def testMethod(): test_potje = assertlib.fileContainsFunctionDefinitions(_fileName, "simuleer_potje_Monopoly") test_groot_aantal_potjes = assertlib.fileContainsFunctionDefinitions(_fileName, "simuleer_groot_aantal_potjes_Monopoly") info = "" if not test_potje: info = "de functie simuleer_potje_Monopoly is nog niet gedefinieerd" elif not test_groot_aantal_potjes: info = "de functie simuleer_potje_Monopoly is gedefinieerd :) \n - de functie simuleer_groot_aantal_potjes_Monopoly nog niet" return test_potje and test_groot_aantal_potjes, info
def testMethod():
test_game = assertlib.fileContainsFunctionDefinitions(
_fileName, "simulate_monopoly")
test_games = assertlib.fileContainsFunctionDefinitions(
_fileName, "simulate_monopoly_games")
info = ""
if not test_game:
info = "the function simulate_monopoly has not been defined"
elif not test_games:
info = "the function simulate_monopoly has been defined :) \n -the function simulate_monopoly_games has not yet been defined"
return test_game and test_games, info
def testMethod():
hasfunction = assertlib.fileContainsFunctionDefinitions(
_fileName, function_name)
if not hasfunction:
return False
nArguments = len(lib.getFunction(function_name, _fileName).arguments)
if nArguments != 1:
return False
correct_return = assertlib.sameType(
lib.getFunction(function_name, _fileName)(test_text), [])
if not correct_return:
return False
output = lib.getFunction(function_name, _fileName)(test_text)
output.sort()
if "boy's" not in output:
info = "Make sure to deal in the right way with punctuations."
return False, info
if "festive," in output or "season." in output:
info = "Make sure there are no periods and/or commas left in list."
return output == correctlist
def testMethod():
hasfunction = assertlib.fileContainsFunctionDefinitions(
_fileName, function_name)
if not hasfunction:
info = "Make sure you use a function named " + function_name + " as you're writing your code."
return False, info
nArguments = len(lib.getFunction(function_name, _fileName).arguments)
if nArguments != 1:
info = "Make sure your function has 1 argument."
return False, info
correct_return = assertlib.sameType(
lib.getFunction(function_name, _fileName)(test_text), [])
if not correct_return:
info = "Make sure you return an list and nothing else."
return False, info
if assertlib.exact(
lib.getFunction(function_name, _fileName)(test_text),
[test_text]):
info = "Make sure that all letters are lowercase."
return False, info
if not assertlib.exact(
lib.getFunction(function_name, _fileName)(""), []):
info = "For an empty text, the list of words should be empty"
return False, info
return assertlib.exact(
lib.getFunction(function_name, _fileName)(""),
[]) and assertlib.exact(
lib.getFunction(function_name, _fileName)(test_text),
[test_text.lower()])
def testMethod():
hasfunction = assertlib.fileContainsFunctionDefinitions(
_fileName, function_name)
if not hasfunction:
info = "Make sure you use a function named " + function_name + " as you're writing your code."
return False, info
nArguments = len(lib.getFunction(function_name, _fileName).arguments)
if nArguments != 2:
info = "Make sure your function has 2 argument."
return False, info
correct_return = assertlib.sameType(
lib.getFunction(function_name, _fileName)(test_text, max_length),
"abc")
if not correct_return:
info = "Make sure you return an string and nothing else."
return False, info
outputtext = lib.getFunction(function_name, _fileName)(test_text,
max_length)
if " " in outputtext:
info = "Make sure there are no double spaces in the reformatted text."
return False, info
if " \n" in outputtext:
info = "Make sure lines don't start with a white space."
return False, info
elif "\n " in outputtext:
info = "Make sure lines don't end with a white space (after the enter)."
return False, info
return True
def containsRequiredFunctionDefinitions(test):
notAllowed = {"break": "break"}
notAllowedCode(test, lib.source(_fileName), notAllowed)
test.test = lambda : assertlib.fileContainsFunctionDefinitions(_fileName, "tunnel")
test.description = lambda : "defines the function `tunnel()`"
def testMethod():
hasfunction = assertlib.fileContainsFunctionDefinitions(
_fileName, function_name)
if not hasfunction:
return False
nArguments = len(lib.getFunction(function_name, _fileName).arguments)
if nArguments != 2:
return False
correct_return = assertlib.sameType(
lib.getFunction(function_name, _fileName)(test_text, max_length),
"abc")
if not correct_return:
return False
reformatted_test_text = ""
test_text_splitup = test_text.split()
counter = 0
for word in test_text_splitup:
if reformatted_test_text == "":
reformatted_test_text = word
counter += len(word)
elif len(word) + counter < max_length:
reformatted_test_text += " " + word
counter += len(word) + 1
else:
reformatted_test_text += "\n" + word
counter = len(word)
outputtext = lib.getFunction(function_name, _fileName)(test_text,
max_length)
return outputtext == reformatted_test_text
def try_run():
if assertlib.fileContainsFunctionDefinitions(_fileName, "simuleer_groot_aantal_potjes_Monopoly"):
try:
testInput = lib.getFunction("simuleer_groot_aantal_potjes_Monopoly", _fileName)(10000, 1000000, 1000000)
return True
except:
return False
return False
def containsRequiredFunctionDefinitions(test):
notAllowed = {"break": "break"}
notAllowedCode(test, lib.source(_fileName), notAllowed)
test.test = lambda: assertlib.fileContainsFunctionDefinitions(
_fileName, "basejump")
test.description = lambda: "definieert de functie `basejump()`"
def hasthrow_two_dice(test):
notAllowed = {"break": "break"}
notAllowedCode(test, lib.source(_fileName), notAllowed)
test.test = lambda: assertlib.fileContainsFunctionDefinitions(
_fileName, "throw_two_dice")
test.description = lambda: "defines the function throw_two_dice"
test.timeout = lambda: 10
def testMethod():
correctFunction = False
if assertlib.fileContainsFunctionDefinitions(_fileName, "simulate_monopoly_games"):
nArguments = len(lib.getFunction("simulate_monopoly_games", _fileName).arguments)
if nArguments == 3:
correctFunction = True
return correctFunction
def hasworp_met_twee_dobbelstenen(test):
notAllowed = {"break": "break"}
notAllowedCode(test, lib.source(_fileName), notAllowed)
test.test = lambda: assertlib.fileContainsFunctionDefinitions(
_fileName, "worp_met_twee_dobbelstenen")
test.description = lambda: "definieert de functie worp_met_twee_dobbelstenen"
test.timeout = lambda: 60
def testMethod():
correctFunction = False
if assertlib.fileContainsFunctionDefinitions(
_fileName, "simuleer_groot_aantal_potjes_monopoly"):
nArguments = len(
lib.getFunction("simuleer_groot_aantal_potjes_monopoly",
_fileName).arguments)
if nArguments == 3:
correctFunction = True
return correctFunction
def testMethod():
hasfunction = assertlib.fileContainsFunctionDefinitions(_fileName, function_name)
if not hasfunction:
return False
nArguments = len(lib.getFunction(function_name, _fileName).arguments)
if nArguments != 1:
return False
correct_return = assertlib.sameType(lib.getFunction(function_name, _fileName)(test_text), 1)
if not correct_return:
return False
return assertlib.exact(lib.getFunction(function_name, _fileName)(test_text), -1)
def testMethod():
hasfunction = assertlib.fileContainsFunctionDefinitions(_fileName, function_name)
if not hasfunction:
info = "Make sure you use a function named " + function_name + " as you're writing your code."
return False, info
nArguments = len(lib.getFunction(function_name, _fileName).arguments)
if nArguments != 1:
info = "Make sure your function has 1 argument."
return False, info
correct_return = assertlib.sameType(lib.getFunction(function_name, _fileName)(test_text), 1)
if not correct_return:
info = "Make sure you return an list and nothing else."
return False, info
return assertlib.exact(lib.getFunction(function_name, _fileName)(test_text), 1)
def testMethod():
hasfunction = assertlib.fileContainsFunctionDefinitions(_fileName, function_name)
if not hasfunction:
return False
nArguments = len(lib.getFunction(function_name, _fileName).arguments)
if nArguments != 1:
return False
correct_return = assertlib.sameType(lib.getFunction(function_name, _fileName)(test_text), [])
if not correct_return:
return False
if "" in lib.getFunction(function_name, _fileName)(test_text):
info = "Make sure to deal in the right way with punctuations."
return False, info
return assertlib.exact(lib.getFunction(function_name, _fileName)(test_text), ['stick', 'boy', 'noticed', 'that', 'his', 'christmas', 'tree', 'looked', 'healtier', 'than', 'he', 'did'])
def testMethod():
hasfunction = assertlib.fileContainsFunctionDefinitions(_fileName, function_name)
if not hasfunction:
return False
nArguments = len(lib.getFunction(function_name, _fileName).arguments)
if nArguments != 1:
return False
correct_return = assertlib.sameType(lib.getFunction(function_name, _fileName)(test_text), [])
if not correct_return:
return False
if "boy's" not in lib.getFunction(function_name, _fileName)(test_text):
info = "Make sure to deal in the right way with punctuations."
return False, info
return assertlib.exact(lib.getFunction(function_name, _fileName)(test_text), ['stick', "boy's", 'festive', 'season'])
def testMethod():
if assertlib.fileContainsFunctionDefinitions(file_name, function_name):
fn = lib.getFunction(function_name, file_name)
provided_args = fn.arguments
if len(provided_args) == len(expected_args):
return True, ""
else:
if len(expected_args) == 1:
m1 = f"Expected a single argument: {fn_string(function_name, expected_args)}"
else:
m1 = f"Expected {len(expected_args)} arguments: {fn_string(function_name, expected_args)}"
if len(provided_args) == 1:
m2 = f"Your function takes a single argument: {fn_string(function_name, provided_args)}"
else:
m2 = f"Your function takes {len(provided_args)} arguments: {fn_string(function_name, provided_args)}"
return False, f"Incorrect number of arguments:\n\t{m1}\n\t{m2}"
else:
return False, "Function not defined"
def testMethod():
hasfunction = assertlib.fileContainsFunctionDefinitions(
_fileName, function_name)
if not hasfunction:
return False
nArguments = len(lib.getFunction(function_name, _fileName).arguments)
if nArguments != 1:
return False
correct_return = assertlib.sameType(
lib.getFunction(function_name, _fileName)(test_text), [])
if not correct_return:
return False
if "" in lib.getFunction(function_name, _fileName)(test_text):
info = "Make sure to deal in the right way with punctuations."
return False, info
output = lib.getFunction(function_name, _fileName)(test_text)
output.sort()
return output == correctlist
def hasVierkant(test): test.test = lambda : assertlib.fileContainsFunctionDefinitions(_fileName, "vierkant") test.description = lambda : "definieert de functie vierkant()"
def has_levenshtein(test):
test.test = lambda: assertlib.fileContainsFunctionDefinitions(
_fileName, "levenshtein_distance")
test.description = lambda: "definieert de functie levenshtein_distance"
def containsCorrectFunction(test):
test.test = lambda : assertlib.fileContainsFunctionDefinitions(_fileName, "make_move")
test.description = lambda : "Correct function found in source"
test.fail = lambda info : "Check if your function has the correct name: make_move"
def has_count_exact_matches(test):
test.test = lambda: assertlib.fileContainsFunctionDefinitions(
_fileName, "count_exact_matches")
test.description = lambda: "defines the function count_exact_matches"
def containsRequiredFunctionDefinitions(test):
test.test = lambda: assertlib.fileContainsFunctionDefinitions(
_fileName, "fit")
test.description = lambda: "definieert de functie `fit()`"
def has_fuzzy_matches(test):
test.test = lambda: assertlib.fileContainsFunctionDefinitions(
_fileName, "fuzzy_matches")
test.description = lambda: "definieert de functie fuzzy_matches"
def hasMontecarlo(test):
test.test = lambda: assertlib.fileContainsFunctionDefinitions(
_fileName, "montecarlo")
test.description = lambda: "definieert de functie montecarlo()"
test.timeout = lambda: 90
def has_split_needle(test):
test.test = lambda: assertlib.fileContainsFunctionDefinitions(
_fileName, "split_needle")
test.description = lambda: "definieert de functie split_needle"
def hasNulpunten(test):
test.test = lambda: assertlib.fileContainsFunctionDefinitions(
_fileName, "nulpunten")
test.description = lambda: "definieert de functie nulpunten()"
def hasSomRandomGetallen(test):
test.test = lambda : assertlib.fileContainsFunctionDefinitions(_fileName, "SomRandomGetallen")
test.description = lambda : "definieert de functie SomRandomGetallen"
def hasworp_met_twee_dobbelstenen(test):
test.test = lambda: assertlib.fileContainsFunctionDefinitions(
_fileName, "worp_met_twee_dobbelstenen")
test.description = lambda: "definieert de functie worp_met_twee_dobbelstenen"
test.timeout = lambda: 60
