Automatically adjustable snowthrower chute

What is claimed is: 1. A snowthrower comprising: a body; a chute rotatable relative to the body among a plurality of chute positions, wherein the chute is configured to discharge snow from the snowthrower; a motor for rotating the chute; a user input device configured to set a preferred chute bearing; an electronic control unit configured to control the motor to automatically rotate the chute to an appropriate chute position to maintain the chute at the preferred chute bearing without additional input from the user input device. 2. The snowthrower of claim 1 , wherein the electronic control unit is configured to: store the preferred chute bearing in a memory device of the electronic control unit; calculate a current chute bearing; determining if the preferred chute bearing is possible; if the preferred chute bearing is possible, calculate the bearing error and then rotate the chute with the motor to eliminate the bearing error; and if the preferred chute bearing is not possible, rotate the chute with the motor toward the preferred chute bearing until the chute reaches an angular travel limit. 3. The snowthrower of claim 2 , wherein the chute is rotatable between a clockwise angular limit and a counterclockwise angular limit; and further comprising: a clockwise limit switch configured to be actuated when the chute is at the clockwise angular limit and wherein actuation of the clockwise limit switch prevents the chute from further clockwise rotation; and a counterclockwise limit switch configured to be actuated when the chute is at the counterclockwise angular limit and wherein actuation of the counterclockwise limit switch prevents the chute from further counterclockwise rotation. 4. The snowthrower of claim 1 , further comprising: a mode selection switch configured to select a manual operating mode or an automatic operating mode; and a chute direction switch, wherein the electronic control unit is further configured to, in the manual operating mode, control the motor to move the chute in response to actuation of the chute direction switch; wherein, in the automatic operating mode, the electronic control unit is configured to control the motor to rotate the chute to the appropriate chute position to maintain the chute at the preferred chute bearing without additional input form the user input device. 5. The snowthrower of claim 4 , further comprising an indicator, wherein, in the automatic operating mode, the electronic control unit is configured to activate the indicator when the electronic control unit determines that the chute cannot rotate to the appropriate chute position. 6. The snowthrower of claim 1 , further comprising: a chute position detector configured to detect a current chute position; a compass sensor configured to detect a snowthrower bearing; and wherein the electronic control unit is configured to compare the snowthrower bearing detected by the compass sensor and the current chute position detected by the chute position detector to determine the appropriate chute position to maintain the chute at the preferred chute bearing. 7. The snowthrower of claim 6 , wherein the chute position detector includes a lead screw mechanically coupled to the chute so that the rotation of the chute rotates the lead screw, a target member coupled to the lead screw so that rotation of the lead screw causes linear movement of the target member, and a position sensor configured to detect a distance between the target member and the position sensor, wherein the distance between the target member and the position sensor is indicative of the current chute position. 8. A snowthrower comprising: a body; a chute rotatable relative to the body among a plurality of chute positions, wherein the chute is configured to discharge snow from the snowthrower; a motor for rotating the chute; a flip user input device; and an electronic control unit configured to automatically control the motor to move the chute to a flip position one hundred eighty degrees from a current chute position upon actuation of the flip user input device. 9. The snowthrower of claim 8 , wherein the chute is rotatable between a clockwise angular limit and a counterclockwise angular limit; and further comprising: a clockwise limit switch configured to be actuated when the chute is at the clockwise angular limit and wherein actuation of the clockwise limit switch prevents the chute from further clockwise rotation; and a counterclockwise limit switch configured to be actuated when the chute is at the counterclockwise angular limit and wherein actuation of the counterclockwise limit switch prevents the chute from further counterclockwise rotation. 10. The snowthrower of claim 9 , further comprising: a chute position detector configured to detect the current chute position. 11. The snowthrower of claim 10 , wherein the chute position detector includes a lead screw mechanically coupled to the chute so that the rotation of the chute rotates the lead screw, a target member coupled to the lead screw so that rotation of the lead screw causes linear movement of the target member, and a position sensor configured to detect a distance between the target member and the position sensor, wherein the distance between the target member and the position sensor is indicative of the current chute position. 12. The snowthrower of claim 8 , further comprising: a chute position detector configured to detect the current chute position. 13. The snowthrower of claim 12 , wherein the chute position detector includes a lead screw mechanically coupled to the chute so that the rotation of the chute rotates the lead screw, a target member coupled to the lead screw so that rotation of the lead screw causes linear movement of the target member, and a position sensor configured to detect a distance between the target member and the position sensor, wherein the distance between the target member and the position sensor is indicative of the current chute position. 14. The snowthrower of claim 8 , wherein the electronic control unit is further configured to automatically control the motor to move the chute from the flip position back to the current chute position upon subsequent actuation of the flip user input device. 15. A snowthrower comprising: a body; a chute rotatable relative to the body among a plurality of chute positions, wherein the chute is configured to discharge snow from the snowthrower; a motor for rotating the chute; a mirror user input device; and an electronic control unit configured to automatically control the motor to move the chute to a mirror position from a current chute position upon actuation of the mirror user input device, wherein the current chute position and the mirror position are equally and oppositely spaced from a snowthrower unit heading. 16. The snowthrower of claim 15 , further comprising: a chute position detector configured to detect the current chute position. 17. The snowthrower of claim 16 , wherein the chute position detector includes a lead screw mechanically coupled to the chute so that the rotation of the chute rotates the lead screw, a target member coupled to the lead screw so that rotation of the lead screw causes linear movement of the target member, and a position sensor configured to detect a distance between the target member and the position sensor, wherein the distance between the target member and the position sensor is indicative of the current chute position. 18. The snowthrower of claim 16 , wherein the electronic control unit is furth