# Makes (constructs) a   SimpleTurtle   object.
# ----------------------------------------------------------------------
dave = rg.SimpleTurtle()

# ----------------------------------------------------------------------
# Ask the SimpleTurtle objects to do things:
# ----------------------------------------------------------------------
dave.forward(100)
dave.left(90)
dave.forward(200)

# ----------------------------------------------------------------------
# Construct a new turtle and ask it to do things.
# ----------------------------------------------------------------------
matt = rg.SimpleTurtle('turtle')
matt.pen = rg.Pen('red', 30)
matt.speed = 10  # Faster
matt.backward(50)
matt.left(90)
matt.forward(50)
matt.left(90)
matt.pen = rg.Pen('yellow', 10)
matt.forward(50)

########################################################################
#
# DONE: 3.
#   Add a few more line of your own code above to make one of the
#   existing Turtles move some more and/or have different
#   characteristics.
#
# -----------------------------------------------------------------------------
boris = rg.SimpleTurtle()

# -----------------------------------------------------------------------------
# Ask the SimpleTurtle object to do things by applying METHODs to it:
# -----------------------------------------------------------------------------
boris.forward(100)
boris.left(90)
boris.forward(200)

# -----------------------------------------------------------------------------
# Construct a second SimpleTurtle,
# set its  pen  and  speed  INSTANCE VARIABLES, and ask it to do things.
# -----------------------------------------------------------------------------
natasha = rg.SimpleTurtle('turtle')
natasha.pen = rg.Pen('red', 30)  # Second argument is the Pen's thickness
natasha.speed = 10  # Faster

natasha.backward(50)
natasha.right(90)
natasha.forward(50)
natasha.speed = 40
natasha.left(90)
natasha.forward(20)
###############################################################################
#
# DONE: 4.
#   Add a few more line of your own code to make one of the
#   existing SimpleTurtles move some more and/or have different
#   characteristics.
#
    that is 'brown' with thickness 5.
    Then makes the SimpleTurtle move as follows (in the order listed):
      -- forward   150 units
      -- left       90 degrees
      -- forward    50 units
      -- backward  100 units
    """
    ###########################################################################
    # DONE: 4. Implement and test this function, per its doc-string above.
    #   The testing code (in main) is already written for you.
    ###########################################################################


window = rg.TurtleWindow()
turtle = rg.SimpleTurtle()
turtle.pen = rg.Pen('brown', 5)
turtle.forward(150)
turtle.left(90)
turtle.forward(50)
turtle.backward(100)


###############################################################################
# IMPORTANT: Read the NOTE below before you try to implement the next function!
###############################################################################
def try_functions():
    """
    Causes several SimpleTurtles to do the following:
     -- One jumps to (200, 100), then moves (while drawing) to (300, 30)
     -- One jumps to (100, 200), then moves (while drawing) to (0, 0)
     -- One jumps to (-50, 50), then moves (while drawing) to (100, 100)
# -----------------------------------------------------------------------------
# The next few lines show how to:
#   - Ask the SimpleTurtle object to do things by applying METHODs to it.
# The numbers in the parentheses are called ARGUMENTS.
# -----------------------------------------------------------------------------
boris.forward(100)
boris.left(90)
boris.forward(200)

# -----------------------------------------------------------------------------
# The next few lines show how to:
#   - Construct a second SimpleTurtle,
#     set its  pen  and  speed  INSTANCE VARIABLES, and ask it to do things.
# -----------------------------------------------------------------------------
natasha = rg.SimpleTurtle('turtle')
natasha.pen = rg.Pen('red', 30)  # Second argument is the Pen's thickness
natasha.speed = 5  # Bigger means faster, max is usually about 10

natasha.backward(50)
natasha.right(90)
natasha.forward(125)

natasha.speed = 1  # Now slower
natasha.go_to(rg.Point(-100, 200))

###############################################################################
#
# DONE: 4.
#   Add a few more lines of your own code to make one of the existing
#   SimpleTurtles move some more and/or have different characteristics.
#
#    3. Each rg.SimpleTurtle moves inside a LOOP.
#
#  Be creative!  Strive for way-cool pictures!  Abstract pictures rule!
#
#  If you make syntax (notational) errors, no worries -- get help
#  fixing them at either this session OR at the NEXT session.
#
#  Don't forget to COMMIT your work by using  VCS ~ Commit and Push.
########################################################################

import rosegraphics as rg
window = rg.TurtleWindow()

turtle1 = rg.SimpleTurtle('turtle')
turtle1.speed = 7
turtle1.pen = rg.Pen('DarkSalmon', 4)
turtle2 = rg.SimpleTurtle('turtle')
turtle2.speed = 12
turtle2.pen = rg.Pen('lawn green',2)

size = 400

for k in range(15):

    turtle1.draw_regular_polygon(4+k,size/3)
    turtle2.draw_regular_polygon(18-k,size/9)


    turtle1.pen_up()
    turtle1.right(45)
    turtle1.forward(20+k)
#  You should have RUN the PREVIOUS module and READ its code.
#  (Do so now if you have not already done so.)
#
#  Below this comment, add ANY CODE THAT YOUR WANT, as long as:
#    1. You construct at least 2 rg.SimpleTurtle objects.
#    2. Each rg.SimpleTurtle object draws something
#         (by moving, using its rg.Pen).  ANYTHING is fine!
#    3. Each rg.SimpleTurtle moves inside a LOOP.
#
#  Be creative!  Strive for way-cool pictures!  Abstract pictures rule!
#
#  If you make syntax (notational) errors, no worries -- get help
#  fixing them at either this session OR at the NEXT session.
#
#  Don't forget to COMMIT your work by using  VCS ~ Commit and Push.
########################################################################
import rosegraphics as rg
Window = rg.TurtleWindow()
turtle = rg.SimpleTurtle('turtle')
turtle.pen = rg.Pen('green', 2)
turtle.speed = 10
size = 200
for k in range(13):
    turtle.draw_square(size)
    turtle.pen_up()
    turtle.right(45)
    turtle.forward(10)
    turtle.left(45)
    turtle.pen_down()
    size = size - 10
window.close_on_mouse_click()
#    3. Each rg.SimpleTurtle moves inside a LOOP.
#
#  Be creative!  Strive for way-cool pictures!  Abstract pictures rule!
#
#  If you make syntax (notational) errors, no worries -- get help
#  fixing them at either this session OR at the NEXT session.
#
#  Don't forget to COMMIT your work by using  VCS ~ Commit and Push.
########################################################################

import rosegraphics as rg

window = rg.TurtleWindow()

blue_turtle = rg.SimpleTurtle('turtle')
blue_turtle.pen = rg.Pen('midnight blue', 3)
blue_turtle.speed = 20
red_turtle = rg.SimpleTurtle('turtle')
red_turtle.pen = rg.Pen('red', 6)
red_turtle.speed = 20

size = 300
for k in range(15):
    blue_turtle.draw_regular_polygon(5, size)
    blue_turtle.pen_up()
    blue_turtle.right(45 + 2 * k)
    blue_turtle.forward(10)
    blue_turtle.left(45 + 5 * k)
    blue_turtle.pen_down()
    size = size - 10
Esempio n. 8
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#          (by moving, using its rg.Pen).  ANYTHING is fine!
#     3. Each rg.SimpleTurtle moves inside a LOOP.
#
#   Be creative!  Strive for way-cool pictures!  Abstract pictures rule!
#
#   If you make syntax (notational) errors, no worries -- get help
#   fixing them at either this session OR at the NEXT session.
#
#   Don't forget to COMMIT-and-PUSH when you are done with this module.
###############################################################################

import rosegraphics as rg

window = rg.TurtleWindow()
red_turtle = rg.SimpleTurtle('turtle')
red_turtle.pen = rg.Pen('pink', 15)
red_turtle.speed = 15

size = 100

for k in range(10):
    red_turtle.draw_regular_polygon(5, 75)

    red_turtle.pen_up()
    red_turtle.left(16)
    red_turtle.forward(25)
    red_turtle.left(45)
    red_turtle.left(19)
    red_turtle.backward(60)

    red_turtle.pen_down()
def try_methods_and_functions():
    """
    Constructs a SimpleTurtle and sets its   pen  to a new rg.Pen
    that is 'blue' with thickness 5.

    Then makes the SimpleTurtle do the following (in the order listed):

      1. Go  backward  150 units.

      2. Change its speed to 1 (slowest).
         Draw 2 squares whose size (width and height) are 100,
         each "twisted" from the previous by 30 degrees.

      3. Change its speed to 5 (faster).
         Change its Pen's color to 'red'.
         Draw 10 squares whose size (width and height) are 50,
         each "twisted" from the previous by 15 degrees.

      4. Change its speed to 100 (about the fastest possible).
         Change its Pen's thickness to 35.
         Draw 8 squares whose size (width and height) are 300,
         each "twisted" from the previous by 60 degrees.

      5. Change its Pen to be a NEW Pen whose color is 'black'
         and whose thickness is 3.

      6. Go backward  200 units.

      7. Draw a CIRCLE whose radius is 30.

      8. Draw a SQUARE whose sides are each of length 50.
    """
    ###########################################################################
    # TODO: 6. Implement and test this function, per its doc-string above.
    #   The testing code (in main) is already written for you.
    #
    #   NOTE: This function should ** CALL ** the
    #     draw_many_squares
    #   function defined above.  If you don't see why, ** ASK FOR HELP. **
    ###########################################################################

    joey = rg.SimpleTurtle()
    joey.pen = rg.Pen('blue', 5)

    joey.backward(100)

    joey.speed = 1
    draw_many_squares(joey, 2, 100, 30)

    joey.speed = 5
    joey.pen = rg.Pen('red', 5)
    draw_many_squares(joey, 10, 50, 15)

    joey.speed = 100
    joey.pen = rg.Pen('red', 35)
    draw_many_squares(joey, 8, 300, 60)

    joey.pen = rg.Pen('black', 3)

    joey.backward(200)
    joey.draw_circle(30)
    joey.draw_square(50)
# -----------------------------------------------------------------------------
# Ask the SimpleTurtle object to do things by applying METHODs to it:
# -----------------------------------------------------------------------------
boris.forward(100)
boris.left(90)
boris.forward(200)

boris.right(90)
boris.forward(100)

# -----------------------------------------------------------------------------
# Construct a second SimpleTurtle,
# set its  pen  and  speed  INSTANCE VARIABLES, and ask it to do things.
# -----------------------------------------------------------------------------
natasha = rg.SimpleTurtle('turtle')
natasha.pen = rg.Pen('red', 30)  # Second argument is the Pen's thickness
natasha.speed = 10  # Faster

natasha.backward(50)
natasha.right(90)
natasha.forward(50)
# -----------------------------------------------------------------------------
# My own code
# ------------------------------------------------------------------------------
shuri = rg.SimpleTurtle('turtle')
shuri.pen = rg.Pen('blue', 40)
shuri.speed = 20

shuri.right(90)
shuri.backward(50)
shuri.forward(50)
Esempio n. 11
0
# ----------------------------------------------------------------------
# Ask the SimpleTurtle objects to do things:
# ----------------------------------------------------------------------
dave.forward(100)
dave.left(45)
dave.forward(200)
dave.right(45)
dave.backward(400)


# ----------------------------------------------------------------------
# Construct a new turtle and ask it to do things.
# ----------------------------------------------------------------------
matt = rg.SimpleTurtle('turtle')
matt.pen = rg.Pen('red', 30)
matt.speed = 10  # Faster
matt.backward(50)
matt.left(90)
matt.forward(50)
matt.right (45)
matt.backward(400)


########################################################################
#
# DONE: 3.
#   Add a few more line of your own code above to make one of the
#   existing Turtles move some more and/or have different
#   characteristics.
#
# -----------------------------------------------------------------------------
boris = rg.SimpleTurtle()

# -----------------------------------------------------------------------------
# Ask the SimpleTurtle object to do things by applying METHODs to it:
# -----------------------------------------------------------------------------
boris.forward(100)
boris.left(90)
boris.forward(200)

# -----------------------------------------------------------------------------
# Construct a second SimpleTurtle,
# set its  pen  and  speed  INSTANCE VARIABLES, and ask it to do things.
# -----------------------------------------------------------------------------
natasha = rg.SimpleTurtle('turtle')
natasha.pen = rg.Pen('red', 30)  # Second argument is the Pen's thickness
natasha.speed = 10  # Faster

natasha.backward(50)
natasha.right(90)
natasha.forward(50)
natasha.right(45)
natasha.forward(75)
natasha.right(45)
natasha.forward(200)
###############################################################################
#
# Done: 4.
#   Add a few more line of your own code to make one of the
#   existing SimpleTurtles move some more and/or have different
#   characteristics.
def turtle4():

    mo = rg.SimpleTurtle()
    mo.pen = rg.Pen("plum", 12)
    mo.forward(200)
    mo.right(50)
Esempio n. 14
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#         (by moving, using its rg.Pen).  ANYTHING is fine!
#    3. Each rg.SimpleTurtle moves inside a LOOP.
#
#  Be creative!  Strive for way-cool pictures!  Abstract pictures rule!
#
#  If you make syntax (notational) errors, no worries -- get help
#  fixing them at either this session OR at the NEXT session.
#
#  Don't forget to COMMIT your work by using  VCS ~ Commit and Push.
########################################################################
import rosegraphics as rg

window = rg.TurtleWindow()

t95 = rg.SimpleTurtle('turtle')
t95.pen = rg.Pen('orange',5)
t95.speed = 10

for a in range(10):

    t95.draw_circle(radius=10+10*a)

    t95.pen_up()
    t95.right(90)
    t95.forward(10)
    t95.left(90)

    t95.pen_down()

t110e3 = rg.SimpleTurtle('turtle')
t110e3.pen = rg.Pen('red',3)
#  Be creative!  Strive for way-cool pictures!  Abstract pictures rule!
#
#  If you make syntax (notational) errors, no worries -- get help
#  fixing them at either this session OR at the NEXT session.
#
#  Don't forget to COMMIT your work by using  VCS ~ Commit and Push.
########################################################################

import rosegraphics as rg

window = rg.TurtleWindow

Bob = rg.SimpleTurtle('turtle')
Jack = rg.SimpleTurtle('turtle')

Bob.pen = rg.Pen('purple', 2)
Jack.pen = rg.Pen('red', 2)

Bob.speed = 10
Jack.speed = 10

size1 = 50
size2 = 100

for k in range(10):
    Bob.draw_circle(size1)
    Jack.draw_circle(size1)
    Bob.pen_up()
    Bob.right(45)
    Bob.forward(10)
    Bob.left(45)
Esempio n. 16
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#    2. Each rg.SimpleTurtle object draws something
#         (by moving, using its rg.Pen).  ANYTHING is fine!
#    3. Each rg.SimpleTurtle moves inside a LOOP.
#
#  Be creative!  Strive for way-cool pictures!  Abstract pictures rule!
#
#  If you make syntax (notational) errors, no worries -- get help
#  fixing them at either this session OR at the NEXT session.
#
#  Don't forget to COMMIT your work by using  VCS ~ Commit and Push.
########################################################################
import rosegraphics as rg

window = rg.TurtleWindow()
turtle1 = rg.SimpleTurtle('turtle')
turtle1.pen = rg.Pen('red', 10)
turtle2 = rg.SimpleTurtle('turtle')
turtle2.pen = rg.Pen('DeepSkyBlue', 10)
turtle1.speed = 100
turtle2.speed = 100

#put turtles in starting position
turtle1.pen_up()
turtle2.pen_up()
turtle1.forward(100)
turtle2.right(180)
turtle2.forward(100)

#define size
size = 100
Esempio n. 17
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# The next few lines show how to:
#   - Ask the SimpleTurtle object to do things by applying METHODs to it.
# The numbers in the parentheses are called ARGUMENTS.
# -----------------------------------------------------------------------------
boris.forward(100)
boris.left(90)
boris.forward(200)

# -----------------------------------------------------------------------------
# The next few lines show how to:
#   - Construct a second SimpleTurtle
#       (using an optional argument that sets the shape displayed - try it!),
#     set its  pen  and  speed  INSTANCE VARIABLES, and ask it to do things.
# -----------------------------------------------------------------------------
natasha = rg.SimpleTurtle("turtle")
natasha.pen = rg.Pen("red", 30)  # Second argument is the Pen's thickness
natasha.speed = 5  # Bigger means faster, max is usually about 10

natasha.backward(50)
natasha.right(90)
natasha.forward(125)

natasha.speed = 1  # Now slower
natasha.go_to(rg.Point(-100, 200))

###############################################################################
# TODO: 4.
#   Add a few more lines of your own code to make one of the existing
#   SimpleTurtles move some more and/or have different characteristics.
#  _
#      ** Nothing fancy is required. **
Esempio n. 18
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#     2. Each rg.SimpleTurtle object draws something
#          (by moving, using its rg.Pen).  ANYTHING is fine!
#     3. Each rg.SimpleTurtle moves inside a LOOP.
#
#   Be creative!  Strive for way-cool pictures!  Abstract pictures rule!
#
#   If you make syntax (notational) errors, no worries -- get help
#   fixing them at either this session OR at the NEXT session.
#
#   Don't forget to COMMIT-and-PUSH when you are done with this module.
#
########################################################################
import rosegraphics as rg
window = rg.TurtleWindow()
turtle_one = rg.SimpleTurtle('turtle')
turtle_one.pen = rg.Pen('Red', 5)
turtle_one.speed = 15
size = 120
for k in range(12):
    turtle_one.draw_circle(size)
    turtle_one.pen_up()
    turtle_one.right(30)
    turtle_one.pen_down()
    size = size - 5
turtle_two = rg.SimpleTurtle('turtle')
turtle_two_pen = rg.Pen('Green', 10)
turtle_two.forward(5)
turtle_two.speed = 10
for k in range(8):
    turtle_two.draw_square(200)
    turtle_two.pen_up()
Esempio n. 19
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# -----------------------------------------------------------------------------
# The next few lines show how to:
#   - Ask the SimpleTurtle object to do things by applying METHODs to it.
# The numbers in the parentheses are called ARGUMENTS.
# -----------------------------------------------------------------------------
boris.forward(100)
boris.left(90)
boris.forward(200)

# -----------------------------------------------------------------------------
# The next few lines show how to:
#   - Construct a second SimpleTurtle,
#     set its  pen  and  speed  INSTANCE VARIABLES, and ask it to do things.
# -----------------------------------------------------------------------------
natasha = rg.SimpleTurtle('turtle')
natasha.pen = rg.Pen('red', 30)  # Second argument is the Pen's thickness
natasha.speed = 5  # Bigger means faster, max is usually about 10

natasha.backward(50)
natasha.right(90)
natasha.forward(125)
natasha.left(60)

natasha.speed = 1  # Now slower
natasha.go_to(rg.Point(-100, 200))

###############################################################################
#
# DONE: 4.
#   Add a few more lines of your own code to make one of the existing
#   SimpleTurtles move some more and/or have different characteristics.
# The numbers in the parentheses are called ARGUMENTS.
# -----------------------------------------------------------------------------
boris.forward(100)
boris.left(90)
boris.forward(200)

boris.right(225)
boris.forward(300)

# -----------------------------------------------------------------------------
# The next few lines show how to:
#   - Construct a second SimpleTurtle,
#     set its  pen  and  speed  INSTANCE VARIABLES, and ask it to do things.
# -----------------------------------------------------------------------------
natasha = rg.SimpleTurtle('turtle')
natasha.pen = rg.Pen('red', 30)  # Second argument is the Pen's thickness
natasha.speed = 5  # Bigger means faster, max is usually about 10

natasha.backward(50)
natasha.right(90)
natasha.forward(125)

natasha.speed = 1  # Now slower
natasha.go_to(rg.Point(-100, 200))

natasha.speed = 7
natasha.forward(100)
natasha.right(45)

###############################################################################
#
# -----------------------------------------------------------------------------
boris = rg.SimpleTurtle()

# -----------------------------------------------------------------------------
# Ask the SimpleTurtle object to do things by applying METHODs to it:
# -----------------------------------------------------------------------------
boris.forward(100)
boris.left(90)
boris.forward(200)

# -----------------------------------------------------------------------------
# Construct a second SimpleTurtle,
# set its  pen  and  speed  INSTANCE VARIABLES, and ask it to do things.
# -----------------------------------------------------------------------------
natasha = rg.SimpleTurtle('turtle')
natasha.pen = rg.Pen('red', 30)  # Second argument is the Pen's thickness
natasha.speed = 10  # Faster

natasha.backward(50)
natasha.right(90)
natasha.forward(50)
natasha.right(45)
natasha.forward(39)

steve = rg.SimpleTurtle('turtle')
steve.pen = rg.Pen('blue', 15)  # Second argument is the Pen's thickness
steve.speed = 5  # Faster

steve.left(30)
steve.forward(30)
steve.left(30)
Esempio n. 22
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# -----------------------------------------------------------------------------
# The next few lines show how to:
#   - Ask the SimpleTurtle object to do things by applying METHODs to it.
# The numbers in the parentheses are called ARGUMENTS.
# -----------------------------------------------------------------------------
boris.forward(100)
boris.left(90)
boris.forward(200)

# -----------------------------------------------------------------------------
# The next few lines show how to:
#   - Construct a second SimpleTurtle,
#     set its  pen  and  speed  INSTANCE VARIABLES, and ask it to do things.
# -----------------------------------------------------------------------------
natasha = rg.SimpleTurtle('turtle')
natasha.pen = rg.Pen('red', 30)  # Second argument is the Pen's thickness
natasha.speed = 10  # Faster

natasha.backward(50)
natasha.right(90)
natasha.forward(50)

natasha.speed = 1  # Now slower
natasha.go_to(rg.Point(-100, 200))

###############################################################################
#
# DONE: 4.
#   Add a few more lines of your own code to make one of the
#   existing SimpleTurtles move some more and/or have different
#   characteristics.
# Makes (constructs) a   SimpleTurtle   object.
# ----------------------------------------------------------------------
dave = rg.SimpleTurtle()

# ----------------------------------------------------------------------
# Ask the SimpleTurtle objects to do things:
# ----------------------------------------------------------------------
dave.forward(100)
dave.left(90)
dave.forward(200)

# ----------------------------------------------------------------------
# Construct a new turtle and ask it to do things.
# ----------------------------------------------------------------------
matt = rg.SimpleTurtle('turtle')
matt.pen = rg.Pen('red', 30)
matt.speed = 10  # Faster
matt.backward(50)
matt.left(90)
matt.forward(50)
matt.pen = rg.Pen("green", 22)
matt.right(55)



########################################################################
#
# doneTODO: 3.
#   Add a few more line of your own code above to make one of the
#   existing Turtles move some more and/or have different
#   characteristics.
     pausing after typing the DOT (period, full stop).
     The window that pops up give lots of clues for what you can do!
        rg.
        rg.SimpleTurtle().
        rg.Pen().
        rg.PaintBucket().

Authors: David Mutchler, Dave Fisher, Vibha Alangar, Amanda Stouder,
         and their colleagues.
"""
import rosegraphics as rg

window = rg.TurtleWindow()

blue_turtle = rg.SimpleTurtle('turtle')
blue_turtle.pen = rg.Pen('midnight blue', 3)
blue_turtle.speed = 20  # Fast

# The first square will be 300 x 300 pixels:
size = 300

# Do the indented code 13 times.  Each time draws a square.
for k in range(40):

    # Put the pen down, then draw a square of the given size:
    blue_turtle.draw_square(size)

    # Move a little below and to the right of where the previous
    # square started.  Do this with the pen up (so nothing is drawn).
    blue_turtle.pen_up()
    blue_turtle.right(45)
Esempio n. 25
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def try_methods_and_functions():
    # IMPORTANT: Read the NOTE below before you try to solve this TO-DO!
    """
    Constructs a SimpleTurtle and sets its   pen  to a new rg.Pen
    that is 'blue' with thickness 5.

    Then makes the SimpleTurtle do the following (in the order listed):

      1. Go  backward  150 units.

      2. Change its speed to 1 (slowest).
         Draw 2 squares whose size (width and height) are 100,
         each "twisted" from the previous by 30 degrees.

      3. Change its speed to 5 (faster).
         Change its Pen's color to 'red'.
         Draw 10 squares whose size (width and height) are 50,
         each "twisted" from the previous by 15 degrees.

      4. Change its speed to 100 (about the fastest possible).
         Change its Pen's thickness to 35.
         Draw 8 squares whose size (width and height) are 300,
         each "twisted" from the previous by 60 degrees.

      5. Changes its Pen to be a NEW Pen whose color is 'black'
         and whose thickness is 3.

      6. Goes backward  200 units.

      7. Draw a CIRCLE whose radius is 30.

      8. Draw a SQUARE whose sides are each of length 50.
    """
    ###########################################################################
    # DONE: 5. Implement and test this function, per its doc-string above.
    #    (To test it, put a statement in   main   that calls this function.)
    #
    #   NOTE: This function should ** CALL ** the
    #     draw_many_squares
    #   function defined above.  If you don't see why, ** ASK FOR HELP. **
    #
    ###########################################################################

    jim = rg.SimpleTurtle()
    jim.backward(150)

    jim.speed = 2
    draw_many_squares(jim, 2, 100, 30)

    jim.speed = 5
    jim.pen = rg.Pen('red', 5)
    draw_many_squares(jim, 10, 50, 15)

    jim.speed = 100
    jim.pen = rg.Pen('red', 35)
    draw_many_squares(jim, 8, 300, 60)

    jim.pen = rg.Pen('black', 3)

    jim.backward(300)

    jim.draw_circle(30)

    jim.draw_square(50)
Esempio n. 26
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#    - Makes the SimpleTurtle go 150 pixels straight DOWN.
#
#   Don't forget to:
#     - import rosegraphics and construct a TurtleWindow
#          at the BEGINNING of your code, and to
#     - ask your TurtleWindow to   close_on_mouse_click
#          as the LAST line of your code.
#   See the beginning and end of m4e_loopy_turtles for an example.
#
#   As always, test by running the module.
#   As always, COMMIT-and-PUSH when you are done with this module.
#
########################################################################

import rosegraphics as rg
window = rg.TurtleWindow()

turtle = rg.SimpleTurtle('turtle')
turtle.pen = rg.Pen('blue', 20)
turtle.speed = 1

turtle.left(90)
turtle.forward(200)
turtle.pen_up()
turtle.go_to(rg.Point(100, -40))
turtle.pen_down()

turtle.pen = rg.Pen('green', 10)
turtle.backward(150)

window.close_on_mouse_click()
Esempio n. 27
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#   Don't forget to:
#     - import rosegraphics and construct a TurtleWindow
#          at the BEGINNING of your code, and to
#     - ask your TurtleWindow to   close_on_mouse_click
#          as the LAST line of your code.
#   See the beginning and end of m4e_loopy_turtles for an example.
#
#   As always, test by running the module.
#   As always, COMMIT-and-PUSH when you are done with this module.
#
########################################################################
import rosegraphics as rg
window = rg.TurtleWindow()

top_turtle = rg.SimpleTurtle('classic')
top_turtle.pen = rg.Pen('red', 3)

top_turtle.left(90)
top_turtle.forward(200)

top_turtle.pen_up()
top_turtle.go_to(rg.Point(-100, 200))

top_turtle.pen_down()

top_turtle.pen = rg.Pen('green', 10)

top_turtle.right(180)
top_turtle.forward(150)

window.close_on_mouse_click()
Esempio n. 28
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# Makes (constructs) a   SimpleTurtle   object.
# ----------------------------------------------------------------------
dave = rg.SimpleTurtle()

# ----------------------------------------------------------------------
# Ask the SimpleTurtle objects to do things:
# ----------------------------------------------------------------------
dave.forward(100)
dave.left(90)
dave.forward(200)

# ----------------------------------------------------------------------
# Construct a new turtle and ask it to do things.
# ----------------------------------------------------------------------
matt = rg.SimpleTurtle('turtle')
matt.pen = rg.Pen('red', 30)
matt.speed = 10  # Faster
matt.backward(50)
matt.left(90)
matt.forward(50)

dave.pen = rg.Pen('blue', 15)
dave.right(45)
dave.backward(200)

########################################################################
#
# DONE: 3.
#   Add a few more line of your own code above to make one of the
#   existing Turtles move some more and/or have different
#   characteristics.
Authors: David Mutchler, Vibha Alangar, Matt Boutell, Dave Fisher,
         Amanda Stouder, Aaron Wilkin, and their colleagues.
"""
import rosegraphics as rg

###############################################################################
# One window, for two examples.
###############################################################################
window = rg.TurtleWindow()

###############################################################################
# Example 1.
###############################################################################
blue_turtle = rg.SimpleTurtle('turtle')
blue_turtle.pen = rg.Pen('midnight blue', 3)
blue_turtle.speed = 20  # Fast

# The first square will be 300 x 300 pixels:
size = 150

# Do the indented code 6 times.  Each time draws a square.
for k in range(6):

    # Put the pen down, then draw a square of the given size:
    blue_turtle.draw_square(size)

    # Move a little below and to the right of where the previous
    # square started.  Do this with the pen up (so nothing is drawn).
    blue_turtle.pen_up()
    blue_turtle.right(45)
Esempio n. 30
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#         (by moving, using its rg.Pen).  ANYTHING is fine!
#    3. Each rg.SimpleTurtle moves inside a LOOP.
#
#  Be creative!  Strive for way-cool pictures!  Abstract pictures rule!
#
#  If you make syntax (notational) errors, no worries -- get help
#  fixing them at either this session OR at the NEXT session.
#
#  Don't forget to COMMIT your work by using  VCS ~ Commit and Push.
########################################################################

import rosegraphics as rg

window = rg.TurtleWindow()
alexis = rg.SimpleTurtle('turtle')
alexis.pen = rg.Pen('red', 5)
alexis.speed = 30
size = 300

for k in range(13):

    alexis.draw_square(30)

    alexis.pen_up()
    alexis.left(12)
    alexis.forward(4)

    alexis.pen_down()
    size = size

    alexis.pen_up()