def proof(fstr):
fstr = "fof(ax,axiom, (" + fstr + ") )."
print("fof", fstr)
formula = p.parse_string(fstr)[0]['formula']
formula = o.transform(formula.negate())
return r.proof(formula)
def proof(fstr):
fstr = "fof(ax,axiom, (" + fstr + ") )."
print("fof",fstr)
formula = p.parse_string(fstr)[0]['formula']
formula = o.transform(formula.negate())
return r.proof(formula)
fof_data = from_string(string)
print("input formula:",fof_data)
conjectures = []
axioms = []
for formula in fof_data:
if formula['type'] in ('axiom', 'theorem'):
formula = o.transform(formula['formula'])
axioms.append(formula)
elif formula['type'] in ('conjecture'):
f = formula['formula'].negate()
f = o.transform(f)
conjectures.append(f)
print('axioms: ', axioms)
print('conjectures: ', conjectures)
for conjecture in conjectures:
print("working on: ", conjecture)
stuff = []
stuff.append(conjecture)
stuff += axioms
print(type(stuff))
result = r.proof(stuff)
if result:
print("formula is theorem")
else:
stuff[0] = o.transform(conjecture.negate())
if r.proof(stuff):
print("formula is counter theorem")
else:
print("Unable")
def proof(formula):
formula = o.transform(formula.negate())
return r.proof([formula])
fof_data = from_string(string)
print("input formula:", fof_data)
conjectures = []
axioms = []
for formula in fof_data:
if formula['type'] in ('axiom', 'theorem'):
formula = o.transform(formula['formula'])
axioms.append(formula)
elif formula['type'] in ('conjecture'):
f = formula['formula'].negate()
f = o.transform(f)
conjectures.append(f)
print('axioms: ', axioms)
print('conjectures: ', conjectures)
for conjecture in conjectures:
print("working on: ", conjecture)
stuff = []
stuff.append(conjecture)
stuff += axioms
print(type(stuff))
result = r.proof(stuff)
if result:
print("formula is theorem")
else:
stuff[0] = o.transform(conjecture.negate())
if r.proof(stuff):
print("formula is counter theorem")
else:
print("Unable")
