angle_read.py

import smbus
import math
 
# Power management registers
power_mgmt_1 = 0x6b
power_mgmt_2 = 0x6c
 
def read_byte(adr):
    return bus.read_byte_data(address, adr)
 
def read_word(adr):
    high = bus.read_byte_data(address, adr)
    low = bus.read_byte_data(address, adr+1)
    val = (high << 8) + low
    return val
 
def read_word_2c(adr):
    val = read_word(adr)
    if (val >= 0x8000):
        return -((65535 - val) + 1)
    else:
        return val
 
def dist(a,b):
    return math.sqrt((a*a)+(b*b))
 
def get_y_rotation(x,y,z):
    radians = math.atan2(x, dist(y,z))
    return -math.degrees(radians)
 
def get_x_rotation(x,y,z):
    radians = math.atan2(y, dist(x,z))
    return math.degrees(radians)

def get_rotation():
    
    bus = smbus.SMBus(1) # or bus = smbus.SMBus(1) for Revision 2 boards
    address = 0x68       # This is the address value read via the i2cdetect command
 
    # Now wake the 6050 up as it starts in sleep mode
    bus.write_byte_data(address, power_mgmt_1, 0)
    gyro_xout = read_word_2c(0x43)
    gyro_yout = read_word_2c(0x45)
    gyro_zout = read_word_2c(0x47)
     
    accel_xout = read_word_2c(0x3b)
    accel_yout = read_word_2c(0x3d)
    accel_zout = read_word_2c(0x3f)
     
    accel_xout_scaled = accel_xout / 16384.0
    accel_yout_scaled = accel_yout / 16384.0
    accel_zout_scaled = accel_zout / 16384.0
    my_angle = get_x_rotation(accel_xout_scaled, accel_yout_scaled, accel_zout_scaled)
    return my_angle
 
bus = smbus.SMBus(1) # or bus = smbus.SMBus(1) for Revision 2 boards
address = 0x68       # This is the addreimport smbus
import math
 
# Power management registers
power_mgmt_1 = 0x6b
power_mgmt_2 = 0x6c
 
def read_byte(adr):
    return bus.read_byte_data(address, adr)
 
def read_word(adr):
    high = bus.read_byte_data(address, adr)
    low = bus.read_byte_data(address, adr+1)
    val = (high << 8) + low
    return val
 
def read_word_2c(adr):
    val = read_word(adr)
    if (val >= 0x8000):
        return -((65535 - val) + 1)
    else:
        return val
 
def dist(a,b):
    return math.sqrt((a*a)+(b*b))
 
def get_y_rotation(x,y,z):
    radians = math.atan2(x, dist(y,z))
    return -math.degrees(radians)
 
def get_x_rotation(x,y,z):
    radians = math.atan2(y, dist(x,z))
    return math.degrees(radians)

def get_rotation(hebele):
    
    bus = smbus.SMBus(1) # or bus = smbus.SMBus(1) for Revision 2 boards
    address = 0x68       # This is the address value read via the i2cdetect command
 
    # Now wake the 6050 up as it starts in sleep mode
    bus.write_byte_data(address, power_mgmt_1, 0)
    gyro_xout = read_word_2c(0x43)
    gyro_yout = read_word_2c(0x45)
    gyro_zout = read_word_2c(0x47)
     
    accel_xout = read_word_2c(0x3b)
    accel_yout = read_word_2c(0x3d)
    accel_zout = read_word_2c(0x3f)
     
    accel_xout_scaled = accel_xout / 16384.0
    accel_yout_scaled = accel_yout / 16384.0
    accel_zout_scaled = accel_zout / 16384.0
    my_angle = get_x_rotation(accel_xout_scaled, accel_yout_scaled, accel_zout_scaled)
    return my_angle
 
bus = smbus.SMBus(1) # or bus = smbus.SMBus(1) for Revision 2 boards
address = 0x68       # This is the address value read via the i2cdetect command
 
# Now wake the 6050 up as it starts in sleep mode
bus.write_byte_data(address, power_mgmt_1, 0)
 
#print "gyro data"
#print "---------"
 
gyro_xout = read_word_2c(0x43)
gyro_yout = read_word_2c(0x45)
gyro_zout = read_word_2c(0x47)
 
accel_xout = read_word_2c(0x3b)
accel_yout = read_word_2c(0x3d)
accel_zout = read_word_2c(0x3f)
 
accel_xout_scaled = accel_xout / 16384.0
accel_yout_scaled = accel_yout / 16384.0
accel_zout_scaled = accel_zout / 16384.0


    
#print "y rotation: " , get_y_rotation(accel_xout_scaled, accel_yout_scaled, accel_zout_scaled)