Tractor-baler combinations

The invention claimed is: 1. A tractor comprising: a vehicle body supported by a plurality of ground-engaging members; a steering mechanism configured for steering at least one said ground-engaging member; at least one sensor for sensing at least one swath line of crop material corresponding to a quantity of crop material per unit length of a swath, wherein the at least one sensor is mounted to the vehicle body; and a controller configured to receive at least one output of the at least one sensor to operate the steering mechanism such that when a baler is connected to the vehicle body, the baler follows said at least one swath line in a manner aligning the ingestion of crop material into the baler for baling, wherein the at least one sensor is operable to sense a swath line that is laterally offset from the direction of forward movement of the vehicle body, wherein the at least one sensor swivels to thereby scan a field to detect the swath in the field. 2. The tractor according to claim 1 wherein the at least one sensor is moveable between a first orientation in which it points forwardly of the vehicle body and a second orientation in which it points sideways of the vehicle body. 3. The tractor according to claim 2 including a pivotable mounting securing the at least one sensor relative to the vehicle body, the pivotable mounting permitting at least one degree of freedom of movement of the at least one sensor. 4. The tractor according to claim 2 , further comprising at least one motor for effecting movement of the at least one sensor between the first orientation and the second orientation. 5. The tractor according to claim 1 wherein the at least one sensor comprises respective first and second sensors configured for sensing at least one swath line, the first sensor pointing forwardly of the vehicle body and the second sensor pointing sideways of the vehicle body and the orientations of the first and second sensors being fixed with respect to the vehicle body. 6. The tractor according to claim 5 wherein the first sensor is moveable between a first orientation in which it points forwardly of the vehicle body and a second orientation in which it points laterally with respect to the vehicle body. 7. The tractor according to claim 1 wherein the at least one sensor is operatively connected to the controller whereby the at least one sensor is configured for sensing a swath that is laterally offset from the direction of forward movement of the vehicle body the controller operates the steering mechanism such that a towed baler aligns for ingestion of crop material corresponding to the swath line. 8. The tractor according to claim 1 wherein the at least one sensor is an optical device that generates an output derived from a two-dimensional image of the cross-section of a swath captured by the optical device. 9. The tractor according to claim 1 wherein the optical device is operatively coupled to a processor configured to generate a predicted swath line derived from a plurality of two-dimensional images of the cross-section, silhouette or outline of a swath captured sequentially by the optical device as the tractor moves. 10. The tractor according to claim 1 in combination with a baler wherein the baler is pivotally connected to the tractor by a drawbar. 11. A method of controlling a (a) a tractor having a plurality of ground-engaging members and a steering mechanism configured for steering at least one said ground-engaging member; (b) a baler towed behind the tractor; (c) at least one sensor configured for sensing at least one swath line of crop material corresponding to a quantity of crop material per unit length of a swath; and (d) a controller that operates in dependence on at least one output of the at least one sensor to operate the steering mechanism; the method comprising the steps of pivoting the sensor relative to the tractor using a pivoting arrangement; sensing with at least one said sensor swath line that is laterally offset from a direction of forward movement of the tractor while the baler is not following a line of a swath; and using the output of the said at least one sensor as an input to the controller whereby to operate the steering mechanism so that the baler is aligned for crop infeed with respect to the laterally offset swath line before the ingestion of crop material commences, wherein the at least one sensor is mounted to the tractor. 12. The method according to claim 11 , further comprising moving the at least one sensor between a first and a second orientation wherein the first orientation the at least one sensor points forwardly of the tractor and in the second orientation the at least one sensor points sideways of the tractor. 13. The method according to claim 11 wherein the at least one sensor comprises a first and a second sensor configured for sensing at least one swath line, the first sensor pointing forwardly of the tractor and the second sensor pointing sideways of the tractor and the orientations of the first and second sensors being fixed with respect to the tractor; and the method further comprising operating the steering mechanism with the controller in dependence on the output of the second sensor when the first sensor does not sense a swath line. 14. The tractor according to claim 10 , further comprising a forwardly projecting tongue connected to the drawbar, wherein a connection between the forwardly projecting tongue and the drawbar includes a pivot permitting the baler to turn relative to the tractor at least in the plane of the drawbar. 15. The tractor according to claim 1 , wherein the at least one sensor is configured to detect the at least one swath line of crop material when at least one of the tractor or an entire tractor-baler combination is travelling in the headland at an angle relative to a direction in which the at least one swath line of crop material extends. 16. The tractor according to claim 1 , wherein the at least one sensor is not mounted to the baler.