Diverting pigs in a pipeline or piping system

The invention claimed is: 1. A pig diverter, comprising: a hollow housing having a flowline inlet port, a flowline outlet port, a pig entry opening and a pig exit opening, all communicating with the interior of the housing, wherein the pig entry opening and the pig exit opening are disposed on respective sides of a longitudinal axis of the housing and communicate with the interior of the housing through respective opposed ends of the housing; and a pig holder enclosed by and movable within the housing between a receiving position and a launching position, wherein the pig holder is a tube that extends along the housing and the opposed ends of the housing are positioned to close opposed ends of the tube, the pig holder being mounted to the housing or pivotal movement about a pivot axis between the receiving position and the launching position; wherein, when in the receiving position, the pig holder is aligned with the pig entry opening to receive a pig; and when in the launching position, the pig holder is aligned with the pig exit opening to launch a pig and effects fluid communication between the flowline inlet port and the pig exit opening; and wherein a flow path is defined within the housing outside the pig holder, in a space between the housing and the pig holder. 2. The pig diverter of claim 1 , wherein, when in the receiving position, the pig holder effects fluid communication between the pig entry opening and the flowline outlet port. 3. The pig diverter of claim 2 , wherein the pig holder comprises an aperture positioned to effect fluid communication with the flowline inlet port when the pig holder is in the receiving position and with the flowline outlet port when the pig holder is in the launching position. 4. The pig diverter of claim 3 , wherein the pig holder is elongate and the aperture is on an axis transverse to a longitudinal axis of the pig holder. 5. The pig diverter of claim 4 , wherein the aperture is offset longitudinally toward one end of the pig holder. 6. The pig diverter of claim 1 , wherein the pig entry opening and the pig exit opening are substantially equally spaced from the longitudinal axis of the housing. 7. The pig diverter of claim 1 , wherein the pivot axis is aligned with the longitudinal axis of the housing. 8. The pig diverter of claim 1 , wherein the pivot axis is disposed between a receiving axis that extends through the receiving position and a launching axis that extends through the launching position. 9. The pig diverter of claim 8 , wherein the receiving axis and the launching axis are substantially parallel to each other and to the pivot axis. 10. The pig diverter of claim 8 , wherein the receiving axis and the launching axis are substantially equi-spaced about the pivot axis. 11. The pig diverter of claim 1 , wherein the flowline inlet port and the flowline outlet port are at longitudinally aligned positions with respect to the longitudinal axis of the housing. 12. The pig diverter of claim 1 , wherein angular spacing about the longitudinal axis between the pig entry opening and the pig exit opening substantially matches that between the flowline inlet port and the flowline outlet port. 13. The pig diverter of claim 1 , wherein when the pig holder is in the receiving position, the flow path effects fluid communication through the housing between the flowline inlet port and the pig exit opening. 14. The pig diverter of claim 1 , wherein when the pig holder is in the launching position, the flow path effects fluid communication through the housing between the pig entry opening and the flowline outlet port. 15. The pig diverter of claim 1 , wherein when the pig holder is at an intermediate position between the receiving position and the launching position, the flow path effects fluid communication through the housing between the flowline inlet port and the flowline outlet port. 16. A method of diverting a pig, comprising: when a pig holder is on a receiving axis, directing a flow of fluid from a pigging path outlet to a flowline outlet port, and receiving the pig into the pig holder from the pigging path outlet; moving the pig holder and the received pig from the receiving axis onto a launching axis; directing a bypass flow of fluid around the pig holder within an enclosure in which the pig holder is movable between the receiving axis and the launching axis; and when the pig holder is on the launching axis, directing a flow of fluid from a flowline inlet port to a pigging path inlet via the pig holder, and launching the pig from the pig holder into the pigging path inlet. 17. The method of claim 16 , comprising directing the flow of fluid from the pigging path outlet to the flowline outlet port via the pig holder when the pig holder is on the receiving axis. 18. The method of claim 16 , comprising directing the bypass flow of fluid from the flowline inlet port to the pigging path inlet when the pig holder is on the receiving axis. 19. The method of claim 16 , comprising directing the bypass flow of fluid from the pigging path outlet to the flowline outlet port when the pig holder is on the launching axis. 20. The method of claim 16 , comprising directing the bypass flow of fluid from the flowline inlet port to the flowline outlet port when the pig holder is at an intermediate position between the receiving axis and the launching axis. 21. The method of claim 16 , comprising pivoting the pig holder from the receiving axis to the launching axis. 22. The method of claim 21 , comprising pivoting the pig holder about a pivot axis that is substantially parallel to the receiving axis and the launching axis. 23. The method of claim 16 , comprising directing the flow of fluid to the flowline outlet port in a direction transverse to the receiving axis. 24. The method of claim 16 , comprising directing the flow of fluid from the flowline inlet port in a direction transverse to the launching axis. 25. The method of claim 23 , comprising directing the flow of fluid through a side wall of the pig holder. 26. The method of claim 16 , further comprising returning the pig holder from the launching axis onto the receiving axis after launching the pig. 27. The method of claim 16 , comprising receiving a pig launched from the pig holder. 28. The method of claim 27 , comprising recirculating the pig in a loop. 29. A subsea installation comprising the pig diverter of claim 1 . 30. A method of operating a subsea installation wherein a pig diverter operates in accordance with the method of claim 16 .