Added support for the 7.5 inch HD display

5 years ago · c27ffd507f
5 changed files with 585 additions and 2 deletions
--- a/src/epd7in5_hd/command.rs
+++ b/src/epd7in5_hd/command.rs
@ -0,0 +1,158 @@
 //! SPI Commands for the Waveshare 7.5" E-Ink Display
 use crate::traits;
 /// EPD7in5 commands
 ///
 /// Should rarely (never?) be needed directly.
 ///
 /// For more infos about the addresses and what they are doing look into the PDFs.
 #[allow(dead_code)]
 #[allow(non_camel_case_types)]
 #[derive(Copy, Clone)]
 pub(crate) enum Command {
    DRIVER_OUTPUT_CONTROL = 0x01,
    /// Set gate driving voltage
    GATE_DRIVING_VOLTAGE_CONTROL = 0x03,
    /// Set source driving voltage
    SOURCE_DRIVING_VOLTAGE_CONTROL = 0x04,
    SOFT_START = 0x0C,
    /// Set the scanning start position of the gate driver.
    /// The valid range is from 0 to 679.
    GATE_SCAN_START_POSITION = 0x0F,
    /// Deep sleep mode control
    DEEP_SLEEP = 0x10,
    /// Define data entry sequence
    DATA_ENTRY = 0x11,
    /// resets the commands and parameters to their S/W Reset default values except R10h-Deep Sleep Mode.
    /// During operation, BUSY pad will output high.
    /// Note: RAM are unaffected by this command.
    SW_RESET = 0x12,
    /// After this command initiated, HV Ready detection starts.
    /// BUSY pad will output high during detection.
    /// The detection result can be read from the Status Bit Read (Command 0x2F).
    HV_READY_DETECTION = 0x14,
    /// After this command initiated, VCI detection starts.
    /// BUSY pad will output high during detection.
    /// The detection result can be read from the Status Bit Read (Command 0x2F).
    VCI_DETECTION = 0x15,
    /// Temperature Sensor Selection
    TEMPERATURE_SENSOR_CONTROL = 0x18,
    /// Write to temperature register
    TEMPERATURE_SENSOR_WRITE = 0x1A,
    /// Read from temperature register
    TEMPERATURE_SENSOR_READ = 0x1B,
    /// Write Command to External temperature sensor.
    TEMPERATURE_SENSOR_WRITE_EXTERNAL = 0x1C,
    /// Activate Display Update Sequence
    MASTER_ACTIVATION = 0x20,
    /// RAM content option for Display Update
    DISPLAY_UPDATE_CONTROL_1 = 0x21,
    /// Display Update Sequence Option
    DISPLAY_UPDATE_CONTROL_2 = 0x22,
    /// After this command, data entries will be written into the BW RAM until another command is written
    WRITE_RAM_BW = 0x24,
    /// After this command, data entries will be written into the RED RAM until another command is written
    WRITE_RAM_RED = 0x26,
    /// Fetch data from RAM
    READ_RAM = 0x27,
    /// Enter VCOM sensing conditions
    VCOM_SENSE = 0x28,
    /// Enter VCOM sensing conditions
    VCOM_SENSE_DURATION = 0x29,
    /// Program VCOM register into OTP
    VCOM_PROGRAM_OTP = 0x2A,
    /// Reduces a glitch when ACVCOM is toggled
    VCOM_CONTROL = 0x2B,
    /// Write VCOM register from MCU interface
    VCOM_WRITE = 0x2C,
    /// Read Register for Display Option
    OTP_READ = 0x2D,
    /// CRC calculation command for OTP content validation
    CRC_CALCULATION = 0x34,
    /// CRC Status Read
    CRC_READ = 0x35,
    /// Program OTP Selection according to the OTP Selection Control
    PROGRAM_SELECTION = 0x36,
    /// Write Register for Display Option
    DISPLAY_OPTION_WRITE = 0x37,
    /// Write register for User ID
    USER_ID_WRITE = 0x38,
    /// Select border waveform for VBD
    VBD_CONTROL = 0x3C,
    /// Read RAM Option
    READ_RAM_OPTION = 0x41,
    /// Specify the start/end positions of the window address in the X direction by an address unit for RAM
    SET_RAM_X_START_END = 0x44,
    /// Specify the start/end positions of the window address in the Y direction by an address unit for RAM
    SET_RAM_Y_START_END = 0x45,
    /// Auto write RED RAM for regular pattern
    AUTO_WRITE_RED = 0x46,
    /// Auto write B/W RAM for regular pattern
    AUTO_WRITE_BW = 0x47,
    /// Make initial settings for the RAM X address in the address counter (AC)
    SET_RAM_X_AC = 0x4E,
    /// Make initial settings for the RAM Y address in the address counter (AC)
    SET_RAM_Y_AC = 0x4F,
    /// This command is an empty command; it does not have any effect on the display module.
    /// However, it can be used to terminate Frame Memory Write or Read Commands.
    NOP = 0x7F,
 }
 impl traits::Command for Command {
    /// Returns the address of the command
    fn address(self) -> u8 {
        self as u8
    }
 }
 #[cfg(test)]
 mod tests {
    use super::*;
    use crate::traits::Command as CommandTrait;
    #[test]
    fn command_addr() {
        // assert_eq!(Command::PANEL_SETTING.address(), 0x00);
        // assert_eq!(Command::DISPLAY_REFRESH.address(), 0x12);
    }
 }
--- a/src/epd7in5_hd/graphics.rs
+++ b/src/epd7in5_hd/graphics.rs
@ -0,0 +1,149 @@
 use crate::epd7in5_hd::{DEFAULT_BACKGROUND_COLOR, HEIGHT, WIDTH};
 use crate::graphics::{Display, DisplayRotation};
 use embedded_graphics::pixelcolor::BinaryColor;
 use embedded_graphics::prelude::*;
 /// Full size buffer for use with the 7in5 EPD
 ///
 /// Can also be manually constructed:
 /// `buffer: [DEFAULT_BACKGROUND_COLOR.get_byte_value(); WIDTH / 8 * HEIGHT]`
 pub struct Display7in5 {
    buffer: [u8; WIDTH as usize * HEIGHT as usize / 8],
    rotation: DisplayRotation,
 }
 impl Default for Display7in5 {
    fn default() -> Self {
        Display7in5 {
            buffer: [DEFAULT_BACKGROUND_COLOR.get_byte_value();
                WIDTH as usize * HEIGHT as usize / 8],
            rotation: DisplayRotation::default(),
        }
    }
 }
 impl DrawTarget<BinaryColor> for Display7in5 {
    type Error = core::convert::Infallible;
    fn draw_pixel(&mut self, pixel: Pixel<BinaryColor>) -> Result<(), Self::Error> {
        self.draw_helper(WIDTH, HEIGHT, pixel)
    }
    fn size(&self) -> Size {
        Size::new(WIDTH, HEIGHT)
    }
 }
 impl Display for Display7in5 {
    fn buffer(&self) -> &[u8] {
        &self.buffer
    }
    fn get_mut_buffer(&mut self) -> &mut [u8] {
        &mut self.buffer
    }
    fn set_rotation(&mut self, rotation: DisplayRotation) {
        self.rotation = rotation;
    }
    fn rotation(&self) -> DisplayRotation {
        self.rotation
    }
 }
 #[cfg(test)]
 mod tests {
    use super::*;
    use crate::color::{Black, Color};
    use crate::epd7in5_hd;
    use crate::graphics::{Display, DisplayRotation};
    use embedded_graphics::{primitives::Line, style::PrimitiveStyle};
    // test buffer length
    #[test]
    fn graphics_size() {
        let display = Display7in5::default();
        assert_eq!(display.buffer().len(), 58080);
    }
    // test default background color on all bytes
    #[test]
    fn graphics_default() {
        let display = Display7in5::default();
        for &byte in display.buffer() {
            assert_eq!(byte, epd7in5_hd::DEFAULT_BACKGROUND_COLOR.get_byte_value());
        }
    }
    #[test]
    fn graphics_rotation_0() {
        let mut display = Display7in5::default();
        let _ = Line::new(Point::new(0, 0), Point::new(7, 0))
            .into_styled(PrimitiveStyle::with_stroke(Black, 1))
            .draw(&mut display);
        let buffer = display.buffer();
        assert_eq!(buffer[0], Color::Black.get_byte_value());
        for &byte in buffer.iter().skip(1) {
            assert_eq!(byte, epd7in5_hd::DEFAULT_BACKGROUND_COLOR.get_byte_value());
        }
    }
    #[test]
    fn graphics_rotation_90() {
        let mut display = Display7in5::default();
        display.set_rotation(DisplayRotation::Rotate90);
        let _ = Line::new(Point::new(0, 792), Point::new(0, 799))
            .into_styled(PrimitiveStyle::with_stroke(Black, 1))
            .draw(&mut display);
        let buffer = display.buffer();
        assert_eq!(buffer[0], Color::Black.get_byte_value());
        for &byte in buffer.iter().skip(1) {
            assert_eq!(byte, epd7in5_hd::DEFAULT_BACKGROUND_COLOR.get_byte_value());
        }
    }
    #[test]
    fn graphics_rotation_180() {
        let mut display = Display7in5::default();
        display.set_rotation(DisplayRotation::Rotate180);
        let _ = Line::new(Point::new(792, 479), Point::new(799, 479))
            .into_styled(PrimitiveStyle::with_stroke(Black, 1))
            .draw(&mut display);
        let buffer = display.buffer();
        assert_eq!(buffer[0], Color::Black.get_byte_value());
        for &byte in buffer.iter().skip(1) {
            assert_eq!(byte, epd7in5_hd::DEFAULT_BACKGROUND_COLOR.get_byte_value());
        }
    }
    #[test]
    fn graphics_rotation_270() {
        let mut display = Display7in5::default();
        display.set_rotation(DisplayRotation::Rotate270);
        let _ = Line::new(Point::new(479, 0), Point::new(479, 7))
            .into_styled(PrimitiveStyle::with_stroke(Black, 1))
            .draw(&mut display);
        let buffer = display.buffer();
        assert_eq!(buffer[0], Color::Black.get_byte_value());
        for &byte in buffer.iter().skip(1) {
            assert_eq!(byte, epd7in5_hd::DEFAULT_BACKGROUND_COLOR.get_byte_value());
        }
    }
 }
--- a/src/epd7in5_hd/mod.rs
+++ b/src/epd7in5_hd/mod.rs
@ -0,0 +1,275 @@
 //! A simple Driver for the Waveshare 7.5" E-Ink Display (HD) via SPI
 //!
 //! # References
 //!
 //! - [Datasheet](https://www.waveshare.com/w/upload/2/27/7inch_HD_e-Paper_Specification.pdf)
 //! - [Waveshare Python driver](https://github.com/waveshare/e-Paper/blob/master/RaspberryPi_JetsonNano/python/lib/waveshare_epd/epd7in5_HD.py)
 //!
 use embedded_hal::{
    blocking::{delay::*, spi::Write},
    digital::v2::{InputPin, OutputPin},
 };
 use crate::color::Color;
 use crate::interface::DisplayInterface;
 use crate::traits::{InternalWiAdditions, RefreshLUT, WaveshareDisplay};
 pub(crate) mod command;
 use self::command::Command;
 #[cfg(feature = "graphics")]
 mod graphics;
 #[cfg(feature = "graphics")]
 pub use self::graphics::Display7in5;
 /// Width of the display
 pub const WIDTH: u32 = 880;
 /// Height of the display
 pub const HEIGHT: u32 = 528;
 /// Default Background Color
 pub const DEFAULT_BACKGROUND_COLOR: Color = Color::Black; // Inverted for HD (0xFF = White)
 const IS_BUSY_LOW: bool = false;
 /// EPD7in5 (HD) driver
 ///
 pub struct EPD7in5<SPI, CS, BUSY, DC, RST> {
    /// Connection Interface
    interface: DisplayInterface<SPI, CS, BUSY, DC, RST>,
    /// Background Color
    color: Color,
 }
 impl<SPI, CS, BUSY, DC, RST> InternalWiAdditions<SPI, CS, BUSY, DC, RST>
    for EPD7in5<SPI, CS, BUSY, DC, RST>
 where
    SPI: Write<u8>,
    CS: OutputPin,
    BUSY: InputPin,
    DC: OutputPin,
    RST: OutputPin,
 {
    fn init<DELAY: DelayMs<u8>>(
        &mut self,
        spi: &mut SPI,
        delay: &mut DELAY,
    ) -> Result<(), SPI::Error> {
        // Reset the device
        self.interface.reset(delay, 2);
        // HD procedure as described here:
        // https://github.com/waveshare/e-Paper/blob/master/RaspberryPi_JetsonNano/python/lib/waveshare_epd/epd7in5_HD.py
        // and as per specs:
        // https://www.waveshare.com/w/upload/2/27/7inch_HD_e-Paper_Specification.pdf
        self.wait_until_idle();
        self.command(spi, Command::SW_RESET)?;
        self.wait_until_idle();
        self.cmd_with_data(spi, Command::AUTO_WRITE_RED, &[0xF7])?;
        self.wait_until_idle();
        self.cmd_with_data(spi, Command::AUTO_WRITE_BW, &[0xF7])?;
        self.wait_until_idle();
        self.cmd_with_data(spi, Command::SOFT_START, &[0xAE, 0xC7, 0xC3, 0xC0, 0x40])?;
        self.cmd_with_data(spi, Command::DRIVER_OUTPUT_CONTROL, &[0xAF, 0x02, 0x01])?;
        self.cmd_with_data(spi, Command::DATA_ENTRY, &[0x01])?;
        self.cmd_with_data(spi, Command::SET_RAM_X_START_END, &[0x00, 0x00, 0x6F, 0x03])?;
        self.cmd_with_data(spi, Command::SET_RAM_Y_START_END, &[0xAF, 0x02, 0x00, 0x00])?;
        self.cmd_with_data(spi, Command::VBD_CONTROL, &[0x05])?;
        self.cmd_with_data(spi, Command::TEMPERATURE_SENSOR_CONTROL, &[0x80])?;
        self.cmd_with_data(spi, Command::DISPLAY_UPDATE_CONTROL_2, &[0xB1])?;
        self.command(spi, Command::MASTER_ACTIVATION)?;
        self.wait_until_idle();
        self.cmd_with_data(spi, Command::SET_RAM_X_AC, &[0x00, 0x00])?;
        self.cmd_with_data(spi, Command::SET_RAM_Y_AC, &[0x00, 0x00])?;
        Ok(())
    }
 }
 impl<SPI, CS, BUSY, DC, RST> WaveshareDisplay<SPI, CS, BUSY, DC, RST>
    for EPD7in5<SPI, CS, BUSY, DC, RST>
 where
    SPI: Write<u8>,
    CS: OutputPin,
    BUSY: InputPin,
    DC: OutputPin,
    RST: OutputPin,
 {
    type DisplayColor = Color;
    fn new<DELAY: DelayMs<u8>>(
        spi: &mut SPI,
        cs: CS,
        busy: BUSY,
        dc: DC,
        rst: RST,
        delay: &mut DELAY,
    ) -> Result<Self, SPI::Error> {
        let interface = DisplayInterface::new(cs, busy, dc, rst);
        let color = DEFAULT_BACKGROUND_COLOR;
        let mut epd = EPD7in5 { interface, color };
        epd.init(spi, delay)?;
        Ok(epd)
    }
    fn wake_up<DELAY: DelayMs<u8>>(
        &mut self,
        spi: &mut SPI,
        delay: &mut DELAY,
    ) -> Result<(), SPI::Error> {
        self.init(spi, delay)
    }
    fn sleep(&mut self, spi: &mut SPI) -> Result<(), SPI::Error> {
        self.wait_until_idle();
        self.cmd_with_data(spi, Command::DEEP_SLEEP, &[0x01])?;
        Ok(())
    }
    fn update_frame(&mut self, spi: &mut SPI, buffer: &[u8]) -> Result<(), SPI::Error> {
        self.wait_until_idle();
        self.cmd_with_data(spi, Command::SET_RAM_Y_AC, &[0x00, 0x00])?;
        self.cmd_with_data(spi, Command::WRITE_RAM_BW, buffer)?;
        self.cmd_with_data(spi, Command::DISPLAY_UPDATE_CONTROL_2, &[0xF7])?;
        Ok(())
    }
    fn update_partial_frame(
        &mut self,
        _spi: &mut SPI,
        _buffer: &[u8],
        _x: u32,
        _y: u32,
        _width: u32,
        _height: u32,
    ) -> Result<(), SPI::Error> {
        unimplemented!();
    }
    fn display_frame(&mut self, spi: &mut SPI) -> Result<(), SPI::Error> {
        self.command(spi, Command::MASTER_ACTIVATION)?;
        self.wait_until_idle();
        Ok(())
    }
    fn update_and_display_frame(&mut self, spi: &mut SPI, buffer: &[u8]) -> Result<(), SPI::Error> {
        self.update_frame(spi, buffer)?;
        self.display_frame(spi)?;
        Ok(())
    }
    fn clear_frame(&mut self, spi: &mut SPI) -> Result<(), SPI::Error> {
        let pixel_count = WIDTH * HEIGHT / 8;
        let blank_frame = [0xFF; (WIDTH * HEIGHT / 8) as usize];
        // self.update_and_display_frame(spi, &blank_frame)?;
        self.wait_until_idle();
        self.cmd_with_data(spi, Command::SET_RAM_Y_AC, &[0x00, 0x00])?;
        for cmd in &[Command::WRITE_RAM_BW, Command::WRITE_RAM_RED] {
            self.command(spi, *cmd)?;
            self.interface.data_x_times(spi, 0xFF, pixel_count)?;
        }
        self.cmd_with_data(spi, Command::DISPLAY_UPDATE_CONTROL_2, &[0xF7])?;
        self.command(spi, Command::MASTER_ACTIVATION)?;
        self.wait_until_idle();
        Ok(())
    }
    fn set_background_color(&mut self, color: Color) {
        self.color = color;
    }
    fn background_color(&self) -> &Color {
        &self.color
    }
    fn width(&self) -> u32 {
        WIDTH
    }
    fn height(&self) -> u32 {
        HEIGHT
    }
    fn set_lut(
        &mut self,
        _spi: &mut SPI,
        _refresh_rate: Option<RefreshLUT>,
    ) -> Result<(), SPI::Error> {
        unimplemented!();
    }
    fn is_busy(&self) -> bool {
        self.interface.is_busy(IS_BUSY_LOW)
    }
 }
 impl<SPI, CS, BUSY, DC, RST> EPD7in5<SPI, CS, BUSY, DC, RST>
 where
    SPI: Write<u8>,
    CS: OutputPin,
    BUSY: InputPin,
    DC: OutputPin,
    RST: OutputPin,
 {
    fn command(&mut self, spi: &mut SPI, command: Command) -> Result<(), SPI::Error> {
        self.interface.cmd(spi, command)
    }
    fn send_data(&mut self, spi: &mut SPI, data: &[u8]) -> Result<(), SPI::Error> {
        self.interface.data(spi, data)
    }
    fn cmd_with_data(
        &mut self,
        spi: &mut SPI,
        command: Command,
        data: &[u8],
    ) -> Result<(), SPI::Error> {
        self.interface.cmd_with_data(spi, command, data)
    }
    fn wait_until_idle(&mut self) {
        self.interface.wait_until_idle(IS_BUSY_LOW)
    }
    // fn send_resolution(&mut self, spi: &mut SPI) -> Result<(), SPI::Error> {
    //     unimplemented!();
    //     // let w = self.width();
    //     // let h = self.height();
    //     // self.cmd_with_data(spi, Command::SET_RAM_Y_AC, &[0x00, 0x00])?;
    //     // self.command(spi, Command::TCON_RESOLUTION)?;
    //     // self.send_data(spi, &[(w >> 8) as u8])?;
    //     // self.send_data(spi, &[w as u8])?;
    //     // self.send_data(spi, &[(h >> 8) as u8])?;
    //     // self.send_data(spi, &[h as u8])
    // }
 }
 #[cfg(test)]
 mod tests {
    use super::*;
    #[test]
    fn epd_size() {
        assert_eq!(WIDTH, 880);
        assert_eq!(HEIGHT, 528);
        assert_eq!(DEFAULT_BACKGROUND_COLOR, Color::Black);
    }
 }
--- a/src/interface.rs
+++ b/src/interface.rs
@ -16,7 +16,7 @@ pub(crate) struct DisplayInterface<SPI, CS, BUSY, DC, RST> {
    busy: BUSY,
    /// Data/Command Control Pin (High for data, Low for command)
    dc: DC,
-    /// Pin for Reseting
+    /// Pin for Resetting
    rst: RST,
 }
@ -107,7 +107,7 @@ where
            spi.write(data)?;
        }
-        // deativate spi with cs high
+        // deactivate spi with cs high
        let _ = self.cs.set_high();
        Ok(())
--- a/src/lib.rs
+++ b/src/lib.rs
@ -82,6 +82,7 @@ pub mod epd2in9bc;
 pub mod epd4in2;
 pub mod epd5in65f;
 pub mod epd7in5;
 pub mod epd7in5_hd;
 pub mod epd7in5_v2;
 pub(crate) mod type_a;