mc.setBlocks(LIFT_X-2, LIFT_Y, LIFT_Z-2, LIFT_X+2,
LIFT_Y+(NUM_FLOORS*FLOOR_HEIGHT), LIFT_Z+2, block.AIR.id)
# Game loop
try: # if this code fails, it jumps to "finally"
# Use Broadcom pin numbering scheme for GPIOs
GPIO.setmode(GPIO.BCM)
# Set all button GPIOs to be inputs so you can read their state
for p in FLOOR_GPIO:
GPIO.setup(p, GPIO.IN)
# Setup the display ready for use
display.setup(GPIO, DISPLAY_GPIO, ON)
# Create the lift shaft, diamond request blocks, and footplate
createLift()
drawLift(lift_y, block.STONE.id)
# Loop forever (or until CTRL-C)
while True:
# Delay a short time (to prevent computer being too busy!)
time.sleep(0.5)
# Check if there are any pending requests to process
checkRequests()
# Move the lift in automatic mode
autoLift() # change to manualLift() if you want "service mode"
import mcpi.minecraft as minecraft
import mcpi.block as block
import mcpi.minecraftstuff as minecraftstuff
import time
import random
import thread
import anyio.seg7 as display
import anyio.GPIO as GPIO
BUTTON = 4
LED_PINS = [7,6,14,16,10,8,9,15]
GPIO.setmode(GPIO.BCM)
GPIO.setup(BUTTON, GPIO.IN)
ON = False # common-anode, set to True for common cathode
display.setup(GPIO, LED_PINS, ON)
#arena constants
ARENAX = 20
ARENAZ = 30
ARENAY = 5
RIVERWIDTH = 6
def createArena(pos):
mc = minecraft.Minecraft.create()
pos.x
mc.setBlocks(pos.x - 1, pos.y, pos.z - 1,
pos.x + ARENAX + 1, pos.y - 3,
pos.z + ARENAZ + 1, block.GRASS.id)
mc.setBlocks(pos.x - 1, pos.y + 1, pos.z - 1,
pos.x + ARENAX + 1, pos.y + ARENAY, pos.z + ARENAZ + 1,
# testSeg7.py - Test a 7-segment display
import anyio.seg7 as display
import time
# Use this for Raspberry Pi
#import RPi.GPIO as GPIO
#LED_PINS = [10,22,25,8,7,9,11,15]
# Use this for Arduino
import anyio.GPIO as GPIO
LED_PINS = [7, 6, 14, 16, 10, 8, 9, 15]
GPIO.setmode(GPIO.BCM)
ON = False # common-anode. Set to True for a common cathode display
display.setup(GPIO, LED_PINS, ON)
try:
while True:
for d in range(10):
display.write(str(d))
time.sleep(0.5)
finally:
GPIO.cleanup()
# END
