mirror of
https://github.com/Feliix42/ssd1675.git
synced 2024-11-24 19:56:30 +00:00
169 lines
5.2 KiB
Rust
169 lines
5.2 KiB
Rust
use hal;
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// Section 15.2 of the HINK-E0213A07 data sheet says to hold for 10ms
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const RESET_DELAY_MS: u8 = 10;
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/// Trait implemented by displays to provide implemenation of core functionality.
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pub trait DisplayInterface {
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type Error;
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/// Send a command to the controller.
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///
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/// Prefer calling `execute` on a [Commmand](../command/enum.Command.html) over calling this
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/// directly.
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fn send_command(&mut self, command: u8) -> Result<(), Self::Error>;
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/// Send data for a command.
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fn send_data(&mut self, data: &[u8]) -> Result<(), Self::Error>;
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/// Reset the controller.
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fn reset<D: hal::blocking::delay::DelayMs<u8>>(&mut self, delay: &mut D);
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/// Wait for the controller to indicate it is not busy.
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fn busy_wait(&self);
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}
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/// The hardware interface to a display.
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///
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/// ### Example
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///
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/// This example uses the Linux implementation of the embedded HAL traits to build a display
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/// interface. For a complete example see [the Raspberry Pi Inky pHAT example](https://github.com/wezm/ssd1675/blob/master/examples/raspberry_pi_inky_phat.rs).
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///
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/// ```ignore
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/// extern crate linux_embedded_hal;
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/// use linux_embedded_hal::spidev::{self, SpidevOptions};
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/// use linux_embedded_hal::sysfs_gpio::Direction;
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/// use linux_embedded_hal::Delay;
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/// use linux_embedded_hal::{Pin, Spidev};
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///
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/// extern crate ssd1675;
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/// use ssd1675::{Builder, Color, Dimensions, Display, GraphicDisplay, Rotation};
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///
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/// // Configure SPI
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/// let mut spi = Spidev::open("/dev/spidev0.0").expect("SPI device");
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/// let options = SpidevOptions::new()
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/// .bits_per_word(8)
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/// .max_speed_hz(4_000_000)
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/// .mode(spidev::SPI_MODE_0)
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/// .build();
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/// spi.configure(&options).expect("SPI configuration");
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///
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/// // https://pinout.xyz/pinout/inky_phat
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/// // Configure Digital I/O Pins
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/// let cs = Pin::new(8); // BCM8
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/// cs.export().expect("cs export");
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/// while !cs.is_exported() {}
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/// cs.set_direction(Direction::Out).expect("CS Direction");
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/// cs.set_value(1).expect("CS Value set to 1");
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///
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/// let busy = Pin::new(17); // BCM17
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/// busy.export().expect("busy export");
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/// while !busy.is_exported() {}
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/// busy.set_direction(Direction::In).expect("busy Direction");
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///
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/// let dc = Pin::new(22); // BCM22
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/// dc.export().expect("dc export");
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/// while !dc.is_exported() {}
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/// dc.set_direction(Direction::Out).expect("dc Direction");
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/// dc.set_value(1).expect("dc Value set to 1");
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///
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/// let reset = Pin::new(27); // BCM27
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/// reset.export().expect("reset export");
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/// while !reset.is_exported() {}
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/// reset
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/// .set_direction(Direction::Out)
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/// .expect("reset Direction");
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/// reset.set_value(1).expect("reset Value set to 1");
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///
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/// // Build the interface from the pins and SPI device
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/// let controller = ssd1675::Interface::new(spi, cs, busy, dc, reset);
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#[allow(dead_code)] // Prevent warning about CS being unused
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pub struct Interface<SPI, CS, BUSY, DC, RESET> {
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/// SPI interface
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spi: SPI,
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/// CS (chip select) for SPI (output)
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cs: CS,
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/// Active low busy pin (input)
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busy: BUSY,
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/// Data/Command Control Pin (High for data, Low for command) (output)
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dc: DC,
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/// Pin for reseting the controller (output)
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reset: RESET,
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}
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impl<SPI, CS, BUSY, DC, RESET> Interface<SPI, CS, BUSY, DC, RESET>
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where
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SPI: hal::blocking::spi::Write<u8>,
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CS: hal::digital::OutputPin,
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BUSY: hal::digital::InputPin,
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DC: hal::digital::OutputPin,
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RESET: hal::digital::OutputPin,
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{
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/// Create a new Interface from embedded hal traits.
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pub fn new(spi: SPI, cs: CS, busy: BUSY, dc: DC, reset: RESET) -> Self {
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Self {
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spi,
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cs,
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busy,
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dc,
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reset,
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}
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}
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fn write(&mut self, data: &[u8]) -> Result<(), SPI::Error> {
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// Select the controller with chip select (CS)
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// self.cs.set_low();
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// Linux has a default limit of 4096 bytes per SPI transfer
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// https://github.com/torvalds/linux/blob/ccda4af0f4b92f7b4c308d3acc262f4a7e3affad/drivers/spi/spidev.c#L93
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if cfg!(target_os = "linux") {
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for data_chunk in data.chunks(4096) {
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self.spi.write(data_chunk)?;
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}
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} else {
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self.spi.write(data)?;
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}
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// Release the controller
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// self.cs.set_high();
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Ok(())
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}
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}
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impl<SPI, CS, BUSY, DC, RESET> DisplayInterface for Interface<SPI, CS, BUSY, DC, RESET>
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where
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SPI: hal::blocking::spi::Write<u8>,
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CS: hal::digital::OutputPin,
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BUSY: hal::digital::InputPin,
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DC: hal::digital::OutputPin,
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RESET: hal::digital::OutputPin,
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{
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type Error = SPI::Error;
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fn reset<D: hal::blocking::delay::DelayMs<u8>>(&mut self, delay: &mut D) {
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self.reset.set_low();
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delay.delay_ms(RESET_DELAY_MS);
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self.reset.set_high();
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delay.delay_ms(RESET_DELAY_MS);
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}
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fn send_command(&mut self, command: u8) -> Result<(), Self::Error> {
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self.dc.set_low();
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self.write(&[command])?;
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self.dc.set_high();
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Ok(())
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}
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fn send_data(&mut self, data: &[u8]) -> Result<(), Self::Error> {
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self.dc.set_high();
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self.write(data)
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}
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fn busy_wait(&self) {
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while self.busy.is_high() {}
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}
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}
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