/* IMU Fusion Board - ADXL345 & IMU3000
   Example Arduino Sketch to read the Gyro and Accelerometer Data
  
   Written by www.hobbytronics.co.uk 
   See the latest version at www.hobbytronics.co.uk/arduino-adxl345-imu3000
   08-Apr-2011
*/

#define GYRO 0x68         // gyro I2C address
#define REG_GYRO_X 0x1D   // IMU-3000 Register address for GYRO_XOUT_H
#define ACCEL 0x53        // Accel I2c Address
#define ADXL345_POWER_CTL 0x2D

byte buffer[12];   // Array to store ADC values 
int gyro_x;
int gyro_y;
int gyro_z;
int accel_x;
int accel_y;
int accel_z;
int i;
#include <Wire.h>

void setup()
{
    Serial.begin(9600); 
    
    Wire.begin();
    // Set Gyro settings
    // Sample Rate 1kHz, Filter Bandwidth 42Hz, Gyro Range 500 d/s 
    writeTo(GYRO, 0x16, 0x0B);       
    //set accel register data address
    writeTo(GYRO, 0x18, 0x32);     
    // set accel i2c slave address
    writeTo(GYRO, 0x14, ACCEL);     
    
    // Set passthrough mode to Accel so we can turn it on
    writeTo(GYRO, 0x3D, 0x08);     
    // set accel power control to 'measure'
    writeTo(ACCEL, ADXL345_POWER_CTL, 8);     
    //cancel pass through to accel, gyro will now read accel for us   
    writeTo(GYRO, 0x3D, 0x28);    

}

// Write a value to address register on device
void writeTo(int device, byte address, byte val) {
  Wire.beginTransmission(device); // start transmission to device 
  Wire.send(address);             // send register address
  Wire.send(val);                 // send value to write
  Wire.endTransmission();         // end transmission
}

void loop()
{
    // Read the Gyro X, Y and Z and Accel X, Y and Z all through the gyro
    
    // First set the register start address for X on Gyro  
    Wire.beginTransmission(GYRO);
    Wire.send(REG_GYRO_X); //Register Address GYRO_XOUT_H
    Wire.endTransmission();

    // New read the 12 data bytes
    Wire.beginTransmission(GYRO);
    Wire.requestFrom(GYRO,12); // Read 12 bytes
    i = 0;
    while(Wire.available())
    {
        buffer[i] = Wire.receive();
        i++;
    }
    Wire.endTransmission();

    //Combine bytes into integers
    // Gyro format is MSB first
    gyro_x = buffer[0] << 8 | buffer[1];
    gyro_y = buffer[2] << 8 | buffer[3];
    gyro_z = buffer[4] << 8 | buffer[5];
    // Accel is LSB first. Also because of orientation of chips
    // accel y output is in same orientation as gyro x
    // and accel x is gyro -y
    accel_y = buffer[7] << 8 | buffer[6];
    accel_x = buffer[9] << 8 | buffer[8];
    accel_z = buffer[11] << 8 | buffer[10];

    // Print out what we have
    Serial.print(gyro_x);  // echo the number received to screen
    Serial.print(",");
    Serial.print(gyro_y);  // echo the number received to screen
    Serial.print(",");    
    Serial.print(gyro_z);  // echo the number received to screen 
    Serial.print(",");     
    Serial.print(accel_x);  // echo the number received to screen
    Serial.print(",");
    Serial.print(accel_y);  // echo the number received to screen
    Serial.print(",");    
    Serial.print(accel_z);  // echo the number received to screen    

    Serial.println("");     // prints carriage return
    delay(400);             // wait for a second   
}