eink/eink.hpp

#pragma once

#include <utility>

#include <cstdint>

#include <avr/pgmspace.h>

#include "../clock.hpp"
#include "../io/io.hpp"
#include "../util/util.hpp"

namespace eink {

template <std::uint16_t Width, std::uint16_t Height, typename Spi, io::P RstPin, io::P DcPin, io::P BusyPin>
class Eink {
	using word_t = typename Spi::word_t;

	enum class Cmd : std::uint8_t {
		DRIVER_OUTPUT_CONTROL = 0x01,
		DEEP_SLEEP_MODE = 0x10,
		DATA_ENTRY_MODE = 0x11,
		SW_RESET = 0x12,
		READ_TEMPERATURE_SENSOR = 0x18,
		UPDATE_DISPLAY = 0x20,
		DISPLAY_UPDATE_CONTROL_2 = 0x22,
		WRITE_RAM_BLACK = 0x24,
		WRITE_RAM_RED = 0x26,
		BORDER_WAVEFORM_CONTROL = 0x3C,
		SET_RAM_X_ADDR_POSITIONS = 0x44,
		SET_RAM_Y_ADDR_POSITIONS = 0x45,
		SET_RAM_X_ADDR = 0x4E,
		SET_RAM_Y_ADDR = 0x4F,
	};

	static io::Pin<RstPin> m_rst;
	static io::Pin<DcPin> m_dc;
	static io::Pin<BusyPin> m_bsy;
	static constexpr auto THREE_WIRE_SPI = (DcPin == io::P::NONE ? true : false);
	static_assert((THREE_WIRE_SPI && sizeof(word_t) > 1) || !THREE_WIRE_SPI,
	              "Three wire SPI requires SPI word size of at least 9 bits");

	static constexpr auto BLOCK_SIZE = 5;

	enum class Color : std::uint8_t {
		BLACK = 0b00,
		WHITE = 0b01,
		RED = 0b10,
		ERROR = 0b11,
	};

	class ImageBlock {
	  public:
		inline Color &operator[](const std::size_t idx)
		{
			return data[idx];
		}

		inline const Color &operator[](const std::size_t idx) const
		{
			return data[idx];
		}

	  private:
		Color data[BLOCK_SIZE];
	};

  public:
	static void init()
	{
		m_rst.dir(io::Dir::OUT);
		m_dc.dir(io::Dir::OUT);
		m_bsy.dir(io::Dir::IN);
		Spi::init();

		reset();

		waitUntilIdle();
		sendCommand(Cmd::SW_RESET);
		waitUntilIdle();

		sendCommand(Cmd::DRIVER_OUTPUT_CONTROL);
		sendData(0xC7);
		sendData(0x00);
		sendData(0x01);

		sendCommand(Cmd::DATA_ENTRY_MODE);
		sendData(0x02);

		sendCommand(Cmd::SET_RAM_X_ADDR_POSITIONS);
		sendData(Width / 8 - 1);
		sendData(0x00);

		sendCommand(Cmd::SET_RAM_Y_ADDR_POSITIONS);
		sendData(0x00);
		sendData(0x00);
		sendData(Height - 1);
		sendData(0x00);

		sendCommand(Cmd::BORDER_WAVEFORM_CONTROL);
		sendData(0x05);

		sendCommand(Cmd::READ_TEMPERATURE_SENSOR);
		sendData(0x80);

		sendCommand(Cmd::SET_RAM_X_ADDR);
		sendData(Width / 8 - 1);

		sendCommand(Cmd::SET_RAM_Y_ADDR);
		sendData(0x00);
		sendData(0x00);

		waitUntilIdle();
	}

	static void sendCommand(const Cmd command)
	{
		m_dc = false;
		spiTransfer(static_cast<word_t>(command));
	}

	static void sendData(word_t data)
	{
		if constexpr (THREE_WIRE_SPI) {
			data |= 1 << 8;
		}

		m_dc = true;
		spiTransfer(data);
	}

	static void waitUntilIdle()
	{
		while (m_bsy) {
			_delay_ms(100);
		}
	}

	static void reset()
	{
		m_rst = true;
		_delay_ms(200);
		m_rst = false;
		_delay_ms(10);
		m_rst = true;
		_delay_ms(200);
	}

	template <typename Image>
	static void draw(const Image &image)
	{
		constexpr auto lookup = [](std::uint8_t bits) {
			auto block = ImageBlock{};
			util::for_constexpr(
			    [&](const auto idx) {
				    block[idx.value] = static_cast<Color>(bits % 3);
				    bits /= 3;
			    },
			    std::make_index_sequence<BLOCK_SIZE>{});
			return block;
		};

		constexpr auto sendImageChannel = [lookup](const auto command, const auto image) {
			sendCommand(command);
			auto buffer = std::uint8_t{0};
			auto bufferPos = std::uint8_t{0};
			for (auto i = std::uint16_t{0}; i < Width * Height / BLOCK_SIZE; i++) {
				const auto block = lookup(pgm_read_byte(&image[i]));
				for (auto p = std::uint8_t{0}; p < BLOCK_SIZE; ++p) {
					const auto pixel = std::uint8_t{(command == Cmd::WRITE_RAM_BLACK) ? (block[p] != Color::BLACK)
					                                                                  : (block[p] == Color::RED)};
					buffer |= pixel << (7 - bufferPos++);
					if (bufferPos == 8) {
						sendData(buffer);
						buffer = 0;
						bufferPos = 0;
					}
				}
			}
		};

		sendImageChannel(Cmd::WRITE_RAM_BLACK, image.data());
		sendImageChannel(Cmd::WRITE_RAM_RED, image.data());

		sendCommand(Cmd::DISPLAY_UPDATE_CONTROL_2);
		sendData(0xF7);
		sendCommand(Cmd::UPDATE_DISPLAY);
		waitUntilIdle();
	}

	static void clear()
	{
		sendCommand(Cmd::WRITE_RAM_BLACK);
		for (auto i = std::uint16_t{0}; i < Width * Height / 8; i++) {
			sendData(0xff);
		}
		sendCommand(Cmd::WRITE_RAM_RED);
		for (auto i = std::uint16_t{0}; i < Width * Height / 8; i++) {
			sendData(0x00);
		}

		sendCommand(Cmd::DISPLAY_UPDATE_CONTROL_2);
		sendData(0xF7);
		sendCommand(Cmd::UPDATE_DISPLAY);
		waitUntilIdle();
	}

	static void sleep()
	{
		sendCommand(Cmd::DEEP_SLEEP_MODE);
		sendData(0x01);
		_delay_ms(100);
	}

	static void spiTransfer(const word_t data)
	{
		Spi::select(true);
		Spi::transfer(data);
		Spi::select(false);
	}
};

} // namespace eink
Refactor eink driver 2022-05-26 15:11:00 +02:00			`#pragma once`

Make use of C++ standard library 2022-05-29 16:13:53 +02:00			`#include <utility>`

			`#include <cstdint>`
Refactor eink driver 2022-05-26 15:11:00 +02:00
			`#include <avr/pgmspace.h>`

			`#include "../clock.hpp"`
			`#include "../io/io.hpp"`
Implement trinary image encoding 2022-05-27 11:37:23 +02:00			`#include "../util/util.hpp"`
Refactor eink driver 2022-05-26 15:11:00 +02:00
Refactor interface to be fully static 2022-05-26 16:03:38 +02:00			`namespace eink {`
Refactor eink driver 2022-05-26 15:11:00 +02:00
Make use of C++ standard library 2022-05-29 16:13:53 +02:00			`template <std::uint16_t Width, std::uint16_t Height, typename Spi, io::P RstPin, io::P DcPin, io::P BusyPin>`
Refactor interface to be fully static 2022-05-26 16:03:38 +02:00			`class Eink {`
Add three wire spi support 2022-05-28 17:02:00 +02:00			`using word_t = typename Spi::word_t;`

Make use of C++ standard library 2022-05-29 16:13:53 +02:00			`enum class Cmd : std::uint8_t {`
Use enum to represent commands 2022-05-28 16:14:12 +02:00			`DRIVER_OUTPUT_CONTROL = 0x01,`
			`DEEP_SLEEP_MODE = 0x10,`
			`DATA_ENTRY_MODE = 0x11,`
			`SW_RESET = 0x12,`
			`READ_TEMPERATURE_SENSOR = 0x18,`
			`UPDATE_DISPLAY = 0x20,`
			`DISPLAY_UPDATE_CONTROL_2 = 0x22,`
			`WRITE_RAM_BLACK = 0x24,`
			`WRITE_RAM_RED = 0x26,`
			`BORDER_WAVEFORM_CONTROL = 0x3C,`
			`SET_RAM_X_ADDR_POSITIONS = 0x44,`
			`SET_RAM_Y_ADDR_POSITIONS = 0x45,`
			`SET_RAM_X_ADDR = 0x4E,`
			`SET_RAM_Y_ADDR = 0x4F,`
Create readable names for display commands 2022-05-26 15:53:29 +02:00			`};`

Refactor interface to be fully static 2022-05-26 16:03:38 +02:00			`static io::Pin<RstPin> m_rst;`
			`static io::Pin<DcPin> m_dc;`
			`static io::Pin<BusyPin> m_bsy;`
Add three wire spi support 2022-05-28 17:02:00 +02:00			`static constexpr auto THREE_WIRE_SPI = (DcPin == io::P::NONE ? true : false);`
			`static_assert((THREE_WIRE_SPI && sizeof(word_t) > 1) \|\| !THREE_WIRE_SPI,`
			`"Three wire SPI requires SPI word size of at least 9 bits");`
Refactor eink driver 2022-05-26 15:11:00 +02:00
Refactor block helper 2022-05-28 11:45:42 +02:00			`static constexpr auto BLOCK_SIZE = 5;`

Make use of C++ standard library 2022-05-29 16:13:53 +02:00			`enum class Color : std::uint8_t {`
Refactor block helper 2022-05-28 11:45:42 +02:00			`BLACK = 0b00,`
			`WHITE = 0b01,`
			`RED = 0b10,`
			`ERROR = 0b11,`
			`};`

			`class ImageBlock {`
			`public:`
Make use of C++ standard library 2022-05-29 16:13:53 +02:00			`inline Color &operator[](const std::size_t idx)`
Refactor block helper 2022-05-28 11:45:42 +02:00			`{`
			`return data[idx];`
			`}`

Make use of C++ standard library 2022-05-29 16:13:53 +02:00			`inline const Color &operator[](const std::size_t idx) const`
Refactor block helper 2022-05-28 11:45:42 +02:00			`{`
			`return data[idx];`
			`}`

			`private:`
			`Color data[BLOCK_SIZE];`
			`};`

Refactor eink driver 2022-05-26 15:11:00 +02:00			`public:`
Refactor interface to be fully static 2022-05-26 16:03:38 +02:00			`static void init()`
Refactor eink driver 2022-05-26 15:11:00 +02:00			`{`
			`m_rst.dir(io::Dir::OUT);`
			`m_dc.dir(io::Dir::OUT);`
			`m_bsy.dir(io::Dir::IN);`
			`Spi::init();`

Refactor interface to be fully static 2022-05-26 16:03:38 +02:00			`reset();`
Refactor eink driver 2022-05-26 15:11:00 +02:00
Refactor interface to be fully static 2022-05-26 16:03:38 +02:00			`waitUntilIdle();`
			`sendCommand(Cmd::SW_RESET);`
			`waitUntilIdle();`
Refactor eink driver 2022-05-26 15:11:00 +02:00
Refactor interface to be fully static 2022-05-26 16:03:38 +02:00			`sendCommand(Cmd::DRIVER_OUTPUT_CONTROL);`
			`sendData(0xC7);`
			`sendData(0x00);`
			`sendData(0x01);`
Refactor eink driver 2022-05-26 15:11:00 +02:00
Refactor interface to be fully static 2022-05-26 16:03:38 +02:00			`sendCommand(Cmd::DATA_ENTRY_MODE);`
Change image orientation to conventional XY 2022-05-26 19:33:49 +02:00			`sendData(0x02);`
Refactor eink driver 2022-05-26 15:11:00 +02:00
Refactor interface to be fully static 2022-05-26 16:03:38 +02:00			`sendCommand(Cmd::SET_RAM_X_ADDR_POSITIONS);`
Change image orientation to conventional XY 2022-05-26 19:33:49 +02:00			`sendData(Width / 8 - 1);`
Refactor interface to be fully static 2022-05-26 16:03:38 +02:00			`sendData(0x00);`
Refactor eink driver 2022-05-26 15:11:00 +02:00
Refactor interface to be fully static 2022-05-26 16:03:38 +02:00			`sendCommand(Cmd::SET_RAM_Y_ADDR_POSITIONS);`
			`sendData(0x00);`
			`sendData(0x00);`
Change image orientation to conventional XY 2022-05-26 19:33:49 +02:00			`sendData(Height - 1);`
Refactor interface to be fully static 2022-05-26 16:03:38 +02:00			`sendData(0x00);`
Refactor eink driver 2022-05-26 15:11:00 +02:00
Refactor interface to be fully static 2022-05-26 16:03:38 +02:00			`sendCommand(Cmd::BORDER_WAVEFORM_CONTROL);`
			`sendData(0x05);`
Refactor eink driver 2022-05-26 15:11:00 +02:00
Refactor interface to be fully static 2022-05-26 16:03:38 +02:00			`sendCommand(Cmd::READ_TEMPERATURE_SENSOR);`
			`sendData(0x80);`
Create readable names for display commands 2022-05-26 15:53:29 +02:00
Refactor interface to be fully static 2022-05-26 16:03:38 +02:00			`sendCommand(Cmd::SET_RAM_X_ADDR);`
Change image orientation to conventional XY 2022-05-26 19:33:49 +02:00			`sendData(Width / 8 - 1);`
Refactor eink driver 2022-05-26 15:11:00 +02:00
Refactor interface to be fully static 2022-05-26 16:03:38 +02:00			`sendCommand(Cmd::SET_RAM_Y_ADDR);`
Change image orientation to conventional XY 2022-05-26 19:33:49 +02:00			`sendData(0x00);`
Refactor interface to be fully static 2022-05-26 16:03:38 +02:00			`sendData(0x00);`
Refactor eink driver 2022-05-26 15:11:00 +02:00
Refactor interface to be fully static 2022-05-26 16:03:38 +02:00			`waitUntilIdle();`
Refactor eink driver 2022-05-26 15:11:00 +02:00			`}`

Use enum to represent commands 2022-05-28 16:14:12 +02:00			`static void sendCommand(const Cmd command)`
Refactor eink driver 2022-05-26 15:11:00 +02:00			`{`
			`m_dc = false;`
Add three wire spi support 2022-05-28 17:02:00 +02:00			`spiTransfer(static_cast<word_t>(command));`
Refactor eink driver 2022-05-26 15:11:00 +02:00			`}`

Add three wire spi support 2022-05-28 17:02:00 +02:00			`static void sendData(word_t data)`
Refactor eink driver 2022-05-26 15:11:00 +02:00			`{`
Add three wire spi support 2022-05-28 17:02:00 +02:00			`if constexpr (THREE_WIRE_SPI) {`
			`data \|= 1 << 8;`
			`}`

Refactor eink driver 2022-05-26 15:11:00 +02:00			`m_dc = true;`
Refactor interface to be fully static 2022-05-26 16:03:38 +02:00			`spiTransfer(data);`
Refactor eink driver 2022-05-26 15:11:00 +02:00			`}`

Refactor interface to be fully static 2022-05-26 16:03:38 +02:00			`static void waitUntilIdle()`
Refactor eink driver 2022-05-26 15:11:00 +02:00			`{`
			`while (m_bsy) {`
			`_delay_ms(100);`
			`}`
			`}`

Refactor interface to be fully static 2022-05-26 16:03:38 +02:00			`static void reset()`
Refactor eink driver 2022-05-26 15:11:00 +02:00			`{`
			`m_rst = true;`
			`_delay_ms(200);`
Refactor interface to be fully static 2022-05-26 16:03:38 +02:00			`m_rst = false;`
Refactor eink driver 2022-05-26 15:11:00 +02:00			`_delay_ms(10);`
			`m_rst = true;`
			`_delay_ms(200);`
			`}`

Change interface to take array wrapper 2022-05-27 20:39:51 +02:00			`template <typename Image>`
			`static void draw(const Image &image)`
Refactor eink driver 2022-05-26 15:11:00 +02:00			`{`
Make use of C++ standard library 2022-05-29 16:13:53 +02:00			`constexpr auto lookup = [](std::uint8_t bits) {`
Refactor block helper 2022-05-28 11:45:42 +02:00			`auto block = ImageBlock{};`
Make use of C++ standard library 2022-05-29 16:13:53 +02:00			`util::for_constexpr(`
Implement trinary image encoding 2022-05-27 11:37:23 +02:00			`[&](const auto idx) {`
			`block[idx.value] = static_cast<Color>(bits % 3);`
			`bits /= 3;`
			`},`
Make use of C++ standard library 2022-05-29 16:13:53 +02:00			`std::make_index_sequence<BLOCK_SIZE>{});`
Implement trinary image encoding 2022-05-27 11:37:23 +02:00			`return block;`
			`};`

			`constexpr auto sendImageChannel = [lookup](const auto command, const auto image) {`
			`sendCommand(command);`
Make use of C++ standard library 2022-05-29 16:13:53 +02:00			`auto buffer = std::uint8_t{0};`
			`auto bufferPos = std::uint8_t{0};`
			`for (auto i = std::uint16_t{0}; i < Width * Height / BLOCK_SIZE; i++) {`
Implement trinary image encoding 2022-05-27 11:37:23 +02:00			`const auto block = lookup(pgm_read_byte(&image[i]));`
Make use of C++ standard library 2022-05-29 16:13:53 +02:00			`for (auto p = std::uint8_t{0}; p < BLOCK_SIZE; ++p) {`
			`const auto pixel = std::uint8_t{(command == Cmd::WRITE_RAM_BLACK) ? (block[p] != Color::BLACK)`
			`: (block[p] == Color::RED)};`
Implement trinary image encoding 2022-05-27 11:37:23 +02:00			`buffer \|= pixel << (7 - bufferPos++);`
			`if (bufferPos == 8) {`
			`sendData(buffer);`
			`buffer = 0;`
			`bufferPos = 0;`
			`}`
			`}`
			`}`
			`};`

Change interface to take array wrapper 2022-05-27 20:39:51 +02:00			`sendImageChannel(Cmd::WRITE_RAM_BLACK, image.data());`
			`sendImageChannel(Cmd::WRITE_RAM_RED, image.data());`
Refactor eink driver 2022-05-26 15:11:00 +02:00
Refactor interface to be fully static 2022-05-26 16:03:38 +02:00			`sendCommand(Cmd::DISPLAY_UPDATE_CONTROL_2);`
			`sendData(0xF7);`
			`sendCommand(Cmd::UPDATE_DISPLAY);`
			`waitUntilIdle();`
Refactor eink driver 2022-05-26 15:11:00 +02:00			`}`

Refactor interface to be fully static 2022-05-26 16:03:38 +02:00			`static void clear()`
Refactor eink driver 2022-05-26 15:11:00 +02:00			`{`
Refactor interface to be fully static 2022-05-26 16:03:38 +02:00			`sendCommand(Cmd::WRITE_RAM_BLACK);`
Make use of C++ standard library 2022-05-29 16:13:53 +02:00			`for (auto i = std::uint16_t{0}; i < Width * Height / 8; i++) {`
Refactor interface to be fully static 2022-05-26 16:03:38 +02:00			`sendData(0xff);`
Refactor eink driver 2022-05-26 15:11:00 +02:00			`}`
Refactor interface to be fully static 2022-05-26 16:03:38 +02:00			`sendCommand(Cmd::WRITE_RAM_RED);`
Make use of C++ standard library 2022-05-29 16:13:53 +02:00			`for (auto i = std::uint16_t{0}; i < Width * Height / 8; i++) {`
Refactor interface to be fully static 2022-05-26 16:03:38 +02:00			`sendData(0x00);`
Refactor eink driver 2022-05-26 15:11:00 +02:00			`}`

Refactor interface to be fully static 2022-05-26 16:03:38 +02:00			`sendCommand(Cmd::DISPLAY_UPDATE_CONTROL_2);`
			`sendData(0xF7);`
			`sendCommand(Cmd::UPDATE_DISPLAY);`
			`waitUntilIdle();`
Refactor eink driver 2022-05-26 15:11:00 +02:00			`}`

Refactor interface to be fully static 2022-05-26 16:03:38 +02:00			`static void sleep()`
Refactor eink driver 2022-05-26 15:11:00 +02:00			`{`
Refactor interface to be fully static 2022-05-26 16:03:38 +02:00			`sendCommand(Cmd::DEEP_SLEEP_MODE);`
			`sendData(0x01);`
Refactor eink driver 2022-05-26 15:11:00 +02:00			`_delay_ms(100);`
			`}`

Add three wire spi support 2022-05-28 17:02:00 +02:00			`static void spiTransfer(const word_t data)`
Refactor eink driver 2022-05-26 15:11:00 +02:00			`{`
			`Spi::select(true);`
			`Spi::transfer(data);`
			`Spi::select(false);`
			`}`
			`};`
Refactor interface to be fully static 2022-05-26 16:03:38 +02:00
			`} // namespace eink`