Activities/Turtle in a Pond: Difference between revisions
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def _turtle_strategy(self, turtle): | def _turtle_strategy(self, turtle): | ||
The turtle argument is a tuple containing the column and row of the current turtle position. | The turtle argument is a tuple containing the column and row of the current turtle position. That is, turtle[0] is the horizontal position and turtle[1] is the vertical position. | ||
Your strategy should return a tuple containing the column and row of the new turtle position, e.g., | Your strategy should return a tuple containing the column and row of the new turtle position, e.g., | ||
| Line 77: | Line 77: | ||
There are some resources that you can use in your program, including: | There are some resources that you can use in your program, including: | ||
;CIRCLE: | ;CIRCLE: a 2x6x2 array of offsets that can used to find the col and row of the dots surrounding the turtle. | ||
;self._dots: the array of dots. | ;self._dots: the array of dots. | ||
;self._pressed: the index of the most recent dot pressed by the user | ;self._pressed: the index of the most recent dot pressed by the user | ||
Revision as of 05:01, 30 November 2011
Turtle in a Pond Activity
Turtle in a Pond is a strategy game. The goal is to surround the turtle before it runs of the screen.
How to play Turtle in a Pond
Did you know that:
- You can load your own strategy for the turtle
The Toolbars
- from left to right
- the Activity toolbar button
- the New Game button
- the Load new strategy button
- the Reload the default strategy button
- the Stop button
Strategy
The default strategy is simple: choose a random direction and go there if the dot is open.
def _turtle_strategy(self, turtle):
c = turtle[1] % 2
n = int(uniform(0, 6))
for i in range(6):
col = turtle[0] + CIRCLE[c][(i + n) % 6][0]
row = turtle[1] + CIRCLE[c][(i + n) % 6][1]
if not self._dots[self._grid_to_dot((col, row))].type:
return [col, row]
return turtle
In this version, the turtle moves down, regardless of whether the dot is open.
def _turtle_strategy(self, turtle):
turtle[1] +=1
return turtle
In this version, the turtle will go off the edge if it can.
def _turtle_strategy(self, turtle):
c = turtle[1] % 2
for i in range(6):
col = turtle[0] + CIRCLE[c][i][0]
row = turtle[1] + CIRCLE[c][i][1]
if self._dots[self._grid_to_dot((col, row))].type is None:
return [col, row]
n = int(uniform(0, 6))
for i in range(6):
col = turtle[0] + CIRCLE[c][(i + n) % 6][0]
row = turtle[1] + CIRCLE[c][(i + n) % 6][1]
if not self._dots[self._grid_to_dot((col, row))].type:
return [col, row]
return turtle
The dots are stored in a 13x13 array. Each dot has an attribute, 'type', that determines it status. The edges have a type=None. Occupied dots have a type=True. Unoccupied dots have a type=False.
Your strategy should start with:
def _turtle_strategy(self, turtle):
The turtle argument is a tuple containing the column and row of the current turtle position. That is, turtle[0] is the horizontal position and turtle[1] is the vertical position.
Your strategy should return a tuple containing the column and row of the new turtle position, e.g.,
return [col, row]
There are some resources that you can use in your program, including:
- CIRCLE
- a 2x6x2 array of offsets that can used to find the col and row of the dots surrounding the turtle.
- self._dots
- the array of dots.
- self._pressed
- the index of the most recent dot pressed by the user
Where to get Turtle in a Pond
The Turtle in a Pond activity is available for download from the Sugar activity portal: Turtle in a Pond
The source code is available on the Sugar Labs Gitorious server.