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hsc26-artemis2/firmware/app/driver/lis2hh12_reg.h
true d95af918fa initial WIP 
lots of code copied over, things filled in to hopefully get the LED matrix lighting up. untested.
2026-05-08 11:54:12 -07:00

993 lines
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/**
******************************************************************************
* @file lis2hh12_reg.h
* @author Sensors Software Solution Team
* @brief This file contains all the functions prototypes for the
* lis2hh12_reg.c driver.
******************************************************************************
* @attention
*
* Copyright (c) 2021 STMicroelectronics.
* All rights reserved.
*
* This software is licensed under terms that can be found in the LICENSE file
* in the root directory of this software component.
* If no LICENSE file comes with this software, it is provided AS-IS.
*
******************************************************************************
*/
/* Define to prevent recursive inclusion -------------------------------------*/
#ifndef LIS2HH12_REGS_H
#define LIS2HH12_REGS_H
#ifdef __cplusplus
extern "C" {
#endif
/* Includes ------------------------------------------------------------------*/
#include <stdint.h>
#include <stddef.h>
#include <math.h>
/** @addtogroup LIS2HH12
* @{
*
*/
/** @defgroup Endianness definitions
* @{
*
*/
#ifndef DRV_BYTE_ORDER
#ifndef __BYTE_ORDER__
#define DRV_LITTLE_ENDIAN 1234
#define DRV_BIG_ENDIAN 4321
/** if _BYTE_ORDER is not defined, choose the endianness of your architecture
* by uncommenting the define which fits your platform endianness
*/
//#define DRV_BYTE_ORDER DRV_BIG_ENDIAN
#define DRV_BYTE_ORDER DRV_LITTLE_ENDIAN
#else /* defined __BYTE_ORDER__ */
#define DRV_LITTLE_ENDIAN __ORDER_LITTLE_ENDIAN__
#define DRV_BIG_ENDIAN __ORDER_BIG_ENDIAN__
#define DRV_BYTE_ORDER __BYTE_ORDER__
#endif /* __BYTE_ORDER__*/
#endif /* DRV_BYTE_ORDER */
/**
* @}
*
*/
/** @defgroup STMicroelectronics sensors common types
* @{
*
*/
#ifndef MEMS_SHARED_TYPES
#define MEMS_SHARED_TYPES
typedef struct
{
#if DRV_BYTE_ORDER == DRV_LITTLE_ENDIAN
uint8_t bit0 : 1;
uint8_t bit1 : 1;
uint8_t bit2 : 1;
uint8_t bit3 : 1;
uint8_t bit4 : 1;
uint8_t bit5 : 1;
uint8_t bit6 : 1;
uint8_t bit7 : 1;
#elif DRV_BYTE_ORDER == DRV_BIG_ENDIAN
uint8_t bit7 : 1;
uint8_t bit6 : 1;
uint8_t bit5 : 1;
uint8_t bit4 : 1;
uint8_t bit3 : 1;
uint8_t bit2 : 1;
uint8_t bit1 : 1;
uint8_t bit0 : 1;
#endif /* DRV_BYTE_ORDER */
} bitwise_t;
#define PROPERTY_DISABLE (0U)
#define PROPERTY_ENABLE (1U)
/** @addtogroup Interfaces_Functions
* @brief This section provide a set of functions used to read and
* write a generic register of the device.
* MANDATORY: return 0 -> no Error.
* @{
*
*/
typedef int32_t (*stmdev_write_ptr)(
void *handle,
uint8_t reg,
const uint8_t *buf,
uint16_t len);
typedef int32_t (*stmdev_read_ptr)(
void *handle,
uint8_t reg,
uint8_t *buf,
uint16_t len);
typedef void (*stmdev_mdelay_ptr)(uint32_t millisec);
typedef struct
{
/** Component mandatory fields **/
stmdev_write_ptr write_reg;
stmdev_read_ptr read_reg;
/** Component optional fields **/
stmdev_mdelay_ptr mdelay;
/** Customizable optional pointer **/
void *handle;
/** private data **/
void *priv_data;
} stmdev_ctx_t;
/**
* @}
*
*/
#endif /* MEMS_SHARED_TYPES */
#ifndef MEMS_UCF_SHARED_TYPES
#define MEMS_UCF_SHARED_TYPES
/** @defgroup Generic address-data structure definition
* @brief This structure is useful to load a predefined configuration
* of a sensor.
* You can create a sensor configuration by your own or using
* Unico / Unicleo tools available on STMicroelectronics
* web site.
*
* @{
*
*/
typedef struct
{
uint8_t address;
uint8_t data;
} ucf_line_t;
/**
* @}
*
*/
#endif /* MEMS_UCF_SHARED_TYPES */
/**
* @}
*
*/
/** @defgroup LIS2HH12_Infos
* @{
*
*/
/** I2C Device Address 8 bit format if SA0=0 -> 0x3D if SA0=1 -> 0x3B **/
#define LIS2HH12_I2C_ADD_L 0x3DU
#define LIS2HH12_I2C_ADD_H 0x3BU
/** Device Identification (Who am I) **/
#define LIS2HH12_ID 0x41U
/**
* @}
*
*/
#define LIS2HH12_TEMP_L 0x0BU
#define LIS2HH12_TEMP_H 0x0CU
#define LIS2HH12_WHO_AM_I 0x0FU
#define LIS2HH12_ACT_THS 0x1EU
typedef struct
{
#if DRV_BYTE_ORDER == DRV_LITTLE_ENDIAN
uint8_t ths : 7;
uint8_t not_used_01 : 1;
#elif DRV_BYTE_ORDER == DRV_BIG_ENDIAN
uint8_t not_used_01 : 1;
uint8_t ths : 7;
#endif /* DRV_BYTE_ORDER */
} lis2hh12_act_ths_t;
#define LIS2HH12_ACT_DUR 0x1FU
typedef struct
{
uint8_t dur : 8;
} lis2hh12_act_dur_t;
#define LIS2HH12_CTRL1 0x20U
typedef struct
{
#if DRV_BYTE_ORDER == DRV_LITTLE_ENDIAN
uint8_t xen : 1;
uint8_t yen : 1;
uint8_t zen : 1;
uint8_t bdu : 1;
uint8_t odr : 3;
uint8_t hr : 1;
#elif DRV_BYTE_ORDER == DRV_BIG_ENDIAN
uint8_t hr : 1;
uint8_t odr : 3;
uint8_t bdu : 1;
uint8_t zen : 1;
uint8_t yen : 1;
uint8_t xen : 1;
#endif /* DRV_BYTE_ORDER */
} lis2hh12_ctrl1_t;
#define LIS2HH12_CTRL2 0x21U
typedef struct
{
#if DRV_BYTE_ORDER == DRV_LITTLE_ENDIAN
uint8_t hpis : 2;
uint8_t fds : 1;
uint8_t hpm : 2;
uint8_t dfc : 2;
uint8_t not_used_01 : 1;
#elif DRV_BYTE_ORDER == DRV_BIG_ENDIAN
uint8_t not_used_01 : 1;
uint8_t dfc : 2;
uint8_t hpm : 2;
uint8_t fds : 1;
uint8_t hpis : 2;
#endif /* DRV_BYTE_ORDER */
} lis2hh12_ctrl2_t;
#define LIS2HH12_CTRL3 0x22U
typedef struct
{
#if DRV_BYTE_ORDER == DRV_LITTLE_ENDIAN
uint8_t int1_drdy : 1;
uint8_t int1_fth : 1;
uint8_t int1_ovr : 1;
uint8_t int1_ig1 : 1;
uint8_t int1_ig2 : 1;
uint8_t int1_inact : 1;
uint8_t stop_fth : 1;
uint8_t fifo_en : 1;
#elif DRV_BYTE_ORDER == DRV_BIG_ENDIAN
uint8_t fifo_en : 1;
uint8_t stop_fth : 1;
uint8_t int1_inact : 1;
uint8_t int1_ig2 : 1;
uint8_t int1_ig1 : 1;
uint8_t int1_ovr : 1;
uint8_t int1_fth : 1;
uint8_t int1_drdy : 1;
#endif /* DRV_BYTE_ORDER */
} lis2hh12_ctrl3_t;
#define LIS2HH12_CTRL4 0x23U
typedef struct
{
#if DRV_BYTE_ORDER == DRV_LITTLE_ENDIAN
uint8_t sim : 1;
uint8_t i2c_disable : 1;
uint8_t if_add_inc : 1;
uint8_t bw_scale_odr : 1;
uint8_t fs : 2;
uint8_t bw : 2;
#elif DRV_BYTE_ORDER == DRV_BIG_ENDIAN
uint8_t bw : 2;
uint8_t fs : 2;
uint8_t bw_scale_odr : 1;
uint8_t if_add_inc : 1;
uint8_t i2c_disable : 1;
uint8_t sim : 1;
#endif /* DRV_BYTE_ORDER */
} lis2hh12_ctrl4_t;
#define LIS2HH12_CTRL5 0x24U
typedef struct
{
#if DRV_BYTE_ORDER == DRV_LITTLE_ENDIAN
uint8_t pp_od : 1;
uint8_t h_lactive : 1;
uint8_t st : 2;
uint8_t dec : 2;
uint8_t soft_reset : 1;
uint8_t debug : 1;
#elif DRV_BYTE_ORDER == DRV_BIG_ENDIAN
uint8_t debug : 1;
uint8_t soft_reset : 1;
uint8_t dec : 2;
uint8_t st : 2;
uint8_t h_lactive : 1;
uint8_t pp_od : 1;
#endif /* DRV_BYTE_ORDER */
} lis2hh12_ctrl5_t;
#define LIS2HH12_CTRL6 0x25U
typedef struct
{
#if DRV_BYTE_ORDER == DRV_LITTLE_ENDIAN
uint8_t int2_drdy : 1;
uint8_t int2_fth : 1;
uint8_t int2_empty : 1;
uint8_t int2_ig1 : 1;
uint8_t int2_ig2 : 1;
uint8_t int2_boot : 1;
uint8_t not_used_01 : 1;
uint8_t boot : 1;
#elif DRV_BYTE_ORDER == DRV_BIG_ENDIAN
uint8_t boot : 1;
uint8_t not_used_01 : 1;
uint8_t int2_boot : 1;
uint8_t int2_ig2 : 1;
uint8_t int2_ig1 : 1;
uint8_t int2_empty : 1;
uint8_t int2_fth : 1;
uint8_t int2_drdy : 1;
#endif /* DRV_BYTE_ORDER */
} lis2hh12_ctrl6_t;
#define LIS2HH12_CTRL7 0x26U
typedef struct
{
#if DRV_BYTE_ORDER == DRV_LITTLE_ENDIAN
uint8_t _4d_ig : 2;
uint8_t lir : 2;
uint8_t dcrm : 2;
uint8_t not_used_01 : 2;
#elif DRV_BYTE_ORDER == DRV_BIG_ENDIAN
uint8_t not_used_01 : 2;
uint8_t dcrm : 2;
uint8_t lir : 2;
uint8_t _4d_ig : 2;
#endif /* DRV_BYTE_ORDER */
} lis2hh12_ctrl7_t;
#define LIS2HH12_STATUS 0x27U
typedef struct
{
#if DRV_BYTE_ORDER == DRV_LITTLE_ENDIAN
uint8_t xda : 1;
uint8_t yda : 1;
uint8_t zda : 1;
uint8_t zyxda : 1;
uint8_t _xor : 1;
uint8_t yor : 1;
uint8_t zor : 1;
uint8_t zyxor : 1;
#elif DRV_BYTE_ORDER == DRV_BIG_ENDIAN
uint8_t zyxor : 1;
uint8_t zor : 1;
uint8_t yor : 1;
uint8_t _xor : 1;
uint8_t zyxda : 1;
uint8_t zda : 1;
uint8_t yda : 1;
uint8_t xda : 1;
#endif /* DRV_BYTE_ORDER */
} lis2hh12_status_t;
#define LIS2HH12_OUT_X_L 0x28U
#define LIS2HH12_OUT_X_H 0x29U
#define LIS2HH12_OUT_Y_L 0x2AU
#define LIS2HH12_OUT_Y_H 0x2BU
#define LIS2HH12_OUT_Z_L 0x2CU
#define LIS2HH12_OUT_Z_H 0x2DU
#define LIS2HH12_FIFO_CTRL 0x2EU
typedef struct
{
#if DRV_BYTE_ORDER == DRV_LITTLE_ENDIAN
uint8_t fth : 5;
uint8_t fmode : 3;
#elif DRV_BYTE_ORDER == DRV_BIG_ENDIAN
uint8_t fmode : 3;
uint8_t fth : 5;
#endif /* DRV_BYTE_ORDER */
} lis2hh12_fifo_ctrl_t;
#define LIS2HH12_FIFO_SRC 0x2FU
typedef struct
{
#if DRV_BYTE_ORDER == DRV_LITTLE_ENDIAN
uint8_t fss : 5;
uint8_t empty : 1;
uint8_t ovr : 1;
uint8_t fth : 1;
#elif DRV_BYTE_ORDER == DRV_BIG_ENDIAN
uint8_t fth : 1;
uint8_t ovr : 1;
uint8_t empty : 1;
uint8_t fss : 5;
#endif /* DRV_BYTE_ORDER */
} lis2hh12_fifo_src_t;
#define LIS2HH12_IG_CFG1 0x30U
typedef struct
{
#if DRV_BYTE_ORDER == DRV_LITTLE_ENDIAN
uint8_t xlie : 1;
uint8_t xhie : 1;
uint8_t ylie : 1;
uint8_t yhie : 1;
uint8_t zlie : 1;
uint8_t zhie : 1;
uint8_t _6d : 1;
uint8_t aoi : 1;
#elif DRV_BYTE_ORDER == DRV_BIG_ENDIAN
uint8_t aoi : 1;
uint8_t _6d : 1;
uint8_t zhie : 1;
uint8_t zlie : 1;
uint8_t yhie : 1;
uint8_t ylie : 1;
uint8_t xhie : 1;
uint8_t xlie : 1;
#endif /* DRV_BYTE_ORDER */
} lis2hh12_ig_cfg1_t;
#define LIS2HH12_IG_SRC1 0x31U
typedef struct
{
#if DRV_BYTE_ORDER == DRV_LITTLE_ENDIAN
uint8_t xl : 1;
uint8_t xh : 1;
uint8_t yl : 1;
uint8_t yh : 1;
uint8_t zl : 1;
uint8_t zh : 1;
uint8_t ia : 1;
uint8_t not_used_01 : 1;
#elif DRV_BYTE_ORDER == DRV_BIG_ENDIAN
uint8_t not_used_01 : 1;
uint8_t ia : 1;
uint8_t zh : 1;
uint8_t zl : 1;
uint8_t yh : 1;
uint8_t yl : 1;
uint8_t xh : 1;
uint8_t xl : 1;
#endif /* DRV_BYTE_ORDER */
} lis2hh12_ig_src1_t;
#define LIS2HH12_IG_THS_X1 0x32U
#define LIS2HH12_IG_THS_Y1 0x33U
#define LIS2HH12_IG_THS_Z1 0x34U
#define LIS2HH12_IG_DUR1 0x35U
typedef struct
{
#if DRV_BYTE_ORDER == DRV_LITTLE_ENDIAN
uint8_t dur1 : 7;
uint8_t wait1 : 1;
#elif DRV_BYTE_ORDER == DRV_BIG_ENDIAN
uint8_t wait1 : 1;
uint8_t dur1 : 7;
#endif /* DRV_BYTE_ORDER */
} lis2hh12_ig_dur1_t;
#define LIS2HH12_IG_CFG2 0x36U
typedef struct
{
#if DRV_BYTE_ORDER == DRV_LITTLE_ENDIAN
uint8_t xlie : 1;
uint8_t xhie : 1;
uint8_t ylie : 1;
uint8_t yhie : 1;
uint8_t zlie : 1;
uint8_t zhie : 1;
uint8_t _6d : 1;
uint8_t aoi : 1;
#elif DRV_BYTE_ORDER == DRV_BIG_ENDIAN
uint8_t aoi : 1;
uint8_t _6d : 1;
uint8_t zhie : 1;
uint8_t zlie : 1;
uint8_t yhie : 1;
uint8_t ylie : 1;
uint8_t xhie : 1;
uint8_t xlie : 1;
#endif /* DRV_BYTE_ORDER */
} lis2hh12_ig_cfg2_t;
#define LIS2HH12_IG_SRC2 0x37U
typedef struct
{
#if DRV_BYTE_ORDER == DRV_LITTLE_ENDIAN
uint8_t xl : 1;
uint8_t xh : 1;
uint8_t yl : 1;
uint8_t yh : 1;
uint8_t zl : 1;
uint8_t zh : 1;
uint8_t ia : 1;
uint8_t not_used_01 : 1;
#elif DRV_BYTE_ORDER == DRV_BIG_ENDIAN
uint8_t not_used_01 : 1;
uint8_t ia : 1;
uint8_t zh : 1;
uint8_t zl : 1;
uint8_t yh : 1;
uint8_t yl : 1;
uint8_t xh : 1;
uint8_t xl : 1;
#endif /* DRV_BYTE_ORDER */
} lis2hh12_ig_src2_t;
#define LIS2HH12_IG_THS2 0x38U
#define LIS2HH12_IG_DUR2 0x39U
typedef struct
{
#if DRV_BYTE_ORDER == DRV_LITTLE_ENDIAN
uint8_t dur2 : 7;
uint8_t wait2 : 1;
#elif DRV_BYTE_ORDER == DRV_BIG_ENDIAN
uint8_t wait2 : 1;
uint8_t dur2 : 7;
#endif /* DRV_BYTE_ORDER */
} lis2hh12_ig_dur2_t;
#define LIS2HH12_XL_REFERENCE 0x3AU
#define LIS2HH12_XH_REFERENCE 0x3BU
#define LIS2HH12_YL_REFERENCE 0x3CU
#define LIS2HH12_YH_REFERENCE 0x3DU
#define LIS2HH12_ZL_REFERENCE 0x3EU
#define LIS2HH12_ZH_REFERENCE 0x3FU
/**
* @defgroup LIS2HH12_Register_Union
* @brief This union group all the registers having a bit-field
* description.
* This union is useful but it's not needed by the driver.
*
* REMOVING this union you are compliant with:
* MISRA-C 2012 [Rule 19.2] -> " Union are not allowed "
*
* @{
*
*/
typedef union
{
lis2hh12_act_ths_t act_ths;
lis2hh12_act_dur_t act_dur;
lis2hh12_ctrl1_t ctrl1;
lis2hh12_ctrl2_t ctrl2;
lis2hh12_ctrl3_t ctrl3;
lis2hh12_ctrl4_t ctrl4;
lis2hh12_ctrl5_t ctrl5;
lis2hh12_ctrl6_t ctrl6;
lis2hh12_ctrl7_t ctrl7;
lis2hh12_status_t status;
lis2hh12_fifo_ctrl_t fifo_ctrl;
lis2hh12_fifo_src_t fifo_src;
lis2hh12_ig_cfg1_t ig_cfg1;
lis2hh12_ig_src1_t ig_src1;
lis2hh12_ig_dur1_t ig_dur1;
lis2hh12_ig_cfg2_t ig_cfg2;
lis2hh12_ig_src2_t ig_src2;
lis2hh12_ig_dur2_t ig_dur2;
bitwise_t bitwise;
uint8_t byte;
} lis2hh12_reg_t;
/**
* @}
*
*/
#ifndef __weak
#define __weak __attribute__((weak))
#endif /* __weak */
/*
* These are the basic platform dependent I/O routines to read
* and write device registers connected on a standard bus.
* The driver keeps offering a default implementation based on function
* pointers to read/write routines for backward compatibility.
* The __weak directive allows the final application to overwrite
* them with a custom implementation.
*/
int32_t lis2hh12_read_reg(const stmdev_ctx_t *ctx, uint8_t reg,
uint8_t *data,
uint16_t len);
int32_t lis2hh12_write_reg(const stmdev_ctx_t *ctx, uint8_t reg,
uint8_t *data,
uint16_t len);
float_t lis2hh12_from_fs2g_to_mg(int16_t lsb);
float_t lis2hh12_from_fs4g_to_mg(int16_t lsb);
float_t lis2hh12_from_fs8g_to_mg(int16_t lsb);
float_t lis2hh12_from_lsb_to_celsius(int16_t lsb);
typedef struct
{
uint8_t xen : 1;
uint8_t yen : 1;
uint8_t zen : 1;
} lis2hh12_xl_axis_t;
int32_t lis2hh12_xl_axis_set(const stmdev_ctx_t *ctx,
lis2hh12_xl_axis_t val);
int32_t lis2hh12_xl_axis_get(const stmdev_ctx_t *ctx,
lis2hh12_xl_axis_t *val);
int32_t lis2hh12_block_data_update_set(const stmdev_ctx_t *ctx,
uint8_t val);
int32_t lis2hh12_block_data_update_get(const stmdev_ctx_t *ctx,
uint8_t *val);
typedef enum
{
LIS2HH12_XL_ODR_OFF = 0x00,
LIS2HH12_XL_ODR_10Hz = 0x01,
LIS2HH12_XL_ODR_50Hz = 0x02,
LIS2HH12_XL_ODR_100Hz = 0x03,
LIS2HH12_XL_ODR_200Hz = 0x04,
LIS2HH12_XL_ODR_400Hz = 0x05,
LIS2HH12_XL_ODR_800Hz = 0x06,
} lis2hh12_xl_data_rate_t;
int32_t lis2hh12_xl_data_rate_set(const stmdev_ctx_t *ctx,
lis2hh12_xl_data_rate_t val);
int32_t lis2hh12_xl_data_rate_get(const stmdev_ctx_t *ctx,
lis2hh12_xl_data_rate_t *val);
typedef enum
{
LIS2HH12_2g = 0x00,
LIS2HH12_4g = 0x02,
LIS2HH12_8g = 0x03,
} lis2hh12_xl_fs_t;
int32_t lis2hh12_xl_full_scale_set(const stmdev_ctx_t *ctx,
lis2hh12_xl_fs_t val);
int32_t lis2hh12_xl_full_scale_get(const stmdev_ctx_t *ctx,
lis2hh12_xl_fs_t *val);
typedef enum
{
LIS2HH12_NO_DECIMATION = 0x00,
LIS2HH12_EVERY_2_SAMPLES = 0x01,
LIS2HH12_EVERY_4_SAMPLES = 0x02,
LIS2HH12_EVERY_8_SAMPLES = 0x03,
} lis2hh12_dec_t;
int32_t lis2hh12_xl_decimation_set(const stmdev_ctx_t *ctx,
lis2hh12_dec_t val);
int32_t lis2hh12_xl_decimation_get(const stmdev_ctx_t *ctx,
lis2hh12_dec_t *val);
int32_t lis2hh12_xl_flag_data_ready_get(const stmdev_ctx_t *ctx,
uint8_t *val);
int32_t lis2hh12_temperature_raw_get(const stmdev_ctx_t *ctx, int16_t *val);
int32_t lis2hh12_acceleration_raw_get(const stmdev_ctx_t *ctx,
int16_t *val);
int32_t lis2hh12_dev_id_get(const stmdev_ctx_t *ctx, uint8_t *buff);
int32_t lis2hh12_dev_reset_set(const stmdev_ctx_t *ctx, uint8_t val);
int32_t lis2hh12_dev_reset_get(const stmdev_ctx_t *ctx, uint8_t *val);
int32_t lis2hh12_dev_boot_set(const stmdev_ctx_t *ctx, uint8_t val);
int32_t lis2hh12_dev_boot_get(const stmdev_ctx_t *ctx, uint8_t *val);
typedef struct
{
uint8_t xda : 1;
uint8_t yda : 1;
uint8_t zda : 1;
uint8_t zyxda : 1;
uint8_t _xor : 1;
uint8_t yor : 1;
uint8_t zor : 1;
uint8_t zyxor : 1;
} lis2hh12_status_reg_t;
int32_t lis2hh12_dev_status_get(const stmdev_ctx_t *ctx,
lis2hh12_status_reg_t *val);
typedef enum
{
LIS2HH12_HP_DISABLE = 0x00,
LIS2HH12_HP_ON_INT_GEN_1 = 0x02,
LIS2HH12_HP_ON_INT_GEN_2 = 0x01,
LIS2HH12_HP_ON_BOTH_GEN = 0x03,
} lis2hh12_xl_hp_path_t;
int32_t lis2hh12_xl_filter_int_path_set(const stmdev_ctx_t *ctx,
lis2hh12_xl_hp_path_t val);
int32_t lis2hh12_xl_filter_int_path_get(const stmdev_ctx_t *ctx,
lis2hh12_xl_hp_path_t *val);
typedef enum
{
LIS2HH12_BYPASSED = 0x00,
LIS2HH12_FILT_HP = 0x02,
LIS2HH12_FILT_LP = 0x01,
} lis2hh12_xl_out_path_t;
int32_t lis2hh12_xl_filter_out_path_set(const stmdev_ctx_t *ctx,
lis2hh12_xl_out_path_t val);
int32_t lis2hh12_xl_filter_out_path_get(const stmdev_ctx_t *ctx,
lis2hh12_xl_out_path_t *val);
typedef enum
{
LIS2HH12_HP_ODR_DIV_50 = 0x00,
LIS2HH12_HP_ODR_DIV_100 = 0x10,
LIS2HH12_HP_ODR_DIV_9 = 0x20,
LIS2HH12_HP_ODR_DIV_400 = 0x30,
LIS2HH12_HP_ODR_DIV_50_REF_MD = 0x01,
LIS2HH12_HP_ODR_DIV_100_REF_MD = 0x11,
LIS2HH12_HP_ODR_DIV_9_REF_MD = 0x21,
LIS2HH12_HP_ODR_DIV_400_REF_MD = 0x31,
} lis2hh12_xl_hp_bw_t;
int32_t lis2hh12_xl_filter_hp_bandwidth_set(const stmdev_ctx_t *ctx,
lis2hh12_xl_hp_bw_t val);
int32_t lis2hh12_xl_filter_hp_bandwidth_get(const stmdev_ctx_t *ctx,
lis2hh12_xl_hp_bw_t *val);
typedef enum
{
LIS2HH12_LP_ODR_DIV_50 = 0,
LIS2HH12_LP_ODR_DIV_100 = 1,
LIS2HH12_LP_ODR_DIV_9 = 2,
LIS2HH12_LP_ODR_DIV_400 = 3,
} lis2hh12_xl_lp_bw_t;
int32_t lis2hh12_xl_filter_low_bandwidth_set(const stmdev_ctx_t *ctx,
lis2hh12_xl_lp_bw_t val);
int32_t lis2hh12_xl_filter_low_bandwidth_get(const stmdev_ctx_t *ctx,
lis2hh12_xl_lp_bw_t *val);
typedef enum
{
LIS2HH12_AUTO = 0x00,
LIS2HH12_408Hz = 0x10,
LIS2HH12_211Hz = 0x11,
LIS2HH12_105Hz = 0x12,
LIS2HH12_50Hz = 0x13,
} lis2hh12_xl_filt_aa_bw_t;
int32_t lis2hh12_xl_filter_aalias_bandwidth_set(const stmdev_ctx_t *ctx,
lis2hh12_xl_filt_aa_bw_t val);
int32_t lis2hh12_xl_filter_aalias_bandwidth_get(const stmdev_ctx_t *ctx,
lis2hh12_xl_filt_aa_bw_t *val);
int32_t lis2hh12_xl_filter_reference_set(const stmdev_ctx_t *ctx,
int16_t *val);
int32_t lis2hh12_xl_filter_reference_get(const stmdev_ctx_t *ctx,
int16_t *val);
typedef enum
{
LIS2HH12_SPI_4_WIRE = 0x00,
LIS2HH12_SPI_3_WIRE = 0x01,
} lis2hh12_sim_t;
int32_t lis2hh12_spi_mode_set(const stmdev_ctx_t *ctx, lis2hh12_sim_t val);
int32_t lis2hh12_spi_mode_get(const stmdev_ctx_t *ctx, lis2hh12_sim_t *val);
typedef enum
{
LIS2HH12_I2C_ENABLE = 0x00,
LIS2HH12_I2C_DISABLE = 0x01,
} lis2hh12_i2c_dis_t;
int32_t lis2hh12_i2c_interface_set(const stmdev_ctx_t *ctx,
lis2hh12_i2c_dis_t val);
int32_t lis2hh12_i2c_interface_get(const stmdev_ctx_t *ctx,
lis2hh12_i2c_dis_t *val);
typedef enum
{
LIS2HH12_DISABLE = 0x00,
LIS2HH12_ENABLE = 0x01,
} lis2hh12_auto_inc_t;
int32_t lis2hh12_auto_increment_set(const stmdev_ctx_t *ctx,
lis2hh12_auto_inc_t val);
int32_t lis2hh12_auto_increment_get(const stmdev_ctx_t *ctx,
lis2hh12_auto_inc_t *val);
typedef struct
{
uint8_t int1_drdy : 1;
uint8_t int1_fth : 1;
uint8_t int1_ovr : 1;
uint8_t int1_ig1 : 1;
uint8_t int1_ig2 : 1;
uint8_t int1_inact : 1;
} lis2hh12_pin_int1_route_t;
int32_t lis2hh12_pin_int1_route_set(const stmdev_ctx_t *ctx,
lis2hh12_pin_int1_route_t val);
int32_t lis2hh12_pin_int1_route_get(const stmdev_ctx_t *ctx,
lis2hh12_pin_int1_route_t *val);
typedef enum
{
LIS2HH12_PUSH_PULL = 0x00,
LIS2HH12_OPEN_DRAIN = 0x01,
} lis2hh12_pp_od_t;
int32_t lis2hh12_pin_mode_set(const stmdev_ctx_t *ctx,
lis2hh12_pp_od_t val);
int32_t lis2hh12_pin_mode_get(const stmdev_ctx_t *ctx,
lis2hh12_pp_od_t *val);
typedef enum
{
LIS2HH12_ACTIVE_HIGH = 0x00,
LIS2HH12_ACTIVE_LOW = 0x01,
} lis2hh12_pin_pol_t;
int32_t lis2hh12_pin_polarity_set(const stmdev_ctx_t *ctx,
lis2hh12_pin_pol_t val);
int32_t lis2hh12_pin_polarity_get(const stmdev_ctx_t *ctx,
lis2hh12_pin_pol_t *val);
typedef struct
{
uint8_t int2_drdy : 1;
uint8_t int2_fth : 1;
uint8_t int2_empty : 1;
uint8_t int2_ig1 : 1;
uint8_t int2_ig2 : 1;
uint8_t int2_boot : 1;
} lis2hh12_pin_int2_route_t;
int32_t lis2hh12_pin_int2_route_set(const stmdev_ctx_t *ctx,
lis2hh12_pin_int2_route_t val);
int32_t lis2hh12_pin_int2_route_get(const stmdev_ctx_t *ctx,
lis2hh12_pin_int2_route_t *val);
typedef enum
{
LIS2HH12_INT_PULSED = 0x00,
LIS2HH12_INT_LATCHED = 0x01,
} lis2hh12_lir_t;
int32_t lis2hh12_pin_notification_set(const stmdev_ctx_t *ctx,
lis2hh12_lir_t val);
int32_t lis2hh12_pin_notification_get(const stmdev_ctx_t *ctx,
lis2hh12_lir_t *val);
typedef enum
{
LIS2HH12_IG1_OR_IG2_OR = 0x00,
LIS2HH12_IG1_AND_IG2_OR = 0x01,
LIS2HH12_IG1_OR_IG2_AND = 0x10,
LIS2HH12_IG1_AND_IG2_AND = 0x11,
} lis2hh12_pin_logic_t;
int32_t lis2hh12_pin_logic_set(const stmdev_ctx_t *ctx,
lis2hh12_pin_logic_t val);
int32_t lis2hh12_pin_logic_get(const stmdev_ctx_t *ctx,
lis2hh12_pin_logic_t *val);
typedef enum
{
LIS2HH12_RESET_MODE = 0x00,
LIS2HH12_DECREMENT_MODE = 0x01,
} lis2hh12_dcrm_t;
int32_t lis2hh12_xl_trshld_mode_set(const stmdev_ctx_t *ctx,
lis2hh12_dcrm_t val);
int32_t lis2hh12_xl_trshld_mode_get(const stmdev_ctx_t *ctx,
lis2hh12_dcrm_t *val);
typedef struct
{
uint16_t ig1_xlie : 1;
uint16_t ig1_xhie : 1;
uint16_t ig1_ylie : 1;
uint16_t ig1_yhie : 1;
uint16_t ig1_zlie : 1;
uint16_t ig1_zhie : 1;
uint16_t ig2_xlie : 1;
uint16_t ig2_xhie : 1;
uint16_t ig2_ylie : 1;
uint16_t ig2_yhie : 1;
uint16_t ig2_zlie : 1;
uint16_t ig2_zhie : 1;
} lis2hh12_xl_trshld_en_t;
int32_t lis2hh12_xl_trshld_axis_set(const stmdev_ctx_t *ctx,
lis2hh12_xl_trshld_en_t val);
int32_t lis2hh12_xl_trshld_axis_get(const stmdev_ctx_t *ctx,
lis2hh12_xl_trshld_en_t *val);
typedef struct
{
uint16_t ig1_xl : 1;
uint16_t ig1_xh : 1;
uint16_t ig1_yl : 1;
uint16_t ig1_yh : 1;
uint16_t ig1_zl : 1;
uint16_t ig1_zh : 1;
uint16_t ig1_ia : 1;
uint16_t ig2_xl : 1;
uint16_t ig2_xh : 1;
uint16_t ig2_yl : 1;
uint16_t ig2_yh : 1;
uint16_t ig2_zl : 1;
uint16_t ig2_zh : 1;
uint16_t ig2_ia : 1;
} lis2hh12_xl_trshld_src_t;
int32_t lis2hh12_xl_trshld_src_get(const stmdev_ctx_t *ctx,
lis2hh12_xl_trshld_src_t *val);
int32_t lis2hh12_xl_trshld_set(const stmdev_ctx_t *ctx, uint8_t ig1_x,
uint8_t ig1_y, uint8_t ig1_z,
uint8_t ig2_xyz);
int32_t lis2hh12_xl_trshld_get(const stmdev_ctx_t *ctx, uint8_t *ig1_x,
uint8_t *ig1_y, uint8_t *ig1_z,
uint8_t *ig2_xyz);
int32_t lis2hh12_xl_trshld_min_sample_set(const stmdev_ctx_t *ctx,
uint8_t ig1_sam, uint8_t ig2_sam);
int32_t lis2hh12_xl_trshld_min_sample_get(const stmdev_ctx_t *ctx,
uint8_t *ig1_sam, uint8_t *ig2_sam);
int32_t lis2hh12_act_threshold_set(const stmdev_ctx_t *ctx, uint8_t val);
int32_t lis2hh12_act_threshold_get(const stmdev_ctx_t *ctx, uint8_t *val);
int32_t lis2hh12_act_duration_set(const stmdev_ctx_t *ctx, uint8_t val);
int32_t lis2hh12_act_duration_get(const stmdev_ctx_t *ctx, uint8_t *val);
typedef enum
{
LIS2HH12_6D_4D_DISABLE = 0x00,
LIS2HH12_ENABLE_ON_IG1_6D = 0x01,
LIS2HH12_ENABLE_ON_IG2_6D = 0x02,
LIS2HH12_ENABLE_ON_IG1_4D = 0x11,
LIS2HH12_ENABLE_ON_IG2_4D = 0x12,
} lis2hh12_6d_mode_t;
int32_t lis2hh12_6d_mode_set(const stmdev_ctx_t *ctx,
lis2hh12_6d_mode_t val);
int32_t lis2hh12_6d_mode_get(const stmdev_ctx_t *ctx,
lis2hh12_6d_mode_t *val);
int32_t lis2hh12_fifo_watermark_set(const stmdev_ctx_t *ctx, uint8_t val);
int32_t lis2hh12_fifo_watermark_get(const stmdev_ctx_t *ctx, uint8_t *val);
typedef enum
{
LIS2HH12_FIFO_OFF = 0x00,
LIS2HH12_BYPASS_MODE = 0x10,
LIS2HH12_FIFO_MODE = 0x11,
LIS2HH12_STREAM_MODE = 0x12,
LIS2HH12_STREAM_TO_FIFO_MODE = 0x13,
LIS2HH12_BYPASS_TO_STREAM_MODE = 0x14,
LIS2HH12_BYPASS_TO_FIFO_MODE = 0x17,
} lis2hh12_fifo_md_t;
int32_t lis2hh12_fifo_mode_set(const stmdev_ctx_t *ctx,
lis2hh12_fifo_md_t val);
int32_t lis2hh12_fifo_mode_get(const stmdev_ctx_t *ctx,
lis2hh12_fifo_md_t *val);
typedef struct
{
uint8_t fss : 5;
uint8_t empty : 1;
uint8_t ovr : 1;
uint8_t fth : 1;
} lis2hh12_fifo_stat_t;
int32_t lis2hh12_fifo_status_get(const stmdev_ctx_t *ctx,
lis2hh12_fifo_stat_t *val);
typedef enum
{
LIS2HH12_ST_DISABLE = 0x00,
LIS2HH12_ST_POSITIVE = 0x01,
LIS2HH12_ST_NEGATIVE = 0x02,
} lis2hh12_xl_st_t;
int32_t lis2hh12_xl_self_test_set(const stmdev_ctx_t *ctx,
lis2hh12_xl_st_t val);
int32_t lis2hh12_xl_self_test_get(const stmdev_ctx_t *ctx,
lis2hh12_xl_st_t *val);
/**
*@}
*
*/
#ifdef __cplusplus
}
#endif
#endif /* LIS2HH12_REGS_H */
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