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logik2021/code/utests/u_rekursion.py

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master > master: struktur + unit tests
2021-05-06 12:44:29 +02:00
#!/usr/bin/env python3
# -*- coding: utf-8 -*-
# ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
# IMPORTS
# ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
import unittest;
from unittest import TestCase;
from aussagenlogik.schema import string_to_parts;
from aussagenlogik.rekursion import rekursiv_atoms;
from aussagenlogik.rekursion import rekursiv_depth;
from aussagenlogik.rekursion import rekursiv_length;
from aussagenlogik.rekursion import rekursiv_parentheses;
from aussagenlogik.rekursion import rekursiv_eval;
# ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
# GLOBALE KONSTANTEN
# ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
#
# ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
# TESTFALL Atome(·)
# ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
@unittest.skip("Methode noch nicht implementiert")
class TestRekursivAtoms(TestCase):
def test_noduplicates(self):
fml = string_to_parts('( A4 && ( A4 || A4 ) )');
val = sorted(rekursiv_atoms(fml));
assert len([_ for _ in val if _ == 'A4']) == 1, 'Atome dürfen nicht mehrfach vorkommen!';
def test_nononatoms(self):
fml = string_to_parts('( {F} || A3 )');
val = sorted(rekursiv_atoms(fml));
assert 'F' not in val, 'Nichtatomare Formeln dürfen nicht vorkommen!';
def test_calc1(self):
fml = string_to_parts('A0');
val = sorted(rekursiv_atoms(fml));
assert val == ['A0'], 'computed {}'.format(val);
def test_calc2(self):
fml = string_to_parts('((( ! A0 && A3 ) || A4 ) && A8 )');
val = sorted(rekursiv_atoms(fml));
assert val == ['A0', 'A3', 'A4', 'A8'], 'computed {}'.format(val);
pass;
# ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
# TESTFALL Depth(·)
# ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
@unittest.skip("Methode noch nicht implementiert")
class TestRekursivDepth(TestCase):
def test_calc1(self):
fml = string_to_parts('A0');
val = rekursiv_depth(fml);
assert val == 0, 'computed {}'.format(val);
def test_calc2(self):
fml = string_to_parts('!! A8');
val = rekursiv_depth(fml);
assert val == 2, 'computed {}'.format(val);
def test_calc3(self):
fml = string_to_parts('(! A0 && A3 )');
val = rekursiv_depth(fml);
assert val == 2, 'computed {}'.format(val);
def test_calc4(self):
fml = string_to_parts('((( ! A0 && A3 ) || A4 ) && A8 )');
val = rekursiv_depth(fml);
assert val == 4, 'computed {}'.format(val);
def test_calc5(self):
fml = string_to_parts('! ((( ! A0 && A3 ) || A4 ) && A8 )');
val = rekursiv_depth(fml);
assert val == 5, 'computed {}'.format(val);
pass;
# ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
# TESTFALL Länge(·)
# ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
@unittest.skip("Methode noch nicht implementiert")
class TestRekursivLength(TestCase):
def test_calc1(self):
fml = string_to_parts('A0');
val = rekursiv_length(fml);
assert val == 1, 'computed {}'.format(val);
def test_calc2(self):
fml = string_to_parts('!! A8');
val = rekursiv_length(fml);
assert val == 3, 'computed {}'.format(val);
def test_calc3(self):
fml = string_to_parts('(! A0 && A3 )');
val = rekursiv_length(fml);
assert val == 4, 'computed {}'.format(val);
def test_calc4(self):
fml = string_to_parts('((( ! A0 && A3 ) || A4 ) && A8 )');
val = rekursiv_length(fml);
assert val == 8, 'computed {}'.format(val);
def test_calc5(self):
fml = string_to_parts('! ((( ! A0 && A3 ) || A4 ) && A8 )');
val = rekursiv_length(fml);
assert val == 9, 'computed {}'.format(val);
pass;
# ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
# TESTFALL Anzahl Klammern(·)
# ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
@unittest.skip("Methode noch nicht implementiert")
class TestRekursivParentheses(TestCase):
def test_calc1(self):
fml = string_to_parts('A0');
val = rekursiv_parentheses(fml);
assert val == 0, 'computed {}'.format(val);
def test_calc2(self):
fml = string_to_parts('!! A8');
val = rekursiv_parentheses(fml);
assert val == 0, 'computed {}'.format(val);
def test_calc3(self):
fml = string_to_parts('(! A0 && A3 )');
val = rekursiv_parentheses(fml);
assert val == 2, 'computed {}'.format(val);
def test_calc4(self):
fml = string_to_parts('((( ! A0 && A3 ) || A4 ) && A8 )');
val = rekursiv_parentheses(fml);
assert val == 6, 'computed {}'.format(val);
def test_calc5(self):
fml = string_to_parts('! ((( ! A0 && A3 ) || A4 ) && A8 )');
val = rekursiv_parentheses(fml);
assert val == 6, 'computed {}'.format(val);
pass;
# ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
# TESTFALL eval(·, ·)
# ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
# @unittest.skip("Methode noch nicht implementiert")
class TestRekursivEval(TestCase):
def test_literale(self):
fml = string_to_parts('A0');
val = rekursiv_eval(fml, [ 'A0' ]);
assert val == 1;
fml = string_to_parts('A0');
val = rekursiv_eval(fml, []);
assert val == 0;
fml = string_to_parts('! A0');
val = rekursiv_eval(fml, [ 'A0' ]);
assert val == 0;
fml = string_to_parts('! A0');
val = rekursiv_eval(fml, []);
assert val == 1;
def test_complex1(self):
fml = string_to_parts('( ! A0 || (( A0 && A3 ) || A2 ) )');
val = rekursiv_eval(fml, [ 'A0', 'A2' ]);
assert val == 1;
val = rekursiv_eval(fml, [ 'A0', 'A3' ]);
assert val == 1;
val = rekursiv_eval(fml, [ 'A0' ]);
assert val == 0;
val = rekursiv_eval(fml, [ 'A4', 'A8' ]);
assert val == 1;
def test_complex2(self):
fml = string_to_parts('( ! A0 || (( A0 && A3 ) || ! A2) )');
val = rekursiv_eval(fml, [ 'A0', 'A2' ]);
assert val == 0;
val = rekursiv_eval(fml, [ 'A0', 'A3' ]);
assert val == 1;
pass;