Difference between revisions of "Spike pong - Code"
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(Created page with "from spike import PrimeHub, LightMatrix, Button, StatusLight, ForceSensor, MotionSensor, Speaker, ColorSensor, App, DistanceSensor, Motor, MotorPair from spike.control import...") |
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| Line 1: | Line 1: | ||
| + | Return back to project page: [[Spike Prime - Spike pong - Fedor Agarshev|Spike pong - Fedor Agarshev]] | ||
| + | |||
| + | Python code for the Spike Pong project: | ||
| + | |||
| + | <syntaxhighlight lang=python> | ||
from spike import PrimeHub, LightMatrix, Button, StatusLight, ForceSensor, MotionSensor, Speaker, ColorSensor, App, DistanceSensor, Motor, MotorPair | from spike import PrimeHub, LightMatrix, Button, StatusLight, ForceSensor, MotionSensor, Speaker, ColorSensor, App, DistanceSensor, Motor, MotorPair | ||
from spike.control import wait_for_seconds, wait_until, Timer | from spike.control import wait_for_seconds, wait_until, Timer | ||
| Line 20: | Line 25: | ||
def start(self): | def start(self): | ||
while True: | while True: | ||
| − | motor_with_bowl.set_default_speed( | + | motor_with_bowl.set_default_speed(5) |
motor_with_bowl.run_to_position(0) | motor_with_bowl.run_to_position(0) | ||
hub.light_matrix.write(str(self.brush[0]) + ":" + str(self.brush[1])) | hub.light_matrix.write(str(self.brush[0]) + ":" + str(self.brush[1])) | ||
| Line 29: | Line 34: | ||
self.left_contoller_position = motor_left_contoller.get_position() | self.left_contoller_position = motor_left_contoller.get_position() | ||
self.who_win = 0 | self.who_win = 0 | ||
| − | |||
| Line 58: | Line 62: | ||
def left_player_catche(self): | def left_player_catche(self): | ||
| − | def | + | motor_left_contoller.set_degrees_counted(0) |
| − | + | def motor_is_moved_to_the_correct_side(start_position, motor, side): | |
| − | if side == 'north' and | + | if side == 'north' and 0 > motor.get_degrees_counted() + 20: |
return True | return True | ||
| − | elif side == 'south' and | + | elif side == 'south' and 0 < motor.get_degrees_counted() - 20: |
return True | return True | ||
return False | return False | ||
| Line 71: | Line 75: | ||
hub.status_light.on('red') | hub.status_light.on('red') | ||
motor_with_bowl.stop() | motor_with_bowl.stop() | ||
| + | hub.speaker.beep(70, 0.5) | ||
| + | hub.speaker.beep(77, 0.5) | ||
| + | hub.speaker.beep(70, 0.5) | ||
self.who_win = -1 | self.who_win = -1 | ||
break | break | ||
| − | elif 30 < motor_with_bowl.get_position() < 90 and | + | elif 30 < motor_with_bowl.get_position() < 90 and motor_is_moved_to_the_correct_side(self.left_contoller_position, motor_left_contoller, self.side): |
motor_with_bowl.stop() | motor_with_bowl.stop() | ||
| + | hub.speaker.beep(67, 0.1) | ||
self.player_who_catches = -1 | self.player_who_catches = -1 | ||
break | break | ||
| Line 88: | Line 96: | ||
def right_player_catche(self): | def right_player_catche(self): | ||
| − | def | + | motor_right_contoller.set_degrees_counted(0) |
| − | + | def motor_is_moved_to_the_correct_side(start_position, motor, side): | |
| − | if side == 'north' and | + | if side == 'north' and 0 < motor.get_degrees_counted() - 20: |
return True | return True | ||
| − | elif side == 'south' and | + | elif side == 'south' and 0 > motor.get_degrees_counted() + 20: |
return True | return True | ||
return False | return False | ||
| Line 101: | Line 109: | ||
hub.status_light.on('red') | hub.status_light.on('red') | ||
motor_with_bowl.stop() | motor_with_bowl.stop() | ||
| + | hub.speaker.beep(70, 0.5) | ||
| + | hub.speaker.beep(77, 0.5) | ||
| + | hub.speaker.beep(70, 0.5) | ||
self.who_win = 1 | self.who_win = 1 | ||
break | break | ||
| − | elif 270 < motor_with_bowl.get_position() < 330 and | + | elif 270 < motor_with_bowl.get_position() < 330 and motor_is_moved_to_the_correct_side(self.right_contoller_position, motor_right_contoller,self.side): |
motor_with_bowl.stop() | motor_with_bowl.stop() | ||
| + | hub.speaker.beep(67, 0.1) | ||
self.player_who_catches = 1 | self.player_who_catches = 1 | ||
break | break | ||
| Line 135: | Line 147: | ||
game = game() | game = game() | ||
| + | game.play() | ||
| + | </syntaxhighlight> | ||
Latest revision as of 12:53, 23 April 2023
Return back to project page: Spike pong - Fedor Agarshev
Python code for the Spike Pong project:
from spike import PrimeHub, LightMatrix, Button, StatusLight, ForceSensor, MotionSensor, Speaker, ColorSensor, App, DistanceSensor, Motor, MotorPair
from spike.control import wait_for_seconds, wait_until, Timer
from math import *
import random
hub = PrimeHub()
motor_with_bowl = Motor('F')
motor_left_contoller = Motor('A')
motor_right_contoller = Motor('D')
class game:
def __init__(self):
self.brush = [0,0]
self.start()
def some_button_was_pressed(self):
return hub.left_button.was_pressed() or hub.right_button.was_pressed()
def start(self):
while True:
motor_with_bowl.set_default_speed(5)
motor_with_bowl.run_to_position(0)
hub.light_matrix.write(str(self.brush[0]) + ":" + str(self.brush[1]))
hub.light_matrix.show_image("ASLEEP")
wait_until(self.some_button_was_pressed)
self.player_who_catches = random.choice([1,-1])
self.right_contoller_position = motor_right_contoller.get_position()
self.left_contoller_position = motor_left_contoller.get_position()
self.who_win = 0
def play(self):
while True:
hub.status_light.on('blue')
self.generate_arrow()
self.show_arrow()
self.right_contoller_position = motor_right_contoller.get_position()
self.left_contoller_position = motor_left_contoller.get_position()
motor_with_bowl.start(speed=motor_with_bowl.get_default_speed()*self.player_who_catches)
if self.player_who_catches == 1:
self.left_player_catche()
elif self.player_who_catches == -1:
self.right_player_catche()
if self.who_win != 0:
if self.who_win == 1:
self.brush[0] += 1
elif self.who_win == -1:
self.brush[1] += 1
break
if motor_with_bowl.get_default_speed() < 100:
motor_with_bowl.set_default_speed(motor_with_bowl.get_default_speed() + 1)
def left_player_catche(self):
motor_left_contoller.set_degrees_counted(0)
def motor_is_moved_to_the_correct_side(start_position, motor, side):
if side == 'north' and 0 > motor.get_degrees_counted() + 20:
return True
elif side == 'south' and 0 < motor.get_degrees_counted() - 20:
return True
return False
while True:
if 30 == motor_with_bowl.get_position() :
hub.status_light.on('green')
if 90 < motor_with_bowl.get_position() < 100:
hub.status_light.on('red')
motor_with_bowl.stop()
hub.speaker.beep(70, 0.5)
hub.speaker.beep(77, 0.5)
hub.speaker.beep(70, 0.5)
self.who_win = -1
break
elif 30 < motor_with_bowl.get_position() < 90 and motor_is_moved_to_the_correct_side(self.left_contoller_position, motor_left_contoller, self.side):
motor_with_bowl.stop()
hub.speaker.beep(67, 0.1)
self.player_who_catches = -1
break
elif self.motor_is_moved(self.left_contoller_position, motor_left_contoller) and motor_with_bowl.get_position() < 30:
motor_with_bowl.stop()
self.who_win = -1
hub.status_light.on('violet')
hub.light_matrix.show_image("SKULL")
wait_until(self.some_button_was_pressed)
break
return
def right_player_catche(self):
motor_right_contoller.set_degrees_counted(0)
def motor_is_moved_to_the_correct_side(start_position, motor, side):
if side == 'north' and 0 < motor.get_degrees_counted() - 20:
return True
elif side == 'south' and 0 > motor.get_degrees_counted() + 20:
return True
return False
while True:
if motor_with_bowl.get_position() == 330:
hub.status_light.on('green')
if 260 < motor_with_bowl.get_position() < 270:
hub.status_light.on('red')
motor_with_bowl.stop()
hub.speaker.beep(70, 0.5)
hub.speaker.beep(77, 0.5)
hub.speaker.beep(70, 0.5)
self.who_win = 1
break
elif 270 < motor_with_bowl.get_position() < 330 and motor_is_moved_to_the_correct_side(self.right_contoller_position, motor_right_contoller,self.side):
motor_with_bowl.stop()
hub.speaker.beep(67, 0.1)
self.player_who_catches = 1
break
elif self.motor_is_moved(self.right_contoller_position, motor_right_contoller) and motor_with_bowl.get_position() > 330:
motor_with_bowl.stop()
hub.status_light.on('violet')
hub.light_matrix.show_image("SKULL")
wait_until(self.some_button_was_pressed)
self.who_win = 1
break
return
def motor_is_moved(self, start_position, motor):
position = motor.get_position()
if start_position > position + 20 or start_position < position - 20:
return True
return False
def generate_arrow(self):
self.side = random.choice(['south','north'])
def show_arrow(self):
field_arrow = {'south' : 'ARROW_S', 'north': 'ARROW_N'}
hub.light_matrix.show_image(field_arrow[self.side])
game = game()
game.play()
