187 lines
6.8 KiB
Python
187 lines
6.8 KiB
Python
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import time
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class LcdApi:
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# Implements the API for talking with HD44780 compatible character LCDs.
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# This class only knows what commands to send to the LCD, and not how to get
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# them to the LCD.
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#
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# It is expected that a derived class will implement the hal_xxx functions.
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#
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# The following constant names were lifted from the avrlib lcd.h header file,
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# with bit numbers changed to bit masks.
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# HD44780 LCD controller command set
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LCD_CLR = 0x01 # DB0: clear display
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LCD_HOME = 0x02 # DB1: return to home position
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LCD_ENTRY_MODE = 0x04 # DB2: set entry mode
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LCD_ENTRY_INC = 0x02 # DB1: increment
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LCD_ENTRY_SHIFT = 0x01 # DB0: shift
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LCD_ON_CTRL = 0x08 # DB3: turn lcd/cursor on
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LCD_ON_DISPLAY = 0x04 # DB2: turn display on
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LCD_ON_CURSOR = 0x02 # DB1: turn cursor on
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LCD_ON_BLINK = 0x01 # DB0: blinking cursor
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LCD_MOVE = 0x10 # DB4: move cursor/display
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LCD_MOVE_DISP = 0x08 # DB3: move display (0-> move cursor)
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LCD_MOVE_RIGHT = 0x04 # DB2: move right (0-> left)
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LCD_FUNCTION = 0x20 # DB5: function set
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LCD_FUNCTION_8BIT = 0x10 # DB4: set 8BIT mode (0->4BIT mode)
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LCD_FUNCTION_2LINES = 0x08 # DB3: two lines (0->one line)
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LCD_FUNCTION_10DOTS = 0x04 # DB2: 5x10 font (0->5x7 font)
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LCD_FUNCTION_RESET = 0x30 # See "Initializing by Instruction" section
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LCD_CGRAM = 0x40 # DB6: set CG RAM address
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LCD_DDRAM = 0x80 # DB7: set DD RAM address
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LCD_RS_CMD = 0
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LCD_RS_DATA = 1
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LCD_RW_WRITE = 0
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LCD_RW_READ = 1
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def __init__(self, num_lines, num_columns):
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self.num_lines = num_lines
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if self.num_lines > 4:
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self.num_lines = 4
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self.num_columns = num_columns
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if self.num_columns > 40:
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self.num_columns = 40
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self.cursor_x = 0
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self.cursor_y = 0
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self.implied_newline = False
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self.backlight = True
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self.display_off()
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self.backlight_on()
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self.clear()
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self.hal_write_command(self.LCD_ENTRY_MODE | self.LCD_ENTRY_INC)
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self.hide_cursor()
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self.display_on()
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def clear(self):
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# Clears the LCD display and moves the cursor to the top left corner
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self.hal_write_command(self.LCD_CLR)
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self.hal_write_command(self.LCD_HOME)
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self.cursor_x = 0
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self.cursor_y = 0
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def show_cursor(self):
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# Causes the cursor to be made visible
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self.hal_write_command(self.LCD_ON_CTRL | self.LCD_ON_DISPLAY |
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self.LCD_ON_CURSOR)
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def hide_cursor(self):
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# Causes the cursor to be hidden
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self.hal_write_command(self.LCD_ON_CTRL | self.LCD_ON_DISPLAY)
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def blink_cursor_on(self):
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# Turns on the cursor, and makes it blink
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self.hal_write_command(self.LCD_ON_CTRL | self.LCD_ON_DISPLAY |
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self.LCD_ON_CURSOR | self.LCD_ON_BLINK)
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def blink_cursor_off(self):
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# Turns on the cursor, and makes it no blink (i.e. be solid)
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self.hal_write_command(self.LCD_ON_CTRL | self.LCD_ON_DISPLAY |
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self.LCD_ON_CURSOR)
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def display_on(self):
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# Turns on (i.e. unblanks) the LCD
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self.hal_write_command(self.LCD_ON_CTRL | self.LCD_ON_DISPLAY)
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def display_off(self):
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# Turns off (i.e. blanks) the LCD
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self.hal_write_command(self.LCD_ON_CTRL)
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def backlight_on(self):
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# Turns the backlight on.
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# This isn't really an LCD command, but some modules have backlight
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# controls, so this allows the hal to pass through the command.
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self.backlight = True
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self.hal_backlight_on()
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def backlight_off(self):
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# Turns the backlight off.
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# This isn't really an LCD command, but some modules have backlight
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# controls, so this allows the hal to pass through the command.
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self.backlight = False
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self.hal_backlight_off()
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def move_to(self, cursor_x, cursor_y):
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# Moves the cursor position to the indicated position. The cursor
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# position is zero based (i.e. cursor_x == 0 indicates first column).
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self.cursor_x = cursor_x
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self.cursor_y = cursor_y
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addr = cursor_x & 0x3f
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if cursor_y & 1:
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addr += 0x40 # Lines 1 & 3 add 0x40
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if cursor_y & 2: # Lines 2 & 3 add number of columns
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addr += self.num_columns
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self.hal_write_command(self.LCD_DDRAM | addr)
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def putchar(self, char):
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# Writes the indicated character to the LCD at the current cursor
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# position, and advances the cursor by one position.
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if char == '\n':
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if self.implied_newline:
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# self.implied_newline means we advanced due to a wraparound,
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# so if we get a newline right after that we ignore it.
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pass
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else:
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self.cursor_x = self.num_columns
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else:
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self.hal_write_data(ord(char))
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self.cursor_x += 1
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if self.cursor_x >= self.num_columns:
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self.cursor_x = 0
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self.cursor_y += 1
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self.implied_newline = (char != '\n')
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if self.cursor_y >= self.num_lines:
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self.cursor_y = 0
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self.move_to(self.cursor_x, self.cursor_y)
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def putstr(self, string):
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# Write the indicated string to the LCD at the current cursor
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# position and advances the cursor position appropriately.
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for char in string:
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self.putchar(char)
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def custom_char(self, location, charmap):
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# Write a character to one of the 8 CGRAM locations, available
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# as chr(0) through chr(7).
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location &= 0x7
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self.hal_write_command(self.LCD_CGRAM | (location << 3))
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self.hal_sleep_us(40)
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for i in range(8):
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self.hal_write_data(charmap[i])
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self.hal_sleep_us(40)
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self.move_to(self.cursor_x, self.cursor_y)
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def hal_backlight_on(self):
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# Allows the hal layer to turn the backlight on.
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# If desired, a derived HAL class will implement this function.
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pass
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def hal_backlight_off(self):
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# Allows the hal layer to turn the backlight off.
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# If desired, a derived HAL class will implement this function.
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pass
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def hal_write_command(self, cmd):
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# Write a command to the LCD.
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# It is expected that a derived HAL class will implement this function.
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raise NotImplementedError
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def hal_write_data(self, data):
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# Write data to the LCD.
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# It is expected that a derived HAL class will implement this function.
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raise NotImplementedError
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def hal_sleep_us(self, usecs):
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# Sleep for some time (given in microseconds)
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time.sleep_us(usecs)
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