eink/otp.hpp

#pragma once

#include <cstddef>
#include <cstdint>

namespace eink {

// [SOURCE]_[VCOM]
enum class Voltage : std::uint8_t {
	VSS_DCVCOM = 0b00,
	VSH1_VSH1DCVCOM = 0b01,
	VSL_VSLDCVCOM = 0b10,
	VSH2_NA = 0b11,
};

struct [[gnu::packed]] Phases
{
	Voltage phaseD : 2;
	Voltage phaseC : 2;
	Voltage phaseB : 2;
	Voltage phaseA : 2;
};
static_assert(sizeof(Phases) == 1);

struct [[gnu::packed]] VoltageGroups
{
	Phases group[12];
};
static_assert(sizeof(VoltageGroups) == 12);

struct [[gnu::packed]] Timings
{
	std::uint8_t frameCountPhaseA;
	std::uint8_t frameCountPhaseB;
	std::uint8_t repeatSubPhaseAB;
	std::uint8_t frameCountPhaseC;
	std::uint8_t frameCountPhaseD;
	std::uint8_t repeatSubPhaseCD;
	std::uint8_t repeat;
};
static_assert(sizeof(Timings) == 7);

struct [[gnu::packed]] FrameRates
{
	std::uint8_t group11 : 4;
	std::uint8_t group10 : 4;
	std::uint8_t group9 : 4;
	std::uint8_t group8 : 4;
	std::uint8_t group7 : 4;
	std::uint8_t group6 : 4;
	std::uint8_t group5 : 4;
	std::uint8_t group4 : 4;
	std::uint8_t group3 : 4;
	std::uint8_t group2 : 4;
	std::uint8_t group1 : 4;
	std::uint8_t group0 : 4;
};
static_assert(sizeof(FrameRates) == 6);

struct [[gnu::packed]] SubPhaseGateStates
{
	bool group11SubPhaseCD : 1;
	bool group11SubPhaseAB : 1;
	bool group10SubPhaseCD : 1;
	bool group10SubPhaseAB : 1;
	bool group9SubPhaseCD : 1;
	bool group9SubPhaseAB : 1;
	bool group8SubPhaseCD : 1;
	bool group8SubPhaseAB : 1;
	bool group7SubPhaseCD : 1;
	bool group7SubPhaseAB : 1;
	bool group6SubPhaseCD : 1;
	bool group6SubPhaseAB : 1;
	bool group5SubPhaseCD : 1;
	bool group5SubPhaseAB : 1;
	bool group4SubPhaseCD : 1;
	bool group4SubPhaseAB : 1;
	bool group3SubPhaseCD : 1;
	bool group3SubPhaseAB : 1;
	bool group2SubPhaseCD : 1;
	bool group2SubPhaseAB : 1;
	bool group1SubPhaseCD : 1;
	bool group1SubPhaseAB : 1;
	bool group0SubPhaseCD : 1;
	bool group0SubPhaseAB : 1;
};
static_assert(sizeof(SubPhaseGateStates) == 3);

struct [[gnu::packed]] Waveform
{
	VoltageGroups lut[5];
	Timings timings[12];
	FrameRates frameRates;
	SubPhaseGateStates subPhaseGateStates;
};
static_assert(sizeof(Waveform) == 153);

enum class LutEndOption : std::uint8_t {
	KEEP_PREVIOUS_SOURCE_OUTPUT_LEVEL_BEFORE_POWER_OFF = 0x07,
	NORMAL = 0x22,
};
static_assert(sizeof(LutEndOption) == 1);

enum class GateVoltage : std::uint8_t {
	V_20_DEFAULT = 0x00,
	V_10 = 0x03,
	V_10_5 = 0x04,
	V_11 = 0x05,
	V_11_5 = 0x06,
	V_12 = 0x07,
	V_12_5 = 0x08,
	V_13 = 0x09,
	V_13_5 = 0x0A,
	V_14 = 0x0B,
	V_14_5 = 0x0C,
	V_15 = 0x0D,
	V_15_5 = 0x0E,
	V_16 = 0x0F,
	V_16_5 = 0x10,
	V_17 = 0x11,
	V_17_5 = 0x12,
	V_18 = 0x13,
	V_18_5 = 0x14,
	V_19 = 0x15,
	V_19_5 = 0x16,
	V_20 = 0x17,
};
static_assert(sizeof(GateVoltage) == 1);

enum class VoltageSourceHigh : std::uint8_t {
	V_9 = 0x23,
	V_9_2 = 0x24,
	V_9_4 = 0x25,
	V_9_6 = 0x26,
	V_9_8 = 0x27,
	V_10 = 0x28,
	V_10_2 = 0x29,
	V_10_4 = 0x2A,
	V_10_6 = 0x2B,
	V_10_8 = 0x2C,
	V_11 = 0x2D,
	V_11_2 = 0x2E,
	V_11_4 = 0x2F,
	V_11_6 = 0x30,
	V_11_8 = 0x31,
	V_12 = 0x32,
	V_12_2 = 0x33,
	V_12_4 = 0x34,
	V_12_6 = 0x35,
	V_12_8 = 0x36,
	V_13 = 0x37,
	V_13_2 = 0x38,
	V_13_4 = 0x39,
	V_13_6 = 0x3A,
	V_13_8 = 0x3B,
	V_14 = 0x3C,
	V_14_2 = 0x3D,
	V_14_4 = 0x3E,
	V_14_6 = 0x3F,
	V_14_8 = 0x40,
	V_15 = 0x41,
	V_15_2 = 0x42,
	V_15_4 = 0x43,
	V_15_6 = 0x44,
	V_15_8 = 0x45,
	V_16 = 0x46,
	V_16_2 = 0x47,
	V_16_4 = 0x48,
	V_16_6 = 0x49,
	V_16_8 = 0x4A,
	V_17 = 0x4B,
	V_2_4 = 0x8E,
	V_2_5 = 0x8F,
	V_2_6 = 0x90,
	V_2_7 = 0x91,
	V_2_8 = 0x92,
	V_2_9 = 0x93,
	V_3 = 0x94,
	V_3_1 = 0x95,
	V_3_2 = 0x96,
	V_3_3 = 0x97,
	V_3_4 = 0x98,
	V_3_5 = 0x99,
	V_3_6 = 0x9A,
	V_3_7 = 0x9B,
	V_3_8 = 0x9C,
	V_3_9 = 0x9D,
	V_4 = 0x9E,
	V_4_1 = 0x9F,
	V_4_2 = 0xA0,
	V_4_3 = 0xA1,
	V_4_4 = 0xA2,
	V_4_5 = 0xA3,
	V_4_6 = 0xA4,
	V_4_7 = 0xA5,
	V_4_8 = 0xA6,
	V_4_9 = 0xA7,
	V_5 = 0xA8,
	V_5_1 = 0xA9,
	V_5_2 = 0xAA,
	V_5_3 = 0xAB,
	V_5_4 = 0xAC,
	V_5_5 = 0xAD,
	V_5_6 = 0xAE,
	V_5_7 = 0xAF,
	V_5_8 = 0xB0,
	V_5_9 = 0xB1,
	V_6 = 0xB2,
	V_6_1 = 0xB3,
	V_6_2 = 0xB4,
	V_6_3 = 0xB5,
	V_6_4 = 0xB6,
	V_6_5 = 0xB7,
	V_6_6 = 0xB8,
	V_6_7 = 0xB9,
	V_6_8 = 0xBA,
	V_6_9 = 0xBB,
	V_7 = 0xBC,
	V_7_1 = 0xBD,
	V_7_2 = 0xBE,
	V_7_3 = 0xBF,
	V_7_4 = 0xC0,
	V_7_5 = 0xC1,
	V_7_6 = 0xC2,
	V_7_7 = 0xC3,
	V_7_8 = 0xC4,
	V_7_9 = 0xC5,
	V_8 = 0xC6,
	V_8_1 = 0xC7,
	V_8_2 = 0xC8,
	V_8_3 = 0xC9,
	V_8_4 = 0xCA,
	V_8_5 = 0xCB,
	V_8_6 = 0xCC,
	V_8_7 = 0xCD,
	V_8_8 = 0xCE,
};
static_assert(sizeof(VoltageSourceHigh) == 1);

enum class VoltageSourceLow : std::uint8_t {
	NEG_5 = 0x0A,
	NEG_5_5 = 0x0C,
	NEG_6 = 0x0E,
	NEG_6_5 = 0x10,
	NEG_7 = 0x12,
	NEG_7_5 = 0x14,
	NEG_8 = 0x16,
	NEG_8_5 = 0x18,
	NEG_9 = 0x1A,
	NEG_9_5 = 0x1C,
	NEG_10 = 0x1E,
	NEG_10_5 = 0x20,
	NEG_11 = 0x22,
	NEG_11_5 = 0x24,
	NEG_12 = 0x26,
	NEG_12_5 = 0x28,
	NEG_13 = 0x2A,
	NEG_13_5 = 0x2C,
	NEG_14 = 0x2E,
	NEG_14_5 = 0x30,
	NEG_15 = 0x32,
	NEG_15_5 = 0x34,
	NEG_16 = 0x36,
	NEG_16_5 = 0x38,
	NEG_17 = 0x3A,
};
static_assert(sizeof(VoltageSourceLow) == 1);

struct [[gnu::packed]] SourceVoltage
{
	VoltageSourceHigh vsh1;
	VoltageSourceHigh vsh2;
	VoltageSourceLow vsl;
};
static_assert(sizeof(SourceVoltage) == 3);

enum class CommonVoltage : std::uint8_t {
	NEG_0_2 = 0x08,
	NEG_0_3 = 0x0C,
	NEG_0_4 = 0x10,
	NEG_0_5 = 0x14,
	NEG_0_6 = 0x18,
	NEG_0_7 = 0x1C,
	NEG_0_8 = 0x20,
	NEG_0_9 = 0x24,
	NEG_1 = 0x28,
	NEG_1_1 = 0x2C,
	NEG_1_2 = 0x30,
	NEG_1_3 = 0x34,
	NEG_1_4 = 0x38,
	NEG_1_5 = 0x3C,
	NEG_1_6 = 0x40,
	NEG_1_7 = 0x44,
	NEG_1_8 = 0x48,
	NEG_1_9 = 0x4C,
	NEG_2 = 0x50,
	NEG_2_1 = 0x54,
	NEG_2_2 = 0x58,
	NEG_2_3 = 0x5C,
	NEG_2_4 = 0x60,
	NEG_2_5 = 0x64,
	NEG_2_6 = 0x68,
	NEG_2_7 = 0x6C,
	NEG_2_8 = 0x70,
	NEG_2_9 = 0x74,
	NEG_3 = 0x78,
};
static_assert(sizeof(CommonVoltage) == 1);

struct [[gnu::packed]] WaveformSetting
{
	Waveform waveform;
	LutEndOption lutEndOption;
	GateVoltage gateVoltage;
	SourceVoltage sourceVoltage;
	CommonVoltage commonVoltage;
};
static_assert(sizeof(WaveformSetting) == 159);

struct [[gnu::packed]] TemperatureRange
{
	std::uint8_t lowerBoundLowBits;
	std::uint8_t lowerBoundHighBits : 4;
	std::uint8_t upperBoundLowBits : 4;
	std::uint8_t upperBoundHighBits;

	inline constexpr operator std::pair<float, float>() const
	{
		constexpr auto convertTemp = [](const auto &temp) {
			auto signedTemp = static_cast<std::int16_t>(temp);
			if (signedTemp >> 11 & 1) {
				signedTemp |= 0b1111 << 12;
			}
			const auto tempDegrees = signedTemp / 16.0f;
			return tempDegrees;
		};

		const auto lowerBound = static_cast<std::uint16_t>(lowerBoundHighBits) << 8 | lowerBoundLowBits;
		const auto upperBound = static_cast<std::uint16_t>(upperBoundHighBits) << 4 | upperBoundLowBits;

		return {convertTemp(lowerBound), convertTemp(upperBound)};
	};
};
static_assert(sizeof(TemperatureRange) == 3);

struct [[gnu::packed]] OTP
{
	WaveformSetting waveforms[36];
	TemperatureRange temperatures[36];
};
static_assert(sizeof(OTP) == 5832);

} // namespace eink