Beispiel #1
0
import tree

# Some constants to identify each LED
L0 = 1
L1 = 2
L2 = 4
L3 = 8
L4 = 16
L5 = 32
L6 = 64
ALL = 1 + 2 + 4 + 8 + 16 + 32 + 64
NO_LEDS = 0

tree.setup()  # you must always call setup() first!

# Pattern: two or three LEDs are on at the same time.
# Note that each pair is on for 0.4 seconds

for i in range(7):  # repeat the pattern 7 times
    tree.leds_on_and_wait(L1 + L4, 0.4)  # LED 1 and LED 4
    tree.leds_on_and_wait(L5 + L3 + L0, 0.4)  # LEDs 5, 3 and 0
    tree.leds_on_and_wait(L2 + L6, 0.4)  # LEDs 2 and 6
    tree.leds_on_and_wait(L5 + L3 + L0, 0.4)  # LEDs 5, 3 and 0

tree.all_leds_off()  # extinguish all LEDs

# All done!
tree.cleanup()  # call cleanup() at the end
# some constants to identify each LED
L1 = 2
L2 = 4
L3 = 8
L4 = 16
L5 = 32
L6 = 64
AMBER = 1 # LED 0 = amber
RED = 128 # LED 0 = red
GREEN = 256 # LED 0 = green
NO_LEDS = 0
BOTTOM6 = 2+4+8+16+32+64 # the 6 standard red LEDs

# note that we must tell setup() that we have a bicolour LED
tree.setup() # you must always call setup() first!

# All the red LEDs will be permanently illuminated and we rotate
# between the various colours for the bicolour LED at the top.
for i in range(7): # repeat 7 times
  tree.leds_on_and_wait(BOTTOM6, 0.8) # top LED off
  tree.leds_on_and_wait(BOTTOM6 + GREEN, 0.8) # top LED green
  tree.leds_on_and_wait(BOTTOM6 + RED,   0.8) # top LED red
  tree.leds_on_and_wait(BOTTOM6 + AMBER, 0.8) # top LED amber
  
  tree.leds_on_and_wait(NO_LEDS, 0.8) # all LEDs off
  tree.leds_on_and_wait(GREEN, 0.8) # top LED green
  tree.leds_on_and_wait(RED,   0.8) # top LED red
  tree.leds_on_and_wait(AMBER, 0.8) # top LED amber
  
tree.all_leds_off() # extinguish all LEDs
def pattern8(): # random LED on
  rand_led = random.randint(0, 6)
  tree.leds_on_and_wait(1<<rand_led, 0.5) # == 2**rand_led

def pattern9(): # candle shine like
  random_led = 0
  for y in range(6):
    random_led += 2**y * random.randint(0,1) * random.randint(0,1) # each LED choosen by 25%
  random_time = random.randint(1,3) # time between 0.1 and 0.3s
  tree.leds_on_and_wait(ALL - random_led, float(random_time)/10)
  random_time = random.randint(1,15) #light time between 0.1 and 1.5s
  tree.leds_on_and_wait(ALL, float(random_time)/10)


tree.setup()
print("Christmas Tree Light. To stop press CTRL + C")

while True:
  try:
    random_led = random.randint(1, 9)
#    print random_led # just for information
    if random_led == 1:
      for y in range(4):
        pattern1()
    elif random_led == 2:
      for y in range(4):
        pattern2()
    elif random_led == 3:
      for y in range(10):
        pattern3()
Beispiel #4
0
import tree
from random import randint

# Some constants to identify each LED
L0 = 1
L1 = 2
L2 = 4
L3 = 8
L4 = 16
L5 = 32
L6 = 64
ALL = 1 + 2 + 4 + 8 + 16 + 32 + 64
NO_LEDS = 0

tree.setup()

for i in range(100):
    tree.leds_on_and_wait(randint(0, 128), 0.1)

tree.all_leds_off()

tree.cleanup()
Beispiel #5
0
import player     
import maze
import tree


file = open("sample.txt", "r") #open map file
lines = file.readlines() #read file
map_d = maze.Maze() #construct
map_d.setup(lines) #data processing phase
map_d.print() #print maze

goal_cord = map_d.FindGoal(map_d.GetHeads())

player = player.Player()
player.PrintLoc()

tree_node = tree.TreeNode(player.GetPos())
tree = tree.Tree(tree_node)

tree.setup(tree.root,player,goal_cord,"",map_d.GetHeads(),[])

print("Have any solution been found? Lets see...")

tree.SearchSolution(tree.root,[])

print("done!")