480 lines
13 KiB
C
480 lines
13 KiB
C
/**
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* @file sensor.h
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*
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* @brief Public APIs for the sensor driver.
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*/
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/*
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* Copyright (c) 2016 Intel Corporation
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*
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* SPDX-License-Identifier: Apache-2.0
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*/
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#ifndef __SENSOR_H__
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#define __SENSOR_H__
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/**
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* @brief Sensor Interface
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* @defgroup sensor_interface Sensor Interface
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* @ingroup io_interfaces
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* @{
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*/
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#ifdef __cplusplus
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extern "C" {
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#endif
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#include <zephyr/types.h>
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#include <device.h>
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#include <errno.h>
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/**
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* @brief Representation of a sensor readout value.
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*
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* The value is represented as having an integer and a fractional part,
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* and can be obtained using the formula val1 + val2 * 10^(-6).
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*/
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struct sensor_value {
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/** Integer part of the value. */
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s32_t val1;
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/** Fractional part of the value. */
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s32_t val2;
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};
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/**
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* @brief Sensor channels.
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*/
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enum sensor_channel {
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/** Acceleration on the X axis, in m/s^2. */
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SENSOR_CHAN_ACCEL_X,
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/** Acceleration on the Y axis, in m/s^2. */
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SENSOR_CHAN_ACCEL_Y,
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/** Acceleration on the Z axis, in m/s^2. */
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SENSOR_CHAN_ACCEL_Z,
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/** Acceleration on the X, Y and Z axes. */
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SENSOR_CHAN_ACCEL_XYZ,
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/**
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* This enum value will be deprecated.
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* Please use SENSOR_CHAN_ACCEL_XYZ instead.
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*
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* Acceleration on any axis.
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*/
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SENSOR_CHAN_ACCEL_ANY = SENSOR_CHAN_ACCEL_XYZ,
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/** Angular velocity around the X axis, in radians/s. */
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SENSOR_CHAN_GYRO_X,
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/** Angular velocity around the Y axis, in radians/s. */
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SENSOR_CHAN_GYRO_Y,
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/** Angular velocity around the Z axis, in radians/s. */
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SENSOR_CHAN_GYRO_Z,
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/** Angular velocity around the X, Y and Z axes. */
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SENSOR_CHAN_GYRO_XYZ,
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/**
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* This enum value will be deprecated.
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* Please use SENSOR_CHAN_GYRO_XYZ instead.
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*
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* Angular velocity on any axis.
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*/
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SENSOR_CHAN_GYRO_ANY = SENSOR_CHAN_GYRO_XYZ,
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/** Magnetic field on the X axis, in Gauss. */
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SENSOR_CHAN_MAGN_X,
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/** Magnetic field on the Y axis, in Gauss. */
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SENSOR_CHAN_MAGN_Y,
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/** Magnetic field on the Z axis, in Gauss. */
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SENSOR_CHAN_MAGN_Z,
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/** Magnetic field on the X, Y and Z axes. */
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SENSOR_CHAN_MAGN_XYZ,
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/**
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* This enum value will be deprecated.
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* Please use SENSOR_CHAN_MAGN_XYZ instead.
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*
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* Magnetic field on any axis.
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*/
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SENSOR_CHAN_MAGN_ANY = SENSOR_CHAN_MAGN_XYZ,
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/** Temperature in degrees Celsius. */
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SENSOR_CHAN_TEMP,
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/** Pressure in kilopascal. */
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SENSOR_CHAN_PRESS,
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/**
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* Proximity. Adimensional. A value of 1 indicates that an
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* object is close.
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*/
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SENSOR_CHAN_PROX,
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/** Humidity, in milli percent. */
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SENSOR_CHAN_HUMIDITY,
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/** Illuminance in visible spectrum, in lux. */
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SENSOR_CHAN_LIGHT,
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/** Illuminance in infra-red spectrum, in lux. */
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SENSOR_CHAN_IR,
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/** Illuminance in red spectrum, in lux. */
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SENSOR_CHAN_RED,
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/** Illuminance in green spectrum, in lux. */
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SENSOR_CHAN_GREEN,
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/** Altitude, in meters */
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SENSOR_CHAN_ALTITUDE,
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/** All channels. */
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SENSOR_CHAN_ALL,
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};
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/**
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* @brief Sensor trigger types.
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*/
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enum sensor_trigger_type {
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/**
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* Timer-based trigger, useful when the sensor does not have an
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* interrupt line.
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*/
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SENSOR_TRIG_TIMER,
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/** Trigger fires whenever new data is ready. */
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SENSOR_TRIG_DATA_READY,
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/**
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* Trigger fires when the selected channel varies significantly.
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* This includes any-motion detection when the channel is
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* acceleration or gyro. If detection is based on slope between
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* successive channel readings, the slope threshold is configured
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* via the @ref SENSOR_ATTR_SLOPE_TH and @ref SENSOR_ATTR_SLOPE_DUR
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* attributes.
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*/
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SENSOR_TRIG_DELTA,
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/** Trigger fires when a near/far event is detected. */
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SENSOR_TRIG_NEAR_FAR,
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/**
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* Trigger fires when channel reading transitions configured
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* thresholds. The thresholds are configured via the @ref
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* SENSOR_ATTR_LOWER_THRESH and @ref SENSOR_ATTR_UPPER_THRESH
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* attributes.
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*/
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SENSOR_TRIG_THRESHOLD,
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/** Trigger fires when a single tap is detected. */
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SENSOR_TRIG_TAP,
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/** Trigger fires when a double tap is detected. */
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SENSOR_TRIG_DOUBLE_TAP,
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};
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/**
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* @brief Sensor trigger spec.
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*/
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struct sensor_trigger {
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/** Trigger type. */
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enum sensor_trigger_type type;
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/** Channel the trigger is set on. */
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enum sensor_channel chan;
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};
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/**
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* @brief Sensor attribute types.
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*/
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enum sensor_attribute {
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/**
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* Sensor sampling frequency, i.e. how many times a second the
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* sensor takes a measurement.
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*/
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SENSOR_ATTR_SAMPLING_FREQUENCY,
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/** Lower threshold for trigger. */
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SENSOR_ATTR_LOWER_THRESH,
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/** Upper threshold for trigger. */
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SENSOR_ATTR_UPPER_THRESH,
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/** Threshold for any-motion (slope) trigger. */
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SENSOR_ATTR_SLOPE_TH,
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/**
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* Duration for which the slope values needs to be
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* outside the threshold for the trigger to fire.
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*/
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SENSOR_ATTR_SLOPE_DUR,
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/** Oversampling factor */
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SENSOR_ATTR_OVERSAMPLING,
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/** Sensor range, in SI units. */
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SENSOR_ATTR_FULL_SCALE,
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/**
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* The sensor value returned will be altered by the amount indicated by
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* offset: final_value = sensor_value + offset.
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*/
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SENSOR_ATTR_OFFSET,
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/**
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* Calibration target. This will be used by the internal chip's
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* algorithms to calibrate itself on a certain axis, or all of them.
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*/
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SENSOR_ATTR_CALIB_TARGET,
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};
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/**
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* @typedef sensor_trigger_handler_t
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* @brief Callback API upon firing of a trigger
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*
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* @param "struct device *dev" Pointer to the sensor device
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* @param "struct sensor_trigger *trigger" The trigger
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*/
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typedef void (*sensor_trigger_handler_t)(struct device *dev,
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struct sensor_trigger *trigger);
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/**
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* @typedef sensor_attr_set_t
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* @brief Callback API upon setting a sensor's attributes
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*
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* See sensor_attr_set() for argument description
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*/
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typedef int (*sensor_attr_set_t)(struct device *dev,
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enum sensor_channel chan,
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enum sensor_attribute attr,
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const struct sensor_value *val);
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/**
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* @typedef sensor_trigger_set_t
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* @brief Callback API for setting a sensor's trigger and handler
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*
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* See sensor_trigger_set() for argument description
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*/
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typedef int (*sensor_trigger_set_t)(struct device *dev,
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const struct sensor_trigger *trig,
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sensor_trigger_handler_t handler);
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/**
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* @typedef sensor_sample_fetch_t
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* @brief Callback API for fetching data from a sensor
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*
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* See sensor_sample_fetch() for argument description
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*/
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typedef int (*sensor_sample_fetch_t)(struct device *dev,
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enum sensor_channel chan);
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/**
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* @typedef sensor_channel_get_t
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* @brief Callback API for getting a reading from a sensor
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*
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* See sensor_channel_get() for argument description
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*/
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typedef int (*sensor_channel_get_t)(struct device *dev,
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enum sensor_channel chan,
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struct sensor_value *val);
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struct sensor_driver_api {
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sensor_attr_set_t attr_set;
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sensor_trigger_set_t trigger_set;
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sensor_sample_fetch_t sample_fetch;
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sensor_channel_get_t channel_get;
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};
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/**
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* @brief Set an attribute for a sensor
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*
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* @param dev Pointer to the sensor device
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* @param chan The channel the attribute belongs to, if any. Some
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* attributes may only be set for all channels of a device, depending on
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* device capabilities.
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* @param attr The attribute to set
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* @param val The value to set the attribute to
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*
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* @return 0 if successful, negative errno code if failure.
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*/
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static inline int sensor_attr_set(struct device *dev,
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enum sensor_channel chan,
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enum sensor_attribute attr,
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const struct sensor_value *val)
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{
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const struct sensor_driver_api *api = dev->driver_api;
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if (!api->attr_set) {
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return -ENOTSUP;
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}
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return api->attr_set(dev, chan, attr, val);
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}
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/**
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* @brief Activate a sensor's trigger and set the trigger handler
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*
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* The handler will be called from a fiber, so I2C or SPI operations are
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* safe. However, the fiber's stack is limited and defined by the
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* driver. It is currently up to the caller to ensure that the handler
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* does not overflow the stack.
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*
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* @param dev Pointer to the sensor device
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* @param trig The trigger to activate
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* @param handler The function that should be called when the trigger
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* fires
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*
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* @return 0 if successful, negative errno code if failure.
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*/
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static inline int sensor_trigger_set(struct device *dev,
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struct sensor_trigger *trig,
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sensor_trigger_handler_t handler)
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{
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const struct sensor_driver_api *api = dev->driver_api;
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if (!api->trigger_set) {
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return -ENOTSUP;
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}
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return api->trigger_set(dev, trig, handler);
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}
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/**
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* @brief Fetch a sample from the sensor and store it in an internal
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* driver buffer
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*
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* Read all of a sensor's active channels and, if necessary, perform any
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* additional operations necessary to make the values useful. The user
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* may then get individual channel values by calling @ref
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* sensor_channel_get.
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*
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* Since the function communicates with the sensor device, it is unsafe
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* to call it in an ISR if the device is connected via I2C or SPI.
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*
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* @param dev Pointer to the sensor device
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*
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* @return 0 if successful, negative errno code if failure.
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*/
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static inline int sensor_sample_fetch(struct device *dev)
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{
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const struct sensor_driver_api *api = dev->driver_api;
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return api->sample_fetch(dev, SENSOR_CHAN_ALL);
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}
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/**
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* @brief Fetch a sample from the sensor and store it in an internal
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* driver buffer
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*
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* Read and compute compensation for one type of sensor data (magnetometer,
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* accelerometer, etc). The user may then get individual channel values by
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* calling @ref sensor_channel_get.
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*
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* This is mostly implemented by multi function devices enabling reading at
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* different sampling rates.
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*
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* Since the function communicates with the sensor device, it is unsafe
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* to call it in an ISR if the device is connected via I2C or SPI.
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*
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* @param dev Pointer to the sensor device
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* @param type The channel that needs updated
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*
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* @return 0 if successful, negative errno code if failure.
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*/
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static inline int sensor_sample_fetch_chan(struct device *dev,
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enum sensor_channel type)
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{
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const struct sensor_driver_api *api = dev->driver_api;
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return api->sample_fetch(dev, type);
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}
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/**
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* @brief Get a reading from a sensor device
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*
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* Return a useful value for a particular channel, from the driver's
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* internal data. Before calling this function, a sample must be
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* obtained by calling @ref sensor_sample_fetch or
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* @ref sensor_sample_fetch_chan. It is guaranteed that two subsequent
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* calls of this function for the same channels will yield the same
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* value, if @ref sensor_sample_fetch or @ref sensor_sample_fetch_chan
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* has not been called in the meantime.
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*
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* For vectorial data samples you can request all axes in just one call
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* by passing the specific channel with _XYZ suffix. The sample will be
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* returned at val[0], val[1] and val[2] (X, Y and Z in that order).
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*
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* @param dev Pointer to the sensor device
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* @param chan The channel to read
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* @param val Where to store the value
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*
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* @return 0 if successful, negative errno code if failure.
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*/
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static inline int sensor_channel_get(struct device *dev,
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enum sensor_channel chan,
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struct sensor_value *val)
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{
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const struct sensor_driver_api *api = dev->driver_api;
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return api->channel_get(dev, chan, val);
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}
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/**
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* @brief The value of gravitational constant in micro m/s^2.
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*/
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#define SENSOR_G 9806650LL
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/**
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* @brief The value of constant PI in micros.
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*/
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#define SENSOR_PI 3141592LL
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/**
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* @brief Helper function to convert acceleration from m/s^2 to Gs
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*
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* @param ms2 A pointer to a sensor_value struct holding the acceleration,
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* in m/s^2.
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*
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* @return The converted value, in Gs.
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*/
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static inline s32_t sensor_ms2_to_g(const struct sensor_value *ms2)
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{
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s64_t micro_ms2 = ms2->val1 * 1000000LL + ms2->val2;
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if (micro_ms2 > 0) {
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return (micro_ms2 + SENSOR_G / 2) / SENSOR_G;
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} else {
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return (micro_ms2 - SENSOR_G / 2) / SENSOR_G;
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}
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}
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/**
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* @brief Helper function to convert acceleration from Gs to m/s^2
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*
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* @param g The G value to be converted.
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* @param ms2 A pointer to a sensor_value struct, where the result is stored.
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*/
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static inline void sensor_g_to_ms2(s32_t g, struct sensor_value *ms2)
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{
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ms2->val1 = ((s64_t)g * SENSOR_G) / 1000000LL;
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ms2->val2 = ((s64_t)g * SENSOR_G) % 1000000LL;
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}
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/**
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* @brief Helper function for converting radians to degrees.
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*
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* @param rad A pointer to a sensor_value struct, holding the value in radians.
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*
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* @return The converted value, in degrees.
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*/
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static inline s32_t sensor_rad_to_degrees(const struct sensor_value *rad)
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{
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s64_t micro_rad_s = rad->val1 * 1000000LL + rad->val2;
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if (micro_rad_s > 0) {
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return (micro_rad_s * 180LL + SENSOR_PI / 2) / SENSOR_PI;
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} else {
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return (micro_rad_s * 180LL - SENSOR_PI / 2) / SENSOR_PI;
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}
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}
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/**
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* @brief Helper function for converting degrees to radians.
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*
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* @param d The value (in degrees) to be converted.
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* @param rad A pointer to a sensor_value struct, where the result is stored.
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*/
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static inline void sensor_degrees_to_rad(s32_t d, struct sensor_value *rad)
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{
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rad->val1 = ((s64_t)d * SENSOR_PI / 180LL) / 1000000LL;
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rad->val2 = ((s64_t)d * SENSOR_PI / 180LL) % 1000000LL;
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}
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/**
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* @brief Helper function for converting struct sensor_value to double.
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*
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* @param val A pointer to a sensor_value struct.
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* @return The converted value.
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*/
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static inline double sensor_value_to_double(struct sensor_value *val)
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{
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return (double)val->val1 + (double)val->val2 / 1000000;
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}
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#ifdef __cplusplus
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}
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#endif
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/**
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* @}
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*/
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#endif /* __SENSOR_H__ */
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