User interface for segmented neurostimulation leads

What is claimed is: 1. An external control device for use with a neurostimulation system having a plurality of electrodes capable of conveying an electrical stimulation field into tissue in which the electrodes are implanted, comprising: a user interface including a mode selection control element and an electrical stimulation field modification control element, the mode selection control element configured for receiving a selection between an electrical stimulation field displacement mode and an electrical stimulation field shaping mode, the electrical stimulation field modification control element configured to allow for displacement of a locus of the electrical stimulation field relative to the electrodes when the electrical stimulation field displacement mode is selected, and to allow for shaping of the electrical stimulation field about its locus by adjusting a distribution of an electrical current over the electrodes when the electrical stimulation field shaping mode is selected; a processor configured for placing the electrical stimulation field modification control element in either the electrical stimulation field displacement mode or the electrical stimulation field shaping mode based on the received selection, for generating a first set of stimulation parameters designed to displace the locus of the electrical stimulation field when the electrical stimulation field modification control element is placed in the electrical stimulation field displacement mode, and for generating a second set of stimulation parameters designed to shape the electrical stimulation field about its locus when the electrical stimulation field modification control element is placed in the electrical stimulation field shaping mode; output circuitry configured for transmitting the first and second sets of stimulation parameters to the neurostimulation system; and a housing containing the user interface, the processor, and the output circuitry. 2. The external control device of claim 1 , wherein the electrodes are arranged axially along one or more neurostimulation leads, and the first set of stimulation parameters is designed to displace the electrical stimulation field along the one or more neurostimulation leads, and the second set of stimulation parameters is designed to expand or contract the electrical stimulation field along the one or more neurostimulation leads. 3. The external control device of claim 1 , wherein the electrodes are arranged circumferentially around one or more neurostimulation leads, and the first set of stimulation parameters is designed to displace the electrical stimulation field about the one or more neurostimulation leads, and the second set of stimulation parameters is designed to expand or contract the electrical stimulation field about the one or more neurostimulation leads. 4. The external control device of claim 1 , wherein the user interface includes a display screen and the mode selection control element and the electrical stimulation field control element each include an icon located on the display screen. 5. The external control device of claim 1 , wherein the output circuitry comprises telemetry circuitry. 6. A neurostimulation system for delivering neurostimulation to tissue of a patient, comprising: a plurality of electrodes configured for being implanted within the tissue of the patient; a neurostimulation device configured for delivering electrical stimulation energy to the plurality of electrodes, such that an electrical stimulation field is conveyed from the plurality of electrodes into the tissue; and an external control device including a user interface, a processor coupled to the user interface, and a housing containing the user interface and the processor, the user interface including a mode selection control element and an electrical stimulation field modification control element, the mode selection control element configured for receiving from a user a selection between an electrical stimulation field displacement mode and an electrical stimulation field shaping mode, the electrical stimulation field modification control element configured to allow for displacement of a locus of the electrical stimulation field relative to the electrodes when the electrical stimulation field displacement mode is selected, and to allow for shaping of the electrical stimulation field about its locus by adjusting a distribution of an electrical current over the electrodes when the electrical stimulation field shaping mode is selected, the processor configured for placing the electrical stimulation field modification control element in either the electrical stimulation field displacement mode or the electrical stimulation field shaping mode based on the selection received from the user, for instructing the neurostimulation device to displace the locus of the electrical stimulation field when the electrical stimulation field modification control element is placed in the electrical stimulation field displacement mode, and for instructing the neurostimulation device to shape the electrical stimulation field about its locus when the electrical stimulation field modification control element is placed in the electrical stimulation field shaping mode. 7. The neurostimulation system of claim 6 , further comprising one or more neurostimulation leads along which the plurality of electrodes is axially arranged, and the external control device is configured for instructing the neurostimulation device to displace the electrical stimulation field along the one or more neurostimulation leads, and instructing the neurostimulation device to expand or contract the electrical stimulation field along the one or more neurostimulation leads. 8. The neurostimulation system of claim 6 , further comprising one or more neurostimulation leads around which the plurality of electrodes is circumferentially arranged, and the external control device is configured for instructing the neurostimulation device to displace the electrical stimulation field about the one or more neurostimulation leads, and for instructing the neurostimulation device to expand or contract the electrical stimulation field about the one or more neurostimulation leads. 9. The neurostimulation system of claim 6 , wherein the external control device comprises a display screen, and the mode selection control element and the electrical stimulation field control element comprise different icons displayed on the display screen. 10. The external control device of claim 4 , wherein the mode selection control element includes check boxes for selectively placing the electrical stimulation field modification control element in either the electrical stimulation field displacement mode or the electrical stimulation field shaping mode. 11. The external control device of claim 1 , wherein the mode selection control element and the electrical stimulation field control element each comprise a mechanical switch. 12. The external control device of claim 11 , wherein the mode selection control element comprises a button configured to toggle the electrical stimulation field modification control element between the electrical stimulation field displacement mode and the electrical stimulation field shaping mode. 13. The external control device of claim 1 , wherein the electrical stimulation field modification control element comprises a set of axial modification control elements and a set of circumferential modification control elements. 14. The external control device of claim 13 , wherein each element of the set of axial modification control elements and the set of circumferential modification control elements is config