(self,x,y): - ... self.fillcolor("red") - ... def unglow(self,x,y): - ... self.fillcolor("") - ... - >>> turtle = MyTurtle() - >>> turtle.onclick(turtle.glow) # clicking on turtle turns fillcolor red, - >>> turtle.onrelease(turtle.unglow) # releasing turns it to transparent. + .. doctest:: + + >>> class MyTurtle(Turtle): + ... def glow(self,x,y): + ... self.fillcolor("red") + ... def unglow(self,x,y): + ... self.fillcolor("") + ... + >>> turtle = MyTurtle() + >>> turtle.onclick(turtle.glow) # clicking on turtle turns fillcolor red, + >>> turtle.onrelease(turtle.unglow) # releasing turns it to transparent. .. function:: ondrag(fun, btn=1, add=None) @@ -1038,9 +1271,12 @@ Using events Remark: Every sequence of mouse-move-events on a turtle is preceded by a mouse-click event on that turtle. - >>> turtle.ondrag(turtle.goto) - # Subsequently, clicking and dragging the Turtle will move it across - # the screen thereby producing handdrawings (if pen is down). + .. doctest:: + + >>> turtle.ondrag(turtle.goto) + + Subsequently, clicking and dragging the Turtle will move it across + the screen thereby producing handdrawings (if pen is down). Special Turtle methods @@ -1062,8 +1298,18 @@ Special Turtle methods Return the last recorded polygon. - >>> p = turtle.get_poly() - >>> turtle.register_shape("myFavouriteShape", p) + .. doctest:: + + >>> turtle.home() + >>> turtle.begin_poly() + >>> turtle.fd(100) + >>> turtle.left(20) + >>> turtle.fd(30) + >>> turtle.left(60) + >>> turtle.fd(50) + >>> turtle.end_poly() + >>> p = turtle.get_poly() + >>> register_shape("myFavouriteShape", p) .. function:: clone() @@ -1071,8 +1317,10 @@ Special Turtle methods Create and return a clone of the turtle with same position, heading and turtle properties. - >>> mick = Turtle() - >>> joe = mick.clone() + .. doctest:: + + >>> mick = Turtle() + >>> joe = mick.clone() .. function:: getturtle() @@ -1080,12 +1328,12 @@ Special Turtle methods Return the Turtle object itself. Only reasonable use: as a function to return the "anonymous turtle": - >>> pet = getturtle() - >>> pet.fd(50) - >>> pet - <turtle.Turtle object at 0x01417350> - >>> turtles() - [<turtle.Turtle object at 0x01417350>] + .. doctest:: + + >>> pet = getturtle() + >>> pet.fd(50) + >>> pet + <turtle.Turtle object at 0x...> .. function:: getscreen() @@ -1093,10 +1341,12 @@ Special Turtle methods Return the :class:`TurtleScreen` object the turtle is drawing on. TurtleScreen methods can then be called for that object. - >>> ts = turtle.getscreen() - >>> ts - <turtle.Screen object at 0x01417710> - >>> ts.bgcolor("pink") + .. doctest:: + + >>> ts = turtle.getscreen() + >>> ts + <turtle._Screen object at 0x...> + >>> ts.bgcolor("pink") .. function:: setundobuffer(size) @@ -1108,15 +1358,20 @@ Special Turtle methods that can be undone by the :func:`undo` method/function. If *size* is ``None``, the undobuffer is disabled. - >>> turtle.setundobuffer(42) + .. doctest:: + + >>> turtle.setundobuffer(42) .. function:: undobufferentries() Return number of entries in the undobuffer. - >>> while undobufferentries(): - ... undo() + .. doctest:: + + >>> while undobufferentries(): + ... undo() + .. _compoundshapes: @@ -1134,16 +1389,20 @@ below: For example: - >>> s = Shape("compound") - >>> poly1 = ((0,0),(10,-5),(0,10),(-10,-5)) - >>> s.addcomponent(poly1, "red", "blue") - >>> poly2 = ((0,0),(10,-5),(-10,-5)) - >>> s.addcomponent(poly2, "blue", "red") + .. doctest:: + + >>> s = Shape("compound") + >>> poly1 = ((0,0),(10,-5),(0,10),(-10,-5)) + >>> s.addcomponent(poly1, "red", "blue") + >>> poly2 = ((0,0),(10,-5),(-10,-5)) + >>> s.addcomponent(poly2, "blue", "red") 3. Now add the Shape to the Screen's shapelist and use it: - >>> register_shape("myshape", s) - >>> shape("myshape") + .. doctest:: + + >>> register_shape("myshape", s) + >>> shape("myshape") .. note:: @@ -1159,6 +1418,10 @@ Methods of TurtleScreen/Screen and corresponding functions Most of the examples in this section refer to a TurtleScreen instance called ``screen``. +.. doctest:: + :hide: + + >>> screen = Screen() Window control -------------- @@ -1170,12 +1433,14 @@ Window control Set or return background color of the TurtleScreen. - >>> screen.bgcolor("orange") - >>> screen.bgcolor() - "orange" - >>> screen.bgcolor(0.5,0,0.5) - >>> screen.bgcolor() - "#800080" + .. doctest:: + + >>> screen.bgcolor("orange") + >>> screen.bgcolor() + 'orange' + >>> screen.bgcolor("#800080") + >>> screen.bgcolor() + (128, 0, 128) .. function:: bgpic(picname=None) @@ -1185,13 +1450,13 @@ Window control Set background image or return name of current backgroundimage. If *picname* is a filename, set the corresponding image as background. If *picname* is ``"nopic"``, delete background image, if present. If *picname* is ``None``, - return the filename of the current backgroundimage. + return the filename of the current backgroundimage. :: - >>> screen.bgpic() - "nopic" - >>> screen.bgpic("landscape.gif") - >>> screen.bgpic() - "landscape.gif" + >>> screen.bgpic() + 'nopic' + >>> screen.bgpic("landscape.gif") + >>> screen.bgpic() + "landscape.gif" .. function:: clear() @@ -1230,8 +1495,13 @@ Window control method, one can make visible those parts of a drawing which were outside the canvas before. - >>> turtle.screensize(2000,1500) - # e.g. to search for an erroneously escaped turtle ;-) + >>> screen.screensize() + (400, 300) + >>> screen.screensize(2000,1500) + >>> screen.screensize() + (2000, 1500) + + e.g. to search for an erroneously escaped turtle ;-) .. function:: setworldcoordinates(llx, lly, urx, ury) @@ -1248,13 +1518,22 @@ Window control **ATTENTION**: in user-defined coordinate systems angles may appear distorted. - >>> screen.reset() - >>> screen.setworldcoordinates(-50,-7.5,50,7.5) - >>> for _ in range(72): - ... left(10) - ... - >>> for _ in range(8): - ... left(45); fd(2) # a regular octagon + .. doctest:: + + >>> screen.reset() + >>> screen.setworldcoordinates(-50,-7.5,50,7.5) + >>> for _ in range(72): + ... left(10) + ... + >>> for _ in range(8): + ... left(45); fd(2) # a regular octagon + + .. doctest:: + :hide: + + >>> screen.reset() + >>> for t in turtles(): + ... t.reset() Animation control @@ -1270,9 +1549,13 @@ Animation control Optional argument: - >>> screen.delay(15) - >>> screen.delay() - 15 + .. doctest:: + + >>> screen.delay() + 10 + >>> screen.delay(5) + >>> screen.delay() + 5 .. function:: tracer(n=None, delay=None) @@ -1285,12 +1568,14 @@ Animation control used to accelerate the drawing of complex graphics.) Second argument sets delay value (see :func:`delay`). - >>> screen.tracer(8, 25) - >>> dist = 2 - >>> for i in range(200): - ... fd(dist) - ... rt(90) - ... dist += 2 + .. doctest:: + + >>> screen.tracer(8, 25) + >>> dist = 2 + >>> for i in range(200): + ... fd(dist) + ... rt(90) + ... dist += 2 .. function:: update() @@ -1318,12 +1603,14 @@ Using screen events are removed. Remark: in order to be able to register key-events, TurtleScreen must have the focus. (See method :func:`listen`.) - >>> def f(): - ... fd(50) - ... lt(60) - ... - >>> screen.onkey(f, "Up") - >>> screen.listen() + .. doctest:: + + >>> def f(): + ... fd(50) + ... lt(60) + ... + >>> screen.onkey(f, "Up") + >>> screen.listen() .. function:: onclick(fun, btn=1, add=None) @@ -1341,10 +1628,11 @@ Using screen events 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) # remove event binding again + .. doctest:: + + >>> screen.onclick(turtle.goto) # Subsequently clicking into the TurtleScreen will + >>> # make the turtle move to the clicked point. + >>> screen.onclick(None) # remove event binding again .. note:: This TurtleScreen method is available as a global function only under the @@ -1359,14 +1647,16 @@ Using screen events Install a timer that calls *fun* after *t* milliseconds. - >>> running = True - >>> def f(): - if running: - fd(50) - lt(60) - screen.ontimer(f, 250) - >>> f() ### makes the turtle marching around - >>> running = False + .. doctest:: + + >>> running = True + >>> def f(): + ... if running: + ... fd(50) + ... lt(60) + ... screen.ontimer(f, 250) + >>> f() ### makes the turtle march around + >>> running = False Settings and special methods @@ -1391,9 +1681,11 @@ Settings and special methods "logo" upward (north) clockwise ============ ========================= =================== - >>> mode("logo") # resets turtle heading to north - >>> mode() - "logo" + .. doctest:: + + >>> mode("logo") # resets turtle heading to north + >>> mode() + 'logo' .. function:: colormode(cmode=None) @@ -1403,10 +1695,19 @@ Settings and special methods Return the colormode or set it to 1.0 or 255. Subsequently *r*, *g*, *b* values of color triples have to be in the range 0..\ *cmode*. - >>> screen.colormode() - 1.0 - >>> screen.colormode(255) - >>> turtle.pencolor(240,160,80) + .. doctest:: + + >>> screen.colormode(1) + >>> turtle.pencolor(240, 160, 80) + Traceback (most recent call last): + ... + TurtleGraphicsError: bad color sequence: (240, 160, 80) + >>> screen.colormode() + 1.0 + >>> screen.colormode(255) + >>> screen.colormode() + 255 + >>> turtle.pencolor(240,160,80) .. function:: getcanvas() @@ -1414,17 +1715,21 @@ Settings and special methods Return the Canvas of this TurtleScreen. Useful for insiders who know what to do with a Tkinter Canvas. - >>> cv = screen.getcanvas() - >>> cv - <turtle.ScrolledCanvas instance at 0x010742D8> + .. doctest:: + + >>> cv = screen.getcanvas() + >>> cv + <turtle.ScrolledCanvas instance at 0x...> .. function:: getshapes() Return a list of names of all currently available turtle shapes. - >>> screen.getshapes() - ["arrow", "blank", "circle", ..., "turtle"] + .. doctest:: + + >>> screen.getshapes() + ['arrow', 'blank', 'circle', ..., 'turtle'] .. function:: register_shape(name, shape=None) @@ -1433,7 +1738,9 @@ Settings and special methods There are three different ways to call this function: (1) *name* is the name of a gif-file and *shape* is ``None``: Install the - corresponding image shape. + corresponding image shape. :: + + >>> screen.register_shape("turtle.gif") .. note:: Image shapes *do not* rotate when turning the turtle, so they do not @@ -1442,38 +1749,41 @@ Settings and special methods (2) *name* is an arbitrary string and *shape* is a tuple of pairs of coordinates: Install the corresponding polygon shape. + .. doctest:: + + >>> screen.register_shape("triangle", ((5,-3), (0,5), (-5,-3))) + (3) *name* is an arbitrary string and shape is a (compound) :class:`Shape` object: Install the corresponding compound shape. Add a turtle shape to TurtleScreen's shapelist. Only thusly registered shapes can be used by issuing the command ``shape(shapename)``. - >>> screen.register_shape("turtle.gif") - >>> screen.register_shape("triangle", ((5,-3), (0,5), (-5,-3))) - .. function:: turtles() Return the list of turtles on the screen. - >>> for turtle in screen.turtles() - ... turtle.color("red") + .. doctest:: + + >>> for turtle in screen.turtles(): + ... turtle.color("red") .. function:: window_height() - Return the height of the turtle window. + Return the height of the turtle window. :: - >>> screen.window_height() - 480 + >>> screen.window_height() + 480 .. function:: window_width() - Return the width of the turtle window. + Return the width of the turtle window. :: - >>> screen.window_width() - 640 + >>> screen.window_width() + 640 .. _screenspecific: @@ -1515,10 +1825,12 @@ Methods specific to Screen, not inherited from TurtleScreen edge of the screen, if negative from the bottom edge, if None, center window vertically - >>> 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 + .. doctest:: + + >>> 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 .. function:: title(titlestring) @@ -1528,7 +1840,9 @@ Methods specific to Screen, not inherited from TurtleScreen Set title of turtle window to *titlestring*. - >>> screen.title("Welcome to the turtle zoo!") + .. doctest:: + + >>> screen.title("Welcome to the turtle zoo!") The public classes of the module :mod:`turtle` @@ -1541,14 +1855,14 @@ The public classes of the module :mod:`turtle` :param canvas: a :class:`Tkinter.Canvas`, a :class:`ScrolledCanvas` or a :class:`TurtleScreen` - Create a turtle. The turtle has all methods described above as "methods of - Turtle/RawTurtle". + Create a turtle. The turtle has all methods described above as "methods of + Turtle/RawTurtle". .. class:: Turtle() - Subclass of RawTurtle, has the same interface but draws on a default - :class:`Screen` object created automatically when needed for the first time. + Subclass of RawTurtle, has the same interface but draws on a default + :class:`Screen` object created automatically when needed for the first time. .. class:: TurtleScreen(cv) @@ -1596,10 +1910,12 @@ The public classes of the module :mod:`turtle` 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() + .. doctest:: + + >>> 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() See :ref:`compoundshapes`. @@ -1888,3 +2204,22 @@ Changes since Python 2.6 This behaviour corresponds to a ``fill()`` call without arguments in Python 2.6. + +.. doctest:: + :hide: + + >>> for turtle in turtles(): + ... turtle.reset() + >>> turtle.penup() + >>> turtle.goto(-200,25) + >>> turtle.pendown() + >>> turtle.write("No one expects the Spanish Inquisition!", + ... font=("Arial", 20, "normal")) + >>> turtle.penup() + >>> turtle.goto(-100,-50) + >>> turtle.pendown() + >>> turtle.write("Our two chief Turtles are...", + ... font=("Arial", 16, "normal")) + >>> turtle.penup() + >>> turtle.goto(-450,-75) + >>> turtle.write(str(turtles())) |