Lockout feature for movable cutting member of surgical instrument

We claim: 1. A stapling apparatus, comprising: (a) an end effector, wherein the end effector is operable to apply at least one staple at a surgical site; (b) a blade assembly operable to move between an unlocked position and a locked position, wherein the blade assembly is operable to move through the end effector in the unlocked position, wherein the blade assembly comprises: (i) a lockout engagement feature, and (ii) a resilient-member engagement feature, wherein the lockout engagement feature is proximal relative to the resilient-member engagement feature; (c) a lockout feature operable to engage the lockout engagement feature of the blade assembly to prevent the blade assembly from moving past a predetermined position when the blade assembly is in the locked position; (d) a resilient member configured to engage the resilient-member engagement feature of the blade assembly to bias the blade assembly toward the locked position; and (e) a staple cartridge assembly configured to fit in the end effector, wherein the staple cartridge assembly comprises a body and a sliding lockout bypass, wherein the sliding lockout bypass is configured to prevent the blade assembly from moving into the locked position such that the sliding lockout bypass is configured to enable the blade assembly to move past the predetermined position, wherein the sliding lockout bypass is configured to slide along at least part of a length of the body. 2. The stapling apparatus of claim 1 , wherein the resilient member further defines a recess configured to house a portion of the blade assembly. 3. The stapling apparatus of claim 1 , wherein the resilient-member engagement feature of the blade assembly further comprises a tab configured to engage the resilient member. 4. The stapling apparatus of claim 3 , wherein the resilient member is configured to bias the tab such that the blade assembly is biased toward the locked position. 5. The stapling apparatus of claim 1 , wherein the blade assembly is configured to drive the sliding lockout bypass to slide along at least part of the length of the body. 6. The stapling apparatus of claim 1 , wherein the sliding lockout bypass comprises an engagement surface configured to receive a portion of the blade assembly to prevent the blade assembly from moving toward the locked position. 7. The stapling apparatus of claim 1 , wherein the sliding lockout bypass further comprises a wedge sled configured to translate relative to the body to apply at least one staple. 8. The stapling apparatus of claim 1 , wherein the lockout feature comprises a wall defining an opening configured to receive a portion of the lockout engagement feature of the blade assembly in the locked position. 9. The stapling apparatus of claim 1 , further comprising a shaft assembly defining a longitudinal axis, wherein the end effector and lockout feature are configured to deflect relative to the longitudinal axis. 10. The stapling apparatus of claim 1 , wherein the staple cartridge assembly further comprises a plurality of staples housed within the body. 11. The stapling apparatus of claim 10 , wherein the body defines a plurality of staple apertures, wherein the sliding lockout bypass is configured to drive the plurality of staples through the plurality of staple apertures. 12. The stapling apparatus of claim 1 , wherein the blade assembly further comprises a distal tip configured to engage the sliding lockout bypass. 13. The stapling apparatus of claim 12 , wherein the blade assembly further comprises a cutting edge located proximally relative to the distal tip. 14. The stapling apparatus of claim 1 , wherein the sliding lockout bypass is configured to translate with the blade assembly past the predetermined position. 15. A stapling apparatus, comprising: (a) an end effector, wherein the end effector is operable to apply at least one staple at a surgical site; (b) a blade assembly operable to translate through the end effector, wherein the blade assembly comprises: (i) a lockout engagement feature, and (ii) a resilient-member engagement feature, wherein the lockout engagement feature is proximal in relation to the resilient-member engagement feature; (c) a lockout feature configured to engage the lockout engagement feature to inhibit the blade assembly from translating through the end effector; (d) a resilient member configured to engage the resilient-member engagement feature to urge the blade assembly into engagement with the lockout feature; and (e) a staple cartridge configured to fit in the end effector, wherein the staple cartridge comprises: (i) at least one staple; and (ii) a lockout bypass feature configured to prevent the lockout feature from inhibiting the blade assembly from translating through the end effector, wherein the lockout bypass feature is configured to translate through the end effector with the blade assembly. 16. The stapling apparatus of claim 15 , wherein the blade assembly is operable to translate through a first range of motion in which the resilient member resiliently bears against the resilient-member engagement feature of the blade assembly, wherein the blade assembly is operable to translate through a second range of motion in which the resilient member does not resiliently bear against the resilient-member engagement feature of the blade assembly. 17. The stapling apparatus of claim 16 , wherein a location of the second range of motion is proximal to a location of the first range of motion. 18. The stapling apparatus of claim 17 , wherein the blade assembly is operable to translate through a third range of motion in which the resilient member does not resiliently bear against the blade assembly, wherein a location of the third range of motion is distal in relation to both the location of the first range of motion and the location of the second range of motion. 19. A stapling apparatus, comprising: (a) an end effector, wherein the end effector is operable to apply at least one staple at a surgical site; (b) a blade assembly operable to move through a first range of motion and a second range of motion through the end effector, wherein a location of the second range of motion is distal relative to a location of the first range of motion, wherein the blade assembly comprises: (i) a lockout engagement feature, and (ii) a resilient-member engagement feature, wherein the lockout engagement feature is proximal relative to the resilient-member engagement feature; (c) a lockout feature operable to engage the lockout engagement feature to prevent the blade assembly from moving from the first range of motion to the second range of motion; (d) a resilient member operable to engage the resilient-member engagement feature to drive the lockout engagement feature toward the lockout feature; and (e) a staple cartridge assembly configured to fit in the end effector, wherein the staple cartridge assembly comprises a lockout bypass, wherein the lockout bypass is configured to engage the blade assembly during the first range of motion to bypass the lockout feature from preventing the blade assembly from traveling through the second range of motion, wherein the lockout bypass is configured to move with the blade assembly through the second range of motion.