foo
This commit is contained in:
parent
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@ -1,4 +1,4 @@
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#!/usr/bin/env python
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#!/usr/bin/env python3
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# fork of https://github.com/SmartViking/MaTris by deinkoks
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# removed everythin but elemental gameplay, added multiplayer controlled via mqtt
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# most ugly thing: a mqtt client for every player due to callback limitations
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@ -9,7 +9,7 @@ import os
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import paho.mqtt.client as mqtt
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from tetrominoes import list_of_tetrominoes
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from tetrominoes import list_of_tetrominoes, shape_str
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from tetrominoes import rotate
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from scores import load_score, write_score
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@ -21,12 +21,16 @@ def get_sound(filename):
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return pygame.mixer.Sound(os.path.join(os.path.dirname(__file__), "resources", filename))
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ENABLE_STDIO = True #dump game on stdio, not sure if works as intended.
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ENABLE_MQTT = True # for debugging w/o a broker
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ENABLE_SOUND = False
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ENABLE_KEYBOARD_CONTROLS = False # working for player1. mostly
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MQTT_TOPIC = "deckentetris/"
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PLAYER = 10 # player count, 1 columns per player
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BGCOLOR = (15, 15, 20)
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BORDERCOLOR = (140, 140, 140)
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BLOCKSIZE = 16 # set this to 1 if run on the pixeldecke
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GAMEOVER_COLOR = (140, 100, 100)
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BLOCKSIZE = 1 # set this to 1 if run on the pixeldecke
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BORDERWIDTH = 0
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MATRIS_OFFSET = 0
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@ -34,14 +38,14 @@ MATRIS_OFFSET = 0
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# we have 8pixel columns with a height of 5*8px for every player
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# lets use one for the next block, but 2 lines are hidden
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MATRIX_WIDTH = 8
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MATRIX_HEIGHT = (4+2)*8
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MATRIX_HEIGHT = (4)*8
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LEFT_MARGIN = 0
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WIDTH = (MATRIX_WIDTH*BLOCKSIZE + MATRIS_OFFSET*2 + LEFT_MARGIN) * PLAYER
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HEIGHT = (MATRIX_HEIGHT-2)*BLOCKSIZE + MATRIS_OFFSET*2
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HEIGHT += BLOCKSIZE*8 # additional tile for preview above game
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HEIGHT += 2 # height fix for reasons
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TRICKY_CENTERX = WIDTH-(WIDTH-(MATRIS_OFFSET+BLOCKSIZE*MATRIX_WIDTH))/2
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VISIBLE_MATRIX_HEIGHT = MATRIX_HEIGHT - 2
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@ -60,22 +64,18 @@ class Matris(object):
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self.request_movement('left')
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elif payload == "right":
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self.request_movement('right')
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else:
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pass #print the matrix
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elif payload == "update":
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self.mqtt.publish(MQTT_TOPIC+str(offset)+"/current", payload=shape_str(self.current_tetromino.shape), qos=0, retain=False)
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self.mqtt.publish(MQTT_TOPIC+str(offset)+"/next", payload=shape_str(self.next_tetromino.shape), qos=0, retain=False)
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def __init__(self, offset):
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self.surface = screen.subsurface(Rect((MATRIX_WIDTH * BLOCKSIZE*offset, 8*BLOCKSIZE),
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(MATRIX_WIDTH * BLOCKSIZE, (MATRIX_HEIGHT-2) * BLOCKSIZE)))
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self.mqtt = mqtt.Client()
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self.mqtt.connect("mqtt.chaospott.de", port=1883, keepalive=60, bind_address="")
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self.offset = offset
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self.matrix = dict()
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for y in range(MATRIX_HEIGHT):
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for x in range(MATRIX_WIDTH):
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self.matrix[(y,x)] = None
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self.mqtt.subscribe("deckentetris/"+str(offset)+"/action", 2)
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self.mqtt.on_message = self.on_msg
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self.mqtt.loop_start()
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"""
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`self.matrix` is the current state of the tetris board, that is, it records which squares are
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currently occupied. It does not include the falling tetromino. The information relating to the
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@ -109,6 +109,15 @@ class Matris(object):
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self.linescleared_sound = get_sound("linecleared.wav")
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self.highscorebeaten_sound = get_sound("highscorebeaten.wav")
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if ENABLE_MQTT:
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self.mqtt = mqtt.Client()
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self.mqtt.connect("mqtt.chaospott.de", port=1883, keepalive=60, bind_address="")
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self.mqtt.subscribe(MQTT_TOPIC+str(offset)+"/action", 2)
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self.mqtt.on_message = self.on_msg
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self.mqtt.loop_start()
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self.mqtt.publish(MQTT_TOPIC+str(offset)+"/current", payload=shape_str(self.current_tetromino.shape), qos=0, retain=False)
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self.mqtt.publish(MQTT_TOPIC+str(offset)+"/next", payload=shape_str(self.next_tetromino.shape), qos=0, retain=False)
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def set_tetrominoes(self):
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self.current_tetromino = self.next_tetromino
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@ -132,9 +141,10 @@ class Matris(object):
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def update(self, timepassed):
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self.needs_redraw = False
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if ENABLE_KEYBOARD_CONTROLS:
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pressed = lambda key: event.type == pygame.KEYDOWN and event.key == key
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unpressed = lambda key: event.type == pygame.KEYUP and event.key == key
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#self.mqtt.loop()
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events = pygame.event.get()
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for event in events:
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@ -150,6 +160,7 @@ class Matris(object):
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if self.paused:
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return self.needs_redraw
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if ENABLE_KEYBOARD_CONTROLS:
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for event in events:
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if pressed(pygame.K_SPACE):
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self.hard_drop()
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@ -176,8 +187,12 @@ class Matris(object):
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self.downwards_speed = self.base_downwards_speed ** (1 + self.level/10.)
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self.downwards_timer += timepassed
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if ENABLE_KEYBOARD_CONTROLS:
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downwards_speed = self.downwards_speed*0.10 if any([pygame.key.get_pressed()[pygame.K_DOWN],
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pygame.key.get_pressed()[pygame.K_s]]) else self.downwards_speed
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else:
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downwards_speed = self.downwards_speed
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if self.downwards_timer > downwards_speed:
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if not self.request_movement('down'):
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self.lock_tetromino()
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@ -185,6 +200,7 @@ class Matris(object):
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self.downwards_timer %= downwards_speed
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if ENABLE_KEYBOARD_CONTROLS:
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if any(self.movement_keys.values()):
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self.movement_keys_timer += timepassed
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if self.movement_keys_timer > self.movement_keys_speed:
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@ -216,13 +232,15 @@ class Matris(object):
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is responsible for checking if it's game over.
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"""
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write_score(self.score)
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if full_exit:
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exit()
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else:
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raise GameOver("Sucker!")
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#write_score(self.score)
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#if full_exit:
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# exit()
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#else:
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# raise GameOver("Sucker!")
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self.paused = True
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self.surface.fill(GAMEOVER_COLOR)
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self.needs_redraw =True
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def place_shadow(self):
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posY, posX = self.tetromino_position
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while self.blend(position=(posY, posX)):
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@ -333,16 +351,17 @@ class Matris(object):
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self.lines += lines_cleared
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if lines_cleared:
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if lines_cleared >= 4:
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if lines_cleared >= 4 and ENABLE_SOUND:
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self.linescleared_sound.play()
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self.score += 100 * (lines_cleared**2) * self.combo
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if not self.played_highscorebeaten_sound and self.score > self.highscore:
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if self.highscore != 0:
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if self.highscore != 0 and ENABLE_SOUND:
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self.highscorebeaten_sound.play()
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self.played_highscorebeaten_sound = True
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if self.lines >= self.level*10:
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if ENABLE_SOUND:
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self.levelup_sound.play()
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self.level += 1
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@ -351,6 +370,7 @@ class Matris(object):
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self.set_tetrominoes()
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if not self.blend():
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if ENABLE_SOUND:
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self.gameover_sound.play()
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self.gameover()
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@ -450,8 +470,9 @@ class Game(object):
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pygame.display.flip()
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if ENABLE_STDIO:
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#print(screen.get_view('2'))
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os.write(1, screen.get_view('2'))
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#print("-------------")
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#print(pygame.image.tostring(screen, "RGB", False))
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os.write(1, pygame.image.tostring(screen, "RGB", False))
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def blit_next_tetromino(self, tetromino_surf, offset):
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@ -498,9 +519,14 @@ def construct_nightmare(size):
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if __name__ == '__main__':
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pygame.init()
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print("Width:", WIDTH, "Height:", HEIGHT, "Playercount:", PLAYER)
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if ENABLE_MQTT or True:
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print("MQTT enabled:")
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print("TOPIC:", MQTT_TOPIC+"<playerid>/action", " PAYLOAD: left|right|rotate|drop|update")
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print("TOPIC:", MQTT_TOPIC+"<playerid>/current", "Show the current tetromino. Updated by update @ /action.")
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print("TOPIC:", MQTT_TOPIC+"<playerid>/next", "Show the current tetromino. Updated by update @ /action.")
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screen = pygame.display.set_mode((WIDTH, HEIGHT))
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pygame.display.set_caption("MaTris")
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pygame.display.set_caption("Deckentetris")
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# Menu().main(screen)
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Game().main(screen)
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}
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// must be the next prime after NUM_TOTAL_LEDS
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#define IDLE_PRIME 1931
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#define IDLE_PRIME 3203
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// must be a primitive element of the prime residue field |N/IDLE_PRIM
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#define IDLE_PRIM_ELEM 283
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#define IDLE_PRIM_ELEM 777
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int IDLE_rand(int *seed){
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return *seed = (*seed * IDLE_PRIM_ELEM ) % IDLE_PRIME;
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apps/pong.py
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apps/pong.py
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PADDLE_LEN = 6
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Nx = int(sys.argv[1])
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Ny = int(sys.argv[2])
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Ny = int(sys.argv[1])
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Nx = int(sys.argv[2])
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param = sys.argv[3]
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speed = 1.0
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@ -21,8 +21,10 @@ except:
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pygame.init()
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pygame.joystick.init()
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j = pygame.joystick.Joystick(0)
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j.init()
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j1 = pygame.joystick.Joystick(0)
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j2 = pygame.joystick.Joystick(1)
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j1.init()
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j2.init()
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numbers = [
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int("0b111101101101111", 2),
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@ -69,14 +71,14 @@ while True:
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time.sleep(0.016)
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if j.get_axis(0) > 0 and player1+PADDLE_LEN < Nx:
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if j1.get_axis(0) > 0.2 and player1+PADDLE_LEN < Nx:
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player1 += 1
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if j.get_axis(0) < 0 and player1 > 0 :
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if j1.get_axis(0) < -0.2 and player1 > 0 :
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player1 -= 1
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if j.get_axis(1) > 0 and player2+PADDLE_LEN < Nx:
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if j2.get_axis(0) > 0.2 and player2+PADDLE_LEN < Nx:
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player2 += 1
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if j.get_axis(1) < 0 and player2 > 0 :
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if j2.get_axis(0) < -0.2 and player2 > 0 :
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player2 -= 1
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x += dx
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@ -114,7 +116,7 @@ while True:
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buffer = bytearray(b"\x00"*(3*Nx*Ny))
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def SetPixel(x, y, r, g, b):
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idx = 3*(x+Nx*y)
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idx = 3*(y+Ny*x)
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buffer[idx+0] = r
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buffer[idx+1] = g
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buffer[idx+2] = b
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#!/bin/sh
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#!/bin/bash
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export PATH="$PATH:/home/deckensteuerung/.config/bin"
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youtube-dl --no-progress --output - ${3} | ffmpeg -f alsa default -re -i - -pix_fmt rgb24 -vf "scale=${1}x${2}" -sws_flags bicubic -sws_dither bayer -vcodec rawvideo -f image2pipe -
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#youtube-dl --no-progress --output - ${3} | ffmpeg -re -i - -pix_fmt rgb24 -vf "scale=${1}x${2}" -sws_flags bicubic -sws_dither bayer -vcodec rawvideo -f image2pipe -
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exit 0
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config.py
21
config.py
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import logging
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#width
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ScreenX = 48
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ScreenX = 80
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#height
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ScreenY = 40
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@ -13,19 +13,26 @@ NoDataTimeout = 40
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LogLevel = logging.DEBUG
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UseGui = True
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GuiScaleFactor = 20
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GuiScaleFactor = 15
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WebHost = "localhost"
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WebHost = "0.0.0.0"
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WebPort = 8000
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# first app is always running in IDLE
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Apps = [
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{"guiname": "Dual moodlight", "name": "bimood", "cmd": "apps/bimood", "persistent": False},
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{"guiname": "IDLE", "name": "pixelflut", "cmd": "apps/idle.py", "persistent": False},
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{"guiname": "IDLE2", "name": "idlec", "cmd": "apps/idle2"},
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{"guiname": "YoutubeDL", "name": "youtubedl", "cmd": "apps/youtubedl.sh"},
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{"guiname": "Snake", "name": "snake", "cmd": "apps/snake.py"},
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{"guiname": "Tetris", "name": "tetris", "cmd": "apps/deckentetris/deckentetris.py"}
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{"guiname": "Strobo", "name": "strobo", "cmd": "apps/strobo.py"},
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{"guiname": "YoutubeDL", "name": "youtubedl", "cmd": "apps/youtubedl.sh", "persistent": False},
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{"guiname": "Stream", "name": "stream", "cmd": "apps/stream.sh", "persistent": False},
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{"guiname": "Wget Video/Gif/Images", "name": "wget", "cmd": "apps/wget.sh", "persistent": False},
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{"guiname": "Tetris", "name": "tetris", "cmd": "apps/deckentetris/deckentetris.py", "persistent": False},
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{"guiname": "SkyScrapper", "name": "sky", "cmd": "apps/weather/main.py"},
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{"guiname": "Strobo", "name": "strobo", "cmd": "apps/strobo.py", "persistent": False},
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{"guiname": "Snake", "name": "snake", "cmd": "apps/snake.py", "persistent": False},
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{"name": "pong", "cmd": "apps/pong.py"},
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{"name": "framebuffer", "cmd": ["apps/fbcp", "/dev/fb0"]},
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{"name": "gif", "cmd": "apps/gif.sh"},
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{"name": "colormap", "cmd": "apps/colormap.py"},
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{"name": "fibonacci-clock", "cmd": "apps/fibonacci-clock.py"}
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]
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5
main.py
Normal file → Executable file
5
main.py
Normal file → Executable file
@ -1,3 +1,4 @@
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import config
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import subprocess
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import os
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@ -94,6 +95,7 @@ class SerialWriter(threading.Thread):
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data = self.datasource.getData()
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ser.write(b"\01")
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ser.write(data)
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ser.flush()
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except Exception as e:
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if ser != None:
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ser.close()
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@ -138,8 +140,9 @@ class LogReader(threading.Thread):
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logging.info("LogReader started")
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while running and self.running:
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try:
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self.log += runner.app.stderr.read(1).decode("utf-8")
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self.log += self.runner.app.stderr.read(1).decode("utf-8")
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except Exception as e:
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print(e)
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time.sleep(1)
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logging.info("LogReader closed")
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def stop(self):
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Reference in New Issue
Block a user