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An automated theorem prover for first-order logic. For any provable formula, this program is guaranteed to find the proof (eventually). However, as a consequence of the negative answer to Hilbert's Entscheidungsproblem, there are some unprovable formulae that will cause this program to loop forever.

Some notes:

  • The proof steps are shown as sequents.
  • The actual theorem prover is in prover.py. The command-line interface (including the parser) is in main.py. language.py contains boilerplate classes used to represent logical formulae.
  • The system will not accept a lemma unless it can be proven. An axiom is admitted without proof.
  • This is only a pedagogical tool. It is too slow to be used for anything practical.

To get started, run main.py:

$ ./main.py

Terms:

  x               (variable)
  f(term, ...)    (function)

Formulae:

  P(term)        (predicate)
  not P          (complement)
  P or Q         (disjunction)
  P and Q        (conjunction)
  P implies Q    (implication)
  forall x. P    (universal quantification)
  exists x. P    (existential quantification)

Enter formulae at the prompt. The following commands are also available for manipulating axioms:

  axioms              (list axioms)
  lemmas              (list lemmas)
  axiom <formula>     (add an axiom)
  lemma <formula>     (prove and add a lemma)
  remove <formula>    (remove an axiom or lemma)
  reset               (remove all axioms and lemmas)

>

Example session:

> P or not P
0. ⊢ (P ∨ ¬P)
1. ⊢ P, ¬P
2. P ⊢ P
Formula proven: (P ∨ ¬P).

> P and not P
0. ⊢ (P ∧ ¬P)
1. ⊢ P
Formula unprovable: (P ∧ ¬P).

> forall x. P(x) implies (Q(x) implies P(x))
0. ⊢ (∀x. (P(x) → (Q(x) → P(x))))
1. ⊢ (P(v1) → (Q(v1) → P(v1)))
2. P(v1) ⊢ (Q(v1) → P(v1))
3. Q(v1), P(v1) ⊢ P(v1)
Formula proven: (∀x. (P(x) → (Q(x) → P(x)))).

> exists x. (P(x) implies forall y. P(y))
0. ⊢ (∃x. (P(x) → (∀y. P(y))))
1. ⊢ (P(t1) → (∀y. P(y))), (∃x. (P(x) → (∀y. P(y))))
2. P(t1) ⊢ (∀y. P(y)), (∃x. (P(x) → (∀y. P(y))))
3. P(t1) ⊢ (∀y. P(y)), (P(t2) → (∀y. P(y))), (∃x. (P(x) → (∀y. P(y))))
4. P(t1) ⊢ (P(t2) → (∀y. P(y))), (∃x. (P(x) → (∀y. P(y)))), P(v1)
5. P(t1), P(t2) ⊢ (∀y. P(y)), (∃x. (P(x) → (∀y. P(y)))), P(v1)
6. P(t1), P(t2) ⊢ (∀y. P(y)), (P(t3) → (∀y. P(y))), (∃x. (P(x) → (∀y. P(y)))), P(v1)
7. P(t1), P(t2) ⊢ (P(t3) → (∀y. P(y))), P(v2), (∃x. (P(x) → (∀y. P(y)))), P(v1)
8. P(t3), P(t1), P(t2) ⊢ (∀y. P(y)), P(v2), (∃x. (P(x) → (∀y. P(y)))), P(v1)
  t3 = v1
Formula proven: (∃x. (P(x) → (∀y. P(y)))).

> axiom forall x. Equals(x, x)
Axiom added: (∀x. Equals(x, x)).

> axioms
(∀x. Equals(x, x))

> lemma Equals(a, a)
0. (∀x. Equals(x, x)) ⊢ Equals(a, a)
1. Equals(t1, t1), (∀x. Equals(x, x)) ⊢ Equals(a, a)
  t1 = a
Lemma proven: Equals(a, a).

> lemmas
Equals(a, a)

> remove forall x. Equals(x, x)
Axiom removed: (∀x. Equals(x, x)).
This lemma was proven using that axiom and was also removed:
  Equals(a, a)

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