def test_two_different_masters_can_any_specialization_on_10_city_size( self): place_size = 10 person_power = 0.3 for specialization in CITY_MODIFIERS.records: if specialization.is_NONE: continue best = 0 for profession_1 in relations.PERSON_TYPE.records: for profession_2 in relations.PERSON_TYPE.records: if profession_1 == profession_2: continue points_1 = f.place_specialization_from_person( person_points=economic.PROFESSION_TO_SPECIALIZATIONS[ profession_1][specialization], politic_power_fraction=person_power, place_size_multiplier=f.place_specialization_modifier( place_size)) points_2 = f.place_specialization_from_person( person_points=economic.PROFESSION_TO_SPECIALIZATIONS[ profession_2][specialization], politic_power_fraction=person_power, place_size_multiplier=f.place_specialization_modifier( place_size)) if best < points_1 + points_2: best = points_1 + points_2 self.assertTrue(c.PLACE_TYPE_NECESSARY_BORDER < best)
def test_three_different_masters_can_any_specialization_on_7_city_size(self): place_size = 7 person_power = 0.3 for specialization in CITY_MODIFIERS.records: if specialization.is_NONE: continue best = 0 for profession_1 in relations.PERSON_TYPE.records: for profession_2 in relations.PERSON_TYPE.records: for profession_3 in relations.PERSON_TYPE.records: if (profession_1 == profession_2 or profession_1 == profession_3 or profession_2 == profession_3): continue points_1 = f.place_specialization_from_person(person_points=economic.PROFESSION_TO_SPECIALIZATIONS[profession_1][specialization], politic_power_fraction=person_power, place_size_multiplier=f.place_specialization_modifier(place_size)) points_2 = f.place_specialization_from_person(person_points=economic.PROFESSION_TO_SPECIALIZATIONS[profession_2][specialization], politic_power_fraction=person_power, place_size_multiplier=f.place_specialization_modifier(place_size)) points_3 = f.place_specialization_from_person(person_points=economic.PROFESSION_TO_SPECIALIZATIONS[profession_3][specialization], politic_power_fraction=person_power, place_size_multiplier=f.place_specialization_modifier(place_size)) if best < points_1 + points_2 + points_3: best = points_1 + points_2 + points_3 self.assertTrue(c.PLACE_TYPE_NECESSARY_BORDER < best)
def sync(self): self.modifier_multiplier = f.place_specialization_modifier(self.size)