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adafruit_bno055 / Adafruit_BNO055.cpp @ 78cc710f

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/***************************************************************************
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  This is a library for the BNO055 orientation sensor
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  Designed specifically to work with the Adafruit BNO055 Breakout.
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6
  Pick one up today in the adafruit shop!
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  ------> http://www.adafruit.com/products
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  These sensors use I2C to communicate, 2 pins are required to interface.
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11
  Adafruit invests time and resources providing this open source code,
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  please support Adafruit andopen-source hardware by purchasing products
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  from Adafruit!
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  Written by KTOWN for Adafruit Industries.
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  MIT license, all text above must be included in any redistribution
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 ***************************************************************************/
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#if ARDUINO >= 100
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 #include "Arduino.h"
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#else
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 #include "WProgram.h"
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#endif
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#include <math.h>
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#include <limits.h>
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#include "Adafruit_BNO055.h"
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31
/***************************************************************************
32
 CONSTRUCTOR
33
 ***************************************************************************/
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/**************************************************************************/
36
/*!
37
    @brief  Instantiates a new Adafruit_BNO055 class
38
*/
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/**************************************************************************/
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Adafruit_BNO055::Adafruit_BNO055(int32_t sensorID, uint8_t address)
41
{
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  _sensorID = sensorID;
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  _address = address;
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}
45

    
46
/***************************************************************************
47
 PUBLIC FUNCTIONS
48
 ***************************************************************************/
49

    
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/**************************************************************************/
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/*!
52
    @brief  Sets up the HW
53
*/
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/**************************************************************************/
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bool Adafruit_BNO055::begin(adafruit_bno055_opmode_t mode)
56
{
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  /* Enable I2C */
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  Wire.begin();
59

    
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  // BNO055 clock stretches for 500us or more!
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#ifdef ESP8266
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  Wire.setClockStretchLimit(1000); // Allow for 1000us of clock stretching
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#endif
64

    
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  /* Make sure we have the right device */
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  uint8_t id = read8(BNO055_CHIP_ID_ADDR);
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  if(id != BNO055_ID)
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  {
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    delay(1000); // hold on for boot
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    id = read8(BNO055_CHIP_ID_ADDR);
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    if(id != BNO055_ID) {
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      return false;  // still not? ok bail
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    }
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  }
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  /* Switch to config mode (just in case since this is the default) */
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  setMode(OPERATION_MODE_CONFIG);
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  /* Reset */
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  write8(BNO055_SYS_TRIGGER_ADDR, 0x20);
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  while (read8(BNO055_CHIP_ID_ADDR) != BNO055_ID)
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  {
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    delay(10);
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  }
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  delay(50);
86

    
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  /* Set to normal power mode */
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  write8(BNO055_PWR_MODE_ADDR, POWER_MODE_NORMAL);
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  delay(10);
90

    
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  write8(BNO055_PAGE_ID_ADDR, 0);
92

    
93
  /* Set the output units */
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  /*
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  uint8_t unitsel = (0 << 7) | // Orientation = Android
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                    (0 << 4) | // Temperature = Celsius
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                    (0 << 2) | // Euler = Degrees
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                    (1 << 1) | // Gyro = Rads
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                    (0 << 0);  // Accelerometer = m/s^2
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  write8(BNO055_UNIT_SEL_ADDR, unitsel);
101
  */
102

    
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  /* Configure axis mapping (see section 3.4) */
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  /*
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  write8(BNO055_AXIS_MAP_CONFIG_ADDR, REMAP_CONFIG_P2); // P0-P7, Default is P1
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  delay(10);
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  write8(BNO055_AXIS_MAP_SIGN_ADDR, REMAP_SIGN_P2); // P0-P7, Default is P1
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  delay(10);
109
  */
110
  
111
  write8(BNO055_SYS_TRIGGER_ADDR, 0x0);
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  delay(10);
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  /* Set the requested operating mode (see section 3.3) */
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  setMode(mode);
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  delay(20);
116

    
117
  return true;
118
}
119

    
120
/**************************************************************************/
121
/*!
122
    @brief  Puts the chip in the specified operating mode
123
*/
124
/**************************************************************************/
125
void Adafruit_BNO055::setMode(adafruit_bno055_opmode_t mode)
126
{
127
  _mode = mode;
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  write8(BNO055_OPR_MODE_ADDR, _mode);
129
  delay(30);
130
}
131

    
132
/**************************************************************************/
133
/*!
134
    @brief  Use the external 32.768KHz crystal
135
*/
136
/**************************************************************************/
137
void Adafruit_BNO055::setExtCrystalUse(boolean usextal)
138
{
139
  adafruit_bno055_opmode_t modeback = _mode;
140

    
141
  /* Switch to config mode (just in case since this is the default) */
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  setMode(OPERATION_MODE_CONFIG);
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  delay(25);
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  write8(BNO055_PAGE_ID_ADDR, 0);
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  if (usextal) {
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    write8(BNO055_SYS_TRIGGER_ADDR, 0x80);
147
  } else {
148
    write8(BNO055_SYS_TRIGGER_ADDR, 0x00);
149
  }
150
  delay(10);
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  /* Set the requested operating mode (see section 3.3) */
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  setMode(modeback);
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  delay(20);
154
}
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156

    
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/**************************************************************************/
158
/*!
159
    @brief  Gets the latest system status info
160
*/
161
/**************************************************************************/
162
void Adafruit_BNO055::getSystemStatus(uint8_t *system_status, uint8_t *self_test_result, uint8_t *system_error)
163
{
164
  write8(BNO055_PAGE_ID_ADDR, 0);
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166
  /* System Status (see section 4.3.58)
167
     ---------------------------------
168
     0 = Idle
169
     1 = System Error
170
     2 = Initializing Peripherals
171
     3 = System Iniitalization
172
     4 = Executing Self-Test
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     5 = Sensor fusio algorithm running
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     6 = System running without fusion algorithms */
175

    
176
  if (system_status != 0)
177
    *system_status    = read8(BNO055_SYS_STAT_ADDR);
178

    
179
  /* Self Test Results (see section )
180
     --------------------------------
181
     1 = test passed, 0 = test failed
182

183
     Bit 0 = Accelerometer self test
184
     Bit 1 = Magnetometer self test
185
     Bit 2 = Gyroscope self test
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     Bit 3 = MCU self test
187

188
     0x0F = all good! */
189

    
190
  if (self_test_result != 0)
191
    *self_test_result = read8(BNO055_SELFTEST_RESULT_ADDR);
192

    
193
  /* System Error (see section 4.3.59)
194
     ---------------------------------
195
     0 = No error
196
     1 = Peripheral initialization error
197
     2 = System initialization error
198
     3 = Self test result failed
199
     4 = Register map value out of range
200
     5 = Register map address out of range
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     6 = Register map write error
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     7 = BNO low power mode not available for selected operat ion mode
203
     8 = Accelerometer power mode not available
204
     9 = Fusion algorithm configuration error
205
     A = Sensor configuration error */
206

    
207
  if (system_error != 0)
208
    *system_error     = read8(BNO055_SYS_ERR_ADDR);
209

    
210
  delay(200);
211
}
212

    
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/**************************************************************************/
214
/*!
215
    @brief  Gets the chip revision numbers
216
*/
217
/**************************************************************************/
218
void Adafruit_BNO055::getRevInfo(adafruit_bno055_rev_info_t* info)
219
{
220
  uint8_t a, b;
221

    
222
  memset(info, 0, sizeof(adafruit_bno055_rev_info_t));
223

    
224
  /* Check the accelerometer revision */
225
  info->accel_rev = read8(BNO055_ACCEL_REV_ID_ADDR);
226

    
227
  /* Check the magnetometer revision */
228
  info->mag_rev   = read8(BNO055_MAG_REV_ID_ADDR);
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  /* Check the gyroscope revision */
231
  info->gyro_rev  = read8(BNO055_GYRO_REV_ID_ADDR);
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233
  /* Check the SW revision */
234
  info->bl_rev    = read8(BNO055_BL_REV_ID_ADDR);
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236
  a = read8(BNO055_SW_REV_ID_LSB_ADDR);
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  b = read8(BNO055_SW_REV_ID_MSB_ADDR);
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  info->sw_rev = (((uint16_t)b) << 8) | ((uint16_t)a);
239
}
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/**************************************************************************/
242
/*!
243
    @brief  Gets current calibration state.  Each value should be a uint8_t
244
            pointer and it will be set to 0 if not calibrated and 3 if
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            fully calibrated.
246
*/
247
/**************************************************************************/
248
void Adafruit_BNO055::getCalibration(uint8_t* sys, uint8_t* gyro, uint8_t* accel, uint8_t* mag) {
249
  uint8_t calData = read8(BNO055_CALIB_STAT_ADDR);
250
  if (sys != NULL) {
251
    *sys = (calData >> 6) & 0x03;
252
  }
253
  if (gyro != NULL) {
254
    *gyro = (calData >> 4) & 0x03;
255
  }
256
  if (accel != NULL) {
257
    *accel = (calData >> 2) & 0x03;
258
  }
259
  if (mag != NULL) {
260
    *mag = calData & 0x03;
261
  }
262
}
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264
/**************************************************************************/
265
/*!
266
    @brief  Gets the temperature in degrees celsius
267
*/
268
/**************************************************************************/
269
int8_t Adafruit_BNO055::getTemp(void)
270
{
271
  int8_t temp = (int8_t)(read8(BNO055_TEMP_ADDR));
272
  return temp;
273
}
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/**************************************************************************/
276
/*!
277
    @brief  Gets a vector reading from the specified source
278
*/
279
/**************************************************************************/
280
imu::Vector<3> Adafruit_BNO055::getVector(adafruit_vector_type_t vector_type)
281
{
282
  imu::Vector<3> xyz;
283
  uint8_t buffer[6];
284
  memset (buffer, 0, 6);
285

    
286
  int16_t x, y, z;
287
  x = y = z = 0;
288

    
289
  /* Read vector data (6 bytes) */
290
  readLen((adafruit_bno055_reg_t)vector_type, buffer, 6);
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292
  x = ((int16_t)buffer[0]) | (((int16_t)buffer[1]) << 8);
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  y = ((int16_t)buffer[2]) | (((int16_t)buffer[3]) << 8);
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  z = ((int16_t)buffer[4]) | (((int16_t)buffer[5]) << 8);
295

    
296
  /* Convert the value to an appropriate range (section 3.6.4) */
297
  /* and assign the value to the Vector type */
298
  switch(vector_type)
299
  {
300
    case VECTOR_MAGNETOMETER:
301
      /* 1uT = 16 LSB */
302
      xyz[0] = ((double)x)/16.0;
303
      xyz[1] = ((double)y)/16.0;
304
      xyz[2] = ((double)z)/16.0;
305
      break;
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    case VECTOR_GYROSCOPE:
307
      /* 1rps = 900 LSB */
308
      xyz[0] = ((double)x)/900.0;
309
      xyz[1] = ((double)y)/900.0;
310
      xyz[2] = ((double)z)/900.0;
311
      break;
312
    case VECTOR_EULER:
313
      /* 1 degree = 16 LSB */
314
      xyz[0] = ((double)x)/16.0;
315
      xyz[1] = ((double)y)/16.0;
316
      xyz[2] = ((double)z)/16.0;
317
      break;
318
    case VECTOR_ACCELEROMETER:
319
    case VECTOR_LINEARACCEL:
320
    case VECTOR_GRAVITY:
321
      /* 1m/s^2 = 100 LSB */
322
      xyz[0] = ((double)x)/100.0;
323
      xyz[1] = ((double)y)/100.0;
324
      xyz[2] = ((double)z)/100.0;
325
      break;
326
  }
327

    
328
  return xyz;
329
}
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/**************************************************************************/
332
/*!
333
    @brief  Gets a quaternion reading from the specified source
334
*/
335
/**************************************************************************/
336
imu::Quaternion Adafruit_BNO055::getQuat(void)
337
{
338
  uint8_t buffer[8];
339
  memset (buffer, 0, 8);
340

    
341
  int16_t x, y, z, w;
342
  x = y = z = w = 0;
343

    
344
  /* Read quat data (8 bytes) */
345
  readLen(BNO055_QUATERNION_DATA_W_LSB_ADDR, buffer, 8);
346
  w = (((uint16_t)buffer[1]) << 8) | ((uint16_t)buffer[0]);
347
  x = (((uint16_t)buffer[3]) << 8) | ((uint16_t)buffer[2]);
348
  y = (((uint16_t)buffer[5]) << 8) | ((uint16_t)buffer[4]);
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  z = (((uint16_t)buffer[7]) << 8) | ((uint16_t)buffer[6]);
350

    
351
  /* Assign to Quaternion */
352
  /* See http://ae-bst.resource.bosch.com/media/products/dokumente/bno055/BST_BNO055_DS000_12~1.pdf
353
     3.6.5.5 Orientation (Quaternion)  */
354
  const double scale = (1.0 / (1<<14));
355
  imu::Quaternion quat(scale * w, scale * x, scale * y, scale * z);
356
  return quat;
357
}
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359
/**************************************************************************/
360
/*!
361
    @brief  Provides the sensor_t data for this sensor
362
*/
363
/**************************************************************************/
364
void Adafruit_BNO055::getSensor(sensor_t *sensor)
365
{
366
  /* Clear the sensor_t object */
367
  memset(sensor, 0, sizeof(sensor_t));
368

    
369
  /* Insert the sensor name in the fixed length char array */
370
  strncpy (sensor->name, "BNO055", sizeof(sensor->name) - 1);
371
  sensor->name[sizeof(sensor->name)- 1] = 0;
372
  sensor->version     = 1;
373
  sensor->sensor_id   = _sensorID;
374
  sensor->type        = SENSOR_TYPE_ORIENTATION;
375
  sensor->min_delay   = 0;
376
  sensor->max_value   = 0.0F;
377
  sensor->min_value   = 0.0F;
378
  sensor->resolution  = 0.01F;
379
}
380

    
381
/**************************************************************************/
382
/*!
383
    @brief  Reads the sensor and returns the data as a sensors_event_t
384
*/
385
/**************************************************************************/
386
bool Adafruit_BNO055::getEvent(sensors_event_t *event)
387
{
388
  /* Clear the event */
389
  memset(event, 0, sizeof(sensors_event_t));
390

    
391
  event->version   = sizeof(sensors_event_t);
392
  event->sensor_id = _sensorID;
393
  event->type      = SENSOR_TYPE_ORIENTATION;
394
  event->timestamp = millis();
395

    
396
  /* Get a Euler angle sample for orientation */
397
  imu::Vector<3> euler = getVector(Adafruit_BNO055::VECTOR_EULER);
398
  event->orientation.x = euler.x();
399
  event->orientation.y = euler.y();
400
  event->orientation.z = euler.z();
401

    
402
  return true;
403
}
404

    
405
/**************************************************************************/
406
/*!
407
@brief  Reads the sensor's offset registers into a byte array
408
*/
409
/**************************************************************************/
410
bool Adafruit_BNO055::getSensorOffsets(uint8_t* calibData)
411
{
412
    if (isFullyCalibrated())
413
    {
414
        adafruit_bno055_opmode_t lastMode = _mode;
415
        setMode(OPERATION_MODE_CONFIG);
416

    
417
        readLen(ACCEL_OFFSET_X_LSB_ADDR, calibData, NUM_BNO055_OFFSET_REGISTERS);
418

    
419
        setMode(lastMode);
420
        return true;
421
    }
422
    return false;
423
}
424

    
425
/**************************************************************************/
426
/*!
427
@brief  Reads the sensor's offset registers into an offset struct
428
*/
429
/**************************************************************************/
430
bool Adafruit_BNO055::getSensorOffsets(adafruit_bno055_offsets_t &offsets_type)
431
{
432
    if (isFullyCalibrated())
433
    {
434
        adafruit_bno055_opmode_t lastMode = _mode;
435
        setMode(OPERATION_MODE_CONFIG);
436
        delay(25);
437

    
438
        offsets_type.accel_offset_x = (read8(ACCEL_OFFSET_X_MSB_ADDR) << 8) | (read8(ACCEL_OFFSET_X_LSB_ADDR));
439
        offsets_type.accel_offset_y = (read8(ACCEL_OFFSET_Y_MSB_ADDR) << 8) | (read8(ACCEL_OFFSET_Y_LSB_ADDR));
440
        offsets_type.accel_offset_z = (read8(ACCEL_OFFSET_Z_MSB_ADDR) << 8) | (read8(ACCEL_OFFSET_Z_LSB_ADDR));
441

    
442
        offsets_type.gyro_offset_x = (read8(GYRO_OFFSET_X_MSB_ADDR) << 8) | (read8(GYRO_OFFSET_X_LSB_ADDR));
443
        offsets_type.gyro_offset_y = (read8(GYRO_OFFSET_Y_MSB_ADDR) << 8) | (read8(GYRO_OFFSET_Y_LSB_ADDR));
444
        offsets_type.gyro_offset_z = (read8(GYRO_OFFSET_Z_MSB_ADDR) << 8) | (read8(GYRO_OFFSET_Z_LSB_ADDR));
445

    
446
        offsets_type.mag_offset_x = (read8(MAG_OFFSET_X_MSB_ADDR) << 8) | (read8(MAG_OFFSET_X_LSB_ADDR));
447
        offsets_type.mag_offset_y = (read8(MAG_OFFSET_Y_MSB_ADDR) << 8) | (read8(MAG_OFFSET_Y_LSB_ADDR));
448
        offsets_type.mag_offset_z = (read8(MAG_OFFSET_Z_MSB_ADDR) << 8) | (read8(MAG_OFFSET_Z_LSB_ADDR));
449

    
450
        offsets_type.accel_radius = (read8(ACCEL_RADIUS_MSB_ADDR) << 8) | (read8(ACCEL_RADIUS_LSB_ADDR));
451
        offsets_type.mag_radius = (read8(MAG_RADIUS_MSB_ADDR) << 8) | (read8(MAG_RADIUS_LSB_ADDR));
452

    
453
        setMode(lastMode);
454
        return true;
455
    }
456
    return false;
457
}
458

    
459

    
460
/**************************************************************************/
461
/*!
462
@brief  Writes an array of calibration values to the sensor's offset registers
463
*/
464
/**************************************************************************/
465
void Adafruit_BNO055::setSensorOffsets(const uint8_t* calibData)
466
{
467
    adafruit_bno055_opmode_t lastMode = _mode;
468
    setMode(OPERATION_MODE_CONFIG);
469
    delay(25);
470

    
471
    /* A writeLen() would make this much cleaner */
472
    write8(ACCEL_OFFSET_X_LSB_ADDR, calibData[0]);
473
    write8(ACCEL_OFFSET_X_MSB_ADDR, calibData[1]);
474
    write8(ACCEL_OFFSET_Y_LSB_ADDR, calibData[2]);
475
    write8(ACCEL_OFFSET_Y_MSB_ADDR, calibData[3]);
476
    write8(ACCEL_OFFSET_Z_LSB_ADDR, calibData[4]);
477
    write8(ACCEL_OFFSET_Z_MSB_ADDR, calibData[5]);
478

    
479
    write8(GYRO_OFFSET_X_LSB_ADDR, calibData[6]);
480
    write8(GYRO_OFFSET_X_MSB_ADDR, calibData[7]);
481
    write8(GYRO_OFFSET_Y_LSB_ADDR, calibData[8]);
482
    write8(GYRO_OFFSET_Y_MSB_ADDR, calibData[9]);
483
    write8(GYRO_OFFSET_Z_LSB_ADDR, calibData[10]);
484
    write8(GYRO_OFFSET_Z_MSB_ADDR, calibData[11]);
485

    
486
    write8(MAG_OFFSET_X_LSB_ADDR, calibData[12]);
487
    write8(MAG_OFFSET_X_MSB_ADDR, calibData[13]);
488
    write8(MAG_OFFSET_Y_LSB_ADDR, calibData[14]);
489
    write8(MAG_OFFSET_Y_MSB_ADDR, calibData[15]);
490
    write8(MAG_OFFSET_Z_LSB_ADDR, calibData[16]);
491
    write8(MAG_OFFSET_Z_MSB_ADDR, calibData[17]);
492

    
493
    write8(ACCEL_RADIUS_LSB_ADDR, calibData[18]);
494
    write8(ACCEL_RADIUS_MSB_ADDR, calibData[19]);
495

    
496
    write8(MAG_RADIUS_LSB_ADDR, calibData[20]);
497
    write8(MAG_RADIUS_MSB_ADDR, calibData[21]);
498

    
499
    setMode(lastMode);
500
}
501

    
502
/**************************************************************************/
503
/*!
504
@brief  Writes to the sensor's offset registers from an offset struct
505
*/
506
/**************************************************************************/
507
void Adafruit_BNO055::setSensorOffsets(const adafruit_bno055_offsets_t &offsets_type)
508
{
509
    adafruit_bno055_opmode_t lastMode = _mode;
510
    setMode(OPERATION_MODE_CONFIG);
511
    delay(25);
512

    
513
    write8(ACCEL_OFFSET_X_LSB_ADDR, (offsets_type.accel_offset_x) & 0x0FF);
514
    write8(ACCEL_OFFSET_X_MSB_ADDR, (offsets_type.accel_offset_x >> 8) & 0x0FF);
515
    write8(ACCEL_OFFSET_Y_LSB_ADDR, (offsets_type.accel_offset_y) & 0x0FF);
516
    write8(ACCEL_OFFSET_Y_MSB_ADDR, (offsets_type.accel_offset_y >> 8) & 0x0FF);
517
    write8(ACCEL_OFFSET_Z_LSB_ADDR, (offsets_type.accel_offset_z) & 0x0FF);
518
    write8(ACCEL_OFFSET_Z_MSB_ADDR, (offsets_type.accel_offset_z >> 8) & 0x0FF);
519

    
520
    write8(GYRO_OFFSET_X_LSB_ADDR, (offsets_type.gyro_offset_x) & 0x0FF);
521
    write8(GYRO_OFFSET_X_MSB_ADDR, (offsets_type.gyro_offset_x >> 8) & 0x0FF);
522
    write8(GYRO_OFFSET_Y_LSB_ADDR, (offsets_type.gyro_offset_y) & 0x0FF);
523
    write8(GYRO_OFFSET_Y_MSB_ADDR, (offsets_type.gyro_offset_y >> 8) & 0x0FF);
524
    write8(GYRO_OFFSET_Z_LSB_ADDR, (offsets_type.gyro_offset_z) & 0x0FF);
525
    write8(GYRO_OFFSET_Z_MSB_ADDR, (offsets_type.gyro_offset_z >> 8) & 0x0FF);
526

    
527
    write8(MAG_OFFSET_X_LSB_ADDR, (offsets_type.mag_offset_x) & 0x0FF);
528
    write8(MAG_OFFSET_X_MSB_ADDR, (offsets_type.mag_offset_x >> 8) & 0x0FF);
529
    write8(MAG_OFFSET_Y_LSB_ADDR, (offsets_type.mag_offset_y) & 0x0FF);
530
    write8(MAG_OFFSET_Y_MSB_ADDR, (offsets_type.mag_offset_y >> 8) & 0x0FF);
531
    write8(MAG_OFFSET_Z_LSB_ADDR, (offsets_type.mag_offset_z) & 0x0FF);
532
    write8(MAG_OFFSET_Z_MSB_ADDR, (offsets_type.mag_offset_z >> 8) & 0x0FF);
533

    
534
    write8(ACCEL_RADIUS_LSB_ADDR, (offsets_type.accel_radius) & 0x0FF);
535
    write8(ACCEL_RADIUS_MSB_ADDR, (offsets_type.accel_radius >> 8) & 0x0FF);
536

    
537
    write8(MAG_RADIUS_LSB_ADDR, (offsets_type.mag_radius) & 0x0FF);
538
    write8(MAG_RADIUS_MSB_ADDR, (offsets_type.mag_radius >> 8) & 0x0FF);
539

    
540
    setMode(lastMode);
541
}
542

    
543
bool Adafruit_BNO055::isFullyCalibrated(void)
544
{
545
    uint8_t system, gyro, accel, mag;
546
    getCalibration(&system, &gyro, &accel, &mag);
547
    if (system < 3 || gyro < 3 || accel < 3 || mag < 3)
548
        return false;
549
    return true;
550
}
551

    
552

    
553
/***************************************************************************
554
 PRIVATE FUNCTIONS
555
 ***************************************************************************/
556

    
557
/**************************************************************************/
558
/*!
559
    @brief  Writes an 8 bit value over I2C
560
*/
561
/**************************************************************************/
562
bool Adafruit_BNO055::write8(adafruit_bno055_reg_t reg, byte value)
563
{
564
  Wire.beginTransmission(_address);
565
  #if ARDUINO >= 100
566
    Wire.write((uint8_t)reg);
567
    Wire.write((uint8_t)value);
568
  #else
569
    Wire.send(reg);
570
    Wire.send(value);
571
  #endif
572
  Wire.endTransmission();
573

    
574
  /* ToDo: Check for error! */
575
  return true;
576
}
577

    
578
/**************************************************************************/
579
/*!
580
    @brief  Reads an 8 bit value over I2C
581
*/
582
/**************************************************************************/
583
byte Adafruit_BNO055::read8(adafruit_bno055_reg_t reg )
584
{
585
  byte value = 0;
586

    
587
  Wire.beginTransmission(_address);
588
  #if ARDUINO >= 100
589
    Wire.write((uint8_t)reg);
590
  #else
591
    Wire.send(reg);
592
  #endif
593
  Wire.endTransmission();
594
  Wire.requestFrom(_address, (byte)1);
595
  #if ARDUINO >= 100
596
    value = Wire.read();
597
  #else
598
    value = Wire.receive();
599
  #endif
600

    
601
  return value;
602
}
603

    
604
/**************************************************************************/
605
/*!
606
    @brief  Reads the specified number of bytes over I2C
607
*/
608
/**************************************************************************/
609
bool Adafruit_BNO055::readLen(adafruit_bno055_reg_t reg, byte * buffer, uint8_t len)
610
{
611
  Wire.beginTransmission(_address);
612
  #if ARDUINO >= 100
613
    Wire.write((uint8_t)reg);
614
  #else
615
    Wire.send(reg);
616
  #endif
617
  Wire.endTransmission();
618
  Wire.requestFrom(_address, (byte)len);
619

    
620
  for (uint8_t i = 0; i < len; i++)
621
  {
622
    #if ARDUINO >= 100
623
      buffer[i] = Wire.read();
624
    #else
625
      buffer[i] = Wire.receive();
626
    #endif
627
  }
628

    
629
  /* ToDo: Check for errors! */
630
  return true;
631
}