esp-airsensor/components/bme680/include/bsec2.h

/**
 * bsec2 but rewritten in C
 *
 * Created on 2021/12/12.
 */

#ifndef ESPNODE_BSEC2_H
#define ESPNODE_BSEC2_H

// BSEC
#include "bme68x.h"
#include "bsec_datatypes.h"
#include "bsec_interface.h"
#include <stdint.h>
#include <stdbool.h>

#define ARRAY_LEN(array)				(sizeof(array)/sizeof((array)[0]))
#define BSEC_CHECK_INPUT(x, shift)		((x) & (1 << ((shift)-1)))
#define BSEC_TOTAL_HEAT_DUR             UINT16_C(140)

typedef bsec_output_t bsecData;
typedef bsec_virtual_sensor_t bsecSensor;

typedef struct
{
    bsecData output[BSEC_NUMBER_OUTPUTS];
    uint8_t nOutputs;
} bsecOutputs;

struct bsec2;
typedef void (*bsecCallback)(const struct bme68x_data *data, const bsecOutputs *outputs, const struct bsec2 * bsec);

struct bsec2 {
    // "public"
    struct bme68x_dev *sensor;
    bsec_version_t version;
    bsec_library_return_t status;
    // "private"
    int8_t sensor_status;
    bsec_bme_settings_t bmeConf;
    bsecCallback newDataCallback;
    bsecOutputs outputs;
    uint8_t opMode;
    float extTempOffset;
    uint32_t ovfCounter;
    uint32_t lastMillis;
    uint8_t workBuffer[BSEC_MAX_WORKBUFFER_SIZE];
};

int bsec2_init(struct bsec2 *self, struct bme68x_dev *dev);

/**
 * @brief Function that sets the desired sensors and the sample rates
 * @param sensorList	: The list of output sensors
 * @param nSensors		: Number of outputs requested
 * @param sampleRate	: The sample rate of requested sensors, def BSEC_SAMPLE_RATE_ULP
 * @return	true for success, false otherwise
 */
bool bsec2_updateSubscription(struct bsec2 *self, const bsecSensor *sensorList, uint8_t nSensors, float sampleRate);

/**
 * @brief Callback from the user to read data from the BME68x using parallel/forced mode, process and store outputs
 * @return	true for success, false otherwise
 */
bool bsec2_run(struct bsec2 *self);

static inline void bsec2_attachCallback(struct bsec2 *self, bsecCallback callback)
{
    self->newDataCallback = callback;
}

/**
 * @brief Function to get the BSEC outputs
 * @return	pointer to BSEC outputs if available else nullptr
 */
static inline const bsecOutputs* bsec2_getOutputs(struct bsec2 *self)
{
    if (self->outputs.nOutputs)
        return &self->outputs;
    return NULL;
}

/**
 * @brief Function to get the BSEC output by sensor id
 * @return	pointer to BSEC output, nullptr otherwise
 */
bsecData bsec2_getData(struct bsec2 *self, bsecSensor id);

/**
 * @brief Function to get the state of the algorithm to save to non-volatile memory
 * @param state			: Pointer to a memory location, to hold the state
 * @return	true for success, false otherwise
 */
bool bsec2_getState(struct bsec2 *self, uint8_t *state);

/**
 * @brief Function to set the state of the algorithm from non-volatile memory
 * @param state			: Pointer to a memory location that contains the state
 * @return	true for success, false otherwise
 */
bool bsec2_setState(struct bsec2 *self, uint8_t *state);

/**
 * @brief Function to retrieve the current library configuration
 * @param config    : Pointer to a memory location, to hold the serialized config blob
 * @return	true for success, false otherwise
 */
bool bsec2_getConfig(struct bsec2 *self, uint8_t *config);

/**
 * @brief Function to set the configuration of the algorithm from memory
 * @param state			: Pointer to a memory location that contains the configuration
 * @return	true for success, false otherwise
 */
bool bsec2_setConfig(struct bsec2 *self, const uint8_t *config);

/**
 * @brief Function to set the temperature offset
 * @param tempOffset	: Temperature offset in degree Celsius
 */
static inline void bsec2_setTemperatureOffset(struct bsec2 *self, float tempOffset)
{
    self->extTempOffset = tempOffset;
}

/**
 * @brief Function to calculate an int64_t timestamp in milliseconds
 */
int64_t bsec2_getTimeMs(struct bsec2 *self);

extern void bsec2_errormsg(const char *msg);

extern uint32_t bsec2_timestamp_millis();

#endif //ESPNODE_BSEC2_H