def test_prove_nothing(self):
"""Ensure ``prove()`` doesn't prove non-sequiturs."""
a = language.atom("A")
b = language.atom("B")
t_a = language.sign_formula("T", a)
f_b = language.sign_formula("F", b)
result = main.prove(PC.rules, [t_a, f_b])
expected = (False, [[]], [[t_a, f_b]])
self.assertEqual(result, expected)
def test_prove_explosion(self):
"""Ensure ``prove()`` proves explosion."""
a = language.atom("A")
b = language.atom("B")
t_a = language.sign_formula("T", a)
f_a = language.sign_formula("F", a)
f_b = language.sign_formula("F", b)
result = main.prove(PC.rules, [t_a, f_a, f_b])
expected = (True, [[(t_a, f_a)]], [[t_a, f_a, f_b]])
self.assertEqual(result, expected)
def test_expand_t_conj(self):
"""Ensure ``expand()`` expands true conjunctions."""
a = language.atom("A")
b = language.atom("B")
conj = language.molecule("CONJ", [a, b])
t_conj = language.sign_formula("T", conj)
t_a = language.sign_formula("T", a)
t_b = language.sign_formula("T", b)
branches = [[t_conj]]
result = main.expand(PC.rules, branches)
self.assertEqual(result, [[t_a, t_b]])
def test_expand_right(self):
"""Test the case where ``expand()`` expands only right."""
a = language.atom("A")
t_a = language.sign_formula("T", a)
neg_a = language.molecule("NEG", [a])
f_neg_a = language.sign_formula("F", neg_a)
rules = [{
"input": [
{
"sign": "T",
"formula": {
"operator": None,
"operands": ["A"],
}
},
],
"output": {
"left": [],
"right": [{
"sign": "F",
"formula": {
"operator": "NEG",
"operands": ["A"],
}
}],
},
}]
result = main.prove(rules, [t_a])
expected = (False, [[], []], [[], [f_neg_a]])
self.assertEqual(result, expected)
def test_prove_modus_ponens(self):
"""Ensure ``prove()`` proves modus ponens."""
a = language.atom("A")
b = language.atom("B")
neg_b = language.molecule("NEG", [b])
conj = language.molecule("CONJ", [a, neg_b])
f_conj = language.sign_formula("F", conj)
t_a = language.sign_formula("T", a)
f_a = language.sign_formula("F", a)
t_b = language.sign_formula("T", b)
f_b = language.sign_formula("F", b)
result = main.prove(PC.rules, [t_a, f_conj, f_b])
expected = (True, [[(t_a, f_a)], [(f_b, t_b)]], [[t_a, f_b, f_a],
[t_a, f_b, t_b]])
self.assertEqual(result, expected)
def test_expand_f_neg(self):
"""Ensure ``expand()`` expands false negations."""
a = language.atom("A")
neg_a = language.molecule("NEG", [a])
f_neg_a = language.sign_formula("F", neg_a)
t_a = language.sign_formula("T", a)
branches = [[f_neg_a]]
result = main.expand(PC.rules, branches)
self.assertEqual(result, [[t_a]])
def test_expand_t_neg_mbC(self):
"""Ensure ``expand()`` expands false negations (for mbC)."""
a = language.atom("A")
neg_a = language.molecule("NEG", [a])
ball_a = language.molecule("BALL", [a])
f_a = language.sign_formula("F", a)
t_neg_a = language.sign_formula("T", neg_a)
t_ball_a = language.sign_formula("T", ball_a)
branches = [[t_neg_a, t_ball_a]]
result = main.expand(mbC.rules, branches)
self.assertEqual(result, [[f_a]])
def test_atom(self):
"""Ensure ``atom()`` builds the right representation."""
operand = "dummy-proposition"
result = language.atom(operand)
expected = {"operator": None, "operands": [operand]}
self.assertEqual(result, expected)
def test_sign_formula(self):
"""Ensure ``sign_formula()`` builds the right representation."""
formula = language.atom("dummy-formula")
result = language.sign_formula("T", formula)
expected = {"sign": "T", "formula": formula}
self.assertEqual(result, expected)
