def rule_eq():
rule1 = Rule(RuleType.GREATER, 5)
rule2 = Rule(RuleType.GREATER, 5)
rule3 = Rule(RuleType.GREATER, 3)
rule4 = Rule(RuleType.LESS, 5)
test("Rule Equality", rule1 == rule2, True)
test("Rule Inequality 1", rule1 == rule3, False)
test("Rule Inequality 2", rule1 == rule4, False)
def property_eq():
rule = Rule(RuleType.GREATER, 5)
prop1 = Property("count", rule)
prop2 = Property("count", rule)
prop3 = Property("name", rule)
prop4 = Property("count", Rule(RuleType.LESS, 10))
test("Property Equality", prop1 == prop2, True)
test("Property Inequality 1", prop1 == prop3, False)
test("Property Inequality 2", prop1 == prop4, False)
def rule_match_xor():
contain_rule = Rule(RuleType.CONTAIN, 'h')
xor_rule = Rule(RuleType.XOR, [contain_rule, Rule(RuleType.CONTAIN, 'o')])
test("Rule XOR 1", xor_rule.match("world"), True)
test("Rule XOR 2", xor_rule.match("help"), True)
test("Rule XOR 3", xor_rule.match("hello"), False)
test("Rule XOR 4", xor_rule.match("animal"), False)
def webster_eq():
# define rules to use
greater_rule = Rule(RuleType.GREATER, 3)
less_rule = Rule(RuleType.LESS, 10)
and_rule = Rule(RuleType.AND, [greater_rule, less_rule])
contain_rule = Rule(RuleType.CONTAIN, 'h')
xor_rule = Rule(RuleType.XOR, [contain_rule, Rule(RuleType.CONTAIN, 'o')])
# define properties to use
name_prop = Property("Name", xor_rule)
valu_prop = Property("Value", and_rule)
# define a definition for testing
definition = Definition("TestyDef", [name_prop, valu_prop])
# define a thing
attrs = {"Name": "Hello", "Value": 3}
thing = Thing("TestyThingy", attributes=attrs, definition="TestyDef")
# defines Webster
webster1 = Webster(brain=[thing], dictionary=[definition])
webster2 = Webster(brain=[thing], dictionary=[definition])
webster3 = Webster(dictionary=[definition])
webster4 = Webster(brain=[thing])
test("Webster Equality", webster1 == webster2, True)
test("Webster Inequality 1", webster1 == webster3, False)
test("Webster Inequality 2", webster1 == webster4, False)
def rule_match_and():
greater_rule = Rule(RuleType.GREATER, 3)
less_rule = Rule(RuleType.LESS, 10)
and_rule = Rule(RuleType.AND, [greater_rule, less_rule]) # between 3 & 10
test("Rule AND 1", and_rule.match(7), True)
test("Rule AND 2", and_rule.match(0), False)
test("Rule AND 3", and_rule.match(15), False)
def init_webster():
# define rules to use
greater_rule = Rule(RuleType.GREATER, 3)
less_rule = Rule(RuleType.LESS, 10)
and_rule = Rule(RuleType.AND, [greater_rule, less_rule])
contain_rule = Rule(RuleType.CONTAIN, 'h')
xor_rule = Rule(RuleType.XOR, [contain_rule, Rule(RuleType.CONTAIN, 'o')])
# define properties to use
name_prop = Property("Name", xor_rule)
valu_prop = Property("Value", and_rule)
# define a definition for testing
definition = Definition("TestyDef", [name_prop, valu_prop])
# define a thing
attrs = {"Name": "Hello", "Value": 3}
thing = Thing("TestyThingy", attributes=attrs, definition="TestyDef")
# defines Webster
webster = Webster(brain=[thing], dictionary=[definition])
# tests for the correct values
dict_test = webster.dictionary["TestyDef"]
test("Webster Construction Dictionary", dict_test, definition)
test("Webster Construction Brain", webster.brain["TestyThingy"], thing)
def webster_has_def():
# define rules to use
greater_rule = Rule(RuleType.GREATER, 3)
less_rule = Rule(RuleType.LESS, 10)
and_rule = Rule(RuleType.AND, [greater_rule, less_rule])
contain_rule = Rule(RuleType.CONTAIN, 'h')
xor_rule = Rule(RuleType.XOR, [contain_rule, Rule(RuleType.CONTAIN, 'o')])
# define properties to use
name_prop = Property("Name", xor_rule)
valu_prop = Property("Value", and_rule)
# define a definition for testing
definition = Definition("TestyDef", [name_prop, valu_prop])
# define a thing
attrs1 = {"Name": "Hello", "Value": 5}
attrs2 = {"Name": "hello", "Value": 1}
thing1 = Thing("Thing 1", attributes=attrs1, definition="TestyDef")
thing2 = Thing("Thing 2", attributes=attrs2)
thing3 = Thing("Thing Red", attributes=attrs2, definition="TestyDef")
thing4 = Thing("Thing Blue", attributes=attrs1)
brain = [thing1, thing2, thing3, thing4]
# runs test
webster = Webster(brain=brain, dictionary=[definition])
result1 = webster.has_definition("Thing 1", "TestyDef")
result2 = webster.has_definition("Thing 2", "TestyDef")
result3 = webster.has_definition("Thing Red", "TestyDef")
result4 = webster.has_definition("Thing Blue", "TestyDef")
test("Webster Has Definition 1", result1, True)
test("Webster Has Definition 2", result2, False)
test("Webster Has Definition 3", result3, True)
test("Webster Has Definition 4", result4, True)
def webster_set_rule():
# define rules to use
greater_rule = Rule(RuleType.GREATER, 3)
less_rule = Rule(RuleType.LESS, 10)
and_rule = Rule(RuleType.AND, [greater_rule, less_rule])
contain_rule = Rule(RuleType.CONTAIN, 'h')
xor_rule = Rule(RuleType.XOR, [contain_rule, Rule(RuleType.CONTAIN, 'o')])
new_rule = Rule(RuleType.IS, "Hello")
# define properties to use
name_prop = Property("Name", xor_rule)
valu_prop = Property("Value", and_rule)
# run test
webster = Webster()
webster.add_definition("TestyDef", [name_prop, valu_prop])
webster.set_property_rule("TestyDef", "Name", new_rule)
test("Webster Set Rule", webster.get_rule("TestyDef", "Name"), new_rule)
def webster_get_prop():
# define rules to use
greater_rule = Rule(RuleType.GREATER, 3)
less_rule = Rule(RuleType.LESS, 10)
and_rule = Rule(RuleType.AND, [greater_rule, less_rule])
contain_rule = Rule(RuleType.CONTAIN, 'h')
xor_rule = Rule(RuleType.XOR, [contain_rule, Rule(RuleType.CONTAIN, 'o')])
# define properties to use
name_prop = Property("Name", xor_rule)
valu_prop = Property("Value", and_rule)
# run test
webster = Webster()
webster.add_definition("TestyDef", [name_prop, valu_prop])
result = webster.get_property("TestyDef", "Name")
test("Webster Get Property", result, name_prop)
def webster_has_prop():
# define rules to use
greater_rule = Rule(RuleType.GREATER, 3)
less_rule = Rule(RuleType.LESS, 10)
and_rule = Rule(RuleType.AND, [greater_rule, less_rule])
contain_rule = Rule(RuleType.CONTAIN, 'h')
xor_rule = Rule(RuleType.XOR, [contain_rule, Rule(RuleType.CONTAIN, 'o')])
# define properties to use
name_prop = Property("Name", xor_rule)
valu_prop = Property("Value", and_rule)
# run test
webster = Webster()
webster.add_definition("TestyDef", [name_prop, valu_prop])
result1 = webster.has_property("TestyDef", "Name")
result2 = webster.has_property("TestyDef", "Count")
test("Webster Has Property 1", result1, True)
test("Webster Has Property 2", result2, False)
def definition_eq():
# define rules to use
greater_rule = Rule(RuleType.GREATER, 3)
less_rule = Rule(RuleType.LESS, 10)
and_rule = Rule(RuleType.AND, [greater_rule, less_rule])
contain_rule = Rule(RuleType.CONTAIN, 'h')
xor_rule = Rule(RuleType.XOR, [contain_rule, Rule(RuleType.CONTAIN, 'o')])
# define properties to use
name_prop = Property("Name", xor_rule)
valu_prop = Property("Value", and_rule)
# run the test
def1 = Definition("TestyDef", [name_prop, valu_prop])
def2 = Definition("TestyDef", [name_prop, valu_prop])
def3 = Definition("TestDef", [name_prop, valu_prop])
def4 = Definition("TestyDef", [name_prop])
test("Definition Equality", def1 == def2, True)
test("Definition Inequality 1", def1 == def3, False)
test("Definition Inequality 2", def1 == def4, False)
def init_definition():
# define rules to use
greater_rule = Rule(RuleType.GREATER, 3)
less_rule = Rule(RuleType.LESS, 10)
and_rule = Rule(RuleType.AND, [greater_rule, less_rule])
contain_rule = Rule(RuleType.CONTAIN, 'h')
xor_rule = Rule(RuleType.XOR, [contain_rule, Rule(RuleType.CONTAIN, 'o')])
# define properties to use
name_prop = Property("Name", xor_rule)
valu_prop = Property("Value", and_rule)
# define a definition for testing
definition = Definition("TestyDef", [name_prop, valu_prop])
# the expected value of definition.prop
exp_prop = {"Name": name_prop, "Value": valu_prop}
test("Definition Construction Name", definition.name, "TestyDef")
test("Definition Construction Properties", definition.props, exp_prop)
def webster_get_definition():
# define rules to use
greater_rule = Rule(RuleType.GREATER, 3)
less_rule = Rule(RuleType.LESS, 10)
and_rule = Rule(RuleType.AND, [greater_rule, less_rule])
contain_rule = Rule(RuleType.CONTAIN, 'h')
xor_rule = Rule(RuleType.XOR, [contain_rule, Rule(RuleType.CONTAIN, 'o')])
# define properties to use
name_prop = Property("Name", xor_rule)
valu_prop = Property("Value", and_rule)
# define a definition for testing
definition = Definition("TestyDef", [name_prop, valu_prop])
# defines Webster
webster = Webster(dictionary=[definition])
# tests to get the definition
test_result = webster.get_definition("TestyDef")
test("Webster Get Definition", test_result, definition)
def definition_match():
# define rules to use
greater_rule = Rule(RuleType.GREATER, 3)
less_rule = Rule(RuleType.LESS, 10)
and_rule = Rule(RuleType.AND, [greater_rule, less_rule])
contain_rule = Rule(RuleType.CONTAIN, 'h')
xor_rule = Rule(RuleType.XOR, [contain_rule, Rule(RuleType.CONTAIN, 'o')])
# define properties to use
name_prop = Property("Name", xor_rule)
valu_prop = Property("Value", and_rule)
# define a definition for testing
definition = Definition("TestyDef", [name_prop, valu_prop])
# define a thing for testing
thing = Thing("TestyThingy", attributes={"Name": "Hello", "Value": 4})
test("Definition Match 1", definition.match(thing), True)
thing = Thing("TestyThingy", attributes={"Name": "hello", "Value": 4})
test("Definition Match 2", definition.match(thing), False)
thing = Thing("TestyThingy", attributes={"Name": "Hello", "Value": 3})
test("Definition Match 3", definition.match(thing), False)
def property_match():
rule = Rule(RuleType.GREATER, 5)
prop = Property("count", rule)
test("Property Match 1", prop.match(7), True)
test("Property Match 1", prop.match(5), False)
def rule_match_contain():
contain_rule = Rule(RuleType.CONTAIN, 'h') # contains letter h
test("Rule CONTAIN 1", contain_rule.match("hello"), True)
test("Rule CONTAIN 2", contain_rule.match("world"), False)
def rule_match_or():
greater_rule = Rule(RuleType.GREATER, 3)
or_rule = Rule(RuleType.OR, [Rule(RuleType.IS, 3), greater_rule]) # >= 3
test("Rule OR 1", or_rule.match(3), True)
test("Rule OR 2", or_rule.match(5), True)
test("Rule OR 3", or_rule.match(-3), False)
def rule_match_is():
test("Rule IS 1", Rule(RuleType.IS, "Hello").match("Hello"), True)
test("Rule IS 2", Rule(RuleType.IS, "Hello").match("World"), False)
def rule_match_not():
not_rule = Rule(RuleType.NOT, Rule(RuleType.IS, 6)) # not 6
test("Rule NOT 1", not_rule.match(3), True)
test("Rule NOT 2", not_rule.match(6), False)
def init_property():
rule = Rule(RuleType.GREATER, 5)
prop = Property("count", rule)
test("Property Construction Name", prop.name, "count")
test("Property Construction Rule", prop.rule, rule)
def rule_match_less():
less_rule = Rule(RuleType.LESS, 10) # less than 10
test("Rule LESS 1", less_rule.match(1), True)
test("Rule LESS 2", less_rule.match(12), False)
def init_rule():
rule = Rule(RuleType.GREATER, 5)
test("Rule Construction Type", rule.rule_type, RuleType.GREATER)
test("Rule Construction Value", rule.value, 5)
def rule_match_greater():
greater_rule = Rule(RuleType.GREATER, 3) # greater than 3
test("Rule GREATER 1", greater_rule.match(5), True)
test("Rule GREATER 2", Rule(RuleType.GREATER, 3).match(1), False)