Air gun with multiple energy sources

What is claimed is: 1. An air gun, comprising: a barrel including a projectile chamber configured to receive a projectile; a transfer port in fluid communication with the projectile chamber of the barrel, the transfer port configured to deliver a compressed air charge to the projectile chamber for firing the projectile from the barrel of the air gun; a cocking mechanism; a manually activated mode selector valve; a first energy source movable to a cocked position by actuation of the cocking mechanism, the first energy source configured to provide at least a portion of the energy for compressing the air charge when released from the cocked position; and a second energy source configured to selectively provide, via the manually activated mode selector valve, at least another portion of the energy for further compressing the air charge. 2. The air gun of claim 1 , wherein the second energy source is configured to be charged by a source external to the air gun. 3. The air gun of claim 2 , wherein the second energy source is one of a carbon dioxide cartridge and a compressed air cartridge. 4. The air gun of claim 2 , wherein the second energy source is a compressed gas tank. 5. The air gun of claim 2 , wherein the second energy source is sized for multiple shots by the air gun. 6. The air gun of claim 1 , wherein the first energy source includes a piston that is movable to the cocked position by actuation of the cocking mechanism. 7. The air gun of claim 6 , wherein the first energy source includes a gas strut configured to drive the piston for providing at least the portion of the energy for compressing the air charge when the first energy source is released from the cocked position. 8. The air gun of claim 6 , wherein the first energy source includes a mechanical spring configured to drive the piston for providing at least the portion of the energy for compressing the air charge when the first energy source is released from the cocked position. 9. The air gun of claim 6 , wherein the piston includes a cavity configured to house a granulated material that acts as a rebound buffer when the air gun is fired. 10. The air gun of claim 6 , wherein the piston includes a rounded face that conforms to a corresponding feature of the air gun for promoting delivery of the compressed air charge to the projectile chamber. 11. The air gun of claim 10 , further comprising a grooved surface on one of the piston and the corresponding feature of the air gun for providing delivery of compressed air to the transfer port. 12. The air gun of claim 1 , wherein the air gun is configured to be operable in at least two different firing modes, including: a first firing mode where the energy used to compress the air charge includes energy provided by only the first energy source; and a second firing mode where the energy used to compress the air charge includes energy provided by the first energy source and the second energy source. 13. The air gun of claim 1 , wherein the cocking mechanism is configured to be actuated by at least one of breaking a breach of the air gun, a side lever, and an under lever. 14. The air gun of claim 1 , wherein the barrel and the projectile chamber are constructed and arranged to receive and fire at least one of a pellet and a dart. 15. The air gun of claim 1 , wherein the manually activated mode selector valve is configured, when on, to open fluid communication between the second energy source and the transfer port and, when off, to close fluid communication between the second energy source and the transfer port.