def test_error_guessing_dead_features_case_1() -> None:
feature_1 = Feature("A", None, None, True)
feature_2 = Feature("B", None, None, True)
feature_3 = Feature("C", None, None, True)
feature_4 = Feature("D", None, None, False)
feature_5 = Feature("E", None, None, True)
relation_1 = Relation(feature_1, [feature_2], 1, 1)
relation_2 = Relation(feature_1, [feature_3], 1, 1)
feature_1.add_relation(relation_1)
feature_1.add_relation(relation_2)
relation_3 = Relation(feature_3, [feature_4, feature_5], 1, 1)
feature_3.add_relation(relation_3)
node_1 = Node(ASTOperation.EXCLUDES)
node_1.left = Node("D")
node_1.right = Node("B")
ast_1 = AST(node_1)
ctc_1 = Constraint("ctc_1", ast_1)
model = FeatureModel(feature_1, [ctc_1])
path = normalize_path("error-guessing/dead-features/case1/df-case1")
run(path, model)
def test_relationships_mandatory_alternative() -> None:
feature_1 = Feature("A", None, None, True)
feature_2 = Feature("B", None, None, True)
feature_3 = Feature("C", None, None, True)
feature_4 = Feature("D", None, None, True)
feature_5 = Feature("E", None, None, True)
feature_6 = Feature("F", None, None, True)
feature_7 = Feature("G", None, None, True)
relation_1 = Relation(feature_1, [feature_2], 1, 1)
relation_2 = Relation(feature_1, [feature_3, feature_4], 1, 1)
feature_1.add_relation(relation_1)
feature_1.add_relation(relation_2)
relation_3 = Relation(feature_2, [feature_5, feature_6], 1, 1)
feature_2.add_relation(relation_3)
relation_4 = Relation(feature_3, [feature_7], 1, 1)
feature_3.add_relation(relation_4)
model = FeatureModel(feature_1)
path = normalize_path(
"relationships/mandatory-alternative/mandatory-alternative")
run(path, model)
def test_relationships_requires_excludes() -> None:
feature_1 = Feature("A", None, None, True)
feature_2 = Feature("B", None, None, True)
feature_3 = Feature("C", None, None, True)
relation_1 = Relation(feature_1, [feature_2], 0, 1)
relation_2 = Relation(feature_1, [feature_3], 0, 1)
feature_1.add_relation(relation_1)
feature_1.add_relation(relation_2)
node_1 = Node(ASTOperation.REQUIRES)
node_1.left = Node("B")
node_1.right = Node("C")
ast_1 = AST(node_1)
ctc_1 = Constraint("ctc_1", ast_1)
node_2 = Node(ASTOperation.EXCLUDES)
node_2.left = Node("B")
node_2.right = Node("C")
ast_2 = AST(node_2)
ctc_2 = Constraint("ctc_1", ast_2)
model = FeatureModel(feature_1, [ctc_1, ctc_2])
path = normalize_path(
"relationships/requires-excludes/requires-excludes")
run(path, model)
def test_relationships_or_alternative() -> None:
feature_1 = Feature("A", None, None, True)
feature_2 = Feature("B", None, None, True)
feature_3 = Feature("C", None, None, True)
feature_4 = Feature("D", None, None, True)
feature_5 = Feature("E", None, None, True)
feature_6 = Feature("F", None, None, True)
feature_7 = Feature("G", None, None, True)
feature_8 = Feature("H", None, None, True)
feature_9 = Feature("I", None, None, True)
relation_1 = Relation(feature_1, [feature_2, feature_3], 1, 1)
relation_2 = Relation(feature_1, [feature_4, feature_5], 1, 2)
feature_1.add_relation(relation_1)
feature_1.add_relation(relation_2)
relation_3 = Relation(feature_2, [feature_6, feature_7], 1, 2)
feature_2.add_relation(relation_3)
relation_4 = Relation(feature_5, [feature_8, feature_9], 1, 1)
feature_5.add_relation(relation_4)
model = FeatureModel(feature_1)
path = normalize_path(
"relationships/or-alternative/or-alternative")
run(path, model)
def test_error_guessing_redundancies_case_2() -> None:
feature_1 = Feature("A", None, None, True)
feature_2 = Feature("B", None, None, True)
feature_3 = Feature("C", None, None, True)
feature_4 = Feature("D", None, None, True)
relation_1 = Relation(feature_1, [feature_2], 0, 1)
relation_2 = Relation(feature_1, [feature_3], 1, 1)
relation_3 = Relation(feature_1, [feature_4], 1, 1)
feature_1.add_relation(relation_1)
feature_1.add_relation(relation_2)
feature_1.add_relation(relation_3)
node_1 = Node(ASTOperation.REQUIRES)
node_1.left = Node("C")
node_1.right = Node("B")
ast_1 = AST(node_1)
ctc_1 = Constraint("ctc_1", ast_1)
node_2 = Node(ASTOperation.REQUIRES)
node_2.left = Node("D")
node_2.right = Node("B")
ast_2 = AST(node_2)
ctc_2 = Constraint("ctc_2", ast_2)
model = FeatureModel(feature_1, [ctc_1, ctc_2])
path = normalize_path(
"error-guessing/redundancies/case2/r-case2")
run(path, model)
def test_refinement_alternative_no_parent_last_child() -> None:
feature_1 = Feature("A", None, None, True)
feature_2 = Feature("B", None, None, True)
feature_3 = Feature("C", None, None, True)
feature_4 = Feature("D", None, None, True)
feature_5 = Feature("E", None, None, True)
relation_1 = Relation(feature_1, [feature_2], 0, 1)
relation_2 = Relation(feature_1, [feature_5], 1, 1)
feature_1.add_relation(relation_1)
feature_1.add_relation(relation_2)
relation_3 = Relation(feature_2, [feature_3, feature_4], 1, 1)
feature_2.add_relation(relation_3)
node_1 = Node(ASTOperation.EXCLUDES)
node_1.left = Node("E")
node_1.right = Node("B")
ast_1 = AST(node_1)
ctc_1 = Constraint("ctc_1", ast_1)
node_2 = Node(ASTOperation.REQUIRES)
node_2.left = Node("E")
node_2.right = Node("D")
ast_2 = AST(node_2)
ctc_2 = Constraint("ctc_2", ast_2)
model = FeatureModel(feature_1, [ctc_1, ctc_2])
path = normalize_path(
"refinement/alternative-noParentLastChild/alternative-noParentLastChild")
run(path, model)
def test_relationships_optional_or() -> None:
feature_1 = Feature("A", None, None, True)
feature_2 = Feature("B", None, None, True)
feature_3 = Feature("C", None, None, True)
feature_4 = Feature("D", None, None, True)
feature_5 = Feature("E", None, None, True)
feature_6 = Feature("F", None, None, True)
feature_7 = Feature("G", None, None, True)
relation_1 = Relation(feature_1, [feature_2], 0, 1)
relation_2 = Relation(feature_1, [feature_3, feature_4], 1, 2)
feature_1.add_relation(relation_1)
feature_1.add_relation(relation_2)
relation_3 = Relation(feature_2, [feature_5, feature_6], 1, 2)
feature_2.add_relation(relation_3)
relation_4 = Relation(feature_3, [feature_7], 0, 1)
feature_3.add_relation(relation_4)
model = FeatureModel(feature_1)
path = normalize_path(
"relationships/optional-or/optional-or")
run(path, model)
def test_refinement_df_alternative_excludes() -> None:
feature_1 = Feature("A", None, None, True)
feature_2 = Feature("B", None, None, True)
feature_3 = Feature("C", None, None, True)
feature_4 = Feature("D", None, None, True)
feature_5 = Feature("E", None, None, False)
relation_1 = Relation(feature_1, [feature_2], 1, 1)
relation_2 = Relation(feature_1, [feature_3], 0, 1)
feature_1.add_relation(relation_1)
feature_1.add_relation(relation_2)
relation_3 = Relation(feature_3, [feature_4, feature_5], 1, 1)
feature_3.add_relation(relation_3)
node_1 = Node(ASTOperation.REQUIRES)
node_1.left = Node("B")
node_1.right = Node("D")
ast_1 = AST(node_1)
ctc_1 = Constraint("ctc_1", ast_1)
model = FeatureModel(feature_1, [ctc_1])
path = normalize_path(
"refinement/df-alternative-excludes/df-alternative-excludes")
run(path, model)
def test_relationships_mandatory_optional() -> None:
feature_1 = Feature("A", None, None, True)
feature_2 = Feature("B", None, None, True)
feature_3 = Feature("C", None, None, True)
feature_4 = Feature("D", None, None, True)
feature_5 = Feature("E", None, None, True)
relation_1 = Relation(feature_1, [feature_2], 1, 1)
relation_2 = Relation(feature_1, [feature_3], 0, 1)
feature_1.add_relation(relation_1)
feature_1.add_relation(relation_2)
relation_3 = Relation(feature_2, [feature_4], 0, 1)
feature_2.add_relation(relation_3)
relation_4 = Relation(feature_3, [feature_5], 1, 1)
feature_3.add_relation(relation_4)
model = FeatureModel(feature_1)
path = normalize_path(
"relationships/mandatory-optional/mandatory-optional")
run(path, model)
def test_refinement_or_no_alternative() -> None:
feature_1 = Feature("A", None, None, True)
feature_2 = Feature("B", None, None, True)
feature_3 = Feature("C", None, None, True)
feature_4 = Feature("D", None, None, True)
feature_5 = Feature("E", None, None, False)
relation_1 = Relation(feature_1, [feature_2], 1, 1)
relation_2 = Relation(feature_1, [feature_5], 1, 1)
feature_1.add_relation(relation_1)
feature_1.add_relation(relation_2)
relation_3 = Relation(feature_2, [feature_3, feature_4], 1, 2)
feature_2.add_relation(relation_3)
node_1 = Node(ASTOperation.REQUIRES)
node_1.left = Node("E")
node_1.right = Node("D")
ast_1 = AST(node_1)
ctc_1 = Constraint("ctc_1", ast_1)
node_2 = Node(ASTOperation.REQUIRES)
node_2.left = Node("E")
node_2.right = Node("C")
ast_2 = AST(node_2)
ctc_2 = Constraint("ctc_2", ast_2)
model = FeatureModel(feature_1, [ctc_1, ctc_2])
path = normalize_path(
"refinement/or-noAlternative/or-noAlternative")
run(path, model)
def execute(self, model: FeatureModel) -> 'FMCountLeafs':
number = 0
for feat in model.get_features():
if len(feat.get_relations()) == 0:
number += 1
self.number_of_leafs = number
return self
def test_error_guessing_false_optional_features_case_3() -> None:
feature_1 = Feature("A", None, None, True)
feature_2 = Feature("B", None, None, True)
feature_3 = Feature("C", None, None, False)
feature_4 = Feature("D", None, None, False)
feature_5 = Feature("E", None, None, True)
relation_1 = Relation(feature_1, [feature_2], 1, 1)
relation_2 = Relation(feature_1, [feature_3], 0, 1)
feature_1.add_relation(relation_1)
feature_1.add_relation(relation_2)
relation_3 = Relation(feature_3, [feature_4, feature_5], 1, 2)
feature_3.add_relation(relation_3)
node_1 = Node(ASTOperation.REQUIRES)
node_1.left = Node("B")
node_1.right = Node("D")
ast_1 = AST(node_1)
ctc_1 = Constraint("ctc_1", ast_1)
model = FeatureModel(feature_1, [ctc_1])
path = normalize_path(
"error-guessing/false-optional-features/case3/fof-case3")
run(path, model)
def test_error_guessing_dead_features_case_8() -> None:
feature_1 = Feature("A", None, None, True)
feature_2 = Feature("B", None, None, False)
feature_3 = Feature("C", None, None, True)
relation_1 = Relation(feature_1, [feature_2], 0, 1)
relation_2 = Relation(feature_1, [feature_3], 0, 1)
feature_1.add_relation(relation_1)
feature_1.add_relation(relation_2)
node_1 = Node(ASTOperation.EXCLUDES)
node_1.left = Node("B")
node_1.right = Node("C")
ast_1 = AST(node_1)
ctc_1 = Constraint("ctc_1", ast_1)
node_2 = Node(ASTOperation.REQUIRES)
node_2.left = Node("B")
node_2.right = Node("C")
ast_2 = AST(node_2)
ctc_2 = Constraint("ctc_1", ast_2)
model = FeatureModel(feature_1, [ctc_1, ctc_2])
path = normalize_path("error-guessing/dead-features/case8/df-case8")
run(path, model)
def execute(self, model: FeatureModel) -> 'FMAverageBranchingFactor':
features = model.get_features()
childrens = 0
for feat in features:
for relation in feat.get_relations():
childrens += len(relation.children)
self.average_branching_factor = round(childrens / len(features))
return self
def average_branching_factor(feature_model: FeatureModel,
precision: int = 2) -> float:
nof_branches = 0
nof_children = 0
for feature in feature_model.get_features():
if feature.get_relations():
nof_branches += 1
nof_children += sum(
len(r.children) for r in feature.get_relations())
return round(nof_children / nof_branches, precision)
def test_relationships_mandatory() -> None:
feature_1 = Feature("A", None, None, True)
feature_2 = Feature("B", None, None, True)
relation_1 = Relation(feature_1, [feature_2], 1, 1)
feature_1.add_relation(relation_1)
model = FeatureModel(feature_1)
path = normalize_path(
"relationships/mandatory/mandatory")
run(path, model)
def test_relationships_optional() -> None:
feature_1 = Feature("A", None, None, True)
feature_2 = Feature("B", None, None, True)
relation_1 = Relation(feature_1, [feature_2], 0, 1)
feature_1.add_relation(relation_1)
model = FeatureModel(feature_1)
path = normalize_path(
"relationships/optional/optional")
run(path, model)
def parse_features(self, words: list[str], model: FeatureModel) -> Feature:
name = words[0].replace(':', '')
words.pop(0)
if name in self.parents:
print('This AFM contains duplicated feature names',
file=sys.stderr)
raise DuplicatedFeature
self.parents.append(name)
feature_parent = Feature(name, [])
if name in self.name_feature:
feature_parent = self.name_feature[name]
else:
model.features.append(feature_parent)
model.root = feature_parent
self.name_feature[name] = feature_parent
is_grouped = False
is_or = False
for word in words:
if is_grouped:
if is_or:
relation.card_max += 1
if word.__contains__('}'):
word = word.replace('}', '').replace(';', '')
self.add_feature(relation, word, model)
is_or = False
is_grouped = False
else:
word = word.replace('{', '').replace(';', '')
self.add_feature(relation, word, model)
else:
if word.__contains__('[1,'):
is_grouped = True
relation = self.parse_relation('Alternative/Or',
feature_parent)
if not word.__eq__('[1,1]'):
relation.card_max = 0
is_or = True
continue
elif word.__contains__('[') and word.__contains__(']'):
relation = self.parse_relation('Optional', feature_parent)
word = word.replace('[', '').replace(']',
'').replace(';', '')
self.add_feature(relation, word, model)
else:
relation = self.parse_relation('Mandatory', feature_parent)
word = word.replace(';', '')
self.add_feature(relation, word, model)
model.relations.append(relation)
return feature_parent
def test_relationships_alternative() -> None:
feature_1 = Feature("A", None, None, True)
feature_2 = Feature("B", None, None, True)
feature_3 = Feature("C", None, None, True)
relation_1 = Relation(feature_1, [feature_2, feature_3], 1, 1)
feature_1.add_relation(relation_1)
model = FeatureModel(feature_1)
path = normalize_path(
"relationships/alternative/alternative")
run(path, model)
def transform(self):
rootcounter = 1
tree = ElementTree.parse(self.path)
xml_root = tree.getroot()
# iterate over child of the xml root element
for child in xml_root:
if child.tag.casefold() == 'feature':
rootcounter += 1
root = self.parse_feature(child)
fm = FeatureModel(root,[])
elif child.tag.casefold() == 'excludes' or child.tag.casefold() == 'requires':
ctc=self.parse_ctc(child)
fm.ctcs.append(ctc)
else:
print("This XML contains non supported elements", file=sys.stderr)
return fm
def test_error_guessing_core_features_case_2() -> None:
feature_1 = Feature("A", None, None, False)
feature_2 = Feature("B", None, None, False)
relation_1 = Relation(feature_1, [feature_2], 0, 1)
feature_1.add_relation(relation_1)
node_1 = Node(ASTOperation.REQUIRES)
node_1.left = Node("A")
node_1.right = Node("B")
ast_1 = AST(node_1)
ctc_1 = Constraint("ctc_1", ast_1)
model = FeatureModel(feature_1, [ctc_1])
path = normalize_path("error-guessing/core-features/case2/cf-case2")
run(path, model)
def test_refinement_optional_alternative_valid_p() -> None:
feature_1 = Feature("A", None, None, True)
feature_2 = Feature("B", None, None, True)
feature_3 = Feature("C", None, None, True)
feature_4 = Feature("D", None, None, True)
relation_1 = Relation(feature_1, [feature_2], 0, 1)
feature_1.add_relation(relation_1)
relation_2 = Relation(feature_2, [feature_3, feature_4], 1, 1)
feature_2.add_relation(relation_2)
model = FeatureModel(feature_1)
path = normalize_path(
"refinement/optional-alternativeValidP/optional-alternativeVP")
run(path, model)
def get_false_optional_features(sat_model: PySATModel, feature_model: FeatureModel) -> list[Any]:
real_optional_features = [f for f in feature_model.get_features()
if not f.is_root() and not f.is_mandatory()]
result = []
solver = Glucose3()
for clause in sat_model.get_all_clauses():
solver.add_clause(clause)
for feature in real_optional_features:
variable = sat_model.variables.get(feature.name)
parent_variable = sat_model.variables.get(feature.get_parent().name)
assert variable is not None
satisfiable = solver.solve(assumptions=[parent_variable, -variable])
if not satisfiable:
result.append(feature.name)
solver.delete()
return result
def test_relationships_alternative_requires() -> None:
feature_1 = Feature("A", None, None, True)
feature_2 = Feature("B", None, None, True)
feature_3 = Feature("C", None, None, True)
relation_1 = Relation(feature_1, [feature_2, feature_3], 1, 1)
feature_1.add_relation(relation_1)
node_1 = Node(ASTOperation.REQUIRES)
node_1.left = Node("B")
node_1.right = Node("C")
ast_1 = AST(node_1)
ctc_1 = Constraint("ctc_1", ast_1)
model = FeatureModel(feature_1, [ctc_1])
path = normalize_path(
"relationships/alternative-requires/alternative-requires")
run(path, model)
def test_relationships_or_excludes() -> None:
feature_1 = Feature("A", None, None, True)
feature_2 = Feature("B", None, None, True)
feature_3 = Feature("C", None, None, True)
relation_1 = Relation(feature_1, [feature_2, feature_3], 1, 2)
feature_1.add_relation(relation_1)
node_1 = Node(ASTOperation.EXCLUDES)
node_1.left = Node("B")
node_1.right = Node("C")
ast_1 = AST(node_1)
ctc_1 = Constraint("ctc_1", ast_1)
model = FeatureModel(feature_1, [ctc_1])
path = normalize_path(
"relationships/or-excludes/or-excludes")
run(path, model)
def parse_features(self, words: list[str], model: FeatureModel) -> Feature:
name = words[0].replace(":", "")
words.pop(0)
if name in self.parents:
print("This AFM contains duplicated feature names", file=sys.stderr)
raise DuplicatedFeature
self.parents.append(name)
feature_parent = Feature(name, [])
if name in self.name_feature:
feature_parent = self.name_feature[name]
else:
model.features.append(feature_parent)
model.root = feature_parent
self.name_feature[name] = feature_parent
alternative_rel = "[1,1]"
or_rel = "[1," + str(len(words) - 1) + "]"
if words.__contains__(alternative_rel) or words.__contains__(or_rel):
if words.__contains__(alternative_rel):
words.remove(alternative_rel)
relation = self.parse_relation("Alternative", feature_parent)
elif words.__contains__(or_rel):
words.remove(or_rel)
relation = self.parse_relation("Or", feature_parent, len(words))
model.relations.append(relation)
for word in words:
word = word.replace("{", "").replace("}", "").replace(";", "")
self.add_feature(relation, word, model)
else:
for word in words:
if word.__contains__("[") and word.__contains__("]"):
relation = self.parse_relation("Optional", feature_parent)
word = word.replace("[", "").replace("]", "").replace(";", "")
self.add_feature(relation, word, model)
else:
relation = self.parse_relation("Mandatory", feature_parent)
word = word.replace(";", "")
self.add_feature(relation, word, model)
model.relations.append(relation)
return feature_parent
def test_error_guessing_core_features_case_6() -> None:
feature_1 = Feature("A", None, None, True)
feature_2 = Feature("B", None, None, True)
feature_3 = Feature("C", None, None, True)
relation_1 = Relation(feature_1, [feature_2], 1, 1)
relation_2 = Relation(feature_1, [feature_3], 1, 1)
feature_1.add_relation(relation_1)
feature_1.add_relation(relation_2)
node_1 = Node(ASTOperation.EXCLUDES)
node_1.left = Node("B")
node_1.right = Node("C")
ast_1 = AST(node_1)
ctc_1 = Constraint("ctc_1", ast_1)
model = FeatureModel(feature_1, [ctc_1])
path = normalize_path("error-guessing/core-features/case6/cf-case6")
run(path, model)
def test_relationships_allrelationships() -> None:
feature_1 = Feature("A", None, None, True)
feature_2 = Feature("B", None, None, True)
feature_3 = Feature("C", None, None, True)
feature_4 = Feature("D", None, None, True)
feature_5 = Feature("E", None, None, True)
feature_6 = Feature("F", None, None, True)
feature_7 = Feature("G", None, None, True)
relation_1 = Relation(feature_1, [feature_2], 1, 1)
relation_2 = Relation(feature_1, [feature_3], 0, 1)
feature_1.add_relation(relation_1)
feature_1.add_relation(relation_2)
relation_3 = Relation(feature_2, [feature_4, feature_5], 1, 1)
feature_2.add_relation(relation_3)
relation_4 = Relation(feature_3, [feature_6, feature_7], 1, 2)
feature_3.add_relation(relation_4)
node_1 = Node(ASTOperation.REQUIRES)
node_1.left = Node("E")
node_1.right = Node("F")
ast_1 = AST(node_1)
ctc_1 = Constraint("ctc_1", ast_1)
node_2 = Node(ASTOperation.EXCLUDES)
node_2.left = Node("D")
node_2.right = Node("G")
ast_2 = AST(node_2)
ctc_2 = Constraint("ctc_2", ast_2)
model = FeatureModel(feature_1, [ctc_1, ctc_2])
path = normalize_path(
"relationships/allrelationships/allrelationships")
run(path, model)
def transform(self):
with open(self.path, 'r') as lines:
lines = [line.strip() for line in lines.readlines() if line.strip() != ""]
for line in lines:
if line.__contains__("%Relationships"):
index_r = lines.index(line)
if line.__contains__("%Constraints"):
index_c = lines.index(line)
relations = lines[index_r + 1:index_c]
constraints = lines[index_c + 1:]
feature_model = FeatureModel(Feature("", []))
for relation in relations:
words = relation.split(" ")
self.parse_features(words, feature_model)
for constraint in constraints:
constraint = constraint.replace(";", "")
ctc = self.parse_ctc(constraint)
feature_model.ctcs.append(ctc)
return feature_model
def test_refinement_alternative_odd_children() -> None:
feature_1 = Feature("A", None, None, True)
feature_2 = Feature("B", None, None, True)
feature_3 = Feature("C", None, None, True)
feature_4 = Feature("D", None, None, True)
feature_5 = Feature("E", None, None, True)
feature_6 = Feature("F", None, None, True)
feature_7 = Feature("G", None, None, True)
feature_8 = Feature("H", None, None, True)
relation_1 = Relation(feature_1, [feature_2], 1, 1)
relation_2 = Relation(feature_1, [feature_8], 1, 1)
feature_1.add_relation(relation_1)
feature_1.add_relation(relation_2)
relation_3 = Relation(
feature_2, [feature_3, feature_4, feature_5, feature_6, feature_7], 1, 1)
feature_2.add_relation(relation_3)
node_1 = Node(ASTOperation.REQUIRES)
node_1.left = Node("H")
node_1.right = Node("G")
ast_1 = AST(node_1)
ctc_1 = Constraint("ctc_1", ast_1)
node_2 = Node(ASTOperation.REQUIRES)
node_2.left = Node("H")
node_2.right = Node("E")
ast_2 = AST(node_2)
ctc_2 = Constraint("ctc_2", ast_2)
model = FeatureModel(feature_1, [ctc_1, ctc_2])
path = normalize_path(
"refinement/alternative-oddChildren/alternative-oddChildren")
run(path, model)
