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rgb-matrix-visualizer
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Python RGB Matrix games and animations https://www.xythobuz.de/ledmatrix_v2.html
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rgb-matrix-visualizer/snake.py

snake.py 6.2KB
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  1. #!/usr/bin/env python3

  2. 

  3. # ----------------------------------------------------------------------------

  4. # "THE BEER-WARE LICENSE" (Revision 42):

  5. # <xythobuz@xythobuz.de> wrote this file.  As long as you retain this notice

  6. # you can do whatever you want with this stuff. If we meet some day, and you

  7. # think this stuff is worth it, you can buy me a beer in return.   Thomas Buck

  8. # ----------------------------------------------------------------------------

  9. 

  10. from scroll import ScrollText

  11. import time

  12. import random

  13. 

  14. class Snake:

  15.     def __init__(self, g, i, sc = (0, 255, 0), d = (0, 0, 255), bg = (0, 0, 0), ts = 0.3, su = 0.75, to = 60.0):

  16.         self.gui = g

  17.         self.input = i

  18.         self.colors = [ bg, sc, d ]

  19.         self.timestep = ts

  20.         self.timeout = to

  21.         self.speedup = su

  22. 

  23.         self.winText = ScrollText(self.gui, "You Won!", "uushi",

  24.                                   2, 50, (0, 255, 0))

  25.         self.loseText = ScrollText(self.gui, "Game Over!", "uushi",

  26.                                    2, 50, (255, 0, 0))

  27.         self.scoreText = ScrollText(self.gui, "Score:", "uushi",

  28.                                     2, 50, sc)

  29. 

  30.         random.seed()

  31.         self.restart()

  32. 

  33.     def restart(self):

  34.         self.start = time.time()

  35.         self.last = time.time()

  36.         self.direction = "r"

  37.         self.directionTmp = "r"

  38.         self.score = 0

  39.         self.data = [[0 for y in range(self.gui.height)] for x in range(self.gui.width)]

  40. 

  41.         self.player = [ (int(self.gui.width / 2), int(self.gui.height / 2)) ]

  42.         self.data[self.player[0][0]][self.player[0][1]] = 1

  43. 

  44.         self.old_keys = {

  45.             "left": False,

  46.             "right": False,

  47.             "up": False,

  48.             "down": False,

  49.             "a": False,

  50.             "b": False,

  51.             "x": False,

  52.             "y": False,

  53.             "l": False,

  54.             "r": False,

  55.             "start": False,

  56.             "select": False,

  57.         }

  58. 

  59.         self.placeDot()

  60. 

  61.     def finished(self):

  62.         if self.input == None:

  63.             # backup timeout for "AI"

  64.             if (time.time() - self.start) >= self.timeout:

  65.                 return True

  66. 

  67.         if self.direction == "":

  68.             # game over screen

  69.             return self.scoreText.finished()

  70. 

  71.         return False

  72. 

  73.     def placeDot(self):

  74.         d = (random.randrange(0, self.gui.width), random.randrange(0, self.gui.height))

  75.         while self.data[d[0]][d[1]] != 0:

  76.             d = (random.randrange(0, self.gui.width), random.randrange(0, self.gui.height))

  77.         self.data[d[0]][d[1]] = 2

  78. 

  79.     def buttons(self):

  80.         keys = self.input.get()

  81. 

  82.         if keys["left"] and (not self.old_keys["left"]) and (not self.old_keys["select"]):

  83.             self.directionTmp = "l"

  84.         elif keys["right"] and (not self.old_keys["right"]) and (not self.old_keys["select"]):

  85.             self.directionTmp = "r"

  86.         elif keys["up"] and (not self.old_keys["up"]) and (not self.old_keys["select"]):

  87.             self.directionTmp = "u"

  88.         elif keys["down"] and (not self.old_keys["down"]) and (not self.old_keys["select"]):

  89.             self.directionTmp = "d"

  90.         elif (keys["select"] and keys["start"] and (not self.old_keys["start"])) or (keys["start"] and keys["select"] and (not self.old_keys["select"])):

  91.             self.restart()

  92. 

  93.         self.old_keys = keys.copy()

  94. 

  95.     def step(self):

  96.         player = self.player[len(self.player) - 1]

  97.         if self.direction == "r":

  98.             player = (player[0] + 1, player[1])

  99.         elif self.direction == "l":

  100.             player = (player[0] - 1, player[1])

  101.         elif self.direction == "u":

  102.             player = (player[0], player[1] - 1)

  103.         elif self.direction == "d":

  104.             player = (player[0], player[1] + 1)

  105. 

  106.         if (player[0] < 0) or (player[1] < 0) or (player[0] >= self.gui.width) or (player[1] >= self.gui.height):

  107.             return False

  108. 

  109.         if self.data[player[0]][player[1]] == 0:

  110.             # remove last tail piece if not on dot

  111.             self.data[self.player[0][0]][self.player[0][1]] = 0

  112.             self.player.pop(0)

  113.         elif self.data[player[0]][player[1]] == 1:

  114.             # snake crashed into itself

  115.             return False

  116.         else:

  117.             # collected a dot

  118.             self.score += 1

  119.             if self.score >= self.gui.width * self.gui.height:

  120.                 return False

  121. 

  122.             self.timestep = self.timestep * self.speedup

  123.             self.placeDot()

  124. 

  125.         self.player.append(player)

  126.         self.data[player[0]][player[1]] = 1

  127.         return True

  128. 

  129.     def finishedEndScreen(self):

  130.         if self.score >= self.gui.width * self.gui.height:

  131.             return self.winText.finished()

  132.         else:

  133.             return self.loseText.finished()

  134. 

  135.     def drawEndScreen(self):

  136.         if self.score >= self.gui.width * self.gui.height:

  137.             self.winText.draw()

  138.         else:

  139.             self.loseText.draw()

  140. 

  141.     def drawScoreScreen(self):

  142.         self.scoreText.draw()

  143. 

  144.     def draw(self):

  145.         if self.input != None:

  146.             self.buttons()

  147.         else:

  148.             # TODO "AI"

  149.             pass

  150. 

  151.         if self.direction == "":

  152.             if self.finishedEndScreen():

  153.                 self.drawScoreScreen()

  154.             else:

  155.                 self.drawEndScreen()

  156.                 self.scoreText.restart()

  157.             return

  158. 

  159.         now = time.time()

  160.         if (now - self.last) >= self.timestep:

  161.             self.last = now

  162. 

  163.             # only allow valid inputs

  164.             tmp = self.direction + self.directionTmp

  165.             if (tmp != "lr") and (tmp != "rl") and (tmp != "ud") and (tmp != "du"):

  166.                 self.direction = self.directionTmp

  167. 

  168.             cont = self.step()

  169.             if cont == False:

  170.                 self.direction = ""

  171.                 self.scoreText.setText("Score: " + str(self.score), "uushi")

  172.                 self.winText.restart()

  173.                 self.loseText.restart()

  174.                 self.scoreText.restart()

  175. 

  176.         for x in range(0, self.gui.width):

  177.             for y in range(0, self.gui.height):

  178.                 self.gui.set_pixel(x, y, self.colors[self.data[x][y]])

  179. 

  180. if __name__ == "__main__":

  181.     # Need to import InputWrapper before initializing RGB Matrix on Pi

  182.     from gamepad import InputWrapper

  183.     i = InputWrapper()

  184. 

  185.     import util

  186.     t = util.getTarget(i)

  187. 

  188.     d = Snake(t, i)

  189.     util.loop(t, d.draw)