Swing over steering

What is claimed is: 1. A construction machine, comprising: a machine frame; first and second swing legs pivotally connected to the machine frame; first and second ground engaging units steerably connected to the first and second swing legs, respectively, the ground engaging units including drive motors configured such that the ground engaging units are driven across a ground surface by the drive motors; a first steering sensor configured to detect a first steering angle of the first ground engaging unit relative to the first swing leg: a second steering sensor configured to detect a second steering angle of the second ground engaging unit relative to the second swing leg; a first lock configured to selectively lock and unlock the first swing leg in pivotal position relative to the machine frame; a second lock configured to selectively lock and unlock the second swing leg in pivotal position relative to the machine frame; and a controller including a swing leg pivot mode configured to allow each of the first and second swing legs to pivot relative to the machine frame in response to steering of the ground engaging unit connected to each swing leg as the machine is driven across the ground surface by the ground engaging units. 2. The machine of claim 1 , wherein: the swing leg pivot mode includes a ground engaging unit selection feature allowing an operator to select individual steering control of either of the first and second ground engaging units or synchronous steering control of both the first and second ground engaging units. 3. The machine of claim 2 , wherein: the synchronous steering control of the ground engaging unit selection feature is configured to steer the first and second ground engaging units in opposite directions. 4. The machine of claim 1 , wherein: the first lock includes a first hydraulic control system connected between the machine frame and the first swing leg, and configured to change in length as the first swing leg pivots relative to the machine frame, the first hydraulic control system having a hydraulically blocked position preventing pivoting of the first swing leg and a hydraulically un-blocked position permitting pivoting of the first swing leg; and the second lock includes a second hydraulic control system connected between the machine frame and the second swing leg, and configured to change in length as the second swing leg pivots relative to the machine frame, the second hydraulic control system having a hydraulically blocked position preventing pivoting of the second swing leg and a hydraulically un-blocked position permitting pivoting of the second swing leg. 5. The machine of claim 4 , wherein: the swing leg pivot mode is configured such that the hydraulic control system associated with each swing leg to be pivoted is moved to the un-blocked position. 6. The machine of claim 5 , wherein: the swing leg pivot mode is configured such that upon deactivation of the swing leg pivot mode the hydraulic control systems are in their blocked positions. 7. The machine of claim 4 , wherein the first hydraulic control system includes: a first hydraulic ram having a piston and a cylinder, the piston dividing the cylinder into first and second ends; a first three way valve having an extension position, a retraction position, and a blocked position; a first line and a second line connecting the first three way valve to the first and second ends of the cylinder; and wherein in the hydraulically blocked position of the first hydraulic control system, the first three way valve is in its blocked position. 8. The machine of claim 7 , wherein: the first hydraulic control system further includes first and second bypass valves connected to the first and second lines, respectively, each bypass valve including a blocked position and a bypass position, the bypass position communicating the respective line to a fluid reservoir; in the hydraulically blocked position of the first hydraulic control system, the first and second bypass valves are in their respective blocked positions; and in a first hydraulically un-blocked position of the first hydraulic control system, the first three way valve is in its blocked position and the first and second bypass valves are in their bypass positions; and in a second hydraulically un-blocked position of the first hydraulic control system, the first and second bypass valves are in their blocked positions and the first three way valve is in either its extension or retraction position, and the controller is configured such that the first hydraulic ram actively facilitates the pivoting of the first swing leg. 9. The machine of claim 7 , wherein: in the hydraulically un-blocked position of the first hydraulic control system, the first three way valve is in either its extension or retraction position, and the controller is configured such that the first hydraulic ram actively facilitates the pivoting of the first swing leg. 10. The machine of claim 9 , wherein: the controller is further configured such that the controller determines a degree of active facilitation of the pivoting in accordance with an algorithm. 11. The machine of claim 9 , wherein: the first hydraulic control system further includes a supply line and a pressure control valve located in the supply line; and the controller is further configured such that the active facilitation of the pivoting of the first swing leg by the first hydraulic ram is limited to providing a hydraulic pressure to the first hydraulic ram controlled by the pressure control valve. 12. The machine of claim 4 , the first hydraulic control system includes: a first hydraulic ram having a piston and a cylinder, the piston dividing the cylinder into first and second ends; first and second hydraulic lines connecting a fluid reservoir to the first and second ends of the cylinder, respectively; and: first and second bypass valves connected to the first and second hydraulic lines, respectively, each bypass valve including a blocked position and a bypass position, the bypass position communicating the respective end of the first hydraulic ram to the fluid reservoir; and wherein in the hydraulically blocked position of the first hydraulic control system the first and second bypass valves are in their blocked positions; and wherein in the hydraulically un-blocked position of the first hydraulic control system the first and second bypass valves are in their bypass positions. 13. The machine of claim 1 , wherein: the first and second swing legs are forward extending swing legs. 14. The machine of claim 12 , further comprising: third and fourth rearward extending swing legs and third and fourth ground engaging units connected to the third and fourth rearward extending swing legs, respectively. 15. The machine of claim 1 , wherein: the controller is configured such that the swing leg pivot mode includes a manual sub-mode permitting the ground engaging units to be steered under manual control by a machine operator. 16. The machine of claim 1 , wherein: the controller is configured such that the swing leg pivot mode includes an automatic sub-mode in which the steering is automatically controlled by the controller in response to an operator input corresponding to a desired swing leg position. 17. The machine of claim 16 , wherein: in the automatic sub-mode the controller causes the ground engaging unit of a swing leg that is to be pivoted to be steered in an S-curve along the ground surface beginning parallel to an initial direction of the ground engaging unit o