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|
#![no_std]
//use core::fmt::Result;
//use core::fmt::Write;
use embedded_hal::blocking::delay::{DelayMs, DelayUs};
use embedded_hal::blocking::i2c;
use embedded_hal::digital::v2::OutputPin;
pub mod bus;
use bus::{DataBus, EightBitBus, FourBitBus, I2CBus, I2CMCP23008Bus};
pub mod error;
use error::Result;
pub mod entry_mode;
use entry_mode::{CursorMode, EntryMode};
pub mod display_mode;
pub use display_mode::DisplayMode;
pub struct HD44780<B: DataBus> {
bus: B,
entry_mode: EntryMode,
display_mode: DisplayMode,
}
/// Used in the direction argument for shifting the cursor and the display
pub enum Direction {
Left,
Right,
}
/// Used in set_display_mode to make the parameters more clear
pub enum Display {
On,
Off,
}
pub enum Cursor {
Visible,
Invisible,
}
pub enum CursorBlink {
On,
Off,
}
impl<
RS: OutputPin,
EN: OutputPin,
D0: OutputPin,
D1: OutputPin,
D2: OutputPin,
D3: OutputPin,
D4: OutputPin,
D5: OutputPin,
D6: OutputPin,
D7: OutputPin,
> HD44780<EightBitBus<RS, EN, D0, D1, D2, D3, D4, D5, D6, D7>>
{
/// Create an instance of a `HD44780` from 8 data pins, a register select
/// pin, an enable pin and a struct implementing the delay trait.
/// - The delay instance is used to sleep between commands to
/// ensure the `HD44780` has enough time to process commands.
/// - The eight db0..db7 pins are used to send and recieve with
/// the `HD44780`.
/// - The register select pin is used to tell the `HD44780`
/// if incoming data is a command or data.
/// - The enable pin is used to tell the `HD44780` that there
/// is data on the 8 data pins and that it should read them in.
///
pub fn new_8bit<D: DelayUs<u16> + DelayMs<u8>>(
rs: RS,
en: EN,
d0: D0,
d1: D1,
d2: D2,
d3: D3,
d4: D4,
d5: D5,
d6: D6,
d7: D7,
delay: &mut D,
) -> Result<HD44780<EightBitBus<RS, EN, D0, D1, D2, D3, D4, D5, D6, D7>>> {
let mut hd = HD44780 {
bus: EightBitBus::from_pins(rs, en, d0, d1, d2, d3, d4, d5, d6, d7),
entry_mode: EntryMode::default(),
display_mode: DisplayMode::default(),
};
hd.init_8bit(delay)?;
return Ok(hd);
}
}
impl<RS: OutputPin, EN: OutputPin, D4: OutputPin, D5: OutputPin, D6: OutputPin, D7: OutputPin>
HD44780<FourBitBus<RS, EN, D4, D5, D6, D7>>
{
/// Create an instance of a `HD44780` from 4 data pins, a register select
/// pin, an enable pin and a struct implementing the delay trait.
/// - The delay instance is used to sleep between commands to
/// ensure the `HD44780` has enough time to process commands.
/// - The four db0..db3 pins are used to send and recieve with
/// the `HD44780`.
/// - The register select pin is used to tell the `HD44780`
/// if incoming data is a command or data.
/// - The enable pin is used to tell the `HD44780` that there
/// is data on the 4 data pins and that it should read them in.
///
/// This mode operates differently than 8 bit mode by using 4 less
/// pins for data, which is nice on devices with less I/O although
/// the I/O takes a 'bit' longer
///
/// Instead of commands being sent byte by byte each command is
/// broken up into it's upper and lower nibbles (4 bits) before
/// being sent over the data bus
///
pub fn new_4bit<D: DelayUs<u16> + DelayMs<u8>>(
rs: RS,
en: EN,
d4: D4,
d5: D5,
d6: D6,
d7: D7,
delay: &mut D,
) -> Result<HD44780<FourBitBus<RS, EN, D4, D5, D6, D7>>> {
let mut hd = HD44780 {
bus: FourBitBus::from_pins(rs, en, d4, d5, d6, d7),
entry_mode: EntryMode::default(),
display_mode: DisplayMode::default(),
};
hd.init_4bit(delay)?;
return Ok(hd);
}
}
impl<I2C: i2c::Write> HD44780<I2CBus<I2C>> {
/// Create an instance of a `HD44780` from an i2c write peripheral,
/// I2C address and a struct implementing the delay trait.
/// The `HD44780` is driven through a PCF8574 I2C port expander.
/// - The delay instance is used to sleep between commands to
/// ensure the `HD44780` has enough time to process commands.
/// - The i2c peripheral is used to send data to the `HD44780` and to set
/// its register select and enable pins.
///
/// This mode operates on an I2C bus, using a PCF8574 I2C to port expander
/// The IC connections are described in `I2CBus`
///
pub fn new_i2c<D: DelayUs<u16> + DelayMs<u8>>(
i2c_bus: I2C,
address: u8,
delay: &mut D,
) -> Result<HD44780<I2CBus<I2C>>> {
let mut hd = HD44780 {
bus: I2CBus::new(i2c_bus, address),
entry_mode: EntryMode::default(),
display_mode: DisplayMode::default(),
};
hd.init_4bit(delay)?;
return Ok(hd);
}
}
impl<I2C: i2c::Write> HD44780<I2CMCP23008Bus<I2C>> {
/// Create an instance of a `HD44780` from an i2c write peripheral,
/// I2C address and a struct implementing the delay trait.
/// The `HD44780` is driven through a MCP23008 I2C port expander.
/// - The delay instance is used to sleep between commands to
/// ensure the `HD44780` has enough time to process commands.
/// - The i2c peripheral is used to send data to the `HD44780` and to set
/// its register select and enable pins.
///
/// This mode operates on an I2C bus, using an I2C to parallel port expander based on MCP23008.
/// The IC connections are described in `I2CMCP23008Bus`
///
pub fn new_i2c_mcp23008<D: DelayUs<u16> + DelayMs<u8>>(
i2c_bus: I2C,
address: u8,
delay: &mut D,
) -> Result<HD44780<I2CMCP23008Bus<I2C>>> {
let mut hd = HD44780 {
bus: I2CMCP23008Bus::new(i2c_bus, address)?,
entry_mode: EntryMode::default(),
display_mode: DisplayMode::default(),
};
hd.init_4bit(delay)?;
return Ok(hd);
}
}
impl<B> HD44780<B>
where
B: DataBus,
{
/// Unshifts the display and sets the cursor position to 0
///
/// ```rust,ignore
/// lcd.reset();
/// ```
pub fn reset<D: DelayUs<u16> + DelayMs<u8>>(&mut self, delay: &mut D) -> Result<()> {
self.write_command(0b0000_0010, delay)?;
Ok(())
}
/// Set if the display should be on, if the cursor should be
/// visible, and if the cursor should blink
///
/// Note: This is equivilent to calling all of the other relavent
/// methods however this operation does it all in one go to the `HD44780`
pub fn set_display_mode<D: DelayUs<u16> + DelayMs<u8>>(
&mut self,
display_mode: DisplayMode,
delay: &mut D,
) -> Result<()> {
self.display_mode = display_mode;
let cmd_byte = self.display_mode.as_byte();
self.write_command(cmd_byte, delay)?;
Ok(())
}
/// Clear the entire display
///
/// ```rust,ignore
/// lcd.clear();
/// ```
pub fn clear<D: DelayUs<u16> + DelayMs<u8>>(&mut self, delay: &mut D) -> Result<()> {
self.write_command(0b0000_0001, delay)?;
Ok(())
}
/// If enabled, automatically scroll the display when a new
/// character is written to the display
///
/// ```rust,ignore
/// lcd.set_autoscroll(true);
/// ```
pub fn set_autoscroll<D: DelayUs<u16> + DelayMs<u8>>(
&mut self,
enabled: bool,
delay: &mut D,
) -> Result<()> {
self.entry_mode.shift_mode = enabled.into();
let cmd = self.entry_mode.as_byte();
self.write_command(cmd, delay)?;
Ok(())
}
/// Set if the cursor should be visible
pub fn set_cursor_visibility<D: DelayUs<u16> + DelayMs<u8>>(
&mut self,
visibility: Cursor,
delay: &mut D,
) -> Result<()> {
self.display_mode.cursor_visibility = visibility;
let cmd = self.display_mode.as_byte();
self.write_command(cmd, delay)?;
Ok(())
}
/// Set if the characters on the display should be visible
pub fn set_display<D: DelayUs<u16> + DelayMs<u8>>(
&mut self,
display: Display,
delay: &mut D,
) -> Result<()> {
self.display_mode.display = display;
let cmd = self.display_mode.as_byte();
self.write_command(cmd, delay)?;
Ok(())
}
/// Set if the cursor should blink
pub fn set_cursor_blink<D: DelayUs<u16> + DelayMs<u8>>(
&mut self,
blink: CursorBlink,
delay: &mut D,
) -> Result<()> {
self.display_mode.cursor_blink = blink;
let cmd = self.display_mode.as_byte();
self.write_command(cmd, delay)?;
Ok(())
}
/// Set which way the cursor will move when a new character is written
///
/// ```rust,ignore
/// // Move right (Default) when a new character is written
/// lcd.set_cursor_mode(CursorMode::Right)
///
/// // Move left when a new character is written
/// lcd.set_cursor_mode(CursorMode::Left)
/// ```
pub fn set_cursor_mode<D: DelayUs<u16> + DelayMs<u8>>(
&mut self,
mode: CursorMode,
delay: &mut D,
) -> Result<()> {
self.entry_mode.cursor_mode = mode;
let cmd = self.entry_mode.as_byte();
self.write_command(cmd, delay)?;
Ok(())
}
/// Set the cursor position
///
/// ```rust,ignore
/// // Move to line 2
/// lcd.set_cursor_pos(40)
/// ```
pub fn set_cursor_pos<D: DelayUs<u16> + DelayMs<u8>>(
&mut self,
position: u8,
delay: &mut D,
) -> Result<()> {
let lower_7_bits = 0b0111_1111 & position;
self.write_command(0b1000_0000 | lower_7_bits, delay)?;
Ok(())
}
/// Shift just the cursor to the left or the right
///
/// ```rust,ignore
/// lcd.shift_cursor(Direction::Left);
/// lcd.shift_cursor(Direction::Right);
/// ```
pub fn shift_cursor<D: DelayUs<u16> + DelayMs<u8>>(
&mut self,
dir: Direction,
delay: &mut D,
) -> Result<()> {
let bits = match dir {
Direction::Left => 0b0000_0000,
Direction::Right => 0b0000_0100,
};
self.write_command(0b0001_0000 | bits | bits, delay)?;
Ok(())
}
/// Shift the entire display to the left or the right
///
/// ```rust,ignore
/// lcd.shift_display(Direction::Left);
/// lcd.shift_display(Direction::Right);
/// ```
pub fn shift_display<D: DelayUs<u16> + DelayMs<u8>>(
&mut self,
dir: Direction,
delay: &mut D,
) -> Result<()> {
let bits = match dir {
Direction::Left => 0b0000_0000,
Direction::Right => 0b0000_0100,
};
self.write_command(0b0001_1000 | bits, delay)?;
Ok(())
}
/// Write a single character to the `HD44780`
///
/// ```rust,ignore
/// lcd.write_char('A');
/// ```
pub fn write_char<D: DelayUs<u16> + DelayMs<u8>>(
&mut self,
data: char,
delay: &mut D,
) -> Result<()> {
self.bus.write(data as u8, true, delay)?;
// Wait for the command to be processed
delay.delay_us(100);
Ok(())
}
fn write_command<D: DelayUs<u16> + DelayMs<u8>>(
&mut self,
cmd: u8,
delay: &mut D,
) -> Result<()> {
self.bus.write(cmd, false, delay)?;
// Wait for the command to be processed
delay.delay_us(100);
Ok(())
}
fn init_4bit<D: DelayUs<u16> + DelayMs<u8>>(&mut self, delay: &mut D) -> Result<()> {
// Wait for the LCD to wakeup if it was off
delay.delay_ms(15u8);
// Initialize Lcd in 4-bit mode
self.bus.write(0x33, false, delay)?;
// Wait for the command to be processed
delay.delay_ms(5u8);
// Sets 4-bit operation and enables 5x7 mode for chars
self.bus.write(0x32, false, delay)?;
// Wait for the command to be processed
delay.delay_us(100);
self.bus.write(0x28, false, delay)?;
// Wait for the command to be processed
delay.delay_us(100);
// Clear Display
self.bus.write(0x0E, false, delay)?;
// Wait for the command to be processed
delay.delay_us(100);
// Move the cursor to beginning of first line
self.bus.write(0x01, false, delay)?;
// Wait for the command to be processed
delay.delay_us(100);
// Set entry mode
self.bus.write(self.entry_mode.as_byte(), false, delay)?;
// Wait for the command to be processed
delay.delay_us(100);
self.bus.write(0x80, false, delay)?;
// Wait for the command to be processed
delay.delay_us(100);
Ok(())
}
// Follow the 8-bit setup procedure as specified in the HD44780 datasheet
fn init_8bit<D: DelayUs<u16> + DelayMs<u8>>(&mut self, delay: &mut D) -> Result<()> {
// Wait for the LCD to wakeup if it was off
delay.delay_ms(15u8);
// Initialize Lcd in 8-bit mode
self.bus.write(0b0011_0000, false, delay)?;
// Wait for the command to be processed
delay.delay_ms(5u8);
// Sets 8-bit operation and enables 5x7 mode for chars
self.bus.write(0b0011_1000, false, delay)?;
// Wait for the command to be processed
delay.delay_us(100);
self.bus.write(0b0000_1110, false, delay)?;
// Wait for the command to be processed
delay.delay_us(100);
// Clear Display
self.bus.write(0b0000_0001, false, delay)?;
// Wait for the command to be processed
delay.delay_us(100);
// Move the cursor to beginning of first line
self.bus.write(0b000_0111, false, delay)?;
// Wait for the command to be processed
delay.delay_us(100);
// Set entry mode
self.bus.write(self.entry_mode.as_byte(), false, delay)?;
// Wait for the command to be processed
delay.delay_us(100);
Ok(())
}
pub fn write_str<D: DelayUs<u16> + DelayMs<u8>>(
&mut self,
string: &str,
delay: &mut D,
) -> Result<()> {
for c in string.chars() {
self.write_char(c, delay)?;
}
Ok(())
}
// Send a byte to the HD44780 by setting the data on the bus and
// also pulsing the enable pin
/*fn send_byte(&mut self, data: u8) {
// Pulse the enable pin
self.set_bus_bits(data);
self.pulse_enable();
}*/
// Pulse the enable pin telling the HD44780 that we something for it
/*fn pulse_enable(&mut self) {
self.en.set_high();
self.delay.delay_ms(15u8);
self.en.set_low();
}*/
}
//impl<B> Write for HD44780<B>
//where
// B: DataBus,
//{
// fn write_str(&mut self, string: &str) -> Result {
// for c in string.chars() {
// self.write_char(c, delay);
// }
// Ok(())
// }
//}
|