2009-03-04 04:32:14 +01:00
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/*
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* Copyright (C) 2008 The Android Open Source Project
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*
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* Licensed under the Apache License, Version 2.0 (the "License");
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* you may not use this file except in compliance with the License.
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* You may obtain a copy of the License at
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*
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* http://www.apache.org/licenses/LICENSE-2.0
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*
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* Unless required by applicable law or agreed to in writing, software
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* distributed under the License is distributed on an "AS IS" BASIS,
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* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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* See the License for the specific language governing permissions and
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* limitations under the License.
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*/
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#ifndef ANDROID_SENSORS_INTERFACE_H
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#define ANDROID_SENSORS_INTERFACE_H
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#include <stdint.h>
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#include <sys/cdefs.h>
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#include <sys/types.h>
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#include <hardware/hardware.h>
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2009-05-22 16:05:48 +02:00
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#include <cutils/native_handle.h>
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2009-03-04 04:32:14 +01:00
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__BEGIN_DECLS
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/**
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* The id of this module
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*/
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#define SENSORS_HARDWARE_MODULE_ID "sensors"
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/**
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* Name of the sensors device to open
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*/
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#define SENSORS_HARDWARE_CONTROL "control"
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#define SENSORS_HARDWARE_DATA "data"
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/**
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* Handles must be higher than SENSORS_HANDLE_BASE and must be unique.
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* A Handle identifies a given sensors. The handle is used to activate
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* and/or deactivate sensors.
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* In this version of the API there can only be 256 handles.
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*/
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#define SENSORS_HANDLE_BASE 0
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#define SENSORS_HANDLE_BITS 8
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#define SENSORS_HANDLE_COUNT (1<<SENSORS_HANDLE_BITS)
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/**
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* Sensor types
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*/
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#define SENSOR_TYPE_ACCELEROMETER 1
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#define SENSOR_TYPE_MAGNETIC_FIELD 2
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#define SENSOR_TYPE_ORIENTATION 3
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#define SENSOR_TYPE_GYROSCOPE 4
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#define SENSOR_TYPE_LIGHT 5
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#define SENSOR_TYPE_PRESSURE 6
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#define SENSOR_TYPE_TEMPERATURE 7
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#define SENSOR_TYPE_PROXIMITY 8
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/**
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* Values returned by the accelerometer in various locations in the universe.
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* all values are in SI units (m/s^2)
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*/
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#define GRAVITY_SUN (275.0f)
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#define GRAVITY_MERCURY (3.70f)
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#define GRAVITY_VENUS (8.87f)
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#define GRAVITY_EARTH (9.80665f)
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#define GRAVITY_MOON (1.6f)
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#define GRAVITY_MARS (3.71f)
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#define GRAVITY_JUPITER (23.12f)
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#define GRAVITY_SATURN (8.96f)
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#define GRAVITY_URANUS (8.69f)
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#define GRAVITY_NEPTUNE (11.0f)
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#define GRAVITY_PLUTO (0.6f)
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#define GRAVITY_DEATH_STAR_I (0.000000353036145f)
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#define GRAVITY_THE_ISLAND (4.815162342f)
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/** Maximum magnetic field on Earth's surface */
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#define MAGNETIC_FIELD_EARTH_MAX (60.0f)
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/** Minimum magnetic field on Earth's surface */
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#define MAGNETIC_FIELD_EARTH_MIN (30.0f)
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/**
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* status of each sensor
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*/
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#define SENSOR_STATUS_UNRELIABLE 0
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#define SENSOR_STATUS_ACCURACY_LOW 1
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#define SENSOR_STATUS_ACCURACY_MEDIUM 2
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#define SENSOR_STATUS_ACCURACY_HIGH 3
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/**
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* Definition of the axis
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* ----------------------
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*
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* This API is relative to the screen of the device in its default orientation,
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* that is, if the device can be used in portrait or landscape, this API
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* is only relative to the NATURAL orientation of the screen. In other words,
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* the axis are not swapped when the device's screen orientation changes.
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* Higher level services /may/ perform this transformation.
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*
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* x<0 x>0
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* ^
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* |
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* +-----------+--> y>0
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* | |
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* | |
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* | |
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* | | / z<0
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* | | /
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* | | /
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* O-----------+/
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* |[] [ ] []/
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* +----------/+ y<0
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* /
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* /
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* |/ z>0 (toward the sky)
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*
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* O: Origin (x=0,y=0,z=0)
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*
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*
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* Orientation
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* -----------
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*
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* All values are angles in degrees.
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*
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* azimuth: angle between the magnetic north direction and the Y axis, around
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* the Z axis (0<=azimuth<360).
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* 0=North, 90=East, 180=South, 270=West
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*
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* pitch: Rotation around X axis (-180<=pitch<=180), with positive values when
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* the z-axis moves toward the y-axis.
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*
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* roll: Rotation around Y axis (-90<=roll<=90), with positive values when
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2010-02-26 22:15:18 +01:00
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* the x-axis moves towards the z-axis.
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*
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* Note: For historical reasons the roll angle is positive in the clockwise
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* direction (mathematically speaking, it should be positive in the
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* counter-clockwise direction):
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*
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* Z
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* ^
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* (+roll) .--> |
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* / |
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* | | roll: rotation around Y axis
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* X <-------(.)
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* Y
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* note that +Y == -roll
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*
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*
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*
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2009-03-04 04:32:14 +01:00
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* Note: This definition is different from yaw, pitch and roll used in aviation
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* where the X axis is along the long side of the plane (tail to nose).
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*
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*
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* Acceleration
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* ------------
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*
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* All values are in SI units (m/s^2) and measure the acceleration of the
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* device minus the force of gravity.
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*
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* x: Acceleration minus Gx on the x-axis
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* y: Acceleration minus Gy on the y-axis
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* z: Acceleration minus Gz on the z-axis
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*
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* Examples:
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* When the device lies flat on a table and is pushed on its left side
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* toward the right, the x acceleration value is positive.
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*
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* When the device lies flat on a table, the acceleration value is +9.81,
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* which correspond to the acceleration of the device (0 m/s^2) minus the
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* force of gravity (-9.81 m/s^2).
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*
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* When the device lies flat on a table and is pushed toward the sky, the
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* acceleration value is greater than +9.81, which correspond to the
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* acceleration of the device (+A m/s^2) minus the force of
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* gravity (-9.81 m/s^2).
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*
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*
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* Magnetic Field
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* --------------
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*
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* All values are in micro-Tesla (uT) and measure the ambient magnetic
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* field in the X, Y and Z axis.
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2009-11-03 16:29:50 +01:00
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*
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* Proximity
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* ---------
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*
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* The distance value is measured in centimeters. Note that some proximity
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* sensors only support a binary "close" or "far" measurement. In this case,
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* the sensor should report its maxRange value in the "far" state and a value
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* less than maxRange in the "near" state.
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*
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* Light
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* -----
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*
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* The light sensor value is returned in SI lux units.
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*
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2009-03-04 04:32:14 +01:00
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*/
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typedef struct {
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union {
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float v[3];
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struct {
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float x;
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float y;
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float z;
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};
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struct {
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float azimuth;
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float pitch;
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float roll;
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};
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};
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int8_t status;
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uint8_t reserved[3];
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} sensors_vec_t;
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/**
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* Union of the various types of sensor data
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* that can be returned.
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*/
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typedef struct {
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/* sensor identifier */
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int sensor;
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union {
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/* x,y,z values of the given sensor */
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sensors_vec_t vector;
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/* orientation values are in degrees */
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sensors_vec_t orientation;
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/* acceleration values are in meter per second per second (m/s^2) */
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sensors_vec_t acceleration;
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/* magnetic vector values are in micro-Tesla (uT) */
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sensors_vec_t magnetic;
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/* temperature is in degrees centigrade (Celsius) */
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float temperature;
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2009-07-08 22:54:17 +02:00
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/* distance in centimeters */
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float distance;
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2009-08-21 01:47:17 +02:00
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2009-11-03 16:29:50 +01:00
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/* light in SI lux units */
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2009-09-04 18:09:05 +02:00
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float light;
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2009-03-04 04:32:14 +01:00
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};
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/* time is in nanosecond */
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int64_t time;
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uint32_t reserved;
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} sensors_data_t;
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struct sensor_t;
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/**
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* Every hardware module must have a data structure named HAL_MODULE_INFO_SYM
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* and the fields of this data structure must begin with hw_module_t
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* followed by module specific information.
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*/
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struct sensors_module_t {
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struct hw_module_t common;
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/**
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* Enumerate all available sensors. The list is returned in "list".
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* @return number of sensors in the list
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*/
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int (*get_sensors_list)(struct sensors_module_t* module,
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struct sensor_t const** list);
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};
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struct sensor_t {
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/* name of this sensors */
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const char* name;
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/* vendor of the hardware part */
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const char* vendor;
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/* version of the hardware part + driver. The value of this field is
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* left to the implementation and doesn't have to be monotonicaly
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* increasing.
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*/
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int version;
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/* handle that identifies this sensors. This handle is used to activate
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* and deactivate this sensor. The value of the handle must be 8 bits
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* in this version of the API.
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*/
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int handle;
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/* this sensor's type. */
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int type;
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/* maximaum range of this sensor's value in SI units */
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float maxRange;
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/* smallest difference between two values reported by this sensor */
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float resolution;
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/* rough estimate of this sensor's power consumption in mA */
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float power;
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/* reserved fields, must be zero */
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void* reserved[9];
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};
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/**
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* Every device data structure must begin with hw_device_t
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* followed by module specific public methods and attributes.
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*/
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struct sensors_control_device_t {
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struct hw_device_t common;
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/**
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* Returns a native_handle_t, which will be the parameter to
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2009-03-04 04:32:14 +01:00
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* sensors_data_device_t::open_data().
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2009-05-22 16:05:48 +02:00
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* The caller takes ownership of this handle. This is intended to be
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2009-03-04 04:32:14 +01:00
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* passed cross processes.
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*
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2009-06-03 02:45:08 +02:00
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* @return a native_handle_t if successful, NULL on error
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2009-03-04 04:32:14 +01:00
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*/
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2009-05-22 16:05:48 +02:00
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native_handle_t* (*open_data_source)(struct sensors_control_device_t *dev);
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2009-08-29 17:55:27 +02:00
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/**
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* Releases any resources that were created by open_data_source.
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* This call is optional and can be NULL if not implemented
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* by the sensor HAL.
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*
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* @return 0 if successful, < 0 on error
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*/
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int (*close_data_source)(struct sensors_control_device_t *dev);
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2009-03-04 04:32:14 +01:00
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/** Activate/deactivate one sensor.
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*
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* @param handle is the handle of the sensor to change.
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* @param enabled set to 1 to enable, or 0 to disable the sensor.
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*
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* @return 0 on success, negative errno code otherwise
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*/
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int (*activate)(struct sensors_control_device_t *dev,
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int handle, int enabled);
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/**
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* Set the delay between sensor events in ms
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*
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* @return 0 if successful, < 0 on error
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*/
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int (*set_delay)(struct sensors_control_device_t *dev, int32_t ms);
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/**
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* Causes sensors_data_device_t.poll() to return -EWOULDBLOCK immediately.
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*/
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int (*wake)(struct sensors_control_device_t *dev);
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};
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struct sensors_data_device_t {
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struct hw_device_t common;
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/**
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* Prepare to read sensor data.
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*
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2009-05-22 16:05:48 +02:00
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* This routine does NOT take ownership of the handle
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* and must not close it. Typically this routine would
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2009-05-22 16:05:48 +02:00
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* use a duplicate of the nh parameter.
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2009-03-04 04:32:14 +01:00
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*
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2009-05-22 16:05:48 +02:00
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* @param nh from sensors_control_open.
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2009-03-04 04:32:14 +01:00
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*
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* @return 0 if successful, < 0 on error
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*/
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2009-05-22 16:05:48 +02:00
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int (*data_open)(struct sensors_data_device_t *dev, native_handle_t* nh);
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2009-03-04 04:32:14 +01:00
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/**
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* Caller has completed using the sensor data.
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* The caller will not be blocked in sensors_data_poll
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* when this routine is called.
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*
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* @return 0 if successful, < 0 on error
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*/
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int (*data_close)(struct sensors_data_device_t *dev);
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/**
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* Return sensor data for one of the enabled sensors.
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*
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* @return sensor handle for the returned data, 0x7FFFFFFF when
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* sensors_control_device_t.wake() is called and -errno on error
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*
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*/
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int (*poll)(struct sensors_data_device_t *dev,
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sensors_data_t* data);
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};
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/** convenience API for opening and closing a device */
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static inline int sensors_control_open(const struct hw_module_t* module,
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struct sensors_control_device_t** device) {
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return module->methods->open(module,
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SENSORS_HARDWARE_CONTROL, (struct hw_device_t**)device);
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}
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static inline int sensors_control_close(struct sensors_control_device_t* device) {
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return device->common.close(&device->common);
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}
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static inline int sensors_data_open(const struct hw_module_t* module,
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struct sensors_data_device_t** device) {
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return module->methods->open(module,
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SENSORS_HARDWARE_DATA, (struct hw_device_t**)device);
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}
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static inline int sensors_data_close(struct sensors_data_device_t* device) {
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return device->common.close(&device->common);
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}
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__END_DECLS
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#endif // ANDROID_SENSORS_INTERFACE_H
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