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#pragma once

#include "BMI088.hpp"

#include <lib/drivers/gyroscope/PX4Gyroscope.hpp>

#include "Bosch_BMI088_Gyroscope_Registers.hpp"

namespace Bosch::BMI088::Gyroscope
{

class BMI088_Gyroscope : public BMI088
{
public:
	BMI088_Gyroscope(I2CSPIBusOption bus_option, int bus, uint32_t device, enum Rotation rotation, int bus_frequency,
			 spi_mode_e spi_mode, spi_drdy_gpio_t drdy_gpio);
	~BMI088_Gyroscope() override;

	void RunImpl() override;
	void print_status() override;

private:
	void exit_and_cleanup() override;

	// Sensor Configuration
	static constexpr uint32_t RATE{2000}; // 2000 Hz
	static constexpr float FIFO_SAMPLE_DT{1e6f / RATE};

	static constexpr uint32_t FIFO_MAX_SAMPLES{math::min(FIFO::SIZE / sizeof(FIFO::DATA), sizeof(sensor_gyro_fifo_s::x) / sizeof(sensor_gyro_fifo_s::x[0]))};

	// Transfer data
	struct FIFOTransferBuffer {
		uint8_t cmd{static_cast<uint8_t>(Register::FIFO_DATA) | DIR_READ};
		FIFO::DATA f[FIFO_MAX_SAMPLES] {};
	};
	// ensure no struct padding
	static_assert(sizeof(FIFOTransferBuffer) == (1 + FIFO_MAX_SAMPLES *sizeof(FIFO::DATA)));

	struct register_config_t {
		Register reg;
		uint8_t set_bits{0};
		uint8_t clear_bits{0};
	};

	int probe() override;

	bool Configure();
	void ConfigureGyro();
	void ConfigureSampleRate(int sample_rate = 0);
	void ConfigureFIFOWatermark(uint8_t samples);

	static int DataReadyInterruptCallback(int irq, void *context, void *arg);
	void DataReady();
	bool DataReadyInterruptConfigure();
	bool DataReadyInterruptDisable();

	bool RegisterCheck(const register_config_t &reg_cfg);

	uint8_t RegisterRead(Register reg);
	void RegisterWrite(Register reg, uint8_t value);
	void RegisterSetAndClearBits(Register reg, uint8_t setbits, uint8_t clearbits);

	bool FIFORead(const hrt_abstime &timestamp_sample, uint8_t samples);
	void FIFOReset();

	PX4Gyroscope _px4_gyro;

	perf_counter_t _bad_register_perf{perf_alloc(PC_COUNT, MODULE_NAME"_gyro: bad register")};
	perf_counter_t _bad_transfer_perf{perf_alloc(PC_COUNT, MODULE_NAME"_gyro: bad transfer")};
	perf_counter_t _fifo_empty_perf{perf_alloc(PC_COUNT, MODULE_NAME"_gyro: FIFO empty")};
	perf_counter_t _fifo_overflow_perf{perf_alloc(PC_COUNT, MODULE_NAME"_gyro: FIFO overflow")};
	perf_counter_t _fifo_reset_perf{perf_alloc(PC_COUNT, MODULE_NAME"_gyro: FIFO reset")};
	perf_counter_t _drdy_missed_perf{nullptr};

	uint8_t _fifo_samples{static_cast<uint8_t>(_fifo_empty_interval_us / (1000000 / RATE))};

	uint8_t _checked_register{0};
	static constexpr uint8_t size_register_cfg{8};
	register_config_t _register_cfg[size_register_cfg] {
		// Register                         | Set bits, Clear bits
		{ Register::GYRO_RANGE,             GYRO_RANGE_BIT::gyro_range_2000_dps, 0 },
		{ Register::GYRO_BANDWIDTH,         0, GYRO_BANDWIDTH_BIT::gyro_bw_532_Hz },
		{ Register::GYRO_INT_CTRL,          GYRO_INT_CTRL_BIT::fifo_en, 0 },
		{ Register::INT3_INT4_IO_CONF,      0, INT3_INT4_IO_CONF_BIT::Int3_od | INT3_INT4_IO_CONF_BIT::Int3_lvl },
		{ Register::INT3_INT4_IO_MAP,       INT3_INT4_IO_MAP_BIT::Int3_fifo, 0 },
		{ Register::FIFO_WM_ENABLE,         FIFO_WM_ENABLE_BIT::fifo_wm_enable, 0 },
		{ Register::FIFO_CONFIG_0,          0, 0 }, // fifo_water_mark_level_trigger_retain<6:0>
		{ Register::FIFO_CONFIG_1,          FIFO_CONFIG_1_BIT::FIFO_MODE, 0 },
	};
};

} // namespace Bosch::BMI088::Gyroscope