justinledwards/screentest.py

## screentest.py
'''
Copyright (C) 2012 Matthew Skolaut

Permission is hereby granted, free of charge, to any person obtaining a copy of this software and
associated documentation files (the "Software"), to deal in the Software without restriction,
including without limitation the rights to use, copy, modify, merge, publish, distribute,
sublicense, and/or sell copies of the Software, and to permit persons to whom the Software is
furnished to do so, subject to the following conditions:

The above copyright notice and this permission notice shall be included in all copies or substantial
portions of the Software.

THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT
LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT.
IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY,
WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE
SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.
'''

import smbus
from time import *

# General i2c device class so that other devices can be added easily
class i2c_device:
        def __init__(self, addr, port):
                self.addr = addr
                self.bus = smbus.SMBus(port)

        def write(self, byte):
                self.bus.write_byte(self.addr, byte)

        def read(self):
                return self.bus.read_byte(self.addr)

        def read_nbytes_data(self, data, n): # For sequential reads > 1 byte
                return self.bus.read_i2c_block_data(self.addr, data, n)


class lcd:
        #initializes objects and lcd
        '''
        Reverse Codes:
        0: lower 4 bits of expander are commands bits
        1: top 4 bits of expander are commands bits AND P0-4 P1-5 P2-6
        2: top 4 bits of expander are commands bits AND P0-6 P1-5 P2-4
        '''
        def __init__(self, addr, port, reverse=0):
                self.reverse = reverse
                self.lcd_device = i2c_device(addr, port)
                if self.reverse:
                        self.lcd_device.write(0x30)
                        self.lcd_strobe()
                        sleep(0.0005)
                        self.lcd_strobe()
                        sleep(0.0005)
                        self.lcd_strobe()
                        sleep(0.0005)
                        self.lcd_device.write(0x20)
                        self.lcd_strobe()
                        sleep(0.0005)
                else:
                        self.lcd_device.write(0x03)
                        self.lcd_strobe()
                        sleep(0.0005)
                        self.lcd_strobe()
                        sleep(0.0005)
                        self.lcd_strobe()
                        sleep(0.0005)
                        self.lcd_device.write(0x02)
                        self.lcd_strobe()
                        sleep(0.0005)

                self.lcd_write(0x28)
                self.lcd_write(0x08)
                self.lcd_write(0x01)
                self.lcd_write(0x06)
                self.lcd_write(0x0C)
                self.lcd_write(0x0F)

        # clocks EN to latch command
        def lcd_strobe(self):
                if self.reverse == 1:
                        self.lcd_device.write((self.lcd_device.read() | 0x04))
                        self.lcd_device.write((self.lcd_device.read() & 0xFB))
                elif self.reverse == 2:
                        self.lcd_device.write((self.lcd_device.read() | 0x01))
                        self.lcd_device.write((self.lcd_device.read() & 0xFE))
                else:
                        self.lcd_device.write((self.lcd_device.read() | 0x10))
                        self.lcd_device.write((self.lcd_device.read() & 0xEF))

        # write a command to lcd
        def lcd_write(self, cmd):
                if self.reverse:
                        self.lcd_device.write((cmd >> 4)<<4)
                        self.lcd_strobe()
                        self.lcd_device.write((cmd & 0x0F)<<4)
                        self.lcd_strobe()
                        self.lcd_device.write(0x0)
                else:
                        self.lcd_device.write((cmd >> 4))
                        self.lcd_strobe()
                        self.lcd_device.write((cmd & 0x0F))
                        self.lcd_strobe()
                        self.lcd_device.write(0x0)

        # write a character to lcd (or character rom)
        def lcd_write_char(self, charvalue):
                if self.reverse == 1:
                        self.lcd_device.write((0x01 | (charvalue >> 4)<<4))
                        self.lcd_strobe()
                        self.lcd_device.write((0x01 | (charvalue & 0x0F)<<4))
                        self.lcd_strobe()
                        self.lcd_device.write(0x0)
                elif self.reverse == 2:
                        self.lcd_device.write((0x04 | (charvalue >> 4)<<4))
                        self.lcd_strobe()
                        self.lcd_device.write((0x04 | (charvalue & 0x0F)<<4))
                        self.lcd_strobe()
                        self.lcd_device.write(0x0)
                else:
                        self.lcd_device.write((0x40 | (charvalue >> 4)))
                        self.lcd_strobe()
                        self.lcd_device.write((0x40 | (charvalue & 0x0F)))
                        self.lcd_strobe()
                        self.lcd_device.write(0x0)

        # put char function
        def lcd_putc(self, char):
                self.lcd_write_char(ord(char))

        # put string function
        def lcd_puts(self, string, line):
                if line == 1:
                        self.lcd_write(0x80)
                if line == 2:
                        self.lcd_write(0xC0)
                if line == 3:
                        self.lcd_write(0x94)
                if line == 4:
                        self.lcd_write(0xD4)

                for char in string:
                        self.lcd_putc(char)

        # clear lcd and set to home
        def lcd_clear(self):
                self.lcd_write(0x1)
                self.lcd_write(0x2)

        # add custom characters (0 - 7)
        def lcd_load_custon_chars(self, fontdata):
                self.lcd_device.bus.write(0x40);
                for char in fontdata:
                        for line in char:
                                self.lcd_write_char(line)


thelcd = lcd(0x20, 1)
thelcd.lcd_puts("   Lets play a game", 1)
thelcd.lcd_puts("FINALLY WORKING!!", 2)
thelcd.lcd_puts("Is the screen broke?", 3)
thelcd.lcd_puts("BABA BOOEY", 4)
	'''
	Copyright (C) 2012 Matthew Skolaut

	Permission is hereby granted, free of charge, to any person obtaining a copy of this software and
	associated documentation files (the "Software"), to deal in the Software without restriction,
	including without limitation the rights to use, copy, modify, merge, publish, distribute,
	sublicense, and/or sell copies of the Software, and to permit persons to whom the Software is
	furnished to do so, subject to the following conditions:

	The above copyright notice and this permission notice shall be included in all copies or substantial
	portions of the Software.

	THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT
	LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT.
	IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY,
	WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE
	SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.
	'''

	import smbus
	from time import *

	# General i2c device class so that other devices can be added easily
	class i2c_device:
	def __init__(self, addr, port):
	self.addr = addr
	self.bus = smbus.SMBus(port)

	def write(self, byte):
	self.bus.write_byte(self.addr, byte)

	def read(self):
	return self.bus.read_byte(self.addr)

	def read_nbytes_data(self, data, n): # For sequential reads > 1 byte
	return self.bus.read_i2c_block_data(self.addr, data, n)


	class lcd:
	#initializes objects and lcd
	'''
	Reverse Codes:
	0: lower 4 bits of expander are commands bits
	1: top 4 bits of expander are commands bits AND P0-4 P1-5 P2-6
	2: top 4 bits of expander are commands bits AND P0-6 P1-5 P2-4
	'''
	def __init__(self, addr, port, reverse=0):
	self.reverse = reverse
	self.lcd_device = i2c_device(addr, port)
	if self.reverse:
	self.lcd_device.write(0x30)
	self.lcd_strobe()
	sleep(0.0005)
	self.lcd_strobe()
	sleep(0.0005)
	self.lcd_strobe()
	sleep(0.0005)
	self.lcd_device.write(0x20)
	self.lcd_strobe()
	sleep(0.0005)
	else:
	self.lcd_device.write(0x03)
	self.lcd_strobe()
	sleep(0.0005)
	self.lcd_strobe()
	sleep(0.0005)
	self.lcd_strobe()
	sleep(0.0005)
	self.lcd_device.write(0x02)
	self.lcd_strobe()
	sleep(0.0005)

	self.lcd_write(0x28)
	self.lcd_write(0x08)
	self.lcd_write(0x01)
	self.lcd_write(0x06)
	self.lcd_write(0x0C)
	self.lcd_write(0x0F)

	# clocks EN to latch command
	def lcd_strobe(self):
	if self.reverse == 1:
	self.lcd_device.write((self.lcd_device.read() \| 0x04))
	self.lcd_device.write((self.lcd_device.read() & 0xFB))
	elif self.reverse == 2:
	self.lcd_device.write((self.lcd_device.read() \| 0x01))
	self.lcd_device.write((self.lcd_device.read() & 0xFE))
	else:
	self.lcd_device.write((self.lcd_device.read() \| 0x10))
	self.lcd_device.write((self.lcd_device.read() & 0xEF))

	# write a command to lcd
	def lcd_write(self, cmd):
	if self.reverse:
	self.lcd_device.write((cmd >> 4)<<4)
	self.lcd_strobe()
	self.lcd_device.write((cmd & 0x0F)<<4)
	self.lcd_strobe()
	self.lcd_device.write(0x0)
	else:
	self.lcd_device.write((cmd >> 4))
	self.lcd_strobe()
	self.lcd_device.write((cmd & 0x0F))
	self.lcd_strobe()
	self.lcd_device.write(0x0)

	# write a character to lcd (or character rom)
	def lcd_write_char(self, charvalue):
	if self.reverse == 1:
	self.lcd_device.write((0x01 \| (charvalue >> 4)<<4))
	self.lcd_strobe()
	self.lcd_device.write((0x01 \| (charvalue & 0x0F)<<4))
	self.lcd_strobe()
	self.lcd_device.write(0x0)
	elif self.reverse == 2:
	self.lcd_device.write((0x04 \| (charvalue >> 4)<<4))
	self.lcd_strobe()
	self.lcd_device.write((0x04 \| (charvalue & 0x0F)<<4))
	self.lcd_strobe()
	self.lcd_device.write(0x0)
	else:
	self.lcd_device.write((0x40 \| (charvalue >> 4)))
	self.lcd_strobe()
	self.lcd_device.write((0x40 \| (charvalue & 0x0F)))
	self.lcd_strobe()
	self.lcd_device.write(0x0)

	# put char function
	def lcd_putc(self, char):
	self.lcd_write_char(ord(char))

	# put string function
	def lcd_puts(self, string, line):
	if line == 1:
	self.lcd_write(0x80)
	if line == 2:
	self.lcd_write(0xC0)
	if line == 3:
	self.lcd_write(0x94)
	if line == 4:
	self.lcd_write(0xD4)

	for char in string:
	self.lcd_putc(char)

	# clear lcd and set to home
	def lcd_clear(self):
	self.lcd_write(0x1)
	self.lcd_write(0x2)

	# add custom characters (0 - 7)
	def lcd_load_custon_chars(self, fontdata):
	self.lcd_device.bus.write(0x40);
	for char in fontdata:
	for line in char:
	self.lcd_write_char(line)


	thelcd = lcd(0x20, 1)
	thelcd.lcd_puts(" Lets play a game", 1)
	thelcd.lcd_puts("FINALLY WORKING!!", 2)
	thelcd.lcd_puts("Is the screen broke?", 3)
	thelcd.lcd_puts("BABA BOOEY", 4)