Sample usage for resolution¶
Resolution Theorem Prover¶
>>> from nltk.inference.resolution import *
>>> from nltk.sem import logic
>>> from nltk.sem.logic import *
>>> logic._counter._value = 0
>>> read_expr = logic.Expression.fromstring
>>> P = read_expr('P')
>>> Q = read_expr('Q')
>>> R = read_expr('R')
>>> A = read_expr('A')
>>> B = read_expr('B')
>>> x = read_expr('x')
>>> y = read_expr('y')
>>> z = read_expr('z')
Test most_general_unification()¶
>>> print(most_general_unification(x, x))
{}
>>> print(most_general_unification(A, A))
{}
>>> print(most_general_unification(A, x))
{x: A}
>>> print(most_general_unification(x, A))
{x: A}
>>> print(most_general_unification(x, y))
{x: y}
>>> print(most_general_unification(P(x), P(A)))
{x: A}
>>> print(most_general_unification(P(x,B), P(A,y)))
{x: A, y: B}
>>> print(most_general_unification(P(x,B), P(B,x)))
{x: B}
>>> print(most_general_unification(P(x,y), P(A,x)))
{x: A, y: x}
>>> print(most_general_unification(P(Q(x)), P(y)))
{y: Q(x)}
Test unify()¶
>>> print(Clause([]).unify(Clause([])))
[]
>>> print(Clause([P(x)]).unify(Clause([-P(A)])))
[{}]
>>> print(Clause([P(A), Q(x)]).unify(Clause([-P(x), R(x)])))
[{R(A), Q(A)}]
>>> print(Clause([P(A), Q(x), R(x,y)]).unify(Clause([-P(x), Q(y)])))
[{Q(y), Q(A), R(A,y)}]
>>> print(Clause([P(A), -Q(y)]).unify(Clause([-P(x), Q(B)])))
[{}]
>>> print(Clause([P(x), Q(x)]).unify(Clause([-P(A), -Q(B)])))
[{-Q(B), Q(A)}, {-P(A), P(B)}]
>>> print(Clause([P(x,x), Q(x), R(x)]).unify(Clause([-P(A,z), -Q(B)])))
[{-Q(B), Q(A), R(A)}, {-P(A,z), R(B), P(B,B)}]
>>> a = clausify(read_expr('P(A)'))
>>> b = clausify(read_expr('A=B'))
>>> print(a[0].unify(b[0]))
[{P(B)}]
Test is_tautology()¶
>>> print(Clause([P(A), -P(A)]).is_tautology())
True
>>> print(Clause([-P(A), P(A)]).is_tautology())
True
>>> print(Clause([P(x), -P(A)]).is_tautology())
False
>>> print(Clause([Q(B), -P(A), P(A)]).is_tautology())
True
>>> print(Clause([-Q(A), P(R(A)), -P(R(A)), Q(x), -R(y)]).is_tautology())
True
>>> print(Clause([P(x), -Q(A)]).is_tautology())
False
Test subsumes()¶
>>> print(Clause([P(A), Q(B)]).subsumes(Clause([P(A), Q(B)])))
True
>>> print(Clause([-P(A)]).subsumes(Clause([P(A)])))
False
>>> print(Clause([P(A), Q(B)]).subsumes(Clause([Q(B), P(A)])))
True
>>> print(Clause([P(A), Q(B)]).subsumes(Clause([Q(B), R(A), P(A)])))
True
>>> print(Clause([P(A), R(A), Q(B)]).subsumes(Clause([Q(B), P(A)])))
False
>>> print(Clause([P(x)]).subsumes(Clause([P(A)])))
True
>>> print(Clause([P(A)]).subsumes(Clause([P(x)])))
True
Test prove()¶
>>> print(ResolutionProverCommand(read_expr('man(x)')).prove())
False
>>> print(ResolutionProverCommand(read_expr('(man(x) -> man(x))')).prove())
True
>>> print(ResolutionProverCommand(read_expr('(man(x) -> --man(x))')).prove())
True
>>> print(ResolutionProverCommand(read_expr('-(man(x) & -man(x))')).prove())
True
>>> print(ResolutionProverCommand(read_expr('(man(x) | -man(x))')).prove())
True
>>> print(ResolutionProverCommand(read_expr('(man(x) -> man(x))')).prove())
True
>>> print(ResolutionProverCommand(read_expr('-(man(x) & -man(x))')).prove())
True
>>> print(ResolutionProverCommand(read_expr('(man(x) | -man(x))')).prove())
True
>>> print(ResolutionProverCommand(read_expr('(man(x) -> man(x))')).prove())
True
>>> print(ResolutionProverCommand(read_expr('(man(x) <-> man(x))')).prove())
True
>>> print(ResolutionProverCommand(read_expr('-(man(x) <-> -man(x))')).prove())
True
>>> print(ResolutionProverCommand(read_expr('all x.man(x)')).prove())
False
>>> print(ResolutionProverCommand(read_expr('-all x.some y.F(x,y) & some x.all y.(-F(x,y))')).prove())
False
>>> print(ResolutionProverCommand(read_expr('some x.all y.sees(x,y)')).prove())
False
>>> p1 = read_expr('all x.(man(x) -> mortal(x))')
>>> p2 = read_expr('man(Socrates)')
>>> c = read_expr('mortal(Socrates)')
>>> ResolutionProverCommand(c, [p1,p2]).prove()
True
>>> p1 = read_expr('all x.(man(x) -> walks(x))')
>>> p2 = read_expr('man(John)')
>>> c = read_expr('some y.walks(y)')
>>> ResolutionProverCommand(c, [p1,p2]).prove()
True
>>> p = read_expr('some e1.some e2.(believe(e1,john,e2) & walk(e2,mary))')
>>> c = read_expr('some e0.walk(e0,mary)')
>>> ResolutionProverCommand(c, [p]).prove()
True
Test proof()¶
>>> p1 = read_expr('all x.(man(x) -> mortal(x))')
>>> p2 = read_expr('man(Socrates)')
>>> c = read_expr('mortal(Socrates)')
>>> logic._counter._value = 0
>>> tp = ResolutionProverCommand(c, [p1,p2])
>>> tp.prove()
True
>>> print(tp.proof())
[1] {-mortal(Socrates)} A
[2] {-man(z2), mortal(z2)} A
[3] {man(Socrates)} A
[4] {-man(Socrates)} (1, 2)
[5] {mortal(Socrates)} (2, 3)
[6] {} (1, 5)
Question Answering¶
One answer
>>> p1 = read_expr('father_of(art,john)')
>>> p2 = read_expr('father_of(bob,kim)')
>>> p3 = read_expr('all x.all y.(father_of(x,y) -> parent_of(x,y))')
>>> c = read_expr('all x.(parent_of(x,john) -> ANSWER(x))')
>>> logic._counter._value = 0
>>> tp = ResolutionProverCommand(None, [p1,p2,p3,c])
>>> sorted(tp.find_answers())
[<ConstantExpression art>]
>>> print(tp.proof())
[1] {father_of(art,john)} A
[2] {father_of(bob,kim)} A
[3] {-father_of(z3,z4), parent_of(z3,z4)} A
[4] {-parent_of(z6,john), ANSWER(z6)} A
[5] {parent_of(art,john)} (1, 3)
[6] {parent_of(bob,kim)} (2, 3)
[7] {ANSWER(z6), -father_of(z6,john)} (3, 4)
[8] {ANSWER(art)} (1, 7)
[9] {ANSWER(art)} (4, 5)
Multiple answers
>>> p1 = read_expr('father_of(art,john)')
>>> p2 = read_expr('mother_of(ann,john)')
>>> p3 = read_expr('all x.all y.(father_of(x,y) -> parent_of(x,y))')
>>> p4 = read_expr('all x.all y.(mother_of(x,y) -> parent_of(x,y))')
>>> c = read_expr('all x.(parent_of(x,john) -> ANSWER(x))')
>>> logic._counter._value = 0
>>> tp = ResolutionProverCommand(None, [p1,p2,p3,p4,c])
>>> sorted(tp.find_answers())
[<ConstantExpression ann>, <ConstantExpression art>]
>>> print(tp.proof())
[ 1] {father_of(art,john)} A
[ 2] {mother_of(ann,john)} A
[ 3] {-father_of(z3,z4), parent_of(z3,z4)} A
[ 4] {-mother_of(z7,z8), parent_of(z7,z8)} A
[ 5] {-parent_of(z10,john), ANSWER(z10)} A
[ 6] {parent_of(art,john)} (1, 3)
[ 7] {parent_of(ann,john)} (2, 4)
[ 8] {ANSWER(z10), -father_of(z10,john)} (3, 5)
[ 9] {ANSWER(art)} (1, 8)
[10] {ANSWER(z10), -mother_of(z10,john)} (4, 5)
[11] {ANSWER(ann)} (2, 10)
[12] {ANSWER(art)} (5, 6)
[13] {ANSWER(ann)} (5, 7)