• Home
  • Line#
  • Scopes#
  • Navigate#
  • Raw
  • Download
1 /*
2  * Copyright (C) 2015 The Android Open Source Project
3  *
4  * Licensed under the Apache License, Version 2.0 (the "License");
5  * you may not use this file except in compliance with the License.
6  * You may obtain a copy of the License at
7  *
8  *      http://www.apache.org/licenses/LICENSE-2.0
9  *
10  * Unless required by applicable law or agreed to in writing, software
11  * distributed under the License is distributed on an "AS IS" BASIS,
12  * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
13  * See the License for the specific language governing permissions and
14  * limitations under the License.
15  */
16 
17 package android.car.hardware;
18 
19 import android.os.Parcel;
20 import android.os.Parcelable;
21 
22 /**
23  * A CarSensorEvent object corresponds to a single sensor event coming from the car. The sensor
24  * data is stored in a sensor-type specific format in the object's float and byte arrays.
25  *
26  * To aid unmarshalling the object's data arrays, this class provides static nested classes and
27  * conversion methods, for example {@link EnvironmentData} and {@link #getEnvironmentData}. The
28  * conversion methods each have an optional data parameter which, if not null, will be used and
29  * returned. This parameter should be used to avoid unnecessary object churn whenever possible.
30  * Additionally, calling a conversion method on a CarSensorEvent object with an inappropriate type
31  * will result in an {@code UnsupportedOperationException} being thrown.
32  *
33  * @deprecated consider using {@link android.car.hardware.property.CarPropertyEvent} instead.
34  */
35 @Deprecated
36 public class CarSensorEvent implements Parcelable {
37 
38     /**
39      *  GEAR_* represents meaning of intValues[0] for {@link CarSensorManager#SENSOR_TYPE_GEAR}
40      *  sensor type.
41      *  GEAR_NEUTRAL means transmission gear is in neutral state, and the car may be moving.
42      */
43     public static final int GEAR_NEUTRAL    = 0x0001;
44     /**
45      * intValues[0] from 1 to 99 represents transmission gear number for moving forward.
46      * GEAR_FIRST is for gear number 1.
47      */
48     public static final int GEAR_FIRST      = 0x0010;
49     /** Gear number 2. */
50     public static final int GEAR_SECOND     = 0x0020;
51     /** Gear number 3. */
52     public static final int GEAR_THIRD      = 0x0040;
53     /** Gear number 4. */
54     public static final int GEAR_FOURTH     = 0x0080;
55     /** Gear number 5. */
56     public static final int GEAR_FIFTH      = 0x0100;
57     /** Gear number 6. */
58     public static final int GEAR_SIXTH      = 0x0200;
59     /** Gear number 7. */
60     public static final int GEAR_SEVENTH    = 0x0400;
61     /** Gear number 8. */
62     public static final int GEAR_EIGHTH     = 0x0800;
63     /** Gear number 9. */
64     public static final int GEAR_NINTH      = 0x1000;
65     /** Gear number 10. */
66     public static final int GEAR_TENTH      = 0x2000;
67     /**
68      * This is for transmission without specific gear number for moving forward like CVT. It tells
69      * that car is in a transmission state to move it forward.
70      */
71     public static final int GEAR_DRIVE      = 0x0008;
72     /** Gear in parking state */
73     public static final int GEAR_PARK       = 0x0004;
74     /** Gear in reverse */
75     public static final int GEAR_REVERSE    = 0x0002;
76 
77     /**
78      * Ignition state is unknown.
79      *
80      * The constants that starts with IGNITION_STATE_ represent values for
81      * {@link CarSensorManager#SENSOR_TYPE_IGNITION_STATE} sensor.
82      * */
83     public static final int IGNITION_STATE_UNDEFINED = 0;
84     /**
85      * Steering wheel is locked.
86      */
87     public static final int IGNITION_STATE_LOCK = 1;
88     /** Typically engine is off, but steering wheel is unlocked. */
89     public static final int IGNITION_STATE_OFF = 2;
90     /** Accessory is turned off, but engine is not running yet (for EV car is not ready to move). */
91     public static final int IGNITION_STATE_ACC = 3;
92     /** In this state engine typically is running (for EV, car is ready to move). */
93     public static final int IGNITION_STATE_ON = 4;
94     /** In this state engine is typically starting (cranking). */
95     public static final int IGNITION_STATE_START = 5;
96 
97     /**
98      * Index for {@link CarSensorManager#SENSOR_TYPE_ENV_OUTSIDE_TEMPERATURE} in floatValues.
99      * Temperature in Celsius degrees.
100      */
101     public static final int INDEX_ENVIRONMENT_TEMPERATURE = 0;
102 
103     /**
104      * Index for {@link CarSensorManager#SENSOR_TYPE_WHEEL_TICK_DISTANCE} in longValues. RESET_COUNT
105      * is incremented whenever the HAL detects that a sensor reset has occurred.  It represents to
106      * the upper layer that the WHEEL_DISTANCE values will not be contiguous with other values
107      * reported with a different RESET_COUNT.
108      */
109     public static final int INDEX_WHEEL_DISTANCE_RESET_COUNT = 0;
110     public static final int INDEX_WHEEL_DISTANCE_FRONT_LEFT = 1;
111     public static final int INDEX_WHEEL_DISTANCE_FRONT_RIGHT = 2;
112     public static final int INDEX_WHEEL_DISTANCE_REAR_RIGHT = 3;
113     public static final int INDEX_WHEEL_DISTANCE_REAR_LEFT = 4;
114 
115     private static final long MILLI_IN_NANOS = 1000000L;
116 
117     /** Sensor type for this event like {@link CarSensorManager#SENSOR_TYPE_CAR_SPEED}. */
118     public int sensorType;
119 
120     /**
121      * When this data was received from car. It is elapsed real-time of data reception from car in
122      * nanoseconds since system boot.
123      */
124     public long timestamp;
125     /**
126      * array holding float type of sensor data. If the sensor has single value, only floatValues[0]
127      * should be used. */
128     public final float[] floatValues;
129     /** array holding int type of sensor data */
130     public final int[] intValues;
131     /** array holding long int type of sensor data */
132     public final long[] longValues;
133 
134     /** @hide */
CarSensorEvent(Parcel in)135     public CarSensorEvent(Parcel in) {
136         sensorType = in.readInt();
137         timestamp = in.readLong();
138         int len = in.readInt();
139         floatValues = new float[len];
140         in.readFloatArray(floatValues);
141         len = in.readInt();
142         intValues = new int[len];
143         in.readIntArray(intValues);
144         // version 1 up to here
145         len = in.readInt();
146         longValues = new long[len];
147         in.readLongArray(longValues);
148     }
149 
150     @Override
describeContents()151     public int describeContents() {
152         return 0;
153     }
154 
155     @Override
writeToParcel(Parcel dest, int flags)156     public void writeToParcel(Parcel dest, int flags) {
157         dest.writeInt(sensorType);
158         dest.writeLong(timestamp);
159         dest.writeInt(floatValues.length);
160         dest.writeFloatArray(floatValues);
161         dest.writeInt(intValues.length);
162         dest.writeIntArray(intValues);
163         dest.writeInt(longValues.length);
164         dest.writeLongArray(longValues);
165     }
166 
167     public static final Parcelable.Creator<CarSensorEvent> CREATOR
168     = new Parcelable.Creator<CarSensorEvent>() {
169         public CarSensorEvent createFromParcel(Parcel in) {
170             return new CarSensorEvent(in);
171         }
172 
173         public CarSensorEvent[] newArray(int size) {
174             return new CarSensorEvent[size];
175         }
176     };
177 
178     /** @hide */
CarSensorEvent(int sensorType, long timestamp, int floatValueSize, int intValueSize, int longValueSize)179     public CarSensorEvent(int sensorType, long timestamp, int floatValueSize, int intValueSize,
180                           int longValueSize) {
181         this.sensorType = sensorType;
182         this.timestamp = timestamp;
183         floatValues = new float[floatValueSize];
184         intValues = new int[intValueSize];
185         longValues = new long[longValueSize];
186     }
187 
188     /** @hide */
CarSensorEvent(int sensorType, long timestamp, float[] floatValues, int[] intValues, long[] longValues)189     CarSensorEvent(int sensorType, long timestamp, float[] floatValues, int[] intValues,
190                    long[] longValues) {
191         this.sensorType = sensorType;
192         this.timestamp = timestamp;
193         this.floatValues = floatValues;
194         this.intValues = intValues;
195         this.longValues = longValues;
196     }
197 
checkType(int type)198     private void checkType(int type) {
199         if (sensorType == type) {
200             return;
201         }
202         throw new UnsupportedOperationException(String.format(
203                 "Invalid sensor type: expected %d, got %d", type, sensorType));
204     }
205 
206     public static class EnvironmentData {
207         public long timestamp;
208         /** If unsupported by the car, this value is NaN. */
209         public float temperature;
210 
211         /** @hide */
EnvironmentData()212         private EnvironmentData() {};
213     }
214 
215     /**
216      * Convenience method for obtaining an {@link EnvironmentData} object from a CarSensorEvent
217      * object with type {@link CarSensorManager#SENSOR_TYPE_ENV_OUTSIDE_TEMPERATURE}.
218      *
219      * @param data an optional output parameter which, if non-null, will be used by this method
220      *     instead of a newly created object.
221      * @return an EnvironmentData object corresponding to the data contained in the CarSensorEvent.
222      * @hide
223      */
getEnvironmentData(EnvironmentData data)224     public EnvironmentData getEnvironmentData(EnvironmentData data) {
225         checkType(CarSensorManager.SENSOR_TYPE_ENV_OUTSIDE_TEMPERATURE);
226         if (data == null) {
227             data = new EnvironmentData();
228         }
229         data.timestamp = timestamp;
230         data.temperature = floatValues[INDEX_ENVIRONMENT_TEMPERATURE];
231         return data;
232     }
233 
234     /** @hide*/
235     public static class IgnitionStateData {
236         public long timestamp;
237         public int ignitionState;
238 
239         /** @hide */
IgnitionStateData()240         private IgnitionStateData() {};
241     }
242 
243     /**
244      * Convenience method for obtaining a {@link IgnitionStateData} object from a CarSensorEvent
245      * object with type {@link CarSensorManager#SENSOR_TYPE_IGNITION_STATE}.
246      *
247      * @param data an optional output parameter which, if non-null, will be used by this method
248      *     instead of a newly created object.
249      * @return a IgnitionStateData object corresponding to the data contained in the CarSensorEvent.
250      * @hide
251      */
getIgnitionStateData(IgnitionStateData data)252     public IgnitionStateData getIgnitionStateData(IgnitionStateData data) {
253         checkType(CarSensorManager.SENSOR_TYPE_IGNITION_STATE);
254         if (data == null) {
255             data = new IgnitionStateData();
256         }
257         data.timestamp = timestamp;
258         data.ignitionState = intValues[0];
259         return data;
260     }
261 
262     /** @hide */
263     public static class NightData {
264         public long timestamp;
265         public boolean isNightMode;
266 
267         /** @hide */
NightData()268         private NightData() {};
269     }
270 
271     /**
272      * Convenience method for obtaining a {@link NightData} object from a CarSensorEvent
273      * object with type {@link CarSensorManager#SENSOR_TYPE_NIGHT}.
274      *
275      * @param data an optional output parameter which, if non-null, will be used by this method
276      *     instead of a newly created object.
277      * @return a NightData object corresponding to the data contained in the CarSensorEvent.
278      * @hide
279      */
getNightData(NightData data)280     public NightData getNightData(NightData data) {
281         checkType(CarSensorManager.SENSOR_TYPE_NIGHT);
282         if (data == null) {
283             data = new NightData();
284         }
285         data.timestamp = timestamp;
286         data.isNightMode = intValues[0] == 1;
287         return data;
288     }
289 
290     /** @hide */
291     public static class GearData {
292         public long timestamp;
293         public int gear;
294 
295         /** @hide */
GearData()296         private GearData() {};
297     }
298 
299     /**
300      * Convenience method for obtaining a {@link GearData} object from a CarSensorEvent
301      * object with type {@link CarSensorManager#SENSOR_TYPE_GEAR}.
302      *
303      * @param data an optional output parameter which, if non-null, will be used by this method
304      *     instead of a newly created object.
305      * @return a GearData object corresponding to the data contained in the CarSensorEvent.
306      * @hide
307      */
getGearData(GearData data)308     public GearData getGearData(GearData data) {
309         checkType(CarSensorManager.SENSOR_TYPE_GEAR);
310         if (data == null) {
311             data = new GearData();
312         }
313         data.timestamp = timestamp;
314         data.gear = intValues[0];
315         return data;
316     }
317 
318     /** @hide */
319     public static class ParkingBrakeData {
320         public long timestamp;
321         public boolean isEngaged;
322 
323         /** @hide */
ParkingBrakeData()324         private ParkingBrakeData() {}
325     }
326 
327     /**
328      * Convenience method for obtaining a {@link ParkingBrakeData} object from a CarSensorEvent
329      * object with type {@link CarSensorManager#SENSOR_TYPE_PARKING_BRAKE}.
330      *
331      * @param data an optional output parameter which, if non-null, will be used by this method
332      *     instead of a newly created object.
333      * @return a ParkingBreakData object corresponding to the data contained in the CarSensorEvent.
334      * @hide
335      */
getParkingBrakeData(ParkingBrakeData data)336     public ParkingBrakeData getParkingBrakeData(ParkingBrakeData data) {
337         checkType(CarSensorManager.SENSOR_TYPE_PARKING_BRAKE);
338         if (data == null) {
339             data = new ParkingBrakeData();
340         }
341         data.timestamp = timestamp;
342         data.isEngaged = intValues[0] == 1;
343         return data;
344     }
345 
346     /** @hide */
347     public static class FuelLevelData {
348         public long timestamp;
349         /** Fuel level in milliliters.  Negative values indicate this property is unsupported. */
350         public float level;
351 
352         /** @hide */
FuelLevelData()353         private FuelLevelData() {};
354     }
355 
356     /**
357      * Convenience method for obtaining a {@link FuelLevelData} object from a CarSensorEvent
358      * object with type {@link CarSensorManager#SENSOR_TYPE_FUEL_LEVEL}.
359      *
360      * @param data an optional output parameter which, if non-null, will be used by this method
361      *     instead of a newly created object.
362      * @return a FuelLevel object corresponding to the data contained in the CarSensorEvent.
363      * @hide
364      */
getFuelLevelData(FuelLevelData data)365     public FuelLevelData getFuelLevelData(FuelLevelData data) {
366         checkType(CarSensorManager.SENSOR_TYPE_FUEL_LEVEL);
367         if (data == null) {
368             data = new FuelLevelData();
369         }
370         data.timestamp = timestamp;
371         if (floatValues == null) {
372             data.level = -1.0f;
373         } else {
374             if (floatValues[0] < 0) {
375                 data.level = -1.0f;
376             } else {
377                 data.level = floatValues[0];
378             }
379         }
380         return data;
381     }
382 
383     /** @hide */
384     public static class OdometerData {
385         public long timestamp;
386         public float kms;
387 
388         /** @hide */
OdometerData()389         private OdometerData() {};
390     }
391 
392     /**
393      * Convenience method for obtaining an {@link OdometerData} object from a CarSensorEvent
394      * object with type {@link CarSensorManager#SENSOR_TYPE_ODOMETER}.
395      *
396      * @param data an optional output parameter which, if non-null, will be used by this method
397      *     instead of a newly created object.
398      * @return an OdometerData object corresponding to the data contained in the CarSensorEvent.
399      * @hide
400      */
getOdometerData(OdometerData data)401     public OdometerData getOdometerData(OdometerData data) {
402         checkType(CarSensorManager.SENSOR_TYPE_ODOMETER);
403         if (data == null) {
404             data = new OdometerData();
405         }
406         data.timestamp = timestamp;
407         data.kms = floatValues[0];
408         return data;
409     }
410 
411     /** @hide */
412     public static class RpmData {
413         public long timestamp;
414         public float rpm;
415 
416         /** @hide */
RpmData()417         private RpmData() {};
418     }
419 
420     /**
421      * Convenience method for obtaining a {@link RpmData} object from a CarSensorEvent
422      * object with type {@link CarSensorManager#SENSOR_TYPE_RPM}.
423      *
424      * @param data an optional output parameter which, if non-null, will be used by this method
425      *     instead of a newly created object.
426      * @return a RpmData object corresponding to the data contained in the CarSensorEvent.
427      * @hide
428      */
getRpmData(RpmData data)429     public RpmData getRpmData(RpmData data) {
430         checkType(CarSensorManager.SENSOR_TYPE_RPM);
431         if (data == null) {
432             data = new RpmData();
433         }
434         data.timestamp = timestamp;
435         data.rpm = floatValues[0];
436         return data;
437     }
438 
439     /** @hide */
440     public static class CarSpeedData {
441         public long timestamp;
442         public float carSpeed;
443 
444         /** @hide */
CarSpeedData()445         private CarSpeedData() {};
446     }
447 
448     /**
449      * Convenience method for obtaining a {@link CarSpeedData} object from a CarSensorEvent
450      * object with type {@link CarSensorManager#SENSOR_TYPE_CAR_SPEED}.
451      *
452      * @param data an optional output parameter which, if non-null, will be used by this method
453      *     instead of a newly created object.
454      * @return a CarSpeedData object corresponding to the data contained in the CarSensorEvent.
455      * @hide
456      */
getCarSpeedData(CarSpeedData data)457     public CarSpeedData getCarSpeedData(CarSpeedData data) {
458         checkType(CarSensorManager.SENSOR_TYPE_CAR_SPEED);
459         if (data == null) {
460             data = new CarSpeedData();
461         }
462         data.timestamp = timestamp;
463         data.carSpeed = floatValues[0];
464         return data;
465     }
466 
467     /** @hide */
468     public static class CarWheelTickDistanceData {
469         public long timestamp;
470         public long sensorResetCount;
471         public long frontLeftWheelDistanceMm;
472         public long frontRightWheelDistanceMm;
473         public long rearRightWheelDistanceMm;
474         public long rearLeftWheelDistanceMm;
475 
476         /** @hide */
CarWheelTickDistanceData()477         private CarWheelTickDistanceData() {};
478     }
479 
480     /**
481      * Convenience method for obtaining a {@link CarWheelTickDistanceData} object from a
482      * CarSensorEvent object with type {@link CarSensorManager#SENSOR_TYPE_WHEEL_TICK_DISTANCE}.
483      *
484      * @param data an optional output parameter which, if non-null, will be used by this method
485      *     instead of a newly created object.
486      * @return CarWheelTickDistanceData object corresponding to data contained in the CarSensorEvent
487      * @hide
488      */
getCarWheelTickDistanceData(CarWheelTickDistanceData data)489     public CarWheelTickDistanceData getCarWheelTickDistanceData(CarWheelTickDistanceData data) {
490         checkType(CarSensorManager.SENSOR_TYPE_WHEEL_TICK_DISTANCE);
491         if (data == null) {
492             data = new CarWheelTickDistanceData();
493         }
494         data.timestamp = timestamp;
495         data.sensorResetCount = longValues[INDEX_WHEEL_DISTANCE_RESET_COUNT];
496         data.frontLeftWheelDistanceMm = longValues[INDEX_WHEEL_DISTANCE_FRONT_LEFT];
497         data.frontRightWheelDistanceMm = longValues[INDEX_WHEEL_DISTANCE_FRONT_RIGHT];
498         data.rearRightWheelDistanceMm = longValues[INDEX_WHEEL_DISTANCE_REAR_RIGHT];
499         data.rearLeftWheelDistanceMm = longValues[INDEX_WHEEL_DISTANCE_REAR_LEFT];
500         return data;
501     }
502 
503     /** @hide */
504     public static class CarAbsActiveData {
505         public long timestamp;
506         public boolean absIsActive;
507 
508         /** @hide */
CarAbsActiveData()509         private CarAbsActiveData() {};
510     }
511 
512     /**
513      * Convenience method for obtaining a {@link CarAbsActiveData} object from a CarSensorEvent
514      * object with type {@link CarSensorManager#SENSOR_TYPE_ABS_ACTIVE}.
515      *
516      * @param data an optional output parameter which, if non-null, will be used by this method
517      *     instead of a newly created object.
518      * @return a CarAbsActiveData object corresponding to data contained in the CarSensorEvent.
519      * @hide
520      */
getCarAbsActiveData(CarAbsActiveData data)521     public CarAbsActiveData getCarAbsActiveData(CarAbsActiveData data) {
522         checkType(CarSensorManager.SENSOR_TYPE_ABS_ACTIVE);
523         if (data == null) {
524             data = new CarAbsActiveData();
525         }
526         data.timestamp = timestamp;
527         data.absIsActive = intValues[0] == 1;
528         return data;
529     }
530 
531     /** @hide */
532     public static class CarTractionControlActiveData {
533         public long timestamp;
534         public boolean tractionControlIsActive;
535 
536         /** @hide */
CarTractionControlActiveData()537         private CarTractionControlActiveData() {};
538     }
539 
540     /**
541      * Convenience method for obtaining a {@link CarTractionControlActiveData} object from a
542      * CarSensorEvent object with type {@link CarSensorManager#SENSOR_TYPE_TRACTION_CONTROL_ACTIVE}.
543      *
544      * @param data an optional output parameter which, if non-null, will be used by this method
545      *     instead of a newly created object.
546      * @return a CarTractionControlActiveData object corresponding to data contained in the
547      *     CarSensorEvent.
548      * @hide
549      */
getCarTractionControlActiveData( CarTractionControlActiveData data)550     public CarTractionControlActiveData getCarTractionControlActiveData(
551             CarTractionControlActiveData data) {
552         checkType(CarSensorManager.SENSOR_TYPE_TRACTION_CONTROL_ACTIVE);
553         if (data == null) {
554             data = new CarTractionControlActiveData();
555         }
556         data.timestamp = timestamp;
557         data.tractionControlIsActive = intValues[0] == 1;
558         return data;
559     }
560 
561     /** @hide */
562     public static class CarFuelDoorOpenData {
563         public long timestamp;
564         public boolean fuelDoorIsOpen;
565 
566         /** @hide */
CarFuelDoorOpenData()567         private CarFuelDoorOpenData() {};
568     }
569 
570     /**
571      * Convenience method for obtaining a {@link CarFuelDoorOpenData} object from a
572      * CarSensorEvent object with type {@link CarSensorManager#SENSOR_TYPE_FUEL_DOOR_OPEN}.
573      *
574      * @param data an optional output parameter which, if non-null, will be used by this method
575      *     instead of a newly created object.
576      * @return a CarFuelDoorOpenData object corresponding to data contained in the
577      *     CarSensorEvent.
578      * @hide
579      */
getCarFuelDoorOpenData( CarFuelDoorOpenData data)580     public CarFuelDoorOpenData getCarFuelDoorOpenData(
581         CarFuelDoorOpenData data) {
582         checkType(CarSensorManager.SENSOR_TYPE_FUEL_DOOR_OPEN);
583         if (data == null) {
584             data = new CarFuelDoorOpenData();
585         }
586         data.timestamp = timestamp;
587         data.fuelDoorIsOpen = intValues[0] == 1;
588         return data;
589     }
590 
591     /** @hide */
592     public static class CarEvBatteryLevelData {
593         public long timestamp;
594         /** Battery Level in Watt-hours */
595         public float evBatteryLevel;
596 
597         /** @hide */
CarEvBatteryLevelData()598         private CarEvBatteryLevelData() {};
599     }
600 
601     /**
602      * Convenience method for obtaining a {@link CarEvBatteryLevelData} object from a
603      * CarSensorEvent object with type {@link CarSensorManager#SENSOR_TYPE_EV_BATTERY_LEVEL}.
604      *
605      * @param data an optional output parameter which, if non-null, will be used by this method
606      *     instead of a newly created object.
607      * @return a CarEvBatteryLevelData object corresponding to data contained in the
608      *     CarSensorEvent.
609      * @hide
610      */
getCarEvBatteryLevelData( CarEvBatteryLevelData data)611     public CarEvBatteryLevelData getCarEvBatteryLevelData(
612         CarEvBatteryLevelData data) {
613         checkType(CarSensorManager.SENSOR_TYPE_EV_BATTERY_LEVEL);
614         if (data == null) {
615             data = new CarEvBatteryLevelData();
616         }
617         data.timestamp = timestamp;
618         if (floatValues == null) {
619             data.evBatteryLevel = -1.0f;
620         } else {
621             if (floatValues[0] < 0) {
622                 data.evBatteryLevel = -1.0f;
623             } else {
624                 data.evBatteryLevel = floatValues[0];
625             }
626         }
627         return data;
628     }
629 
630     /** @hide */
631     public static class CarEvChargePortOpenData {
632         public long timestamp;
633         public boolean evChargePortIsOpen;
634 
635         /** @hide */
CarEvChargePortOpenData()636         private CarEvChargePortOpenData() {};
637     }
638 
639     /**
640      * Convenience method for obtaining a {@link CarEvChargePortOpenData} object from a
641      * CarSensorEvent object with type {@link CarSensorManager#SENSOR_TYPE_EV_CHARGE_PORT_OPEN}.
642      *
643      * @param data an optional output parameter which, if non-null, will be used by this method
644      *     instead of a newly created object.
645      * @return a CarEvChargePortOpenData object corresponding to data contained in the
646      *     CarSensorEvent.
647      * @hide
648      */
getCarEvChargePortOpenData( CarEvChargePortOpenData data)649     public CarEvChargePortOpenData getCarEvChargePortOpenData(
650         CarEvChargePortOpenData data) {
651         checkType(CarSensorManager.SENSOR_TYPE_EV_CHARGE_PORT_OPEN);
652         if (data == null) {
653             data = new CarEvChargePortOpenData();
654         }
655         data.timestamp = timestamp;
656         data.evChargePortIsOpen = intValues[0] == 1;
657         return data;
658     }
659 
660     /** @hide */
661     public static class CarEvChargePortConnectedData {
662         public long timestamp;
663         public boolean evChargePortIsConnected;
664 
665         /** @hide */
CarEvChargePortConnectedData()666         private CarEvChargePortConnectedData() {};
667     }
668 
669     /**
670      * Convenience method for obtaining a {@link CarEvChargePortConnectedData} object from a
671      * CarSensorEvent object with type {@link CarSensorManager#SENSOR_TYPE_EV_CHARGE_PORT_CONNECTED}.
672      *
673      * @param data an optional output parameter which, if non-null, will be used by this method
674      *     instead of a newly created object.
675      * @return a CarEvChargePortConnectedData object corresponding to data contained in the
676      *     CarSensorEvent.
677      * @hide
678      */
getCarEvChargePortConnectedData( CarEvChargePortConnectedData data)679     public CarEvChargePortConnectedData getCarEvChargePortConnectedData(
680         CarEvChargePortConnectedData data) {
681         checkType(CarSensorManager.SENSOR_TYPE_EV_CHARGE_PORT_CONNECTED);
682         if (data == null) {
683             data = new CarEvChargePortConnectedData();
684         }
685         data.timestamp = timestamp;
686         data.evChargePortIsConnected = intValues[0] == 1;
687         return data;
688     }
689 
690     /** @hide */
691     public static class CarEvBatteryChargeRateData {
692         public long timestamp;
693         /** EV battery charging rate in mW.
694          * Positive values indicates battery being charged.  Negative values indicate discharge */
695         public float evChargeRate;
696 
697         /** @hide */
CarEvBatteryChargeRateData()698         private CarEvBatteryChargeRateData() {};
699     }
700 
701     /**
702      * Convenience method for obtaining a {@link CarEvBatteryChargeRateData} object from a
703      * CarSensorEvent object with type {@link CarSensorManager#SENSOR_TYPE_EV_BATTERY_CHARGE_RATE}.
704      *
705      * @param data an optional output parameter which, if non-null, will be used by this method
706      *     instead of a newly created object.
707      * @return a CarEvBatteryChargeRateData object corresponding to data contained in the
708      *     CarSensorEvent.
709      * @hide
710      */
getCarEvBatteryChargeRateData( CarEvBatteryChargeRateData data)711     public CarEvBatteryChargeRateData getCarEvBatteryChargeRateData(
712         CarEvBatteryChargeRateData data) {
713         checkType(CarSensorManager.SENSOR_TYPE_EV_BATTERY_CHARGE_RATE);
714         if (data == null) {
715             data = new CarEvBatteryChargeRateData();
716         }
717         data.timestamp = timestamp;
718         data.evChargeRate = floatValues[0];
719         return data;
720     }
721 
722     /** @hide */
723     public static class CarEngineOilLevelData {
724         public long timestamp;
725         public int engineOilLevel;
726 
727         /** @hide */
CarEngineOilLevelData()728         private CarEngineOilLevelData() {};
729     }
730 
731     /**
732      * Convenience method for obtaining a {@link CarEngineOilLevelData} object from a
733      * CarSensorEvent object with type {@link CarSensorManager#SENSOR_TYPE_ENGINE_OIL_LEVEL}.
734      *
735      * @param data an optional output parameter, which, if non-null, will be used by this method
736      *      instead of a newly created object.
737      * @return a CarEngineOilLEvelData object corresponding to data contained in the CarSensorEvent.
738      * @hide
739      */
getCarEngineOilLevelData(CarEngineOilLevelData data)740     public CarEngineOilLevelData getCarEngineOilLevelData(CarEngineOilLevelData data) {
741         checkType(CarSensorManager.SENSOR_TYPE_ENGINE_OIL_LEVEL);
742         if (data == null) {
743             data = new CarEngineOilLevelData();
744         }
745         data.timestamp = timestamp;
746         data.engineOilLevel = intValues[0];
747         return data;
748     }
749 
750     /** @hide */
751     @Override
toString()752     public String toString() {
753         StringBuilder sb = new StringBuilder();
754         sb.append(getClass().getName() + "[");
755         sb.append("type:" + Integer.toHexString(sensorType));
756         if (floatValues != null && floatValues.length > 0) {
757             sb.append(" float values:");
758             for (float v: floatValues) {
759                 sb.append(" " + v);
760             }
761         }
762         if (intValues != null && intValues.length > 0) {
763             sb.append(" int values:");
764             for (int v: intValues) {
765                 sb.append(" " + v);
766             }
767         }
768         if (longValues != null && longValues.length > 0) {
769             sb.append(" long values:");
770             for (long v: longValues) {
771                 sb.append(" " + v);
772             }
773         }
774         sb.append("]");
775         return sb.toString();
776     }
777 }
778