def test_r_minus():
input_string = 'And(Impl(a,b),Impl(b,a))'
input_term = Parser.create_term(input_string)
loops = Parser.create_loops(input_term)
r_minus = []
Parser.create_r_minus(loops[0], input_term, r_minus)
assert len(r_minus) == 0
def test_buildString():
x = "Or(And(a,b),And(x,y))"
y = Parser()
x = y.create_term(x)
x = y.convert_to_cnf(x)
x = y.build_string(x)
assert x[0] == "a"
def test_parser_hardcore():
p = Parser()
comparator = TermComparator()
for i in range(0, 100):
term = RandomTermGenerator.generate_random_term(6, 10)
term_cnf = p.convert_to_cnf(term)
assert comparator.terms_are_equivalent(term, term_cnf)
def test_replace_implication():
x = "Impl(a,b)"
y = Parser()
x = y.create_term(x)
x = y.replace_implication(x)
assert x.operator == "Or"
assert x.parameters[0].operator == "Not"
assert x.parameters[0].parameters[0].operator == "a"
assert x.parameters[1].operator == "b"
def test_applyDistributiveLaw():
y = Parser()
x = "Or(And(a,b),c)"
x = y.create_term(x)
x = y.apply_distributive_law(x)
assert x.operator == "And"
assert x.parameters[0].operator == "Or"
assert x.parameters[0].parameters[0].operator == "a"
assert x.parameters[0].parameters[1].operator == "c"
x = "Or(c,And(a,b))"
x = y.create_term(x)
x = y.apply_distributive_law(x)
assert x.operator == "And"
assert x.parameters[0].operator == "Or"
assert x.parameters[0].parameters[0].operator == "a"
assert x.parameters[0].parameters[1].operator == "c"
x = "Or(And(a,b),And(Impl(a,b),c))"
x = y.create_term(x)
x = y.apply_distributive_law(x)
assert x.operator == "And"
assert x.parameters[0].operator == "And"
assert x.parameters[0].parameters[0].operator == "Or"
assert x.parameters[0].parameters[1].operator == "Or"
assert x.parameters[1].parameters[0].operator == "Or"
assert x.parameters[1].parameters[1].operator == "Or"
assert x.parameters[0].parameters[0].parameters[0].operator == "a"
assert x.parameters[0].parameters[0].parameters[1].operator == "Impl"
assert x.parameters[0].parameters[1].parameters[0].operator == "a"
assert x.parameters[0].parameters[1].parameters[1].operator == "c"
assert x.parameters[1].parameters[0].parameters[0].operator == "b"
assert x.parameters[1].parameters[0].parameters[1].operator == "Impl"
assert x.parameters[1].parameters[1].parameters[0].operator == "b"
assert x.parameters[1].parameters[1].parameters[1].operator == "c"
def test_isClause():
x = "Not(Or(a,b))"
y = Parser()
x = y.create_term(x)
b = y.is_clause(x)
assert False == b
x = "And(Or(a,b))"
x = y.create_term(x)
b = y.is_clause(x)
assert False == b
x = "Or(Or(a,b),v)"
x = y.create_term(x)
b = y.is_clause(x)
assert True == b
x = "Or(Or(And(a,b)),v)"
x = y.create_term(x)
b = y.is_clause(x)
assert False == b
def test_create_loop():
input_string = 'And(Impl(a,b),Impl(b,a))'
input_term = Parser.create_term(input_string)
loops = Parser.create_loops(input_term)
assert len(loops) == 1
assert loops[0][0].content == 'a'
assert loops[0][1].content == 'b'
assert len(loops[0][0].successors) == 1
assert len(loops[0][1].successors) == 1
assert loops[0][0].successors[0].content == 'b'
assert loops[0][1].successors[0].content == 'a'
#input_string = 'And(Impl(Not(a),b),Impl(b,Not(a)))'
#input_term = Parser.create_term(input_string)
#loops = Parser.create_loops(input_term)
#assert len(loops) == 1
#assert loops[0][0].content == '-a'
#assert loops[0][1].content == 'b'
#assert len(loops[0][0].successors) == 1
#assert len(loops[0][1].successors) == 1
#assert loops[0][0].successors[0].content == 'b'
#assert loops[0][1].successors[0].content == '-a'
input_string = 'And(Impl(Not(a),b),Impl(b,a))'
input_term = Parser.create_term(input_string)
loops = Parser.create_loops(input_term)
assert len(loops) == 0
#input_string = 'And(And(Impl(Not(a),b),Impl(b,Not(a))),Impl(c,Not(a)))'
#input_term = Parser.create_term(input_string)
#loops = Parser.create_loops(input_term)
#assert len(loops) == 1
#assert loops[0][0].content == '-a'
#assert loops[0][1].content == 'b'
#assert len(loops[0][0].successors) == 2
#assert len(loops[0][1].successors) == 1
#assert loops[0][0].successors[0].content == 'b'
#assert loops[0][0].successors[1].content == 'c'
#assert loops[0][1].successors[0].content == '-a'
x = 0
def test_loop_formulas():
input_string = 'And(And(And(And(Impl(Not(a),b),Impl(b,Not(a))),Impl(c,Not(a))),Impl(d,e)),Impl(e,d))'
input_term = Parser.create_term(input_string)
loops = Parser.create_loops(input_term)
r_minus = []
r_minus_2 = []
Parser.create_r_minus(loops[0], input_term, r_minus)
Parser.create_r_minus(loops[1], input_term, r_minus_2)
assert len(r_minus) == 1
loop_formula_1 = Parser.create_loop_formula(r_minus)
expected_loop_formula_1_string = 'Impl(Not(c),Not(Not(a)))'
expected_loop_formula_1 = Parser.create_term(
expected_loop_formula_1_string)
assert TermComparator.get_instance().terms_are_equal(
loop_formula_1, expected_loop_formula_1)
assert len(r_minus_2) == 0
loop_formula_2 = Parser.create_loop_formula(r_minus_2)
expected_loop_formula_2_string = 'BOT'
expected_loop_formula_2 = Parser.create_term(
expected_loop_formula_2_string)
assert TermComparator.get_instance().terms_are_equal(
loop_formula_2, expected_loop_formula_2)
def test_stabilisation():
comparator = TermComparator()
input_string = 'And(And(Impl(Not(a),b),Impl(b,Not(a))),Impl(c,Not(a)))'
input_term = Parser.create_term(input_string)
result = Parser.stabilize_formula(input_term)
expected_output_string = "And(And(And(BiImpl(Not(a),b),BiImpl(Or(b,c),Not(a))),BiImpl(c,BOT)),Impl(Not(c),Not(Not(a))))"
expected_output = Parser.create_term(expected_output_string)
assert comparator.terms_are_equal(result, expected_output)
input_string = 'And(And(And(And(Impl(Not(a),b),Impl(b,Not(a))),Impl(c,Not(a))),Impl(d,Not(a))),Impl(e,b))'
input_term = Parser.create_term(input_string)
result = Parser.stabilize_formula(input_term)
clark_heads = und(biimpl(oder(nicht('a'), 'e'), 'b'), biimpl(oder(oder('b', 'c'), 'd'), nicht('a')))
clark_bodies = und(und(biimpl('c', 'BOT'), biimpl('d', 'BOT')), biimpl('e', 'BOT'))
loops = impl(nicht(oder(oder('c', 'd'), 'e')), und(nicht(nicht('a')), nicht('b')))
expected_output = und(und(clark_heads, clark_bodies), loops)
#assert comparator.terms_are_equivalent(clark_heads, result.parameters[0].parameters[0])
#assert comparator.terms_are_equivalent(clark_bodies, result.parameters[0].parameters[1])
assert comparator.terms_are_equal(loops, result.parameters[1])
#assert comparator.terms_are_equivalent(result, expected_output)
a=1
def _call(self, city):
response = requests.get(f"http://api.openweathermap.org/data/2.5/weather?q={city}&appid={API_KEY}")
if not response.ok:
return "not_found"
parsed = Parser().parse(response.json())#class exctracting needed params and returns a dict
obj = ApiRequests(city=parsed['city'], sky=parsed['sky'],
temperature=parsed['temperature'], pressure=parsed['pressure'],
humidity=parsed['humidity'], windspeed=parsed['windspeed'],
updated=datetime.strptime(parsed['updated'], '%Y-%m-%d %H:%M:%S'))
db.session.add(obj)
db.session.commit()
self.weather = {"city" : parsed['city'], 'sky': parsed['sky'],
'temperature': parsed['temperature'], 'pressure': parsed['pressure'],
'windspeed': parsed['windspeed'],
'humidity': parsed['humidity']}
return parsed
def test_get_all_models():
p = Parser()
y = "a"
p.get_all_models(y)
file = open("allmodels", "r")
content = file.read()
assert "1 0" == content
file.close()
file = open("allmodels", "w+")
file.close()
y = "And(a,b)"
p.get_all_models(y)
file = open("allmodels", "r")
content = file.read()
assert "1 ß 0" == content
file.close()
file = open("allmodels", "w+")
file.close()
import subprocess
from Core.Parser import Parser
#y = "Or(Or(a,b),Or(d,c))"
y = "Or(Not(a),b)"
#y = "a"
#y = "Impl(Or(a,b),c)"
#x = Parser.convert_formula_to_dmacs(y)
z = Parser()
f = "Impl(BOT,a)"
f = "And(BOT,a)"
f = "And(b,Impl(BOT,a))"
f = "And(b,BOT)"
f = "And(And(Impl(a,b),Impl(b,a)),Impl(TOP,a))"
#f = Parser.create_term(f)
f = Parser.convert_formula_to_dmacs(f, True)
x = 1
#if content == prob:
# print("yes")
#else:
#print("no")f
#print(content2)
#print(prob)
#y= Parser.convert_formula_to_dmacs(y)
#print(y)
def buildcmpl(program):
program = Parser.create_term(program)
headtobodies = {}
return program
from Core.Parser import Parser, Term
print(Parser.convert_formula_to_dmacs("And(x,y)"))
#parser = Parser()
megaformel1 = "Or(Impl(Not(a),And(b,Not(a))),And(d,Or(e,f)))"
megaformel1AlsTerm = Parser.create_term(megaformel1)
megaformel1InCnf = Parser.convert_to_cnf(megaformel1AlsTerm)
print(
Parser.convert_formula_to_dmacs(
"Or(Impl(Not(a),And(b,Not(a))),And(d,Or(e,f)))"))
megaformel2a = "Or(Impl(Not(a),And(b,Not(g))),And(d,Or(e,f)))"
megaformel2 = "Impl(And(g,a)," + megaformel2a + ")"
#megaforme21AlsTerm = parser.create_term(megaformel2)
#megaformel1InCnf = parser.convertToCNF(megaforme21AlsTerm)
print(Parser.convert_formula_to_dmacs(megaformel2))
def Aufgabe3b():
input_s = 'And(Impl(Not(a),b),Impl(Not(b),a))'
Parser.get_all_models(input_s, True)
def test_de_Morgan():
x = ("Not(Or(a,b))")
y = Parser()
x = y.create_term(x)
x = y.de_morgan(x)
assert x.operator == "And"
assert x.parameters[0].operator == "Not"
assert x.parameters[1].operator == "Not"
assert x.parameters[0].parameters[0].operator == "a"
assert x.parameters[1].parameters[0].operator == "b"
x = "Not(Not(a))"
x = y.create_term(x)
x = y.de_morgan(x)
assert x.operator == "a"
x = ("Not(And(a,b))")
x = y.create_term(x)
x = y.de_morgan(x)
assert x.operator == "Or"
assert x.parameters[0].operator == "Not"
assert x.parameters[1].operator == "Not"
assert x.parameters[0].parameters[0].operator == "a"
assert x.parameters[1].parameters[0].operator == "b"
x = "Not(Impl(a,b))"
x = y.create_term(x)
assert x.operator == "Not"
x = y.de_morgan(x)
assert x.operator == "Not"
assert x.parameters[0].operator == "Impl"
x = "Not(Not(a))"
x = y.create_term(x)
x = y.de_morgan(x)
assert x.operator == "a"
def test_get_all_models():
input_s = 'And(Impl(Not(a),b),Impl(Not(b),a))'
Parser.get_all_models(input_s, True)
def test_create_term():
p = Parser()
x = "Or(a,b)"
x = p.create_term(x)
assert x.operator == "Or"
assert len(x.parameters) == 2
assert x.parameters[0].operator == "a"
assert x.parameters[1].operator == "b"
n = "Not(f)"
n = p.create_term(n)
assert n.operator == "Not"
assert len(n.parameters) == 1
assert n.parameters[0].operator == "f"
phi = "And(Or(x,b),y)"
phi = p.create_term(phi)
assert phi.operator == "And"
assert len(phi.parameters) == 2
assert phi.parameters[0].operator == "Or"
assert phi.parameters[1].operator == "y"
psi = "BiImpl(Or(x,b),y)"
psi = p.create_term(psi)
assert psi.operator == "BiImpl"
assert len(psi.parameters) == 2
assert psi.parameters[0].operator == "Or"
assert psi.parameters[1].operator == "y"
x = "Impl(Or(a,b),n)"
x = p.create_term(x)
assert x.operator == "Impl"
assert len(x.parameters) == 2
assert x.parameters[0].operator == "Or"
assert x.parameters[1].operator == "n"
x = "Impl(And(a,b),n)"
x = p.create_term(x)
assert len(x.parameters) == 2
assert x.parameters[0].operator == "And"
assert x.parameters[1].operator == "n"
x = "Impl(Not(a),n)"
x = p.create_term(x)
assert len(x.parameters) == 2
assert x.parameters[0].operator == "Not"
assert x.parameters[1].operator == "n"
assert len(x.parameters[0].parameters) == 1
x = "Not(Or(a,n))"
x = p.create_term(x)
assert x.parameters[0].operator == "Or"
assert x.operator == "Not"
x = "Not(And(a,n))"
x = p.create_term(x)
assert x.parameters[0].operator == "And"
assert x.operator == "Not"
x = "Not(Impl(a,n))"
x = p.create_term(x)
assert x.parameters[0].operator == "Impl"
assert x.operator == "Not"
x = "Or(And(a,b),And(x,y))"
x = p.create_term(x)
assert x.operator == "Or"
assert x.parameters[0].operator == "And"
assert x.parameters[1].operator == "And"
x = "Or(And(Not(a),b),And(x,y))"
x = p.create_term(x)
assert x.operator == "Or"
assert x.parameters[0].operator == "And"
assert x.parameters[1].operator == "And"
def test_convertToCNF():
y = Parser()
x = "a"
x = y.create_term(x)
x = y.convert_to_cnf(x)
assert x.operator == "a"
x = "Or(And(a,b),Impl(c,d))"
x = y.create_term(x)
x = y.convert_to_cnf(x)
assert x.operator == "And"
assert x.parameters[0].operator == "Or"
assert x.parameters[1].operator == "Or"
assert x.parameters[0].parameters[0].operator == "a"
assert x.parameters[0].parameters[1].operator == "Or"
x = "Not(And(a,b))"
x = y.create_term(x)
x = y.convert_to_cnf(x)
assert x.operator == "Or"
assert x.parameters[0].operator == "Not"
assert x.parameters[0].parameters[0].operator == "a"
assert x.parameters[1].operator == "Not"
assert x.parameters[1].parameters[0].operator == "b"
x = "Not(Impl(a,b))"
x = y.create_term(x)
x = y.convert_to_cnf(x)
assert x.operator == "And"
assert x.parameters[0].operator == "a"
assert x.parameters[1].operator == "Not"
assert x.parameters[1].parameters[0].operator == "b"
x = "Not(Not(Impl(a,b)))"
x = y.create_term(x)
x = y.convert_to_cnf(x)
assert x.operator == "Or"
assert x.parameters[0].operator == "Not"
assert x.parameters[0].parameters[0].operator == "a"
assert x.parameters[1].operator == "b"
def test_clarks_completion():
comparator = TermComparator()
input1 = Parser.create_term('Impl(Not(a),b)')
output1 = Parser.create_clarks_completion(input1)
expected_output1 = Term('And', [
Term('BiImpl',
[Term('Not', [Term('a')]), Term('b')]),
Term('BiImpl', [Term('a', []), Term('BOT')])
])
assert comparator.terms_are_equal(output1, expected_output1)
input1 = Parser.create_term('And(Impl(And(a,b),p),Impl(c,p))')
expected_output_string = 'And(And(And(BiImpl(Or(And(a,b),c),p),BiImpl(a,BOT)),BiImpl(b,BOT)),BiImpl(c,BOT))'
expected_output1 = Parser.create_term(expected_output_string)
output1 = Parser.create_clarks_completion(input1)
assert comparator.terms_are_equal(output1, expected_output1)
input1 = Parser.create_term(
'And(And(Impl(And(a,b),p),Impl(c,p)),And(Impl(And(b,c),x),Impl(a,x)))')
expected_output_string = 'And(And(And(And(BiImpl(Or(And(a,b),c),p),BiImpl(Or(And(b,c),a),x)),BiImpl(a,BOT)),BiImpl(b,BOT)),BiImpl(c,BOT))'
expected_output1 = Parser.create_term(expected_output_string)
output1 = Parser.create_clarks_completion(input1)
assert comparator.terms_are_equal(output1, expected_output1)
# Not in header-atom -> not allowed
# input1 = Parser.create_term('And(And(Impl(And(a,b),Not(p)),Impl(c,Not(p))),And(Impl(And(b,c),x),Impl(a,x)))')
# expected_output_string = 'And(And(And(And(BiImpl(Or(And(a,b),c),Not(p)),BiImpl(Or(And(b,c),a),x)),BiImpl(a,BOT)),BiImpl(b,BOT)),BiImpl(c,BOT))'
# expected_output1 = Parser.create_term(expected_output_string)
# output1 = Parser.create_clarks_completion(input1)
# assert comparator.terms_are_equal(output1, expected_output1)
input1 = Parser.create_term(
'And(And(Impl(And(a,Not(b)),p),Impl(c,p)),And(Impl(And(Not(b),c),x),Impl(a,x)))'
)
expected_output_string = 'And(And(And(And(BiImpl(Or(And(a,Not(b)),c),p),BiImpl(Or(And(Not(b),c),a),x)),BiImpl(a,BOT)),BiImpl(b,BOT)),BiImpl(c,BOT))'
expected_output1 = Parser.create_term(expected_output_string)
output1 = Parser.create_clarks_completion(input1)
assert comparator.terms_are_equal(output1, expected_output1)
input1 = Parser.create_term('And(Impl(TOP,p),Impl(And(a,b),BOT))')
expected_output_string = "And(And(And(BiImpl(TOP,p),BiImpl(And(a,b),BOT)),BiImpl(a,BOT)),BiImpl(b,BOT))"
expected_output1 = Parser.create_term(expected_output_string)
output1 = Parser.create_clarks_completion(input1)
assert comparator.terms_are_equal(output1, expected_output1)
def test_cc_2():
input1 = und(impl('a', 'b'), impl('b', 'a'))
output1 = Parser.create_clarks_completion(input1)
input1 = impl(nicht('b'), 'a')
output1 = Parser.create_clarks_completion(input1)
x = 0