Slide drilling

What is claimed is: 1. An apparatus comprising: a rotation sensor operable to facilitate rotational distance measurements indicative of rotational distance achieved by a top drive; an electrical device operable to facilitate torque measurements indicative of torque applied to a drill string by the top drive; and a processing device comprising a processor and a memory storing computer program code, wherein the processing device is operable to: output a first control command to cause the top drive to rotate the drill string; determine a reference rotational distance based on the rotational distance measurements and the torque measurements; and during slide drilling operations, output second control commands to cause the top drive to alternatingly rotate the drill string in opposing first and second rotational directions based on the determined reference rotational distance, wherein the second control commands cause the top drive to: during the slide drilling operations as initiated after pumping drilling fluid through the drill string to operate a mud motor of the drill string to rotate a drill bit of the drill string and going on bottom of a wellbore with the drill bit at an intended rate of penetration or hook load, rotate to an initial rotational position; then rotate from the initial rotational position in the first rotational direction based on the reference rotational distance; then rotate in the second rotational direction to the initial rotational position; then rotate from the initial rotational position in the second rotational direction based on the reference rotational distance; and then rotate in the first rotational direction to the initial rotational position. 2. The apparatus of claim 1 , wherein the processing device is operable to determine the reference rotational distance as that which is equal to the rotational distance achieved by the top drive at a maximum torque applied to the drill string by the top drive without the drill bit of the drill string being in contact with the bottom of the wellbore. 3. The apparatus of claim 1 , wherein the processing device is operable to: record the torque measurements and the rotational distance measurements in association with each other; determine a maximum torque measurement without the drill bit of the drill string being in contact with the bottom of the wellbore; and determine the reference rotational distance as being one of the rotational distance measurements that is associated with the determined maximum torque measurement. 4. The apparatus of claim 1 , wherein the rotation sensor is or comprises an encoder disposed in association with the top drive. 5. The apparatus of claim 1 , wherein the electrical device is or comprises a torque sensor disposed in association with the top drive. 6. The apparatus of claim 1 , wherein the electrical device is or comprises a variable frequency drive driving an electric motor of the top drive. 7. The apparatus of claim 1 , wherein the second control commands cause the top drive to: rotate to the initial rotational position such that a toolface of the mud motor is oriented in an intended direction; and then alternatingly rotate in the opposing first and second rotational directions from the initial rotational position based on the reference rotational distance. 8. The apparatus of claim 1 , wherein the second control commands cause the top drive to rotate: in the first rotational direction from the initial rotational position until a first predetermined fraction of the reference rotational distance is reached; and in the second rotational direction from the initial rotational position until a second predetermined fraction of the reference rotational distance is reached. 9. A method comprising: commencing operation of a processing device to determine a reference rotational distance of a top drive to be utilized during slide drilling, wherein the processing device: outputs a first control command to cause the top drive to rotate a drill string; and determines the reference rotational distance based on rotational distance measurements indicative of rotational distance achieved by the top drive and torque measurements indicative of torque applied to the drill string by the top drive, wherein the rotational distance measurements are obtained via a rotation sensor, and the torque measurements are obtained via an electrical device; and during the slide drilling, the processing device outputs second control commands to cause the top drive to alternatingly rotate the drill string in opposing first and second rotational directions based on the reference rotational distance, wherein the second control commands cause the top drive to: during the slide drilling as initiated after pumping drilling fluid through the drill string to operate a mud motor of the drill string to rotate a drill bit of the drill string and going on bottom of a wellbore with the drill bit at an intended rate of penetration or hook load, rotate to an initial rotational position; then rotate from the initial rotational position in the first rotational direction based on the reference rotational distance; then rotate in the second rotational direction to the initial rotational position; then rotate from the initial rotational position in the second rotational direction based on the reference rotational distance; and then rotate in the first rotational direction to the initial rotational position. 10. The method of claim 9 , wherein the processing device determines the reference rotational distance of the top drive as equal to rotational distance achieved by the top drive at which torque applied to the drill string by the top drive was at about the highest level. 11. The method of claim 9 , wherein the processing device: records the torque measurements and the rotational distance measurements in association with each other; determines a highest level torque measurement; and determines the reference rotational distance to be one of the rotational distance measurements associated with the determined highest level torque measurement. 12. The method of claim 9 , wherein the processing device receives the torque measurements from one or more of: a torque sensor disposed in association with the top drive; a torque sub coupled between a drive shaft of the top drive and the drill string; and a variable frequency drive driving an electric motor of the top drive. 13. The method of claim 9 , wherein the second control commands cause the top drive to: rotate to the initial rotational position such that a toolface of the mud motor is oriented in an intended direction; and rotate alternatingly in the opposing first and second rotational directions from the initial rotational position based on the reference rotational distance. 14. The method of claim 9 , wherein the second control commands cause the top drive to rotate alternatingly: in the first rotational direction from the initial rotational position until a first predetermined fraction of the reference rotational distance is reached; and in the second rotational direction from the initial rotational position until a second predetermined fraction of the reference rotational distance is reached. 15. A method comprising: commencing operation of a processing device to determine a reference rotational distance of a top drive to be utilized during slide drilling, wherein the processing device: outputs a first control command to the top drive to cause the top drive to rotate a drill string; receives, via a rotational sensor, rotational distance measurements indicative of r