Method and apparatus for antenna selection

What is claimed is: 1. A mobile device, comprising: an RF switch that, when connected with an antenna system having a first antenna and a second antenna, has a first position in which the first antenna is operating as a primary antenna and the second antenna is operating as a diversity antenna, and wherein the RF switch has a second position in which the second antenna is operating as the primary antenna and the first antenna is operating as the diversity antenna; a matching network coupled with a transceiver and the antenna system, wherein the matching network comprises a tunable reactive element; and a controller that when coupled with the matching network and with the RF switch, receives first measurements associated with the antenna system, wherein the controller adjusts the tunable reactive element according to the first measurements to provide impedance tuning, wherein the controller adjusts the RF switch to select between the first and second positions according to the first measurements, wherein the controller applies the first measurements to a two-dimensional tuning grid to obtain an application to the two-dimensional tuning grid, and wherein the controller adjusts the RF switch to select between the first and second positions based on the application to the two-dimensional tuning grid. 2. The mobile device of claim 1 , wherein the first measurements comprise reflection measurements, and wherein the first measurements are limited to one of the first or second antennas. 3. The mobile device of claim 1 , wherein the controller adjusts the RF switch to select between the first and second positions according to the first measurements based on a stored efficiency value corresponding to a location on the two-dimensional tuning grid, wherein the two-dimensional tuning grid comprises one of a rectangular tuning grid, a polar tuning grid or an annular tuning grid. 4. The mobile device of claim 1 , wherein the two-dimensional tuning grid comprises a Smith chart. 5. The mobile device of claim 1 , wherein the RF switch is in the first position, wherein the first measurements are limited to the first antenna, wherein the controller adjusts the RF switch to select the second position according to the first measurements, wherein the controller receives second measurements that are limited to the second antenna, wherein the controller adjusts the tunable reactive element according to the second measurements to provide the impedance tuning. 6. The mobile device of claim 5 , wherein the second measurements comprise transmission Gamma measurements, and wherein the controller adjusts the RF switch to select the first position according to the second measurements. 7. The mobile device of claim 1 , wherein the controller adjusts the RF switch to select between the first and second positions according to the first measurements and a stored free space reference value. 8. The mobile device of claim 1 , wherein the impedance tuning is for the first and second antennas, wherein the tunable reactive element comprises a first tunable reactive element and a second tunable reactive element, wherein the first tunable reactive element performs the impedance tuning for the first antenna, and wherein the second tunable reactive element performs the impedance tuning for the second antenna. 9. The mobile device of claim 1 , wherein the two-dimensional tuning grid comprises a uniform tuning grid. 10. The mobile device of claim 1 , wherein the two-dimensional tuning grid comprises an antenna Gamma space. 11. A method comprising: obtaining, by a controller, first measurements for a first antenna of a communication device operating as a primary antenna when an RF switch of the communication device is in a first position; adjusting, by the controller, a tunable reactive element of a matching network according to the first measurements to perform impedance tuning; switching, by the controller, the RF switch to a second position, wherein the switching to the second position causes a second antenna to operate as the primary antenna; obtaining, by the controller, second measurements for the second antenna operating as the primary antenna when the RF switch is in the second position; adjusting, by the controller, the tunable reactive element according to the second measurements to perform the impedance tuning; determining efficiency values for the first antenna and the second antenna; analyzing, by the controller, the first measurements and the second measurements based on the efficiency values to determine a particular one of the first and second antennas for transmission; and switching, by the controller, the RF switch to the first position responsive to a determination that the first antenna is the particular one of the first and second antennas for transmission. 12. The method of claim 11 , wherein the efficiency values are stored efficiency values and wherein the controller adjusts the RF switch to select between the first and second positions based on the first measurements, the second measurements and the stored efficiency values. 13. The method of claim 12 , wherein the analyzing of the first measurements and the second measurements comprises locating the first measurements and the second measurements on a two-dimensional tuning grid. 14. The method of claim 13 , wherein the adjusting of the RF switch to select the second position is based on a distance measured from a free space reference designated on the two-dimensional tuning grid. 15. The method of claim 13 , wherein the two-dimensional tuning grid comprises a uniform tuning grid. 16. A device, comprising: an RF switch connected with an antenna system having a first antenna and a second antenna, wherein the RF switch has a first position in which the first antenna is operating as a primary antenna and the second antenna is operating as a diversity antenna, and wherein the RF switch has a second position in which the second antenna is the primary antenna and the first antenna is the diversity antenna; and a controller coupled with the RF switch, wherein the controller receives first measurements associated with the antenna system, wherein the controller adjusts the RF switch to select between the first and second positions according to the first measurements, wherein the controller adjusts the RF switch to select between the first and second positions according to the first measurements and a stored efficiency value, wherein the controller adjusts the RF switch to select between the first and second positions according to the first measurements and one of a stored free space reference value or a distance measured from free space designated on a stored tuning grid, and wherein the stored tuning grid comprises a uniform tuning grid. 17. The device of claim 16 , further comprising a matching network coupled with a transceiver and the antenna system, wherein the matching network comprises a tunable reactive element. 18. The device of claim 17 , wherein the tunable reactive element comprises a first tunable reactive element coupled with the first antenna and a second tunable reactive element coupled with the second antenna, and wherein tuning values for the first and second tunable reactive elements are selected according to improving impedance tuning of a receive-only function of one of the first or second antennas and compromising impedance tuning between transmit and receive functions of another of the first or second antennas, and wherein the controller adjusts the RF switch based further on the first measurements and the