Powered fastener driving tool having fuel/gas mixture compressed ignition

The invention is claimed as follows: 1. A method of operating a powered fastener driving tool, said method comprising: responsive to actuation of a workpiece contact element and an actuation of a trigger: (a) communicating a fuel/gas mixture into a dual compression/combustion chamber, and (b) communicating a pressurized gas into a spring/gas chamber such that the pressurized gas in the spring/gas chamber causes a piston to move in a housing and compress the fuel/gas mixture in the dual compression/combustion chamber; combusting the compressed fuel/gas mixture to cause the piston to move in the housing to cause a driving blade to drive a fastener; causing a gas communication channel to contain pressurized gas moving from the spring/gas chamber to the dual compression/combustion chamber when the piston moves from a firing position to a resting position such that the pressurized gas increases pressure in the dual compression/combustion chamber to reduce recoil of the piston after activation of the piston; and returning the piston to the resting position. 2. The method of operating the powered fastener driving tool of claim 1 , wherein the piston partially defines the spring/gas chamber. 3. The method of operating the powered fastener driving tool of claim 1 , wherein the piston partially defines the dual compression/combustion chamber. 4. The method of operating the powered fastener driving tool of claim 3 , wherein a first surface of the piston defines a piston movement assistance chamber. 5. The method of operating the powered fastener driving tool of claim 4 , wherein a second surface of the piston partially defines the dual compression/combustion chamber. 6. The method of operating the powered fastener driving tool of claim 1 , wherein the housing includes a gas reservoir. 7. The method of operating the powered fastener driving tool of claim 6 , which includes causing the gas reservoir to contain the pressurized gas. 8. The method of operating the powered fastener driving tool of claim 7 , which includes causing the gas reservoir to release the pressurized gas when the piston is moving from the resting position to one of a plurality of compression positions, such that the pressurized gas assists in moving the piston to said compression position. 9. The method of operating the powered fastener driving tool of claim 8 , which includes enabling the pressurized gas to move from the spring/gas chamber to the gas reservoir when the piston is moving from one of the compression positions to the firing position to decrease the pressure in the spring/gas chamber, thereby assisting the piston in moving from said compression position to the firing position. 10. The method of operating the powered fastener driving tool of claim 8 , which includes causing the gas reservoir to release the pressurized gas into the spring/gas chamber when the piston is moving from the firing position to the resting position, said pressurized gas movement assisting the piston in moving from the firing position to the resting position. 11. The method of operating the powered fastener driving tool of claim 1 , wherein the housing partially supports: (a) a pressurized gas inlet; (b) a fuel inlet; (c) an exhaust outlet; and (d) a spring disposed within the housing, and which includes causing the spring to partially support the piston in the resting position. 12. The method of operating the fastener driving tool of claim 1 , wherein the piston includes a heel connected to and extending from a first surface, and which includes causing the heel to move the pressurized gas at an angle away from an exhaust outlet. 13. A method of operating a powered fastener driving tool including a housing having a gas reservoir, said method comprising: causing the gas reservoir to contain pressurized gas; responsive to actuation of a workpiece contact element and an actuation of a trigger: (a) communicating a fuel/gas mixture into a dual compression/combustion chamber, and (b) communicating the pressurized gas into a spring/gas chamber such that the pressurized gas in the spring/gas chamber causes a piston to move in the housing and compress the fuel/gas mixture in the dual compression/combustion chamber; causing the gas reservoir to release the pressurized gas when the piston is moving from a resting position to one of a plurality of compression positions, such that the pressurized gas assists in moving the piston to said compression position; combusting the compressed fuel/gas mixture to cause the piston to move in the housing to cause a driving blade to drive a fastener; and returning the piston to the resting position. 14. The method of operating the powered fastener driving tool of claim 13 , which includes enabling pressurized gas to move from the spring/gas chamber to the gas reservoir when the piston is moving from said compression position to a firing position to decrease the pressure in the spring/gas chamber, thereby assisting the piston in moving from said compression position to the firing position. 15. The method of operating the powered fastener driving tool of claim 13 , which includes causing the gas reservoir to release pressurized gas into the spring/gas chamber when the piston is moving from a firing position to the resting position, said pressurized gas movement assisting the piston in moving from the firing position to the resting position.