def __init__(self):
threading.Thread.__init__(self)
self.val = ""
self.ser = serial
self.mess1 = "hello"
self.mess2 = "World!"
self.ser = serial.Serial("/dev/ttyUSB0", 500000, timeout=0)
self.ctx = ScreenContext("/dev/ttyUSB0")
self.ctx.sleep(6).reset_lcd().set_rotation(1)
self.counter = 0
#print "rows", ctx.get_rows(), 320/ctx.get_rows()
#print "columns", ctx.get_columns()
self.row = 21 * 2 * 8
print "Start LCD"
class Thread_Manager(threading.Thread):
def __init__(self):
threading.Thread.__init__(self)
self.val = ""
self.ser = serial
self.mess1 = "hello"
self.mess2 = "World!"
self.ser = serial.Serial("/dev/ttyUSB0", 500000, timeout=0)
self.ctx = ScreenContext("/dev/ttyUSB0")
self.ctx.sleep(6).reset_lcd().set_rotation(1)
self.counter = 0
#print "rows", ctx.get_rows(), 320/ctx.get_rows()
#print "columns", ctx.get_columns()
self.row = 21 * 2 * 8
print "Start LCD"
def run(self):
while True:
header = Header()
header.render_header(self.ctx,0,"HeaderName")
self.ctx.fg_color(Screen.RED).write(self.mess1).linebreak()
self.ctx.fg_color(Screen.RED).write(str(self.counter)).linebreak()
self.ctx.fg_color(Screen.BLUE).write(self.mess2)
#ctx.fg_color(Screen.BLUE).write(ReadThread.returnPress())
self.ctx.set_cursor_pos(self.row * 3,0)
self.counter += 1
#def update_screen(self):
# self.ctx.sleep(6).reset_lcd().set_rotation(1)
# header = Header()
# header.render_header(self.ctx,0,"Rouge")
# self.ctx.fg_color(Screen.RED).write(self.mess1).linebreak()
# self.ctx.fg_color(Screen.RED).write(str(self.counter)).linebreak()
# self.ctx.fg_color(Screen.BLUE).write(self.mess2)
# #ctx.fg_color(Screen.BLUE).write(ReadThread.returnPress())
# self.ctx.set_cursor_pos(self.row * 3,0)
# self.counter += 1
def update_message(self, mess1, mess2):
self.mess1 = mess1
self.mess2 = mess2
return True
class Thread_Manager(threading.Thread):
def __init__(self):
threading.Thread.__init__(self)
self.val = ""
self.ser = serial
self.mess1 = "hello"
self.mess2 = "World!"
self.ser = serial.Serial("/dev/ttyUSB0", 500000, timeout=0)
self.ctx = ScreenContext("/dev/ttyUSB0")
self.ctx.sleep(6).reset_lcd().set_rotation(1)
self.counter = 0
#print "rows", ctx.get_rows(), 320/ctx.get_rows()
#print "columns", ctx.get_columns()
self.row = 21 * 2 * 8
print "Start LCD"
def run(self):
while True:
header = Header()
header.render_header(self.ctx, 0, "HeaderName")
self.ctx.fg_color(Screen.RED).write(self.mess1).linebreak()
self.ctx.fg_color(Screen.RED).write(str(self.counter)).linebreak()
self.ctx.fg_color(Screen.BLUE).write(self.mess2)
#ctx.fg_color(Screen.BLUE).write(ReadThread.returnPress())
self.ctx.set_cursor_pos(self.row * 3, 0)
self.counter += 1
#def update_screen(self):
# self.ctx.sleep(6).reset_lcd().set_rotation(1)
# header = Header()
# header.render_header(self.ctx,0,"Rouge")
# self.ctx.fg_color(Screen.RED).write(self.mess1).linebreak()
# self.ctx.fg_color(Screen.RED).write(str(self.counter)).linebreak()
# self.ctx.fg_color(Screen.BLUE).write(self.mess2)
# #ctx.fg_color(Screen.BLUE).write(ReadThread.returnPress())
# self.ctx.set_cursor_pos(self.row * 3,0)
# self.counter += 1
def update_message(self, mess1, mess2):
self.mess1 = mess1
self.mess2 = mess2
return True
def __init__(self):
threading.Thread.__init__(self)
self.val = ""
self.ser = serial
self.mess1 = "hello"
self.mess2 = "World!"
self.ser = serial.Serial("/dev/ttyUSB0", 500000, timeout=0)
self.ctx = ScreenContext("/dev/ttyUSB0")
self.ctx.sleep(6).reset_lcd().set_rotation(1)
self.counter = 0
#print "rows", ctx.get_rows(), 320/ctx.get_rows()
#print "columns", ctx.get_columns()
self.row = 21 * 2 * 8
print "Start LCD"
import datetime
import time
import serial
import datetime
import os
import csv
import deepdish as dd
import time
import uuid
import subprocess
from getmac import get_mac_address
from mintsXU4 import mintsLatest as mL
from mintsXU4 import mintsDefinitions as mD
dataFolder = mD.dataFolder
ctx = ScreenContext(mD.show2Port)
atexit.register(ctx.cleanup)
macAddress = mD.macAddress
def main():
preVal = "-----"
pm1 = preVal
pm2_5 = preVal
pm10 = preVal
temperature = preVal
humidity = preVal
pressure = preVal
maxTemperature = preVal
parser.add_argument(
"--port",
"-p",
help="serial port to use as the output (default=/dev/ttyUSB0)",
type=str,
default="/dev/ttyUSB0")
args = parser.parse_args()
# Apply the arguments
default_tab = args.tab - 1
tab_change_interval = args.time
tabs = config.tabs
current_tab = default_tab
ctx = ScreenContext(args.port)
atexit.register(ctx.cleanup)
# Wait 6 seconds for the screen to boot up before we start uploading anything
ctx.sleep(6).reset_lcd().set_rotation(0)
# Header
header = Header()
print "Started"
time_since_tab_change = 0
last_time = time.time()
while True:
parser.add_argument("--time", "-T",
help="for how many seconds should a tab be shown before changing it (default=15)",
type=int, default=15)
parser.add_argument("--port", "-p",
help="serial port to use as the output (default=/dev/ttyUSB0)",
type=str, default="/dev/ttyUSB0")
args = parser.parse_args()
# Apply the arguments
default_tab = args.tab - 1
tab_change_interval = args.time
tabs = config.tabs
current_tab = default_tab
ctx = ScreenContext(args.port)
atexit.register(ctx.cleanup)
# Wait 6 seconds for the screen to boot up before we start uploading anything
ctx.sleep(6).reset_lcd().set_rotation(0)
# Header
header = Header()
print "Started"
time_since_tab_change = 0
last_time = time.time()
while True:
