Exercise logic.propositional.cnf.unicode
Description
Proposition to CNF (unicode support)
All applications
Rule | andoveror.inv |
Location | [1,1,0,0] |
¬(r ↔ r) ∨ F ∨ ¬(T ∧ ((r ∧ (r ↔ r)) ∨ (r ∧ (r ↔ r)))) ∨ ¬(T ∧ r)
ready: no
Rule | andoveror.inv |
Location | [1,1,0,0] |
¬(r ↔ r) ∨ F ∨ ¬(T ∧ r ∧ ((r ↔ r) ∨ (r ↔ r))) ∨ ¬(T ∧ r)
ready: no
Rule | andoveror.inv |
Location | [1,1,0,0] |
¬(r ↔ r) ∨ F ∨ ¬((T ∨ T) ∧ r ∧ (r ↔ r)) ∨ ¬(T ∧ r)
ready: no
Rule | andoveror.inv |
Location | [1,1,0,0] |
¬(r ↔ r) ∨ F ∨ ¬(((T ∧ r) ∨ (T ∧ r)) ∧ (r ↔ r)) ∨ ¬(T ∧ r)
ready: no
Rule | defimpl.inv |
Location | [] |
(r ↔ r) → (F ∨ ¬((T ∧ r ∧ (r ↔ r)) ∨ (T ∧ r ∧ (r ↔ r))) ∨ ¬(T ∧ r))
ready: no
Rule | defimpl.inv |
Location | [] |
((r ↔ r) → F) ∨ ¬((T ∧ r ∧ (r ↔ r)) ∨ (T ∧ r ∧ (r ↔ r))) ∨ ¬(T ∧ r)
ready: no
Rule | defimpl.inv |
Location | [] |
((r ↔ r) → (F ∨ ¬((T ∧ r ∧ (r ↔ r)) ∨ (T ∧ r ∧ (r ↔ r))))) ∨ ¬(T ∧ r)
ready: no
Rule | defimpl.inv |
Location | [] |
¬(r ↔ r) ∨ F ∨ (((T ∧ r ∧ (r ↔ r)) ∨ (T ∧ r ∧ (r ↔ r))) → ¬(T ∧ r))
ready: no
Rule | defimpl.inv |
Location | [1] |
¬(r ↔ r) ∨ F ∨ (((T ∧ r ∧ (r ↔ r)) ∨ (T ∧ r ∧ (r ↔ r))) → ¬(T ∧ r))
ready: no
Rule | defimpl.inv |
Location | [1,1] |
¬(r ↔ r) ∨ F ∨ (((T ∧ r ∧ (r ↔ r)) ∨ (T ∧ r ∧ (r ↔ r))) → ¬(T ∧ r))
ready: no
Rule | falsezeroor.inv |
Location | [] |
F ∨ ¬(r ↔ r) ∨ F ∨ ¬((T ∧ r ∧ (r ↔ r)) ∨ (T ∧ r ∧ (r ↔ r))) ∨ ¬(T ∧ r)
ready: no
Rule | falsezeroor.inv |
Location | [] |
¬(r ↔ r) ∨ F ∨ ¬((T ∧ r ∧ (r ↔ r)) ∨ (T ∧ r ∧ (r ↔ r))) ∨ ¬(T ∧ r) ∨ F
ready: no
Rule | falsezeroor.inv |
Location | [0] |
F ∨ ¬(r ↔ r) ∨ F ∨ ¬((T ∧ r ∧ (r ↔ r)) ∨ (T ∧ r ∧ (r ↔ r))) ∨ ¬(T ∧ r)
ready: no
Rule | falsezeroor.inv |
Location | [0] |
¬(r ↔ r) ∨ F ∨ F ∨ ¬((T ∧ r ∧ (r ↔ r)) ∨ (T ∧ r ∧ (r ↔ r))) ∨ ¬(T ∧ r)
ready: no
Rule | falsezeroor.inv |
Location | [0,0] |
¬(F ∨ (r ↔ r)) ∨ F ∨ ¬((T ∧ r ∧ (r ↔ r)) ∨ (T ∧ r ∧ (r ↔ r))) ∨ ¬(T ∧ r)
ready: no
Rule | falsezeroor.inv |
Location | [0,0] |
¬((r ↔ r) ∨ F) ∨ F ∨ ¬((T ∧ r ∧ (r ↔ r)) ∨ (T ∧ r ∧ (r ↔ r))) ∨ ¬(T ∧ r)
ready: no
Rule | falsezeroor.inv |
Location | [0,0,0] |
¬((F ∨ r) ↔ r) ∨ F ∨ ¬((T ∧ r ∧ (r ↔ r)) ∨ (T ∧ r ∧ (r ↔ r))) ∨ ¬(T ∧ r)
ready: no
Rule | falsezeroor.inv |
Location | [0,0,0] |
¬((r ∨ F) ↔ r) ∨ F ∨ ¬((T ∧ r ∧ (r ↔ r)) ∨ (T ∧ r ∧ (r ↔ r))) ∨ ¬(T ∧ r)
ready: no
Rule | falsezeroor.inv |
Location | [0,0,1] |
¬(r ↔ (F ∨ r)) ∨ F ∨ ¬((T ∧ r ∧ (r ↔ r)) ∨ (T ∧ r ∧ (r ↔ r))) ∨ ¬(T ∧ r)
ready: no
Rule | falsezeroor.inv |
Location | [0,0,1] |
¬(r ↔ (r ∨ F)) ∨ F ∨ ¬((T ∧ r ∧ (r ↔ r)) ∨ (T ∧ r ∧ (r ↔ r))) ∨ ¬(T ∧ r)
ready: no
Rule | falsezeroor.inv |
Location | [1] |
¬(r ↔ r) ∨ F ∨ F ∨ ¬((T ∧ r ∧ (r ↔ r)) ∨ (T ∧ r ∧ (r ↔ r))) ∨ ¬(T ∧ r)
ready: no
Rule | falsezeroor.inv |
Location | [1] |
¬(r ↔ r) ∨ F ∨ ¬((T ∧ r ∧ (r ↔ r)) ∨ (T ∧ r ∧ (r ↔ r))) ∨ ¬(T ∧ r) ∨ F
ready: no
Rule | falsezeroor.inv |
Location | [1,0] |
¬(r ↔ r) ∨ F ∨ F ∨ ¬((T ∧ r ∧ (r ↔ r)) ∨ (T ∧ r ∧ (r ↔ r))) ∨ ¬(T ∧ r)
ready: no
Rule | falsezeroor.inv |
Location | [1,0] |
¬(r ↔ r) ∨ F ∨ F ∨ ¬((T ∧ r ∧ (r ↔ r)) ∨ (T ∧ r ∧ (r ↔ r))) ∨ ¬(T ∧ r)
ready: no
Rule | falsezeroor.inv |
Location | [1,1] |
¬(r ↔ r) ∨ F ∨ F ∨ ¬((T ∧ r ∧ (r ↔ r)) ∨ (T ∧ r ∧ (r ↔ r))) ∨ ¬(T ∧ r)
ready: no
Rule | falsezeroor.inv |
Location | [1,1] |
¬(r ↔ r) ∨ F ∨ ¬((T ∧ r ∧ (r ↔ r)) ∨ (T ∧ r ∧ (r ↔ r))) ∨ ¬(T ∧ r) ∨ F
ready: no
Rule | falsezeroor.inv |
Location | [1,1,0] |
¬(r ↔ r) ∨ F ∨ F ∨ ¬((T ∧ r ∧ (r ↔ r)) ∨ (T ∧ r ∧ (r ↔ r))) ∨ ¬(T ∧ r)
ready: no
Rule | falsezeroor.inv |
Location | [1,1,0] |
¬(r ↔ r) ∨ F ∨ ¬((T ∧ r ∧ (r ↔ r)) ∨ (T ∧ r ∧ (r ↔ r))) ∨ F ∨ ¬(T ∧ r)
ready: no
Rule | falsezeroor.inv |
Location | [1,1,0,0] |
¬(r ↔ r) ∨ F ∨ ¬(F ∨ (T ∧ r ∧ (r ↔ r)) ∨ (T ∧ r ∧ (r ↔ r))) ∨ ¬(T ∧ r)
ready: no
Rule | falsezeroor.inv |
Location | [1,1,0,0] |
¬(r ↔ r) ∨ F ∨ ¬((T ∧ r ∧ (r ↔ r)) ∨ (T ∧ r ∧ (r ↔ r)) ∨ F) ∨ ¬(T ∧ r)
ready: no
Rule | falsezeroor.inv |
Location | [1,1,0,0,0] |
¬(r ↔ r) ∨ F ∨ ¬(F ∨ (T ∧ r ∧ (r ↔ r)) ∨ (T ∧ r ∧ (r ↔ r))) ∨ ¬(T ∧ r)
ready: no
Rule | falsezeroor.inv |
Location | [1,1,0,0,0] |
¬(r ↔ r) ∨ F ∨ ¬((T ∧ r ∧ (r ↔ r)) ∨ F ∨ (T ∧ r ∧ (r ↔ r))) ∨ ¬(T ∧ r)
ready: no
Rule | falsezeroor.inv |
Location | [1,1,0,0,0,0] |
¬(r ↔ r) ∨ F ∨ ¬(((F ∨ T) ∧ r ∧ (r ↔ r)) ∨ (T ∧ r ∧ (r ↔ r))) ∨ ¬(T ∧ r)
ready: no
Rule | falsezeroor.inv |
Location | [1,1,0,0,0,0] |
¬(r ↔ r) ∨ F ∨ ¬(((T ∨ F) ∧ r ∧ (r ↔ r)) ∨ (T ∧ r ∧ (r ↔ r))) ∨ ¬(T ∧ r)
ready: no
Rule | falsezeroor.inv |
Location | [1,1,0,0,0,1] |
¬(r ↔ r) ∨ F ∨ ¬((T ∧ (F ∨ (r ∧ (r ↔ r)))) ∨ (T ∧ r ∧ (r ↔ r))) ∨ ¬(T ∧ r)
ready: no
Rule | falsezeroor.inv |
Location | [1,1,0,0,0,1] |
¬(r ↔ r) ∨ F ∨ ¬((T ∧ ((r ∧ (r ↔ r)) ∨ F)) ∨ (T ∧ r ∧ (r ↔ r))) ∨ ¬(T ∧ r)
ready: no
Rule | falsezeroor.inv |
Location | [1,1,0,0,0,1,0] |
¬(r ↔ r) ∨ F ∨ ¬((T ∧ (F ∨ r) ∧ (r ↔ r)) ∨ (T ∧ r ∧ (r ↔ r))) ∨ ¬(T ∧ r)
ready: no
Rule | falsezeroor.inv |
Location | [1,1,0,0,0,1,0] |
¬(r ↔ r) ∨ F ∨ ¬((T ∧ (r ∨ F) ∧ (r ↔ r)) ∨ (T ∧ r ∧ (r ↔ r))) ∨ ¬(T ∧ r)
ready: no
Rule | falsezeroor.inv |
Location | [1,1,0,0,0,1,1] |
¬(r ↔ r) ∨ F ∨ ¬((T ∧ r ∧ (F ∨ (r ↔ r))) ∨ (T ∧ r ∧ (r ↔ r))) ∨ ¬(T ∧ r)
ready: no
Rule | falsezeroor.inv |
Location | [1,1,0,0,0,1,1] |
¬(r ↔ r) ∨ F ∨ ¬((T ∧ r ∧ ((r ↔ r) ∨ F)) ∨ (T ∧ r ∧ (r ↔ r))) ∨ ¬(T ∧ r)
ready: no
Rule | falsezeroor.inv |
Location | [1,1,0,0,0,1,1,0] |
¬(r ↔ r) ∨ F ∨ ¬((T ∧ r ∧ ((F ∨ r) ↔ r)) ∨ (T ∧ r ∧ (r ↔ r))) ∨ ¬(T ∧ r)
ready: no
Rule | falsezeroor.inv |
Location | [1,1,0,0,0,1,1,0] |
¬(r ↔ r) ∨ F ∨ ¬((T ∧ r ∧ ((r ∨ F) ↔ r)) ∨ (T ∧ r ∧ (r ↔ r))) ∨ ¬(T ∧ r)
ready: no
Rule | falsezeroor.inv |
Location | [1,1,0,0,0,1,1,1] |
¬(r ↔ r) ∨ F ∨ ¬((T ∧ r ∧ (r ↔ (F ∨ r))) ∨ (T ∧ r ∧ (r ↔ r))) ∨ ¬(T ∧ r)
ready: no
Rule | falsezeroor.inv |
Location | [1,1,0,0,0,1,1,1] |
¬(r ↔ r) ∨ F ∨ ¬((T ∧ r ∧ (r ↔ (r ∨ F))) ∨ (T ∧ r ∧ (r ↔ r))) ∨ ¬(T ∧ r)
ready: no
Rule | falsezeroor.inv |
Location | [1,1,0,0,1] |
¬(r ↔ r) ∨ F ∨ ¬((T ∧ r ∧ (r ↔ r)) ∨ F ∨ (T ∧ r ∧ (r ↔ r))) ∨ ¬(T ∧ r)
ready: no
Rule | falsezeroor.inv |
Location | [1,1,0,0,1] |
¬(r ↔ r) ∨ F ∨ ¬((T ∧ r ∧ (r ↔ r)) ∨ (T ∧ r ∧ (r ↔ r)) ∨ F) ∨ ¬(T ∧ r)
ready: no
Rule | falsezeroor.inv |
Location | [1,1,0,0,1,0] |
¬(r ↔ r) ∨ F ∨ ¬((T ∧ r ∧ (r ↔ r)) ∨ ((F ∨ T) ∧ r ∧ (r ↔ r))) ∨ ¬(T ∧ r)
ready: no
Rule | falsezeroor.inv |
Location | [1,1,0,0,1,0] |
¬(r ↔ r) ∨ F ∨ ¬((T ∧ r ∧ (r ↔ r)) ∨ ((T ∨ F) ∧ r ∧ (r ↔ r))) ∨ ¬(T ∧ r)
ready: no
Rule | falsezeroor.inv |
Location | [1,1,0,0,1,1] |
¬(r ↔ r) ∨ F ∨ ¬((T ∧ r ∧ (r ↔ r)) ∨ (T ∧ (F ∨ (r ∧ (r ↔ r))))) ∨ ¬(T ∧ r)
ready: no
Rule | falsezeroor.inv |
Location | [1,1,0,0,1,1] |
¬(r ↔ r) ∨ F ∨ ¬((T ∧ r ∧ (r ↔ r)) ∨ (T ∧ ((r ∧ (r ↔ r)) ∨ F))) ∨ ¬(T ∧ r)
ready: no
Rule | falsezeroor.inv |
Location | [1,1,0,0,1,1,0] |
¬(r ↔ r) ∨ F ∨ ¬((T ∧ r ∧ (r ↔ r)) ∨ (T ∧ (F ∨ r) ∧ (r ↔ r))) ∨ ¬(T ∧ r)
ready: no
Rule | falsezeroor.inv |
Location | [1,1,0,0,1,1,0] |
¬(r ↔ r) ∨ F ∨ ¬((T ∧ r ∧ (r ↔ r)) ∨ (T ∧ (r ∨ F) ∧ (r ↔ r))) ∨ ¬(T ∧ r)
ready: no
Rule | falsezeroor.inv |
Location | [1,1,0,0,1,1,1] |
¬(r ↔ r) ∨ F ∨ ¬((T ∧ r ∧ (r ↔ r)) ∨ (T ∧ r ∧ (F ∨ (r ↔ r)))) ∨ ¬(T ∧ r)
ready: no
Rule | falsezeroor.inv |
Location | [1,1,0,0,1,1,1] |
¬(r ↔ r) ∨ F ∨ ¬((T ∧ r ∧ (r ↔ r)) ∨ (T ∧ r ∧ ((r ↔ r) ∨ F))) ∨ ¬(T ∧ r)
ready: no
Rule | falsezeroor.inv |
Location | [1,1,0,0,1,1,1,0] |
¬(r ↔ r) ∨ F ∨ ¬((T ∧ r ∧ (r ↔ r)) ∨ (T ∧ r ∧ ((F ∨ r) ↔ r))) ∨ ¬(T ∧ r)
ready: no
Rule | falsezeroor.inv |
Location | [1,1,0,0,1,1,1,0] |
¬(r ↔ r) ∨ F ∨ ¬((T ∧ r ∧ (r ↔ r)) ∨ (T ∧ r ∧ ((r ∨ F) ↔ r))) ∨ ¬(T ∧ r)
ready: no
Rule | falsezeroor.inv |
Location | [1,1,0,0,1,1,1,1] |
¬(r ↔ r) ∨ F ∨ ¬((T ∧ r ∧ (r ↔ r)) ∨ (T ∧ r ∧ (r ↔ (F ∨ r)))) ∨ ¬(T ∧ r)
ready: no
Rule | falsezeroor.inv |
Location | [1,1,0,0,1,1,1,1] |
¬(r ↔ r) ∨ F ∨ ¬((T ∧ r ∧ (r ↔ r)) ∨ (T ∧ r ∧ (r ↔ (r ∨ F)))) ∨ ¬(T ∧ r)
ready: no
Rule | falsezeroor.inv |
Location | [1,1,1] |
¬(r ↔ r) ∨ F ∨ ¬((T ∧ r ∧ (r ↔ r)) ∨ (T ∧ r ∧ (r ↔ r))) ∨ F ∨ ¬(T ∧ r)
ready: no
Rule | falsezeroor.inv |
Location | [1,1,1] |
¬(r ↔ r) ∨ F ∨ ¬((T ∧ r ∧ (r ↔ r)) ∨ (T ∧ r ∧ (r ↔ r))) ∨ ¬(T ∧ r) ∨ F
ready: no
Rule | falsezeroor.inv |
Location | [1,1,1,0] |
¬(r ↔ r) ∨ F ∨ ¬((T ∧ r ∧ (r ↔ r)) ∨ (T ∧ r ∧ (r ↔ r))) ∨ ¬(F ∨ (T ∧ r))
ready: no
Rule | falsezeroor.inv |
Location | [1,1,1,0] |
¬(r ↔ r) ∨ F ∨ ¬((T ∧ r ∧ (r ↔ r)) ∨ (T ∧ r ∧ (r ↔ r))) ∨ ¬((T ∧ r) ∨ F)
ready: no
Rule | falsezeroor.inv |
Location | [1,1,1,0,0] |
¬(r ↔ r) ∨ F ∨ ¬((T ∧ r ∧ (r ↔ r)) ∨ (T ∧ r ∧ (r ↔ r))) ∨ ¬((F ∨ T) ∧ r)
ready: no
Rule | falsezeroor.inv |
Location | [1,1,1,0,0] |
¬(r ↔ r) ∨ F ∨ ¬((T ∧ r ∧ (r ↔ r)) ∨ (T ∧ r ∧ (r ↔ r))) ∨ ¬((T ∨ F) ∧ r)
ready: no
Rule | falsezeroor.inv |
Location | [1,1,1,0,1] |
¬(r ↔ r) ∨ F ∨ ¬((T ∧ r ∧ (r ↔ r)) ∨ (T ∧ r ∧ (r ↔ r))) ∨ ¬(T ∧ (F ∨ r))
ready: no
Rule | falsezeroor.inv |
Location | [1,1,1,0,1] |
¬(r ↔ r) ∨ F ∨ ¬((T ∧ r ∧ (r ↔ r)) ∨ (T ∧ r ∧ (r ↔ r))) ∨ ¬(T ∧ (r ∨ F))
ready: no
Rule | idempand.inv |
Location | [] |
(¬(r ↔ r) ∨ F ∨ ¬((T ∧ r ∧ (r ↔ r)) ∨ (T ∧ r ∧ (r ↔ r))) ∨ ¬(T ∧ r)) ∧ (¬(r ↔ r) ∨ F ∨ ¬((T ∧ r ∧ (r ↔ r)) ∨ (T ∧ r ∧ (r ↔ r))) ∨ ¬(T ∧ r))
ready: no
Rule | idempand.inv |
Location | [0] |
(¬(r ↔ r) ∧ ¬(r ↔ r)) ∨ F ∨ ¬((T ∧ r ∧ (r ↔ r)) ∨ (T ∧ r ∧ (r ↔ r))) ∨ ¬(T ∧ r)
ready: no
Rule | idempand.inv |
Location | [0,0] |
¬((r ↔ r) ∧ (r ↔ r)) ∨ F ∨ ¬((T ∧ r ∧ (r ↔ r)) ∨ (T ∧ r ∧ (r ↔ r))) ∨ ¬(T ∧ r)
ready: no
Rule | idempand.inv |
Location | [0,0,0] |
¬((r ∧ r) ↔ r) ∨ F ∨ ¬((T ∧ r ∧ (r ↔ r)) ∨ (T ∧ r ∧ (r ↔ r))) ∨ ¬(T ∧ r)
ready: no
Rule | idempand.inv |
Location | [0,0,1] |
¬(r ↔ (r ∧ r)) ∨ F ∨ ¬((T ∧ r ∧ (r ↔ r)) ∨ (T ∧ r ∧ (r ↔ r))) ∨ ¬(T ∧ r)
ready: no
Rule | idempand.inv |
Location | [1] |
¬(r ↔ r) ∨ ((F ∨ ¬((T ∧ r ∧ (r ↔ r)) ∨ (T ∧ r ∧ (r ↔ r))) ∨ ¬(T ∧ r)) ∧ (F ∨ ¬((T ∧ r ∧ (r ↔ r)) ∨ (T ∧ r ∧ (r ↔ r))) ∨ ¬(T ∧ r)))
ready: no
Rule | idempand.inv |
Location | [1,0] |
¬(r ↔ r) ∨ (F ∧ F) ∨ ¬((T ∧ r ∧ (r ↔ r)) ∨ (T ∧ r ∧ (r ↔ r))) ∨ ¬(T ∧ r)
ready: no
Rule | idempand.inv |
Location | [1,1] |
¬(r ↔ r) ∨ F ∨ ((¬((T ∧ r ∧ (r ↔ r)) ∨ (T ∧ r ∧ (r ↔ r))) ∨ ¬(T ∧ r)) ∧ (¬((T ∧ r ∧ (r ↔ r)) ∨ (T ∧ r ∧ (r ↔ r))) ∨ ¬(T ∧ r)))
ready: no
Rule | idempand.inv |
Location | [1,1,0] |
¬(r ↔ r) ∨ F ∨ (¬((T ∧ r ∧ (r ↔ r)) ∨ (T ∧ r ∧ (r ↔ r))) ∧ ¬((T ∧ r ∧ (r ↔ r)) ∨ (T ∧ r ∧ (r ↔ r)))) ∨ ¬(T ∧ r)
ready: no
Rule | idempand.inv |
Location | [1,1,0,0] |
¬(r ↔ r) ∨ F ∨ ¬(((T ∧ r ∧ (r ↔ r)) ∨ (T ∧ r ∧ (r ↔ r))) ∧ ((T ∧ r ∧ (r ↔ r)) ∨ (T ∧ r ∧ (r ↔ r)))) ∨ ¬(T ∧ r)
ready: no
Rule | idempand.inv |
Location | [1,1,0,0,0] |
¬(r ↔ r) ∨ F ∨ ¬((T ∧ r ∧ (r ↔ r) ∧ T ∧ r ∧ (r ↔ r)) ∨ (T ∧ r ∧ (r ↔ r))) ∨ ¬(T ∧ r)
ready: no
Rule | idempand.inv |
Location | [1,1,0,0,0,0] |
¬(r ↔ r) ∨ F ∨ ¬((T ∧ T ∧ r ∧ (r ↔ r)) ∨ (T ∧ r ∧ (r ↔ r))) ∨ ¬(T ∧ r)
ready: no
Rule | idempand.inv |
Location | [1,1,0,0,0,1] |
¬(r ↔ r) ∨ F ∨ ¬((T ∧ r ∧ (r ↔ r) ∧ r ∧ (r ↔ r)) ∨ (T ∧ r ∧ (r ↔ r))) ∨ ¬(T ∧ r)
ready: no
Rule | idempand.inv |
Location | [1,1,0,0,0,1,0] |
¬(r ↔ r) ∨ F ∨ ¬((T ∧ r ∧ r ∧ (r ↔ r)) ∨ (T ∧ r ∧ (r ↔ r))) ∨ ¬(T ∧ r)
ready: no
Rule | idempand.inv |
Location | [1,1,0,0,0,1,1] |
¬(r ↔ r) ∨ F ∨ ¬((T ∧ r ∧ (r ↔ r) ∧ (r ↔ r)) ∨ (T ∧ r ∧ (r ↔ r))) ∨ ¬(T ∧ r)
ready: no
Rule | idempand.inv |
Location | [1,1,0,0,0,1,1,0] |
¬(r ↔ r) ∨ F ∨ ¬((T ∧ r ∧ ((r ∧ r) ↔ r)) ∨ (T ∧ r ∧ (r ↔ r))) ∨ ¬(T ∧ r)
ready: no
Rule | idempand.inv |
Location | [1,1,0,0,0,1,1,1] |
¬(r ↔ r) ∨ F ∨ ¬((T ∧ r ∧ (r ↔ (r ∧ r))) ∨ (T ∧ r ∧ (r ↔ r))) ∨ ¬(T ∧ r)
ready: no
Rule | idempand.inv |
Location | [1,1,0,0,1] |
¬(r ↔ r) ∨ F ∨ ¬((T ∧ r ∧ (r ↔ r)) ∨ (T ∧ r ∧ (r ↔ r) ∧ T ∧ r ∧ (r ↔ r))) ∨ ¬(T ∧ r)
ready: no
Rule | idempand.inv |
Location | [1,1,0,0,1,0] |
¬(r ↔ r) ∨ F ∨ ¬((T ∧ r ∧ (r ↔ r)) ∨ (T ∧ T ∧ r ∧ (r ↔ r))) ∨ ¬(T ∧ r)
ready: no
Rule | idempand.inv |
Location | [1,1,0,0,1,1] |
¬(r ↔ r) ∨ F ∨ ¬((T ∧ r ∧ (r ↔ r)) ∨ (T ∧ r ∧ (r ↔ r) ∧ r ∧ (r ↔ r))) ∨ ¬(T ∧ r)
ready: no
Rule | idempand.inv |
Location | [1,1,0,0,1,1,0] |
¬(r ↔ r) ∨ F ∨ ¬((T ∧ r ∧ (r ↔ r)) ∨ (T ∧ r ∧ r ∧ (r ↔ r))) ∨ ¬(T ∧ r)
ready: no
Rule | idempand.inv |
Location | [1,1,0,0,1,1,1] |
¬(r ↔ r) ∨ F ∨ ¬((T ∧ r ∧ (r ↔ r)) ∨ (T ∧ r ∧ (r ↔ r) ∧ (r ↔ r))) ∨ ¬(T ∧ r)
ready: no
Rule | idempand.inv |
Location | [1,1,0,0,1,1,1,0] |
¬(r ↔ r) ∨ F ∨ ¬((T ∧ r ∧ (r ↔ r)) ∨ (T ∧ r ∧ ((r ∧ r) ↔ r))) ∨ ¬(T ∧ r)
ready: no
Rule | idempand.inv |
Location | [1,1,0,0,1,1,1,1] |
¬(r ↔ r) ∨ F ∨ ¬((T ∧ r ∧ (r ↔ r)) ∨ (T ∧ r ∧ (r ↔ (r ∧ r)))) ∨ ¬(T ∧ r)
ready: no
Rule | idempand.inv |
Location | [1,1,1] |
¬(r ↔ r) ∨ F ∨ ¬((T ∧ r ∧ (r ↔ r)) ∨ (T ∧ r ∧ (r ↔ r))) ∨ (¬(T ∧ r) ∧ ¬(T ∧ r))
ready: no
Rule | idempand.inv |
Location | [1,1,1,0] |
¬(r ↔ r) ∨ F ∨ ¬((T ∧ r ∧ (r ↔ r)) ∨ (T ∧ r ∧ (r ↔ r))) ∨ ¬(T ∧ r ∧ T ∧ r)
ready: no
Rule | idempand.inv |
Location | [1,1,1,0,0] |
¬(r ↔ r) ∨ F ∨ ¬((T ∧ r ∧ (r ↔ r)) ∨ (T ∧ r ∧ (r ↔ r))) ∨ ¬(T ∧ T ∧ r)
ready: no
Rule | idempand.inv |
Location | [1,1,1,0,1] |
¬(r ↔ r) ∨ F ∨ ¬((T ∧ r ∧ (r ↔ r)) ∨ (T ∧ r ∧ (r ↔ r))) ∨ ¬(T ∧ r ∧ r)
ready: no
Rule | idempor.inv |
Location | [] |
¬(r ↔ r) ∨ F ∨ ¬((T ∧ r ∧ (r ↔ r)) ∨ (T ∧ r ∧ (r ↔ r))) ∨ ¬(T ∧ r) ∨ ¬(r ↔ r) ∨ F ∨ ¬((T ∧ r ∧ (r ↔ r)) ∨ (T ∧ r ∧ (r ↔ r))) ∨ ¬(T ∧ r)
ready: no
Rule | idempor.inv |
Location | [0] |
¬(r ↔ r) ∨ ¬(r ↔ r) ∨ F ∨ ¬((T ∧ r ∧ (r ↔ r)) ∨ (T ∧ r ∧ (r ↔ r))) ∨ ¬(T ∧ r)
ready: no
Rule | idempor.inv |
Location | [0,0] |
¬((r ↔ r) ∨ (r ↔ r)) ∨ F ∨ ¬((T ∧ r ∧ (r ↔ r)) ∨ (T ∧ r ∧ (r ↔ r))) ∨ ¬(T ∧ r)
ready: no
Rule | idempor.inv |
Location | [0,0,0] |
¬((r ∨ r) ↔ r) ∨ F ∨ ¬((T ∧ r ∧ (r ↔ r)) ∨ (T ∧ r ∧ (r ↔ r))) ∨ ¬(T ∧ r)
ready: no
Rule | idempor.inv |
Location | [0,0,1] |
¬(r ↔ (r ∨ r)) ∨ F ∨ ¬((T ∧ r ∧ (r ↔ r)) ∨ (T ∧ r ∧ (r ↔ r))) ∨ ¬(T ∧ r)
ready: no
Rule | idempor.inv |
Location | [1] |
¬(r ↔ r) ∨ F ∨ ¬((T ∧ r ∧ (r ↔ r)) ∨ (T ∧ r ∧ (r ↔ r))) ∨ ¬(T ∧ r) ∨ F ∨ ¬((T ∧ r ∧ (r ↔ r)) ∨ (T ∧ r ∧ (r ↔ r))) ∨ ¬(T ∧ r)
ready: no
Rule | idempor.inv |
Location | [1,0] |
¬(r ↔ r) ∨ F ∨ F ∨ ¬((T ∧ r ∧ (r ↔ r)) ∨ (T ∧ r ∧ (r ↔ r))) ∨ ¬(T ∧ r)
ready: no
Rule | idempor.inv |
Location | [1,1] |
¬(r ↔ r) ∨ F ∨ ¬((T ∧ r ∧ (r ↔ r)) ∨ (T ∧ r ∧ (r ↔ r))) ∨ ¬(T ∧ r) ∨ ¬((T ∧ r ∧ (r ↔ r)) ∨ (T ∧ r ∧ (r ↔ r))) ∨ ¬(T ∧ r)
ready: no
Rule | idempor.inv |
Location | [1,1,0] |
¬(r ↔ r) ∨ F ∨ ¬((T ∧ r ∧ (r ↔ r)) ∨ (T ∧ r ∧ (r ↔ r))) ∨ ¬((T ∧ r ∧ (r ↔ r)) ∨ (T ∧ r ∧ (r ↔ r))) ∨ ¬(T ∧ r)
ready: no
Rule | idempor.inv |
Location | [1,1,0,0] |
¬(r ↔ r) ∨ F ∨ ¬((T ∧ r ∧ (r ↔ r)) ∨ (T ∧ r ∧ (r ↔ r)) ∨ (T ∧ r ∧ (r ↔ r)) ∨ (T ∧ r ∧ (r ↔ r))) ∨ ¬(T ∧ r)
ready: no
Rule | idempor.inv |
Location | [1,1,0,0,0] |
¬(r ↔ r) ∨ F ∨ ¬((T ∧ r ∧ (r ↔ r)) ∨ (T ∧ r ∧ (r ↔ r)) ∨ (T ∧ r ∧ (r ↔ r))) ∨ ¬(T ∧ r)
ready: no
Rule | idempor.inv |
Location | [1,1,0,0,0,0] |
¬(r ↔ r) ∨ F ∨ ¬(((T ∨ T) ∧ r ∧ (r ↔ r)) ∨ (T ∧ r ∧ (r ↔ r))) ∨ ¬(T ∧ r)
ready: no
Rule | idempor.inv |
Location | [1,1,0,0,0,1] |
¬(r ↔ r) ∨ F ∨ ¬((T ∧ ((r ∧ (r ↔ r)) ∨ (r ∧ (r ↔ r)))) ∨ (T ∧ r ∧ (r ↔ r))) ∨ ¬(T ∧ r)
ready: no
Rule | idempor.inv |
Location | [1,1,0,0,0,1,0] |
¬(r ↔ r) ∨ F ∨ ¬((T ∧ (r ∨ r) ∧ (r ↔ r)) ∨ (T ∧ r ∧ (r ↔ r))) ∨ ¬(T ∧ r)
ready: no
Rule | idempor.inv |
Location | [1,1,0,0,0,1,1] |
¬(r ↔ r) ∨ F ∨ ¬((T ∧ r ∧ ((r ↔ r) ∨ (r ↔ r))) ∨ (T ∧ r ∧ (r ↔ r))) ∨ ¬(T ∧ r)
ready: no
Rule | idempor.inv |
Location | [1,1,0,0,0,1,1,0] |
¬(r ↔ r) ∨ F ∨ ¬((T ∧ r ∧ ((r ∨ r) ↔ r)) ∨ (T ∧ r ∧ (r ↔ r))) ∨ ¬(T ∧ r)
ready: no
Rule | idempor.inv |
Location | [1,1,0,0,0,1,1,1] |
¬(r ↔ r) ∨ F ∨ ¬((T ∧ r ∧ (r ↔ (r ∨ r))) ∨ (T ∧ r ∧ (r ↔ r))) ∨ ¬(T ∧ r)
ready: no
Rule | idempor.inv |
Location | [1,1,0,0,1] |
¬(r ↔ r) ∨ F ∨ ¬((T ∧ r ∧ (r ↔ r)) ∨ (T ∧ r ∧ (r ↔ r)) ∨ (T ∧ r ∧ (r ↔ r))) ∨ ¬(T ∧ r)
ready: no
Rule | idempor.inv |
Location | [1,1,0,0,1,0] |
¬(r ↔ r) ∨ F ∨ ¬((T ∧ r ∧ (r ↔ r)) ∨ ((T ∨ T) ∧ r ∧ (r ↔ r))) ∨ ¬(T ∧ r)
ready: no
Rule | idempor.inv |
Location | [1,1,0,0,1,1] |
¬(r ↔ r) ∨ F ∨ ¬((T ∧ r ∧ (r ↔ r)) ∨ (T ∧ ((r ∧ (r ↔ r)) ∨ (r ∧ (r ↔ r))))) ∨ ¬(T ∧ r)
ready: no
Rule | idempor.inv |
Location | [1,1,0,0,1,1,0] |
¬(r ↔ r) ∨ F ∨ ¬((T ∧ r ∧ (r ↔ r)) ∨ (T ∧ (r ∨ r) ∧ (r ↔ r))) ∨ ¬(T ∧ r)
ready: no
Rule | idempor.inv |
Location | [1,1,0,0,1,1,1] |
¬(r ↔ r) ∨ F ∨ ¬((T ∧ r ∧ (r ↔ r)) ∨ (T ∧ r ∧ ((r ↔ r) ∨ (r ↔ r)))) ∨ ¬(T ∧ r)
ready: no
Rule | idempor.inv |
Location | [1,1,0,0,1,1,1,0] |
¬(r ↔ r) ∨ F ∨ ¬((T ∧ r ∧ (r ↔ r)) ∨ (T ∧ r ∧ ((r ∨ r) ↔ r))) ∨ ¬(T ∧ r)
ready: no
Rule | idempor.inv |
Location | [1,1,0,0,1,1,1,1] |
¬(r ↔ r) ∨ F ∨ ¬((T ∧ r ∧ (r ↔ r)) ∨ (T ∧ r ∧ (r ↔ (r ∨ r)))) ∨ ¬(T ∧ r)
ready: no
Rule | idempor.inv |
Location | [1,1,1] |
¬(r ↔ r) ∨ F ∨ ¬((T ∧ r ∧ (r ↔ r)) ∨ (T ∧ r ∧ (r ↔ r))) ∨ ¬(T ∧ r) ∨ ¬(T ∧ r)
ready: no
Rule | idempor.inv |
Location | [1,1,1,0] |
¬(r ↔ r) ∨ F ∨ ¬((T ∧ r ∧ (r ↔ r)) ∨ (T ∧ r ∧ (r ↔ r))) ∨ ¬((T ∧ r) ∨ (T ∧ r))
ready: no
Rule | idempor.inv |
Location | [1,1,1,0,0] |
¬(r ↔ r) ∨ F ∨ ¬((T ∧ r ∧ (r ↔ r)) ∨ (T ∧ r ∧ (r ↔ r))) ∨ ¬((T ∨ T) ∧ r)
ready: no
Rule | idempor.inv |
Location | [1,1,1,0,1] |
¬(r ↔ r) ∨ F ∨ ¬((T ∧ r ∧ (r ↔ r)) ∨ (T ∧ r ∧ (r ↔ r))) ∨ ¬(T ∧ (r ∨ r))
ready: no
Rule | logic.propositional.assocand |
Location | [1,1,0,0,0] |
¬(r ↔ r) ∨ F ∨ ¬((T ∧ r ∧ (r ↔ r)) ∨ (T ∧ r ∧ (r ↔ r))) ∨ ¬(T ∧ r)
ready: no
Rule | logic.propositional.assocand |
Location | [1,1,0,0,1] |
¬(r ↔ r) ∨ F ∨ ¬((T ∧ r ∧ (r ↔ r)) ∨ (T ∧ r ∧ (r ↔ r))) ∨ ¬(T ∧ r)
ready: no
Rule | logic.propositional.assocor |
Location | [] |
¬(r ↔ r) ∨ F ∨ ¬((T ∧ r ∧ (r ↔ r)) ∨ (T ∧ r ∧ (r ↔ r))) ∨ ¬(T ∧ r)
ready: no
Rule | logic.propositional.assocor |
Location | [] |
¬(r ↔ r) ∨ F ∨ ¬((T ∧ r ∧ (r ↔ r)) ∨ (T ∧ r ∧ (r ↔ r))) ∨ ¬(T ∧ r)
ready: no
Rule | logic.propositional.assocor |
Location | [] |
¬(r ↔ r) ∨ F ∨ ¬((T ∧ r ∧ (r ↔ r)) ∨ (T ∧ r ∧ (r ↔ r))) ∨ ¬(T ∧ r)
ready: no
Rule | logic.propositional.assocor |
Location | [] |
¬(r ↔ r) ∨ F ∨ ¬((T ∧ r ∧ (r ↔ r)) ∨ (T ∧ r ∧ (r ↔ r))) ∨ ¬(T ∧ r)
ready: no
Rule | logic.propositional.assocor |
Location | [] |
¬(r ↔ r) ∨ F ∨ ¬((T ∧ r ∧ (r ↔ r)) ∨ (T ∧ r ∧ (r ↔ r))) ∨ ¬(T ∧ r)
ready: no
Rule | logic.propositional.assocor |
Location | [1] |
¬(r ↔ r) ∨ F ∨ ¬((T ∧ r ∧ (r ↔ r)) ∨ (T ∧ r ∧ (r ↔ r))) ∨ ¬(T ∧ r)
ready: no
Rule | logic.propositional.buggy.assoc |
Location | [1,1,0,0] |
Rule | logic.propositional.buggy.assoc |
Location | [1,1,0,0] |
Rule | logic.propositional.buggy.assoc |
Location | [1,1,0,0] |
Rule | logic.propositional.buggy.assoc |
Location | [1,1,0,0] |
Rule | logic.propositional.buggy.defimpl.inv |
Location | [] |
Rule | logic.propositional.buggy.defimpl.inv |
Location | [] |
Rule | logic.propositional.buggy.defimpl.inv |
Location | [] |
Rule | logic.propositional.buggy.defimpl.inv |
Location | [] |
Rule | logic.propositional.buggy.defimpl.inv |
Location | [] |
Rule | logic.propositional.buggy.defimpl.inv |
Location | [] |
Rule | logic.propositional.buggy.defimpl.inv |
Location | [] |
Rule | logic.propositional.buggy.defimpl.inv |
Location | [] |
Rule | logic.propositional.buggy.defimpl.inv |
Location | [] |
Rule | logic.propositional.buggy.defimpl.inv |
Location | [1] |
Rule | logic.propositional.buggy.defimpl.inv |
Location | [1] |
Rule | logic.propositional.buggy.defimpl.inv |
Location | [1] |
Rule | logic.propositional.buggy.defimpl.inv |
Location | [1] |
Rule | logic.propositional.buggy.defimpl.inv |
Location | [1,1] |
Rule | logic.propositional.buggy.defimpl.inv |
Location | [1,1] |
Rule | logic.propositional.buggy.defimpl.inv |
Location | [1,1,0] |
Rule | logic.propositional.buggy.demorgan1 |
Location | [1,1,0] |
Rule | logic.propositional.buggy.demorgan1 |
Location | [1,1,0] |
Rule | logic.propositional.buggy.demorgan1 |
Location | [1,1,0] |
Rule | logic.propositional.buggy.demorgan1 |
Location | [1,1,1] |
Rule | logic.propositional.buggy.demorgan1 |
Location | [1,1,1] |
Rule | logic.propositional.buggy.demorgan1 |
Location | [1,1,1] |
Rule | logic.propositional.buggy.demorgan2 |
Location | [1,1,0] |
Rule | logic.propositional.buggy.demorgan2 |
Location | [1,1,1] |
Rule | logic.propositional.buggy.demorgan3 |
Location | [1,1,1] |
Rule | logic.propositional.buggy.demorgan4 |
Location | [1,1,0] |
Rule | logic.propositional.buggy.demorgan4.inv |
Location | [] |
Rule | logic.propositional.buggy.demorgan4.inv |
Location | [1] |
Rule | logic.propositional.buggy.demorgan4.inv |
Location | [1,1] |
Rule | logic.propositional.buggy.distr |
Location | [1,1,0,0] |
Rule | logic.propositional.buggy.distr |
Location | [1,1,0,0] |
Rule | logic.propositional.buggy.distr |
Location | [1,1,0,0] |
Rule | logic.propositional.buggy.distr |
Location | [1,1,0,0] |
Rule | logic.propositional.buggy.distr |
Location | [1,1,0,0] |
Rule | logic.propositional.buggy.distr |
Location | [1,1,0,0] |
Rule | logic.propositional.buggy.distr |
Location | [1,1,0,0] |
Rule | logic.propositional.buggy.distr |
Location | [1,1,0,0] |
Rule | logic.propositional.buggy.distr.inv |
Location | [1,1,0,0] |
Rule | logic.propositional.buggy.distr.inv |
Location | [1,1,0,0] |
Rule | logic.propositional.buggy.distr.inv |
Location | [1,1,0,0] |
Rule | logic.propositional.buggy.distr.inv |
Location | [1,1,0,0] |
Rule | logic.propositional.buggy.equivelim1 |
Location | [0,0] |
Rule | logic.propositional.buggy.equivelim1 |
Location | [0,0] |
Rule | logic.propositional.buggy.equivelim1 |
Location | [0,0] |
Rule | logic.propositional.buggy.equivelim1 |
Location | [0,0] |
Rule | logic.propositional.buggy.equivelim1 |
Location | [0,0] |
Rule | logic.propositional.buggy.equivelim1 |
Location | [1,1,0,0,0,1,1] |
Rule | logic.propositional.buggy.equivelim1 |
Location | [1,1,0,0,0,1,1] |
Rule | logic.propositional.buggy.equivelim1 |
Location | [1,1,0,0,0,1,1] |
Rule | logic.propositional.buggy.equivelim1 |
Location | [1,1,0,0,0,1,1] |
Rule | logic.propositional.buggy.equivelim1 |
Location | [1,1,0,0,0,1,1] |
Rule | logic.propositional.buggy.equivelim1 |
Location | [1,1,0,0,1,1,1] |
Rule | logic.propositional.buggy.equivelim1 |
Location | [1,1,0,0,1,1,1] |
Rule | logic.propositional.buggy.equivelim1 |
Location | [1,1,0,0,1,1,1] |
Rule | logic.propositional.buggy.equivelim1 |
Location | [1,1,0,0,1,1,1] |
Rule | logic.propositional.buggy.equivelim1 |
Location | [1,1,0,0,1,1,1] |
Rule | logic.propositional.buggy.equivelim2 |
Location | [0,0] |
Rule | logic.propositional.buggy.equivelim2 |
Location | [0,0] |
Rule | logic.propositional.buggy.equivelim2 |
Location | [0,0] |
Rule | logic.propositional.buggy.equivelim2 |
Location | [1,1,0,0,0,1,1] |
Rule | logic.propositional.buggy.equivelim2 |
Location | [1,1,0,0,0,1,1] |
Rule | logic.propositional.buggy.equivelim2 |
Location | [1,1,0,0,0,1,1] |
Rule | logic.propositional.buggy.equivelim2 |
Location | [1,1,0,0,1,1,1] |
Rule | logic.propositional.buggy.equivelim2 |
Location | [1,1,0,0,1,1,1] |
Rule | logic.propositional.buggy.equivelim2 |
Location | [1,1,0,0,1,1,1] |
Rule | logic.propositional.buggy.equivelim3 |
Location | [0,0] |
Rule | logic.propositional.buggy.equivelim3 |
Location | [1,1,0,0,0,1,1] |
Rule | logic.propositional.buggy.equivelim3 |
Location | [1,1,0,0,1,1,1] |
Rule | logic.propositional.buggy.falseprop |
Location | [] |
Rule | logic.propositional.buggy.falseprop |
Location | [] |
Rule | logic.propositional.buggy.falseprop |
Location | [] |
Rule | logic.propositional.buggy.falseprop |
Location | [1] |
Rule | logic.propositional.buggy.falseprop |
Location | [1] |
Rule | logic.propositional.buggy.idemequi |
Location | [0,0] |
Rule | logic.propositional.buggy.idemequi |
Location | [1,1,0,0,0,1,1] |
Rule | logic.propositional.buggy.idemequi |
Location | [1,1,0,0,1,1,1] |
Rule | logic.propositional.buggy.idemequiv.inv |
Location | [] |
Rule | logic.propositional.buggy.idemequiv.inv |
Location | [0] |
Rule | logic.propositional.buggy.idemequiv.inv |
Location | [0,0] |
Rule | logic.propositional.buggy.idemequiv.inv |
Location | [0,0,0] |
Rule | logic.propositional.buggy.idemequiv.inv |
Location | [0,0,1] |
Rule | logic.propositional.buggy.idemequiv.inv |
Location | [1] |
Rule | logic.propositional.buggy.idemequiv.inv |
Location | [1,0] |
Rule | logic.propositional.buggy.idemequiv.inv |
Location | [1,1] |
Rule | logic.propositional.buggy.idemequiv.inv |
Location | [1,1,0] |
Rule | logic.propositional.buggy.idemequiv.inv |
Location | [1,1,0,0] |
Rule | logic.propositional.buggy.idemequiv.inv |
Location | [1,1,0,0,0] |
Rule | logic.propositional.buggy.idemequiv.inv |
Location | [1,1,0,0,0,0] |
Rule | logic.propositional.buggy.idemequiv.inv |
Location | [1,1,0,0,0,1] |
Rule | logic.propositional.buggy.idemequiv.inv |
Location | [1,1,0,0,0,1,0] |
Rule | logic.propositional.buggy.idemequiv.inv |
Location | [1,1,0,0,0,1,1] |
Rule | logic.propositional.buggy.idemequiv.inv |
Location | [1,1,0,0,0,1,1,0] |
Rule | logic.propositional.buggy.idemequiv.inv |
Location | [1,1,0,0,0,1,1,1] |
Rule | logic.propositional.buggy.idemequiv.inv |
Location | [1,1,0,0,1] |
Rule | logic.propositional.buggy.idemequiv.inv |
Location | [1,1,0,0,1,0] |
Rule | logic.propositional.buggy.idemequiv.inv |
Location | [1,1,0,0,1,1] |
Rule | logic.propositional.buggy.idemequiv.inv |
Location | [1,1,0,0,1,1,0] |
Rule | logic.propositional.buggy.idemequiv.inv |
Location | [1,1,0,0,1,1,1] |
Rule | logic.propositional.buggy.idemequiv.inv |
Location | [1,1,0,0,1,1,1,0] |
Rule | logic.propositional.buggy.idemequiv.inv |
Location | [1,1,0,0,1,1,1,1] |
Rule | logic.propositional.buggy.idemequiv.inv |
Location | [1,1,1] |
Rule | logic.propositional.buggy.idemequiv.inv |
Location | [1,1,1,0] |
Rule | logic.propositional.buggy.idemequiv.inv |
Location | [1,1,1,0,0] |
Rule | logic.propositional.buggy.idemequiv.inv |
Location | [1,1,1,0,1] |
Rule | logic.propositional.buggy.idemimp.inv |
Location | [] |
Rule | logic.propositional.buggy.idemimp.inv |
Location | [0] |
Rule | logic.propositional.buggy.idemimp.inv |
Location | [0,0] |
Rule | logic.propositional.buggy.idemimp.inv |
Location | [0,0,0] |
Rule | logic.propositional.buggy.idemimp.inv |
Location | [0,0,1] |
Rule | logic.propositional.buggy.idemimp.inv |
Location | [1] |
Rule | logic.propositional.buggy.idemimp.inv |
Location | [1,0] |
Rule | logic.propositional.buggy.idemimp.inv |
Location | [1,1] |
Rule | logic.propositional.buggy.idemimp.inv |
Location | [1,1,0] |
Rule | logic.propositional.buggy.idemimp.inv |
Location | [1,1,0,0] |
Rule | logic.propositional.buggy.idemimp.inv |
Location | [1,1,0,0,0] |
Rule | logic.propositional.buggy.idemimp.inv |
Location | [1,1,0,0,0,0] |
Rule | logic.propositional.buggy.idemimp.inv |
Location | [1,1,0,0,0,1] |
Rule | logic.propositional.buggy.idemimp.inv |
Location | [1,1,0,0,0,1,0] |
Rule | logic.propositional.buggy.idemimp.inv |
Location | [1,1,0,0,0,1,1] |
Rule | logic.propositional.buggy.idemimp.inv |
Location | [1,1,0,0,0,1,1,0] |
Rule | logic.propositional.buggy.idemimp.inv |
Location | [1,1,0,0,0,1,1,1] |
Rule | logic.propositional.buggy.idemimp.inv |
Location | [1,1,0,0,1] |
Rule | logic.propositional.buggy.idemimp.inv |
Location | [1,1,0,0,1,0] |
Rule | logic.propositional.buggy.idemimp.inv |
Location | [1,1,0,0,1,1] |
Rule | logic.propositional.buggy.idemimp.inv |
Location | [1,1,0,0,1,1,0] |
Rule | logic.propositional.buggy.idemimp.inv |
Location | [1,1,0,0,1,1,1] |
Rule | logic.propositional.buggy.idemimp.inv |
Location | [1,1,0,0,1,1,1,0] |
Rule | logic.propositional.buggy.idemimp.inv |
Location | [1,1,0,0,1,1,1,1] |
Rule | logic.propositional.buggy.idemimp.inv |
Location | [1,1,1] |
Rule | logic.propositional.buggy.idemimp.inv |
Location | [1,1,1,0] |
Rule | logic.propositional.buggy.idemimp.inv |
Location | [1,1,1,0,0] |
Rule | logic.propositional.buggy.idemimp.inv |
Location | [1,1,1,0,1] |
Rule | logic.propositional.buggy.orsame |
Location | [1,1,0,0] |
Rule | logic.propositional.buggy.parenth1 |
Location | [1,1,0] |
Rule | logic.propositional.buggy.parenth1 |
Location | [1,1,1] |
Rule | logic.propositional.buggy.parenth2 |
Location | [0] |
Rule | logic.propositional.buggy.trueprop |
Location | [1,1,0,0,0] |
Rule | logic.propositional.buggy.trueprop |
Location | [1,1,0,0,0] |
Rule | logic.propositional.buggy.trueprop |
Location | [1,1,0,0,1] |
Rule | logic.propositional.buggy.trueprop |
Location | [1,1,0,0,1] |
Rule | logic.propositional.buggy.trueprop |
Location | [1,1,1,0] |
Rule | logic.propositional.command |
Location | [1,1,0,0,0] |
¬(r ↔ r) ∨ F ∨ ¬((r ∧ (r ↔ r) ∧ T) ∨ (T ∧ r ∧ (r ↔ r))) ∨ ¬(T ∧ r)
ready: no
Rule | logic.propositional.command |
Location | [1,1,0,0,0] |
¬(r ↔ r) ∨ F ∨ ¬(((r ↔ r) ∧ T ∧ r) ∨ (T ∧ r ∧ (r ↔ r))) ∨ ¬(T ∧ r)
ready: no
Rule | logic.propositional.command |
Location | [1,1,0,0,0] |
¬(r ↔ r) ∨ F ∨ ¬((r ∧ T ∧ (r ↔ r)) ∨ (T ∧ r ∧ (r ↔ r))) ∨ ¬(T ∧ r)
ready: no
Rule | logic.propositional.command |
Location | [1,1,0,0,0] |
¬(r ↔ r) ∨ F ∨ ¬((T ∧ (r ↔ r) ∧ r) ∨ (T ∧ r ∧ (r ↔ r))) ∨ ¬(T ∧ r)
ready: no
Rule | logic.propositional.command |
Location | [1,1,0,0,0,1] |
¬(r ↔ r) ∨ F ∨ ¬((T ∧ (r ↔ r) ∧ r) ∨ (T ∧ r ∧ (r ↔ r))) ∨ ¬(T ∧ r)
ready: no
Rule | logic.propositional.command |
Location | [1,1,0,0,1] |
¬(r ↔ r) ∨ F ∨ ¬((T ∧ r ∧ (r ↔ r)) ∨ (r ∧ (r ↔ r) ∧ T)) ∨ ¬(T ∧ r)
ready: no
Rule | logic.propositional.command |
Location | [1,1,0,0,1] |
¬(r ↔ r) ∨ F ∨ ¬((T ∧ r ∧ (r ↔ r)) ∨ ((r ↔ r) ∧ T ∧ r)) ∨ ¬(T ∧ r)
ready: no
Rule | logic.propositional.command |
Location | [1,1,0,0,1] |
¬(r ↔ r) ∨ F ∨ ¬((T ∧ r ∧ (r ↔ r)) ∨ (r ∧ T ∧ (r ↔ r))) ∨ ¬(T ∧ r)
ready: no
Rule | logic.propositional.command |
Location | [1,1,0,0,1] |
¬(r ↔ r) ∨ F ∨ ¬((T ∧ r ∧ (r ↔ r)) ∨ (T ∧ (r ↔ r) ∧ r)) ∨ ¬(T ∧ r)
ready: no
Rule | logic.propositional.command |
Location | [1,1,0,0,1,1] |
¬(r ↔ r) ∨ F ∨ ¬((T ∧ r ∧ (r ↔ r)) ∨ (T ∧ (r ↔ r) ∧ r)) ∨ ¬(T ∧ r)
ready: no
Rule | logic.propositional.command |
Location | [1,1,1,0] |
¬(r ↔ r) ∨ F ∨ ¬((T ∧ r ∧ (r ↔ r)) ∨ (T ∧ r ∧ (r ↔ r))) ∨ ¬(r ∧ T)
ready: no
Rule | logic.propositional.commor |
Location | [] |
F ∨ ¬((T ∧ r ∧ (r ↔ r)) ∨ (T ∧ r ∧ (r ↔ r))) ∨ ¬(T ∧ r) ∨ ¬(r ↔ r)
ready: no
Rule | logic.propositional.commor |
Location | [] |
¬((T ∧ r ∧ (r ↔ r)) ∨ (T ∧ r ∧ (r ↔ r))) ∨ ¬(T ∧ r) ∨ ¬(r ↔ r) ∨ F
ready: no
Rule | logic.propositional.commor |
Location | [] |
¬(T ∧ r) ∨ ¬(r ↔ r) ∨ F ∨ ¬((T ∧ r ∧ (r ↔ r)) ∨ (T ∧ r ∧ (r ↔ r)))
ready: no
Rule | logic.propositional.commor |
Location | [] |
F ∨ ¬(r ↔ r) ∨ ¬((T ∧ r ∧ (r ↔ r)) ∨ (T ∧ r ∧ (r ↔ r))) ∨ ¬(T ∧ r)
ready: no
Rule | logic.propositional.commor |
Location | [] |
F ∨ ¬((T ∧ r ∧ (r ↔ r)) ∨ (T ∧ r ∧ (r ↔ r))) ∨ ¬(r ↔ r) ∨ ¬(T ∧ r)
ready: no
Rule | logic.propositional.commor |
Location | [] |
¬((T ∧ r ∧ (r ↔ r)) ∨ (T ∧ r ∧ (r ↔ r))) ∨ ¬(r ↔ r) ∨ F ∨ ¬(T ∧ r)
ready: no
Rule | logic.propositional.commor |
Location | [] |
¬(r ↔ r) ∨ ¬((T ∧ r ∧ (r ↔ r)) ∨ (T ∧ r ∧ (r ↔ r))) ∨ ¬(T ∧ r) ∨ F
ready: no
Rule | logic.propositional.commor |
Location | [] |
¬(r ↔ r) ∨ ¬(T ∧ r) ∨ F ∨ ¬((T ∧ r ∧ (r ↔ r)) ∨ (T ∧ r ∧ (r ↔ r)))
ready: no
Rule | logic.propositional.commor |
Location | [] |
¬(r ↔ r) ∨ F ∨ ¬(T ∧ r) ∨ ¬((T ∧ r ∧ (r ↔ r)) ∨ (T ∧ r ∧ (r ↔ r)))
ready: no
Rule | logic.propositional.commor |
Location | [] |
¬(r ↔ r) ∨ ¬((T ∧ r ∧ (r ↔ r)) ∨ (T ∧ r ∧ (r ↔ r))) ∨ F ∨ ¬(T ∧ r)
ready: no
Rule | logic.propositional.commor |
Location | [1] |
¬(r ↔ r) ∨ ¬((T ∧ r ∧ (r ↔ r)) ∨ (T ∧ r ∧ (r ↔ r))) ∨ ¬(T ∧ r) ∨ F
ready: no
Rule | logic.propositional.commor |
Location | [1] |
¬(r ↔ r) ∨ ¬(T ∧ r) ∨ F ∨ ¬((T ∧ r ∧ (r ↔ r)) ∨ (T ∧ r ∧ (r ↔ r)))
ready: no
Rule | logic.propositional.commor |
Location | [1] |
¬(r ↔ r) ∨ ¬((T ∧ r ∧ (r ↔ r)) ∨ (T ∧ r ∧ (r ↔ r))) ∨ F ∨ ¬(T ∧ r)
ready: no
Rule | logic.propositional.commor |
Location | [1] |
¬(r ↔ r) ∨ F ∨ ¬(T ∧ r) ∨ ¬((T ∧ r ∧ (r ↔ r)) ∨ (T ∧ r ∧ (r ↔ r)))
ready: no
Rule | logic.propositional.commor |
Location | [1,1] |
¬(r ↔ r) ∨ F ∨ ¬(T ∧ r) ∨ ¬((T ∧ r ∧ (r ↔ r)) ∨ (T ∧ r ∧ (r ↔ r)))
ready: no
Rule | logic.propositional.commor |
Location | [1,1,0,0] |
¬(r ↔ r) ∨ F ∨ ¬((T ∧ r ∧ (r ↔ r)) ∨ (T ∧ r ∧ (r ↔ r))) ∨ ¬(T ∧ r)
ready: no
Rule | logic.propositional.defequiv |
Location | [0,0] |
¬((r ∧ r) ∨ (¬r ∧ ¬r)) ∨ F ∨ ¬((T ∧ r ∧ (r ↔ r)) ∨ (T ∧ r ∧ (r ↔ r))) ∨ ¬(T ∧ r)
ready: no
Rule | logic.propositional.defequiv |
Location | [1,1,0,0,0,1,1] |
¬(r ↔ r) ∨ F ∨ ¬((T ∧ r ∧ ((r ∧ r) ∨ (¬r ∧ ¬r))) ∨ (T ∧ r ∧ (r ↔ r))) ∨ ¬(T ∧ r)
ready: no
Rule | logic.propositional.defequiv |
Location | [1,1,0,0,1,1,1] |
¬(r ↔ r) ∨ F ∨ ¬((T ∧ r ∧ (r ↔ r)) ∨ (T ∧ r ∧ ((r ∧ r) ∨ (¬r ∧ ¬r)))) ∨ ¬(T ∧ r)
ready: no
Rule | logic.propositional.demorganand |
Location | [1,1,1] |
¬(r ↔ r) ∨ F ∨ ¬((T ∧ r ∧ (r ↔ r)) ∨ (T ∧ r ∧ (r ↔ r))) ∨ ¬T ∨ ¬r
ready: no
Rule | logic.propositional.demorganor |
Location | [1,1,0] |
¬(r ↔ r) ∨ F ∨ (¬(T ∧ r ∧ (r ↔ r)) ∧ ¬(T ∧ r ∧ (r ↔ r))) ∨ ¬(T ∧ r)
ready: no
Rule | logic.propositional.falsezeroor |
Location | [] |
¬(r ↔ r) ∨ ¬((T ∧ r ∧ (r ↔ r)) ∨ (T ∧ r ∧ (r ↔ r))) ∨ ¬(T ∧ r)
ready: no
Rule | logic.propositional.falsezeroor |
Location | [] |
¬(r ↔ r) ∨ ¬((T ∧ r ∧ (r ↔ r)) ∨ (T ∧ r ∧ (r ↔ r))) ∨ ¬(T ∧ r)
ready: no
Rule | logic.propositional.falsezeroor |
Location | [] |
¬(r ↔ r) ∨ ¬((T ∧ r ∧ (r ↔ r)) ∨ (T ∧ r ∧ (r ↔ r))) ∨ ¬(T ∧ r)
ready: no
Rule | logic.propositional.falsezeroor |
Location | [1] |
¬(r ↔ r) ∨ ¬((T ∧ r ∧ (r ↔ r)) ∨ (T ∧ r ∧ (r ↔ r))) ∨ ¬(T ∧ r)
ready: no
Rule | logic.propositional.falsezeroor |
Location | [1] |
¬(r ↔ r) ∨ ¬((T ∧ r ∧ (r ↔ r)) ∨ (T ∧ r ∧ (r ↔ r))) ∨ ¬(T ∧ r)
ready: no
Rule | logic.propositional.genoroverand |
Location | [1,1,0,0] |
¬(r ↔ r) ∨ F ∨ ¬(((T ∧ r ∧ (r ↔ r)) ∨ T) ∧ ((T ∧ r ∧ (r ↔ r)) ∨ r) ∧ ((T ∧ r ∧ (r ↔ r)) ∨ (r ↔ r))) ∨ ¬(T ∧ r)
ready: no
Rule | logic.propositional.genoroverand |
Location | [1,1,0,0] |
¬(r ↔ r) ∨ F ∨ ¬((T ∨ (T ∧ r ∧ (r ↔ r))) ∧ (r ∨ (T ∧ r ∧ (r ↔ r))) ∧ ((r ↔ r) ∨ (T ∧ r ∧ (r ↔ r)))) ∨ ¬(T ∧ r)
ready: no
Rule | logic.propositional.idempor |
Location | [1,1,0,0] |
¬(r ↔ r) ∨ F ∨ ¬(T ∧ r ∧ (r ↔ r)) ∨ ¬(T ∧ r)
ready: no
Rule | logic.propositional.invandoveror |
Location | [1,1,0,0] |
¬(r ↔ r) ∨ F ∨ ¬(T ∧ ((r ∧ (r ↔ r)) ∨ (r ∧ (r ↔ r)))) ∨ ¬(T ∧ r)
ready: no
Rule | logic.propositional.invdemorganand |
Location | [1,1] |
¬(r ↔ r) ∨ F ∨ ¬(((T ∧ r ∧ (r ↔ r)) ∨ (T ∧ r ∧ (r ↔ r))) ∧ T ∧ r)
ready: no
Rule | logic.propositional.oroverand |
Location | [1,1,0,0] |
¬(r ↔ r) ∨ F ∨ ¬(((T ∧ r ∧ (r ↔ r)) ∨ T) ∧ ((T ∧ r ∧ (r ↔ r)) ∨ (r ∧ (r ↔ r)))) ∨ ¬(T ∧ r)
ready: no
Rule | logic.propositional.oroverand |
Location | [1,1,0,0] |
¬(r ↔ r) ∨ F ∨ ¬(((T ∧ r ∧ (r ↔ r)) ∨ (T ∧ r)) ∧ ((T ∧ r ∧ (r ↔ r)) ∨ (r ↔ r))) ∨ ¬(T ∧ r)
ready: no
Rule | logic.propositional.oroverand |
Location | [1,1,0,0] |
¬(r ↔ r) ∨ F ∨ ¬((T ∨ (T ∧ r ∧ (r ↔ r))) ∧ ((r ∧ (r ↔ r)) ∨ (T ∧ r ∧ (r ↔ r)))) ∨ ¬(T ∧ r)
ready: no
Rule | logic.propositional.oroverand |
Location | [1,1,0,0] |
¬(r ↔ r) ∨ F ∨ ¬(((T ∧ r) ∨ (T ∧ r ∧ (r ↔ r))) ∧ ((r ↔ r) ∨ (T ∧ r ∧ (r ↔ r)))) ∨ ¬(T ∧ r)
ready: no
Rule | logic.propositional.truezeroand |
Location | [1,1,0,0,0] |
¬(r ↔ r) ∨ F ∨ ¬((r ∧ (r ↔ r)) ∨ (T ∧ r ∧ (r ↔ r))) ∨ ¬(T ∧ r)
ready: no
Rule | logic.propositional.truezeroand |
Location | [1,1,0,0,0] |
¬(r ↔ r) ∨ F ∨ ¬((r ∧ (r ↔ r)) ∨ (T ∧ r ∧ (r ↔ r))) ∨ ¬(T ∧ r)
ready: no
Rule | logic.propositional.truezeroand |
Location | [1,1,0,0,1] |
¬(r ↔ r) ∨ F ∨ ¬((T ∧ r ∧ (r ↔ r)) ∨ (r ∧ (r ↔ r))) ∨ ¬(T ∧ r)
ready: no
Rule | logic.propositional.truezeroand |
Location | [1,1,0,0,1] |
¬(r ↔ r) ∨ F ∨ ¬((T ∧ r ∧ (r ↔ r)) ∨ (r ∧ (r ↔ r))) ∨ ¬(T ∧ r)
ready: no
Rule | logic.propositional.truezeroand |
Location | [1,1,1,0] |
¬(r ↔ r) ∨ F ∨ ¬((T ∧ r ∧ (r ↔ r)) ∨ (T ∧ r ∧ (r ↔ r))) ∨ ¬r
ready: no
Rule | notfalse.inv |
Location | [1,1,0,0,0,0] |
¬(r ↔ r) ∨ F ∨ ¬((¬F ∧ r ∧ (r ↔ r)) ∨ (T ∧ r ∧ (r ↔ r))) ∨ ¬(T ∧ r)
ready: no
Rule | notfalse.inv |
Location | [1,1,0,0,1,0] |
¬(r ↔ r) ∨ F ∨ ¬((T ∧ r ∧ (r ↔ r)) ∨ (¬F ∧ r ∧ (r ↔ r))) ∨ ¬(T ∧ r)
ready: no
Rule | notfalse.inv |
Location | [1,1,1,0,0] |
¬(r ↔ r) ∨ F ∨ ¬((T ∧ r ∧ (r ↔ r)) ∨ (T ∧ r ∧ (r ↔ r))) ∨ ¬(¬F ∧ r)
ready: no
¬¬(¬(r ↔ r) ∨ F ∨ ¬((T ∧ r ∧ (r ↔ r)) ∨ (T ∧ r ∧ (r ↔ r))) ∨ ¬(T ∧ r))
ready: no
Rule | notnot.inv |
Location | [0] |
¬¬¬(r ↔ r) ∨ F ∨ ¬((T ∧ r ∧ (r ↔ r)) ∨ (T ∧ r ∧ (r ↔ r))) ∨ ¬(T ∧ r)
ready: no
Rule | notnot.inv |
Location | [0,0] |
¬¬¬(r ↔ r) ∨ F ∨ ¬((T ∧ r ∧ (r ↔ r)) ∨ (T ∧ r ∧ (r ↔ r))) ∨ ¬(T ∧ r)
ready: no
Rule | notnot.inv |
Location | [0,0,0] |
¬(¬¬r ↔ r) ∨ F ∨ ¬((T ∧ r ∧ (r ↔ r)) ∨ (T ∧ r ∧ (r ↔ r))) ∨ ¬(T ∧ r)
ready: no
Rule | notnot.inv |
Location | [0,0,1] |
¬(r ↔ ¬¬r) ∨ F ∨ ¬((T ∧ r ∧ (r ↔ r)) ∨ (T ∧ r ∧ (r ↔ r))) ∨ ¬(T ∧ r)
ready: no
Rule | notnot.inv |
Location | [1] |
¬(r ↔ r) ∨ ¬¬(F ∨ ¬((T ∧ r ∧ (r ↔ r)) ∨ (T ∧ r ∧ (r ↔ r))) ∨ ¬(T ∧ r))
ready: no
Rule | notnot.inv |
Location | [1,0] |
¬(r ↔ r) ∨ ¬¬F ∨ ¬((T ∧ r ∧ (r ↔ r)) ∨ (T ∧ r ∧ (r ↔ r))) ∨ ¬(T ∧ r)
ready: no
Rule | notnot.inv |
Location | [1,1] |
¬(r ↔ r) ∨ F ∨ ¬¬(¬((T ∧ r ∧ (r ↔ r)) ∨ (T ∧ r ∧ (r ↔ r))) ∨ ¬(T ∧ r))
ready: no
Rule | notnot.inv |
Location | [1,1,0] |
¬(r ↔ r) ∨ F ∨ ¬¬¬((T ∧ r ∧ (r ↔ r)) ∨ (T ∧ r ∧ (r ↔ r))) ∨ ¬(T ∧ r)
ready: no
Rule | notnot.inv |
Location | [1,1,0,0] |
¬(r ↔ r) ∨ F ∨ ¬¬¬((T ∧ r ∧ (r ↔ r)) ∨ (T ∧ r ∧ (r ↔ r))) ∨ ¬(T ∧ r)
ready: no
Rule | notnot.inv |
Location | [1,1,0,0,0] |
¬(r ↔ r) ∨ F ∨ ¬(¬¬(T ∧ r ∧ (r ↔ r)) ∨ (T ∧ r ∧ (r ↔ r))) ∨ ¬(T ∧ r)
ready: no
Rule | notnot.inv |
Location | [1,1,0,0,0,0] |
¬(r ↔ r) ∨ F ∨ ¬((¬¬T ∧ r ∧ (r ↔ r)) ∨ (T ∧ r ∧ (r ↔ r))) ∨ ¬(T ∧ r)
ready: no
Rule | notnot.inv |
Location | [1,1,0,0,0,1] |
¬(r ↔ r) ∨ F ∨ ¬((T ∧ ¬¬(r ∧ (r ↔ r))) ∨ (T ∧ r ∧ (r ↔ r))) ∨ ¬(T ∧ r)
ready: no
Rule | notnot.inv |
Location | [1,1,0,0,0,1,0] |
¬(r ↔ r) ∨ F ∨ ¬((T ∧ ¬¬r ∧ (r ↔ r)) ∨ (T ∧ r ∧ (r ↔ r))) ∨ ¬(T ∧ r)
ready: no
Rule | notnot.inv |
Location | [1,1,0,0,0,1,1] |
¬(r ↔ r) ∨ F ∨ ¬((T ∧ r ∧ ¬¬(r ↔ r)) ∨ (T ∧ r ∧ (r ↔ r))) ∨ ¬(T ∧ r)
ready: no
Rule | notnot.inv |
Location | [1,1,0,0,0,1,1,0] |
¬(r ↔ r) ∨ F ∨ ¬((T ∧ r ∧ (¬¬r ↔ r)) ∨ (T ∧ r ∧ (r ↔ r))) ∨ ¬(T ∧ r)
ready: no
Rule | notnot.inv |
Location | [1,1,0,0,0,1,1,1] |
¬(r ↔ r) ∨ F ∨ ¬((T ∧ r ∧ (r ↔ ¬¬r)) ∨ (T ∧ r ∧ (r ↔ r))) ∨ ¬(T ∧ r)
ready: no
Rule | notnot.inv |
Location | [1,1,0,0,1] |
¬(r ↔ r) ∨ F ∨ ¬((T ∧ r ∧ (r ↔ r)) ∨ ¬¬(T ∧ r ∧ (r ↔ r))) ∨ ¬(T ∧ r)
ready: no
Rule | notnot.inv |
Location | [1,1,0,0,1,0] |
¬(r ↔ r) ∨ F ∨ ¬((T ∧ r ∧ (r ↔ r)) ∨ (¬¬T ∧ r ∧ (r ↔ r))) ∨ ¬(T ∧ r)
ready: no
Rule | notnot.inv |
Location | [1,1,0,0,1,1] |
¬(r ↔ r) ∨ F ∨ ¬((T ∧ r ∧ (r ↔ r)) ∨ (T ∧ ¬¬(r ∧ (r ↔ r)))) ∨ ¬(T ∧ r)
ready: no
Rule | notnot.inv |
Location | [1,1,0,0,1,1,0] |
¬(r ↔ r) ∨ F ∨ ¬((T ∧ r ∧ (r ↔ r)) ∨ (T ∧ ¬¬r ∧ (r ↔ r))) ∨ ¬(T ∧ r)
ready: no
Rule | notnot.inv |
Location | [1,1,0,0,1,1,1] |
¬(r ↔ r) ∨ F ∨ ¬((T ∧ r ∧ (r ↔ r)) ∨ (T ∧ r ∧ ¬¬(r ↔ r))) ∨ ¬(T ∧ r)
ready: no
Rule | notnot.inv |
Location | [1,1,0,0,1,1,1,0] |
¬(r ↔ r) ∨ F ∨ ¬((T ∧ r ∧ (r ↔ r)) ∨ (T ∧ r ∧ (¬¬r ↔ r))) ∨ ¬(T ∧ r)
ready: no
Rule | notnot.inv |
Location | [1,1,0,0,1,1,1,1] |
¬(r ↔ r) ∨ F ∨ ¬((T ∧ r ∧ (r ↔ r)) ∨ (T ∧ r ∧ (r ↔ ¬¬r))) ∨ ¬(T ∧ r)
ready: no
Rule | notnot.inv |
Location | [1,1,1] |
¬(r ↔ r) ∨ F ∨ ¬((T ∧ r ∧ (r ↔ r)) ∨ (T ∧ r ∧ (r ↔ r))) ∨ ¬¬¬(T ∧ r)
ready: no
Rule | notnot.inv |
Location | [1,1,1,0] |
¬(r ↔ r) ∨ F ∨ ¬((T ∧ r ∧ (r ↔ r)) ∨ (T ∧ r ∧ (r ↔ r))) ∨ ¬¬¬(T ∧ r)
ready: no
Rule | notnot.inv |
Location | [1,1,1,0,0] |
¬(r ↔ r) ∨ F ∨ ¬((T ∧ r ∧ (r ↔ r)) ∨ (T ∧ r ∧ (r ↔ r))) ∨ ¬(¬¬T ∧ r)
ready: no
Rule | notnot.inv |
Location | [1,1,1,0,1] |
¬(r ↔ r) ∨ F ∨ ¬((T ∧ r ∧ (r ↔ r)) ∨ (T ∧ r ∧ (r ↔ r))) ∨ ¬(T ∧ ¬¬r)
ready: no
Rule | nottrue.inv |
Location | [1,0] |
¬(r ↔ r) ∨ ¬T ∨ ¬((T ∧ r ∧ (r ↔ r)) ∨ (T ∧ r ∧ (r ↔ r))) ∨ ¬(T ∧ r)
ready: no
Rule | truezeroand.inv |
Location | [] |
T ∧ (¬(r ↔ r) ∨ F ∨ ¬((T ∧ r ∧ (r ↔ r)) ∨ (T ∧ r ∧ (r ↔ r))) ∨ ¬(T ∧ r))
ready: no
Rule | truezeroand.inv |
Location | [] |
(¬(r ↔ r) ∨ F ∨ ¬((T ∧ r ∧ (r ↔ r)) ∨ (T ∧ r ∧ (r ↔ r))) ∨ ¬(T ∧ r)) ∧ T
ready: no
Rule | truezeroand.inv |
Location | [0] |
(T ∧ ¬(r ↔ r)) ∨ F ∨ ¬((T ∧ r ∧ (r ↔ r)) ∨ (T ∧ r ∧ (r ↔ r))) ∨ ¬(T ∧ r)
ready: no
Rule | truezeroand.inv |
Location | [0] |
(¬(r ↔ r) ∧ T) ∨ F ∨ ¬((T ∧ r ∧ (r ↔ r)) ∨ (T ∧ r ∧ (r ↔ r))) ∨ ¬(T ∧ r)
ready: no
Rule | truezeroand.inv |
Location | [0,0] |
¬(T ∧ (r ↔ r)) ∨ F ∨ ¬((T ∧ r ∧ (r ↔ r)) ∨ (T ∧ r ∧ (r ↔ r))) ∨ ¬(T ∧ r)
ready: no
Rule | truezeroand.inv |
Location | [0,0] |
¬((r ↔ r) ∧ T) ∨ F ∨ ¬((T ∧ r ∧ (r ↔ r)) ∨ (T ∧ r ∧ (r ↔ r))) ∨ ¬(T ∧ r)
ready: no
Rule | truezeroand.inv |
Location | [0,0,0] |
¬((T ∧ r) ↔ r) ∨ F ∨ ¬((T ∧ r ∧ (r ↔ r)) ∨ (T ∧ r ∧ (r ↔ r))) ∨ ¬(T ∧ r)
ready: no
Rule | truezeroand.inv |
Location | [0,0,0] |
¬((r ∧ T) ↔ r) ∨ F ∨ ¬((T ∧ r ∧ (r ↔ r)) ∨ (T ∧ r ∧ (r ↔ r))) ∨ ¬(T ∧ r)
ready: no
Rule | truezeroand.inv |
Location | [0,0,1] |
¬(r ↔ (T ∧ r)) ∨ F ∨ ¬((T ∧ r ∧ (r ↔ r)) ∨ (T ∧ r ∧ (r ↔ r))) ∨ ¬(T ∧ r)
ready: no
Rule | truezeroand.inv |
Location | [0,0,1] |
¬(r ↔ (r ∧ T)) ∨ F ∨ ¬((T ∧ r ∧ (r ↔ r)) ∨ (T ∧ r ∧ (r ↔ r))) ∨ ¬(T ∧ r)
ready: no
Rule | truezeroand.inv |
Location | [1] |
¬(r ↔ r) ∨ (T ∧ (F ∨ ¬((T ∧ r ∧ (r ↔ r)) ∨ (T ∧ r ∧ (r ↔ r))) ∨ ¬(T ∧ r)))
ready: no
Rule | truezeroand.inv |
Location | [1] |
¬(r ↔ r) ∨ ((F ∨ ¬((T ∧ r ∧ (r ↔ r)) ∨ (T ∧ r ∧ (r ↔ r))) ∨ ¬(T ∧ r)) ∧ T)
ready: no
Rule | truezeroand.inv |
Location | [1,0] |
¬(r ↔ r) ∨ (T ∧ F) ∨ ¬((T ∧ r ∧ (r ↔ r)) ∨ (T ∧ r ∧ (r ↔ r))) ∨ ¬(T ∧ r)
ready: no
Rule | truezeroand.inv |
Location | [1,0] |
¬(r ↔ r) ∨ (F ∧ T) ∨ ¬((T ∧ r ∧ (r ↔ r)) ∨ (T ∧ r ∧ (r ↔ r))) ∨ ¬(T ∧ r)
ready: no
Rule | truezeroand.inv |
Location | [1,1] |
¬(r ↔ r) ∨ F ∨ (T ∧ (¬((T ∧ r ∧ (r ↔ r)) ∨ (T ∧ r ∧ (r ↔ r))) ∨ ¬(T ∧ r)))
ready: no
Rule | truezeroand.inv |
Location | [1,1] |
¬(r ↔ r) ∨ F ∨ ((¬((T ∧ r ∧ (r ↔ r)) ∨ (T ∧ r ∧ (r ↔ r))) ∨ ¬(T ∧ r)) ∧ T)
ready: no
Rule | truezeroand.inv |
Location | [1,1,0] |
¬(r ↔ r) ∨ F ∨ (T ∧ ¬((T ∧ r ∧ (r ↔ r)) ∨ (T ∧ r ∧ (r ↔ r)))) ∨ ¬(T ∧ r)
ready: no
Rule | truezeroand.inv |
Location | [1,1,0] |
¬(r ↔ r) ∨ F ∨ (¬((T ∧ r ∧ (r ↔ r)) ∨ (T ∧ r ∧ (r ↔ r))) ∧ T) ∨ ¬(T ∧ r)
ready: no
Rule | truezeroand.inv |
Location | [1,1,0,0] |
¬(r ↔ r) ∨ F ∨ ¬(T ∧ ((T ∧ r ∧ (r ↔ r)) ∨ (T ∧ r ∧ (r ↔ r)))) ∨ ¬(T ∧ r)
ready: no
Rule | truezeroand.inv |
Location | [1,1,0,0] |
¬(r ↔ r) ∨ F ∨ ¬(((T ∧ r ∧ (r ↔ r)) ∨ (T ∧ r ∧ (r ↔ r))) ∧ T) ∨ ¬(T ∧ r)
ready: no
Rule | truezeroand.inv |
Location | [1,1,0,0,0] |
¬(r ↔ r) ∨ F ∨ ¬((T ∧ T ∧ r ∧ (r ↔ r)) ∨ (T ∧ r ∧ (r ↔ r))) ∨ ¬(T ∧ r)
ready: no
Rule | truezeroand.inv |
Location | [1,1,0,0,0] |
¬(r ↔ r) ∨ F ∨ ¬((T ∧ r ∧ (r ↔ r) ∧ T) ∨ (T ∧ r ∧ (r ↔ r))) ∨ ¬(T ∧ r)
ready: no
Rule | truezeroand.inv |
Location | [1,1,0,0,0,0] |
¬(r ↔ r) ∨ F ∨ ¬((T ∧ T ∧ r ∧ (r ↔ r)) ∨ (T ∧ r ∧ (r ↔ r))) ∨ ¬(T ∧ r)
ready: no
Rule | truezeroand.inv |
Location | [1,1,0,0,0,0] |
¬(r ↔ r) ∨ F ∨ ¬((T ∧ T ∧ r ∧ (r ↔ r)) ∨ (T ∧ r ∧ (r ↔ r))) ∨ ¬(T ∧ r)
ready: no
Rule | truezeroand.inv |
Location | [1,1,0,0,0,1] |
¬(r ↔ r) ∨ F ∨ ¬((T ∧ T ∧ r ∧ (r ↔ r)) ∨ (T ∧ r ∧ (r ↔ r))) ∨ ¬(T ∧ r)
ready: no
Rule | truezeroand.inv |
Location | [1,1,0,0,0,1] |
¬(r ↔ r) ∨ F ∨ ¬((T ∧ r ∧ (r ↔ r) ∧ T) ∨ (T ∧ r ∧ (r ↔ r))) ∨ ¬(T ∧ r)
ready: no
Rule | truezeroand.inv |
Location | [1,1,0,0,0,1,0] |
¬(r ↔ r) ∨ F ∨ ¬((T ∧ T ∧ r ∧ (r ↔ r)) ∨ (T ∧ r ∧ (r ↔ r))) ∨ ¬(T ∧ r)
ready: no
Rule | truezeroand.inv |
Location | [1,1,0,0,0,1,0] |
¬(r ↔ r) ∨ F ∨ ¬((T ∧ r ∧ T ∧ (r ↔ r)) ∨ (T ∧ r ∧ (r ↔ r))) ∨ ¬(T ∧ r)
ready: no
Rule | truezeroand.inv |
Location | [1,1,0,0,0,1,1] |
¬(r ↔ r) ∨ F ∨ ¬((T ∧ r ∧ T ∧ (r ↔ r)) ∨ (T ∧ r ∧ (r ↔ r))) ∨ ¬(T ∧ r)
ready: no
Rule | truezeroand.inv |
Location | [1,1,0,0,0,1,1] |
¬(r ↔ r) ∨ F ∨ ¬((T ∧ r ∧ (r ↔ r) ∧ T) ∨ (T ∧ r ∧ (r ↔ r))) ∨ ¬(T ∧ r)
ready: no
Rule | truezeroand.inv |
Location | [1,1,0,0,0,1,1,0] |
¬(r ↔ r) ∨ F ∨ ¬((T ∧ r ∧ ((T ∧ r) ↔ r)) ∨ (T ∧ r ∧ (r ↔ r))) ∨ ¬(T ∧ r)
ready: no
Rule | truezeroand.inv |
Location | [1,1,0,0,0,1,1,0] |
¬(r ↔ r) ∨ F ∨ ¬((T ∧ r ∧ ((r ∧ T) ↔ r)) ∨ (T ∧ r ∧ (r ↔ r))) ∨ ¬(T ∧ r)
ready: no
Rule | truezeroand.inv |
Location | [1,1,0,0,0,1,1,1] |
¬(r ↔ r) ∨ F ∨ ¬((T ∧ r ∧ (r ↔ (T ∧ r))) ∨ (T ∧ r ∧ (r ↔ r))) ∨ ¬(T ∧ r)
ready: no
Rule | truezeroand.inv |
Location | [1,1,0,0,0,1,1,1] |
¬(r ↔ r) ∨ F ∨ ¬((T ∧ r ∧ (r ↔ (r ∧ T))) ∨ (T ∧ r ∧ (r ↔ r))) ∨ ¬(T ∧ r)
ready: no
Rule | truezeroand.inv |
Location | [1,1,0,0,1] |
¬(r ↔ r) ∨ F ∨ ¬((T ∧ r ∧ (r ↔ r)) ∨ (T ∧ T ∧ r ∧ (r ↔ r))) ∨ ¬(T ∧ r)
ready: no
Rule | truezeroand.inv |
Location | [1,1,0,0,1] |
¬(r ↔ r) ∨ F ∨ ¬((T ∧ r ∧ (r ↔ r)) ∨ (T ∧ r ∧ (r ↔ r) ∧ T)) ∨ ¬(T ∧ r)
ready: no
Rule | truezeroand.inv |
Location | [1,1,0,0,1,0] |
¬(r ↔ r) ∨ F ∨ ¬((T ∧ r ∧ (r ↔ r)) ∨ (T ∧ T ∧ r ∧ (r ↔ r))) ∨ ¬(T ∧ r)
ready: no
Rule | truezeroand.inv |
Location | [1,1,0,0,1,0] |
¬(r ↔ r) ∨ F ∨ ¬((T ∧ r ∧ (r ↔ r)) ∨ (T ∧ T ∧ r ∧ (r ↔ r))) ∨ ¬(T ∧ r)
ready: no
Rule | truezeroand.inv |
Location | [1,1,0,0,1,1] |
¬(r ↔ r) ∨ F ∨ ¬((T ∧ r ∧ (r ↔ r)) ∨ (T ∧ T ∧ r ∧ (r ↔ r))) ∨ ¬(T ∧ r)
ready: no
Rule | truezeroand.inv |
Location | [1,1,0,0,1,1] |
¬(r ↔ r) ∨ F ∨ ¬((T ∧ r ∧ (r ↔ r)) ∨ (T ∧ r ∧ (r ↔ r) ∧ T)) ∨ ¬(T ∧ r)
ready: no
Rule | truezeroand.inv |
Location | [1,1,0,0,1,1,0] |
¬(r ↔ r) ∨ F ∨ ¬((T ∧ r ∧ (r ↔ r)) ∨ (T ∧ T ∧ r ∧ (r ↔ r))) ∨ ¬(T ∧ r)
ready: no
Rule | truezeroand.inv |
Location | [1,1,0,0,1,1,0] |
¬(r ↔ r) ∨ F ∨ ¬((T ∧ r ∧ (r ↔ r)) ∨ (T ∧ r ∧ T ∧ (r ↔ r))) ∨ ¬(T ∧ r)
ready: no
Rule | truezeroand.inv |
Location | [1,1,0,0,1,1,1] |
¬(r ↔ r) ∨ F ∨ ¬((T ∧ r ∧ (r ↔ r)) ∨ (T ∧ r ∧ T ∧ (r ↔ r))) ∨ ¬(T ∧ r)
ready: no
Rule | truezeroand.inv |
Location | [1,1,0,0,1,1,1] |
¬(r ↔ r) ∨ F ∨ ¬((T ∧ r ∧ (r ↔ r)) ∨ (T ∧ r ∧ (r ↔ r) ∧ T)) ∨ ¬(T ∧ r)
ready: no
Rule | truezeroand.inv |
Location | [1,1,0,0,1,1,1,0] |
¬(r ↔ r) ∨ F ∨ ¬((T ∧ r ∧ (r ↔ r)) ∨ (T ∧ r ∧ ((T ∧ r) ↔ r))) ∨ ¬(T ∧ r)
ready: no
Rule | truezeroand.inv |
Location | [1,1,0,0,1,1,1,0] |
¬(r ↔ r) ∨ F ∨ ¬((T ∧ r ∧ (r ↔ r)) ∨ (T ∧ r ∧ ((r ∧ T) ↔ r))) ∨ ¬(T ∧ r)
ready: no
Rule | truezeroand.inv |
Location | [1,1,0,0,1,1,1,1] |
¬(r ↔ r) ∨ F ∨ ¬((T ∧ r ∧ (r ↔ r)) ∨ (T ∧ r ∧ (r ↔ (T ∧ r)))) ∨ ¬(T ∧ r)
ready: no
Rule | truezeroand.inv |
Location | [1,1,0,0,1,1,1,1] |
¬(r ↔ r) ∨ F ∨ ¬((T ∧ r ∧ (r ↔ r)) ∨ (T ∧ r ∧ (r ↔ (r ∧ T)))) ∨ ¬(T ∧ r)
ready: no
Rule | truezeroand.inv |
Location | [1,1,1] |
¬(r ↔ r) ∨ F ∨ ¬((T ∧ r ∧ (r ↔ r)) ∨ (T ∧ r ∧ (r ↔ r))) ∨ (T ∧ ¬(T ∧ r))
ready: no
Rule | truezeroand.inv |
Location | [1,1,1] |
¬(r ↔ r) ∨ F ∨ ¬((T ∧ r ∧ (r ↔ r)) ∨ (T ∧ r ∧ (r ↔ r))) ∨ (¬(T ∧ r) ∧ T)
ready: no
Rule | truezeroand.inv |
Location | [1,1,1,0] |
¬(r ↔ r) ∨ F ∨ ¬((T ∧ r ∧ (r ↔ r)) ∨ (T ∧ r ∧ (r ↔ r))) ∨ ¬(T ∧ T ∧ r)
ready: no
Rule | truezeroand.inv |
Location | [1,1,1,0] |
¬(r ↔ r) ∨ F ∨ ¬((T ∧ r ∧ (r ↔ r)) ∨ (T ∧ r ∧ (r ↔ r))) ∨ ¬(T ∧ r ∧ T)
ready: no
Rule | truezeroand.inv |
Location | [1,1,1,0,0] |
¬(r ↔ r) ∨ F ∨ ¬((T ∧ r ∧ (r ↔ r)) ∨ (T ∧ r ∧ (r ↔ r))) ∨ ¬(T ∧ T ∧ r)
ready: no
Rule | truezeroand.inv |
Location | [1,1,1,0,0] |
¬(r ↔ r) ∨ F ∨ ¬((T ∧ r ∧ (r ↔ r)) ∨ (T ∧ r ∧ (r ↔ r))) ∨ ¬(T ∧ T ∧ r)
ready: no
Rule | truezeroand.inv |
Location | [1,1,1,0,1] |
¬(r ↔ r) ∨ F ∨ ¬((T ∧ r ∧ (r ↔ r)) ∨ (T ∧ r ∧ (r ↔ r))) ∨ ¬(T ∧ T ∧ r)
ready: no
Rule | truezeroand.inv |
Location | [1,1,1,0,1] |
¬(r ↔ r) ∨ F ∨ ¬((T ∧ r ∧ (r ↔ r)) ∨ (T ∧ r ∧ (r ↔ r))) ∨ ¬(T ∧ r ∧ T)
ready: no