def theTests(path_to_code_to_check="."): """Run all the tests.""" print("\nWelcome to the exam!") print("May the odds be ever in your favour.\nEspecially today!") ex1path = "{}/week{}/exercise1.py".format(path_to_code_to_check, WEEK_NUMBER) if ex_runs(path_to_code_to_check, exNumber=1, weekNumber=WEEK_NUMBER): exam = imp.load_source("exercise1", ex1path) testResults.append(test(test_flake8(ex1path), "pass the linter")) exam_test("Hello the Queen", ["the Queen"], exam.greet) exam_test("Hello Pr♂nc♀♂", ["Pr♂nc♀♂"], exam.greet) exam_test(4, [[3, 3, 3, 3, 1]], exam.three_counter) exam_test(0, [[0, 1, 2, 5, -9]], exam.three_counter) fizza = [ 1, 2, 'Fizz', 4, 'Buzz', 'Fizz', 7, 8, 'Fizz', 'Buzz', 11, 'Fizz', 13, 14, 'FizzBuzz', 16, 17, 'Fizz', 19, 'Buzz', 'Fizz', 22, 23, 'Fizz', 'Buzz', 26, 'Fizz', 28, 29, 'FizzBuzz', 31, 32, 'Fizz', 34, 'Buzz', 'Fizz', 37, 38, 'Fizz', 'Buzz', 41, 'Fizz', 43, 44, 'FizzBuzz', 46, 47, 'Fizz', 49, 'Buzz', 'Fizz', 52, 53, 'Fizz', 'Buzz', 56, 'Fizz', 58, 59, 'FizzBuzz', 61, 62, 'Fizz', 64, 'Buzz', 'Fizz', 67, 68, 'Fizz', 'Buzz', 71, 'Fizz', 73, 74, 'FizzBuzz', 76, 77, 'Fizz', 79, 'Buzz', 'Fizz', 82, 83, 'Fizz', 'Buzz', 86, 'Fizz', 88, 89, 'FizzBuzz', 91, 92, 'Fizz', 94, 'Buzz', 'Fizz', 97, 98, 'Fizz', 'Buzz' ] exam_test(fizza, [], exam.fizz_buzz) exam_test("|a| |s|e|r|i|a|l| |k|i|l|l|e|r|", ["a serial killer"], exam.put_behind_bars) exam_test("|a| |b|a|r|t|e|n|d|e|r|", ["a bartender"], exam.put_behind_bars) exam_test(['red fox'], ["x"], exam.pet_filter) exam_test([], ["q"], exam.pet_filter) exam_test(['pig', 'sheep', 'guinea pig', 'pigeon', 'alpaca', 'guppy'], ["p"], exam.pet_filter) exam_test("e", [], exam.best_letter_for_pets) exam_test(175, [], exam.make_filler_text_dictionary, lambda x: len(str(x))) exam_test(True, [50], exam.random_filler_text, lambda x: len(x.split(" ")) == 50 and len(x) > 3 * 50) exam_test(True, [1000], exam.random_filler_text, lambda x: len(x.split(" ")) == 1000 and len(x) > 3 * 1000) exam_test(True, [100], exam.fast_filler, lambda x: len(x.split(" ")) == 100 and len(x) > 3 * 100) exam_test( True, [10], exam.fast_filler, lambda x: x[0] in string.uppercase and x[1] in string.lowercase, "Test if fast_filler is capitalised") exam_test(True, [10], exam.fast_filler, lambda x: x[-1] == ".", "Test if fast_filler finishes with a .") # # try: # with Timeout(1): # for _ in range(10): # exam.fast_filler(1000) # testResults.append( # test(True, # "subsiquent fast_filler")) # except Timeout as t: # testResults.append( # test(False, # "subsiquent fast_filler probably wasn't fast enough")) # except Exception as e: # testResults.append( # test(False, # "subsiquent fast_filler failed" + str(e))) print("{0}/{1} (passed/attempted)".format(sum(testResults), len(testResults))) if sum(testResults) == len(testResults): print(nyan_cat()) message = "Cowabunga! You've got all the tests passing!" completion_message(message, len(message) + 2) return { "of_total": len(testResults), "mark": sum(testResults), "results": testResults }
def theTests(path_to_code_to_check="."): """Run the tests.""" print("\nWelcome to week {}!".format(WEEK_NUMBER)) print("May the odds be ever in your favour.\n") testResults = [] # Tests from here: path = "exercise0.py" if ex_runs(path_to_code_to_check, exNumber=0, weekNumber=WEEK_NUMBER): exercise0 = imp.load_source("exercise0", path) testResults.append( test( exercise0.add_5(55) == 60, "Exercise 0: add_5 - 55 + 5 = 60?")) testResults.append( test(exercise0.add_5(-5) == 0, "Exercise 0: add_5 - -5 + 5 = 0?")) testResults.append( test( exercise0.add_5(0.1) == 5.1, "Exercise 0: add_5 - 0.1 + 5 = 5.1?")) testResults.append( test( exercise0.adder(5, 5) == 10, "Exercise 0: adder - 5 + 5 = 10?")) testResults.append( test( exercise0.adder(-5, -5) == -10, "Exercise 0: adder - -5 + -5 = -10?")) testResults.append( test( exercise0.adder(0.1, 0.9) == 1, "Exercise 0: adder - 0.1 + 0.9 = 1?")) testResults.append( test( exercise0.shout("you've") == "YOU'VE", "Exercise 0: shout - you've => YOU'VE?")) testResults.append( test( exercise0.shout("got") == "GOT", "Exercise 0: shout - got => GOT?")) testResults.append( test( exercise0.shout("to") == "TO", "Exercise 0: shout - to => TO?")) testResults.append( test( exercise0.really_shout("fight") == "FIGHT!", "Exercise 0: really_shout - fight => FIGHT!?")) testResults.append( test( exercise0.shout("for") == "FOR", "Exercise 0: shout - for => FOR?")) testResults.append( test( exercise0.shout("your") == "YOUR", "Exercise 0: shout - your => YOUR?")) testResults.append( test( exercise0.really_shout("right") == "RIGHT!", "Exercise 0: really_shout - right => RIGHT!?")) testResults.append( test( exercise0.shout("to") == "TO", "Exercise 0: shout - to => TO?")) testResults.append( test( exercise0.really_shout("PARTY") == "PARTY!", "Exercise 0: really_shout - PARTY => PARTY!?")) testResults.append( test( exercise0.shout_with_a_number("hi", 1) == "HI 1", "Exercise 0: shout_with_a_number - hi, 1 => HI 1?")) path = "exercise1.py".format(path_to_code_to_check, WEEK_NUMBER) path = "exercise2.py".format(path_to_code_to_check, WEEK_NUMBER) testResults.append( test(ex2runs(path_to_code_to_check), "Exercise 2: debug the file")) path = "exercise3.py".format(path_to_code_to_check, WEEK_NUMBER) if ex3runs(path_to_code_to_check): exercise3 = imp.load_source("exercise3", path) # is odd testResults.append( test( exercise3.is_odd(2) is False, "Exercise 3: is_odd - is 2 odd?")) testResults.append( test(exercise3.is_odd(5), "Exercise 3: is_odd - is 5 odd?")) # fix it testResults.append( test( exercise3.fix_it(True, True) == "No Problem", "Exercise 3: fix_it - it moves, and it should")) testResults.append( test( exercise3.fix_it(False, True) == "WD-40", "Exercise 3: fix_it - it doesn't move, and it should")) testResults.append( test( exercise3.fix_it(True, False) == "Duct Tape", "Exercise 3: fix_it - it moves, and it shouldn't")) testResults.append( test( exercise3.fix_it(False, False) == "No Problem", "Exercise 3: fix_it - it doesn't move, and it shouldn't")) # loops tenStars = ['*', '*', '*', '*', '*', '*', '*', '*', '*', '*'] testResults.append( test(exercise3.loops_1a() == tenStars, "Exercise 3: loops_1a - 1d for loop")) testResults.append( test( exercise3.loops_1c(3, ":)") == [':)', ':)', ':)'], "Exercise 3: loops_1c - 1d with arguments")) ten_by_ten_stars = [ ['*', '*', '*', '*', '*', '*', '*', '*', '*', '*'], ['*', '*', '*', '*', '*', '*', '*', '*', '*', '*'], ['*', '*', '*', '*', '*', '*', '*', '*', '*', '*'], ['*', '*', '*', '*', '*', '*', '*', '*', '*', '*'], ['*', '*', '*', '*', '*', '*', '*', '*', '*', '*'], ['*', '*', '*', '*', '*', '*', '*', '*', '*', '*'], ['*', '*', '*', '*', '*', '*', '*', '*', '*', '*'], ['*', '*', '*', '*', '*', '*', '*', '*', '*', '*'], ['*', '*', '*', '*', '*', '*', '*', '*', '*', '*'], ['*', '*', '*', '*', '*', '*', '*', '*', '*', '*'], ] testResults.append( test(exercise3.loops_2() == ten_by_ten_stars, "Exercise 3: loops_2 - 10×10 stars")) ten_matching_numbers = [ ['0', '0', '0', '0', '0', '0', '0', '0', '0', '0'], ['1', '1', '1', '1', '1', '1', '1', '1', '1', '1'], ['2', '2', '2', '2', '2', '2', '2', '2', '2', '2'], ['3', '3', '3', '3', '3', '3', '3', '3', '3', '3'], ['4', '4', '4', '4', '4', '4', '4', '4', '4', '4'], ['5', '5', '5', '5', '5', '5', '5', '5', '5', '5'], ['6', '6', '6', '6', '6', '6', '6', '6', '6', '6'], ['7', '7', '7', '7', '7', '7', '7', '7', '7', '7'], ['8', '8', '8', '8', '8', '8', '8', '8', '8', '8'], ['9', '9', '9', '9', '9', '9', '9', '9', '9', '9'] ] testResults.append( test(exercise3.loops_3() == ten_matching_numbers, "Exercise 3: loops_3 - 10 matching lists")) ten_rising_lists = [['0', '1', '2', '3', '4', '5', '6', '7', '8', '9'], ['0', '1', '2', '3', '4', '5', '6', '7', '8', '9'], ['0', '1', '2', '3', '4', '5', '6', '7', '8', '9'], ['0', '1', '2', '3', '4', '5', '6', '7', '8', '9'], ['0', '1', '2', '3', '4', '5', '6', '7', '8', '9'], ['0', '1', '2', '3', '4', '5', '6', '7', '8', '9'], ['0', '1', '2', '3', '4', '5', '6', '7', '8', '9'], ['0', '1', '2', '3', '4', '5', '6', '7', '8', '9'], ['0', '1', '2', '3', '4', '5', '6', '7', '8', '9'], ['0', '1', '2', '3', '4', '5', '6', '7', '8', '9']] testResults.append( test(exercise3.loops_4() == ten_rising_lists, "Exercise 3: loops_4 - ten rising lists")) coords = [['(i0, j0)', '(i0, j1)', '(i0, j2)', '(i0, j3)', '(i0, j4)'], ['(i1, j0)', '(i1, j1)', '(i1, j2)', '(i1, j3)', '(i1, j4)'], ['(i2, j0)', '(i2, j1)', '(i2, j2)', '(i2, j3)', '(i2, j4)'], ['(i3, j0)', '(i3, j1)', '(i3, j2)', '(i3, j3)', '(i3, j4)'], ['(i4, j0)', '(i4, j1)', '(i4, j2)', '(i4, j3)', '(i4, j4)'], ['(i5, j0)', '(i5, j1)', '(i5, j2)', '(i5, j3)', '(i5, j4)'], ['(i6, j0)', '(i6, j1)', '(i6, j2)', '(i6, j3)', '(i6, j4)'], ['(i7, j0)', '(i7, j1)', '(i7, j2)', '(i7, j3)', '(i7, j4)'], ['(i8, j0)', '(i8, j1)', '(i8, j2)', '(i8, j3)', '(i8, j4)'], ['(i9, j0)', '(i9, j1)', '(i9, j2)', '(i9, j3)', '(i9, j4)']] testResults.append( test(exercise3.loops_5() == coords, "Exercise 3: loops_5 - write the coords")) wedge = [['0'], ['0', '1'], ['0', '1', '2'], ['0', '1', '2', '3'], ['0', '1', '2', '3', '4'], ['0', '1', '2', '3', '4', '5'], ['0', '1', '2', '3', '4', '5', '6'], ['0', '1', '2', '3', '4', '5', '6', '7'], ['0', '1', '2', '3', '4', '5', '6', '7', '8'], ['0', '1', '2', '3', '4', '5', '6', '7', '8', '9']] testResults.append( test(exercise3.loops_6() == wedge, "Exercise 3: loops_6 - make a wedge")) pyramid = [[' ', ' ', ' ', ' ', '*', ' ', ' ', ' ', ' '], [' ', ' ', ' ', '*', '*', '*', ' ', ' ', ' '], [' ', ' ', '*', '*', '*', '*', '*', ' ', ' '], [' ', '*', '*', '*', '*', '*', '*', '*', ' '], ['*', '*', '*', '*', '*', '*', '*', '*', '*']] testResults.append( test(exercise3.loops_7() == pyramid, "Exercise 3: loops_7 - pyramid of stars")) testResults.append( test(lab_book_entry_completed(), "Lab book entry completed")) print("{0}/{1} (passed/attempted)".format(sum(testResults), len(testResults))) if sum(testResults) == len(testResults): print(nyan_cat()) message = "Rad, you've got all the tests passing!" completion_message(message, len(message) + 2) return { "of_total": len(testResults), "mark": sum(testResults), "results": testResults }
def theTests(path_to_code_to_check="."): """Run all the tests.""" print("\nWelcome to week {}!".format(path_to_code_to_check, WEEK_NUMBER)) print("May the odds be ever in your favour.\n") testResults = [] # Give each person 10 seconds to complete all tests. ex1path = "exercise1.py" if ex_runs(path_to_code_to_check, exNumber=1, weekNumber=WEEK_NUMBER): exercise1 = imp.load_source("exercise1", ex1path) testResults.append( test( exercise1.loop_ranger(3, 8, 1) == [3, 4, 5, 6, 7], "Exercise 1: Loop ranger (3, 8, 1)")) testResults.append( test( exercise1.loop_ranger(100, 104, 2) == [100, 102], "Exercise 1: Loop ranger (100, 104, 2)")) testResults.append( test( exercise1.lone_ranger(3, 8, 1) == [3, 4, 5, 6, 7], "Exercise 1: Lone ranger (3, 8, 1)")) testResults.append( test( exercise1.lone_ranger(100, 104, 2) == [100, 102], "Exercise 1: Lone ranger (100, 104, 2)")) testResults.append( test( exercise1.two_step_ranger(100, 104) == [100, 102], "Exercise 1: Two step ranger (100, 104)")) testResults.append( test( exercise1.two_step_ranger(0, 10) == [0, 2, 4, 6, 8], "Exercise 1: Two step ranger (100, 104)")) # testResults.append( # test(exercise1.gene_krupa_range(0, 10, 2, 1) == # [0, 2, 3, 5, 6, 8, 9], # "Exercise 1: gene_krupa_range(0, 10, 2, 1)")) # testResults.append( # test(exercise1.gene_krupa_range(0, 100, 30, 7) == # [0, 30, 37, 67, 74], # "Exercise 1: gene_krupa_range(0, 100, 30, 7)")) testResults.append( test(test_stubborn_asker(path_to_code_to_check, 50, 60), "Exercise 1: Stubborn asker")) testResults.append( test(test_stubborn_asker(path_to_code_to_check, 10, 20), "Exercise 1: Stubborn asker")) testResults.append( test(test_not_number_rejector(path_to_code_to_check), "Exercise 1: not_number_rejector")) testResults.append( test(test_super_asker(path_to_code_to_check, 50, 60), "Exercise 1: test_super_asker")) local_path = "exercise2.py" testResults.append( test(test_example_guessingGame(path_to_code_to_check), "Exercise 2: example guessing game")) if ex_runs(path_to_code_to_check, exNumber=3, weekNumber=WEEK_NUMBER): imp.load_source("exercise3", "exercise3.py") lowerBound = 10 upperBound = 15 guesses = list(range(lowerBound, upperBound + 1)) mockInputs = [lowerBound] + [upperBound] + guesses testResults.append( test(test_advanced_guessingGame(path_to_code_to_check, mockInputs), "Exercise 3: guessing game, U&L")) mockInputs = ["ten"] + [lowerBound] + [upperBound] + \ ["cats"] + guesses testResults.append( test(test_advanced_guessingGame(path_to_code_to_check, mockInputs), "Exercise 3: guessing game, polite failures")) lowerBound = 15 upperBound = 10 secondGuess = 25 guesses = list(range(lowerBound, secondGuess + 1)) mockInputs = [lowerBound] + [upperBound] + [secondGuess] + guesses testResults.append( test( test_advanced_guessingGame(path_to_code_to_check, mockInputs), "Exercise 3: guessing game, lowerBound " "bigger than upperBound")) lowerBound = 10 upperBound = 11 secondGuess = 15 guesses = list(range(lowerBound, secondGuess + 1)) mockInputs = [lowerBound] + [upperBound] + [secondGuess] + guesses testResults.append( test( test_advanced_guessingGame(path_to_code_to_check, mockInputs), "Exercise 3: guessing game, no " + "range to guess in (delta 1)")) lowerBound = 10 upperBound = 10 secondGuess = 15 guesses = list(range(lowerBound, secondGuess + 1)) mockInputs = [lowerBound] + [upperBound] + [secondGuess] + guesses testResults.append( test( test_advanced_guessingGame(path_to_code_to_check, mockInputs), "Exercise 3: guessing game, no " + "range to guess in (equal)")) if ex_runs(path_to_code_to_check, exNumber=4, weekNumber=WEEK_NUMBER): path = "exercise4.py" imp.load_source("exercise4", path) try_these = [(1, 100, 5), (1, 100, 6), (1, 100, 95), (1, 51, 5), (1, 50, 5)] for i in range(10): try_these.append((0, 100, random.randint(1, 99))) for tv in try_these: print(tv) try: testResults.append( # *tv unpacks this tuple ------v test( test_binary_search(path_to_code_to_check, *tv), "Exercise 4: binary_search" + "({}, {}, {})".format(*tv))) except Exception: print("********\n\nfailed:", tv) print("tv failure", Exception) # raise ValueError("********\n\nfailed: {}".format(tv)) testResults.append(0) # if the binary search is working, show a graph of guess numbers if test(test_binary_search(path_to_code_to_check, 1, 10, 5), ""): # If you aren't Ben, then show the histogram # if os.uname()[1] != "um": # um is ben's computer print("binary search works!") print("{0}/{1} (passed/attempted)".format(sum(testResults), len(testResults))) if sum(testResults) == len(testResults): print(nyan_cat()) message = "Cowabunga! You've got all the tests passing!" completion_message(message, len(message) + 2) return { "of_total": len(testResults), "mark": sum(testResults), "results": testResults }
a=args, e=expected, g=e) testResults.append(test(False, message)) def theTests(path_to_code_to_check="."): """Run all the tests.""" print("\nWelcome to the exam!") print("May the odds be ever in your favour.\nEspecially today!") ex1path = "{}/week{}/exercise1.py".format(path_to_code_to_check, WEEK_NUMBER) <<<<<<< HEAD if ex_runs(path_to_code_to_check, exNumber=1, weekNumber=WEEK_NUMBER): exam = imp.load_source("exercise1", ex1path) testResults.append(test(test_flake8(ex1path), "pass the linter")) ======= if ex_runs(ex1path, exNumber=1, weekNumber=WEEK_NUMBER): exam = imp.load_source("exercise1", ex1path) # testResults.append(test(test_flake8(ex1path), "pass the linter")) >>>>>>> f76a1f2d8baff68dc359e69da49380b6073630ee exam_test("Hello the Queen", ["the Queen"], exam.greet) exam_test("Hello Pr♂nc♀♂", ["Pr♂nc♀♂"], exam.greet) exam_test(4, [[3, 3, 3, 3, 1]], exam.three_counter) exam_test(0, [[0, 1, 2, 5, -9]], exam.three_counter)
def theTests(path_to_code_to_check="."): """Run the tests.""" print("\nWelcome to week {}!".format(WEEK_NUMBER)) print("May the odds be ever in your favour.\n") testResults = [] # Tests from here: path = "exercise0.py" if ex_runs(path_to_code_to_check, exNumber=0, weekNumber=WEEK_NUMBER): exercise0 = imp.load_source("exercise0", path) testResults.append( test(exercise0.add_5(55) == 60, "Exercise 0: add_5 - 55 + 5 = 60?")) testResults.append( test(exercise0.add_5(-5) == 0, "Exercise 0: add_5 - -5 + 5 = 0?")) testResults.append( test(exercise0.add_5(0.1) == 5.1, "Exercise 0: add_5 - 0.1 + 5 = 5.1?")) testResults.append( test(exercise0.adder(5, 5) == 10, "Exercise 0: adder - 5 + 5 = 10?")) testResults.append( test(exercise0.adder(-5, -5) == -10, "Exercise 0: adder - -5 + -5 = -10?")) testResults.append( test(exercise0.adder(0.1, 0.9) == 1, "Exercise 0: adder - 0.1 + 0.9 = 1?")) testResults.append( test(exercise0.shout("you've") == "YOU'VE", "Exercise 0: shout - you've => YOU'VE?")) testResults.append( test(exercise0.shout("got") == "GOT", "Exercise 0: shout - got => GOT?")) testResults.append( test(exercise0.shout("to") == "TO", "Exercise 0: shout - to => TO?")) testResults.append( test(exercise0.really_shout("fight") == "FIGHT!", "Exercise 0: really_shout - fight => FIGHT!?")) testResults.append( test(exercise0.shout("for") == "FOR", "Exercise 0: shout - for => FOR?")) testResults.append( test(exercise0.shout("your") == "YOUR", "Exercise 0: shout - your => YOUR?")) testResults.append( test(exercise0.really_shout("right") == "RIGHT!", "Exercise 0: really_shout - right => RIGHT!?")) testResults.append( test(exercise0.shout("to") == "TO", "Exercise 0: shout - to => TO?")) testResults.append( test(exercise0.really_shout("PARTY") == "PARTY!", "Exercise 0: really_shout - PARTY => PARTY!?")) testResults.append( test(exercise0.shout_with_a_number("hi", 1) == "HI 1", "Exercise 0: shout_with_a_number - hi, 1 => HI 1?"))
def theTests(path_to_code_to_check: str = "../me"): """Run all the tests.""" print(f"\nWelcome to week {WEEK_NUMBER}!") print("May the odds be ever in your favour.\n") testResults = [] # Give each person 10 seconds to complete all tests. if ex_runs(path_to_code_to_check, exerciseNumber=1, weekNumber=WEEK_NUMBER): exercise1 = loadExerciseFile(path_to_code_to_check, weekNumber=WEEK_NUMBER, exerciseNumber=1) testResults.append( test( exercise1.loop_ranger(3, 8, 1) == [3, 4, 5, 6, 7], "Exercise 1: Loop ranger (3, 8, 1)", )) testResults.append( test( exercise1.loop_ranger(100, 104, 2) == [100, 102], "Exercise 1: Loop ranger (100, 104, 2)", )) testResults.append( test( exercise1.lone_ranger(3, 8, 1) == [3, 4, 5, 6, 7], "Exercise 1: Lone ranger (3, 8, 1)", )) testResults.append( test( exercise1.lone_ranger(100, 104, 2) == [100, 102], "Exercise 1: Lone ranger (100, 104, 2)", )) testResults.append( test( exercise1.two_step_ranger(100, 104) == [100, 102], "Exercise 1: Two step ranger (100, 104)", )) testResults.append( test( exercise1.two_step_ranger(0, 10) == [0, 2, 4, 6, 8], "Exercise 1: Two step ranger (100, 104)", )) # testResults.append( # test(exercise1.gene_krupa_range(0, 10, 2, 1) == # [0, 2, 3, 5, 6, 8, 9], # "Exercise 1: gene_krupa_range(0, 10, 2, 1)")) # testResults.append( # test(exercise1.gene_krupa_range(0, 100, 30, 7) == # [0, 30, 37, 67, 74], # "Exercise 1: gene_krupa_range(0, 100, 30, 7)")) testResults.append( test( test_stubborn_asker(path_to_code_to_check, 50, 60), "Exercise 1: Stubborn asker", )) testResults.append( test( test_stubborn_asker(path_to_code_to_check, 10, 20), "Exercise 1: Stubborn asker", )) testResults.append( test( test_not_number_rejector(path_to_code_to_check), "Exercise 1: not_number_rejector", )) testResults.append( test( test_super_asker(path_to_code_to_check, 50, 60), "Exercise 1: test_super_asker", )) testResults.append( test( test_example_guessingGame(path_to_code_to_check), "Exercise 2: example guessing game", )) if ex_runs(path_to_code_to_check, exerciseNumber=3, weekNumber=WEEK_NUMBER): exercise1 = loadExerciseFile(path_to_code_to_check, weekNumber=WEEK_NUMBER, exerciseNumber=3) lowerBound = 10 upperBound = 15 guesses = list(range(lowerBound, upperBound + 1)) mockInputs = [lowerBound] + [upperBound] + guesses testResults.append( test( test_advanced_guessingGame(path_to_code_to_check, mockInputs), "Exercise 3: guessing game, U&L", )) mockInputs = ["ten", lowerBound, upperBound, "cats"] + guesses testResults.append( test( test_advanced_guessingGame(path_to_code_to_check, mockInputs), "Exercise 3: guessing game, polite failures", )) secondGuess = 25 guesses = list(range(lowerBound, secondGuess + 1)) mockInputs = [lowerBound] + [upperBound] + [secondGuess] + guesses testResults.append( test( test_advanced_guessingGame(path_to_code_to_check, mockInputs), "Exercise 3: guessing game, lowerBound " "bigger than upperBound", )) lowerBound = 10 upperBound = 11 secondGuess = 15 guesses = list(range(lowerBound, secondGuess + 1)) mockInputs = [lowerBound] + [upperBound] + [secondGuess] + guesses testResults.append( test( test_advanced_guessingGame(path_to_code_to_check, mockInputs), "Exercise 3: guessing game, no " + "range to guess in (delta 1)", )) lowerBound = 10 upperBound = 10 secondGuess = 15 guesses = list(range(lowerBound, secondGuess + 1)) mockInputs = [lowerBound] + [upperBound] + [secondGuess] + guesses testResults.append( test( test_advanced_guessingGame(path_to_code_to_check, mockInputs), "Exercise 3: guessing game, no " + "range to guess in (equal)", )) if ex_runs(path_to_code_to_check, exerciseNumber=4, weekNumber=WEEK_NUMBER): exercise1 = loadExerciseFile(path_to_code_to_check, weekNumber=WEEK_NUMBER, exerciseNumber=4) try_these = [ (1, 100, 5, "Look low"), (1, 100, 6, "Look low"), (1, 100, 95, "Look high"), (1, 51, 5, "Look low"), (1, 50, 5, "Look low"), ] for _ in range(10): try_these.append( (0, 100, random.randint(1, 99), "randomly generated test value")) for test_vals in try_these: test_name = "Exercise 4: binary_search" test_desc = "(low: {}, high: {}, target: {}) {}".format(*test_vals) try: # *test_vals unpacks this tuple ----------------------- vvvvvvvvvv test_result = test_binary_search(path_to_code_to_check, *test_vals) message = f"{test_name} {test_desc}" testResults.append(test( test_result, message, )) except Exception: print("********\n\nfailed:", test_desc) print("tv failure", Exception) testResults.append(0) # if the binary search is working, show a graph of guess numbers if test(test_binary_search(path_to_code_to_check, 1, 10, 5, ""), ""): # If you aren't Ben, then show the histogram # if os.uname()[1] != "um": # um is ben's computer print("binary search works!") message = "Rad, you've got all the tests passing!" return finish_up(testResults, message, nyan_cat())
def theTests(path_to_code_to_check="../me"): """Run all the tests.""" print("\nWelcome to the exam!") print("May the odds be ever in your favour.\nEspecially today!") if ex_runs(path_to_code_to_check, exerciseNumber=1, weekNumber=WEEK_NUMBER): exam = loadExerciseFile( path_to_code_to_check, weekNumber=WEEK_NUMBER, exerciseNumber=1 ) # testResults.append(test(test_flake8(ex1path), "pass the linter")) exam_test("Hello the Queen", ["the Queen"], exam.greet) exam_test("Hello Pr♂nc♀♂", ["Pr♂nc♀♂"], exam.greet) exam_test(4, [[3, 3, 3, 3, 1]], exam.three_counter) exam_test(0, [[0, 1, 2, 5, -9]], exam.three_counter) # fmt: off fizza = [ 1, 2, "Fizz", 4, "Buzz", "Fizz", 7, 8, "Fizz", "Buzz", 11, "Fizz", 13, 14, "FizzBuzz", 16, 17, "Fizz", 19, "Buzz", "Fizz", 22, 23, "Fizz", "Buzz", 26, "Fizz", 28, 29, "FizzBuzz", 31, 32, "Fizz", 34, "Buzz", "Fizz", 37, 38, "Fizz", "Buzz", 41, "Fizz", 43, 44, "FizzBuzz", 46, 47, "Fizz", 49, "Buzz", "Fizz", 52, 53, "Fizz", "Buzz", 56, "Fizz", 58, 59, "FizzBuzz", 61, 62, "Fizz", 64, "Buzz", "Fizz", 67, 68, "Fizz", "Buzz", 71, "Fizz", 73, 74, "FizzBuzz", 76, 77, "Fizz", 79, "Buzz", "Fizz", 82, 83, "Fizz", "Buzz", 86, "Fizz", 88, 89, "FizzBuzz", 91, 92, "Fizz", 94, "Buzz", "Fizz", 97, 98, "Fizz", "Buzz", ] # fmt: on exam_test(fizza, [], exam.fizz_buzz) exam_test( "|a| |s|e|r|i|a|l| |k|i|l|l|e|r|", ["a serial killer"], exam.put_behind_bars ) exam_test("|a| |b|a|r|t|e|n|d|e|r|", ["a bartender"], exam.put_behind_bars) exam_test(["red fox"], ["x"], exam.pet_filter) exam_test([], ["q"], exam.pet_filter) exam_test( ["pig", "sheep", "guinea pig", "pigeon", "alpaca", "guppy"], ["p"], exam.pet_filter, ) exam_test("e", [], exam.best_letter_for_pets) word_lengths = [[3, 3, 3], [4, 4, 4], [5, 5, 5], [6, 6, 6], [7, 7, 7]] exam_test( word_lengths, [], exam.make_filler_text_dictionary, lambda x: [[len(w) for w in x[k]] for k in x.keys()], ) exam_test( True, [50], exam.random_filler_text, lambda x: len(x.split(" ")) == 50 and len(x) > 3 * 50, ) exam_test( True, [1000], exam.random_filler_text, lambda x: len(x.split(" ")) == 1000 and len(x) > 3 * 1000, ) clean_out_old_env() exam_test( True, [100], exam.fast_filler, lambda x: len(x.split(" ")) == 100 and len(x) > 3 * 100, # chdir=True, # NFI what this does :( ) # exam_test(True, ["./week8/dict_racey.json"], os.path.exists) exam_test( True, [10], exam.fast_filler, lambda x: x[0] in string.ascii_uppercase and x[1] in string.ascii_lowercase, "Test if fast_filler is capitalised", ) exam_test( True, [10], exam.fast_filler, lambda x: x[-1] == ".", "Test if fast_filler finishes with a .", ) print( "The point of saving the dictionary is that it's fast!", "The pattern of saving a value locally so that you don't", "need to go and get it is called caching.", "This test runs fast_filler 10 times, and if it manages it in less", "than a second, then you're good to go!", sep="\n", ) try: TIMEOUT_IN_SECONDS = 1 func_timeout( TIMEOUT_IN_SECONDS, lambda: [exam.fast_filler(1000) for _ in range(10)], args=[], ) testResults.append(test(True, "subsequent fast_filler")) except FunctionTimedOut as t: m = ( "Timed out trying to run fast filler 10 times in 1 second, " "subsequent fast_filler probably wasn't fast enough" ) print(m, str(t)) testResults.append(test(False, m + str(t))) except Exception as e: testResults.append(test(False, "subsequent fast_filler failed: " + str(e))) message = ( "Cowabunga! You've got all the tests passing!\n" "Well done, that's all the exercises for this term out of the way!" ) print(testResults) return finish_up(testResults, message, nyan_cat())
def theTests(path_to_code_to_check="../me"): """Run the tests.""" print("\nWelcome to week {}!".format(WEEK_NUMBER)) print("May the odds be ever in your favour.\n") testResults = [] # Tests from here: if ex_runs(path_to_code_to_check, exerciseNumber=0, weekNumber=WEEK_NUMBER): exercise0 = loadExerciseFile(path_to_code_to_check, weekNumber=WEEK_NUMBER, exerciseNumber=0) testResults.append( test(exercise0.add_1(55) == 56, "Exercise 0: add_1 - 55 + 1 = 56")) testResults.append( test(exercise0.add_1(-5) == -4, "Exercise 0: add_1 - -5 + 1 = -4")) testResults.append( test( exercise0.add_1(0.1) == 1.1, "Exercise 0: add_1 - 0.1 + 1 = 1.1")) testResults.append( test(exercise0.add_5(55) == 60, "Exercise 0: add_5 - 55 + 5 = 60")) testResults.append( test(exercise0.add_5(-5) == 0, "Exercise 0: add_5 - -5 + 5 = 0")) testResults.append( test( exercise0.add_5(0.1) == 5.1, "Exercise 0: add_5 - 0.1 + 5 = 5.1")) testResults.append( test( exercise0.adder(5, 5) == 10, "Exercise 0: adder - 5 + 5 = 10")) testResults.append( test( exercise0.adder(-5, -5) == -10, "Exercise 0: adder - -5 + -5 = -10")) testResults.append( test( exercise0.adder(0.1, 0.9) == 1, "Exercise 0: adder - 0.1 + 0.9 = 1")) testResults.append( test( exercise0.shout("you've") == "YOU'VE", "Exercise 0: shout - you've => YOU'VE", )) testResults.append( test( exercise0.shout("got") == "GOT", "Exercise 0: shout - got => GOT")) testResults.append( test( exercise0.shout("to") == "TO", "Exercise 0: shout - to => TO")) testResults.append( test( exercise0.really_shout("fight") == "FIGHT!", "Exercise 0: really_shout - fight => FIGHT!", )) testResults.append( test( exercise0.shout("for") == "FOR", "Exercise 0: shout - for => FOR")) testResults.append( test( exercise0.shout("your") == "YOUR", "Exercise 0: shout - your => YOUR")) testResults.append( test( exercise0.really_shout("right") == "RIGHT!", "Exercise 0: really_shout - right => RIGHT!", )) testResults.append( test( exercise0.shout("to") == "TO", "Exercise 0: shout - to => TO")) testResults.append( test( exercise0.really_shout("PARTY") == "PARTY!", "Exercise 0: really_shout - PARTY => PARTY!", )) testResults.append( test( exercise0.shout_with_a_number("hi", 1) == "HI 1", "Exercise 0: shout_with_a_number - hi, 1 => HI 1", )) ex2_runs = ex_runs(path_to_code_to_check, exerciseNumber=2, weekNumber=WEEK_NUMBER) if not ex2_runs: print( "Don't worry, exercise 2 comes with errors. It's your job to fix them!" ) testResults.append(test(ex2_runs, "Exercise 2: debug the file")) if ex_runs(path_to_code_to_check, exerciseNumber=3, weekNumber=WEEK_NUMBER): exercise3 = loadExerciseFile(path_to_code_to_check, weekNumber=2, exerciseNumber=3) # is odd testResults.append( test( exercise3.is_odd(2) is False, "Exercise 3: is_odd - is 2 odd")) testResults.append( test(exercise3.is_odd(5), "Exercise 3: is_odd - is 5 odd")) # fix it testResults.append( test( exercise3.fix_it(True, True) == "No Problem", "Exercise 3: fix_it - it moves, and it should", )) testResults.append( test( exercise3.fix_it(False, True) == "WD-40", "Exercise 3: fix_it - it doesn't move, and it should", )) testResults.append( test( exercise3.fix_it(True, False) == "Duct Tape", "Exercise 3: fix_it - it moves, and it shouldn't", )) testResults.append( test( exercise3.fix_it(False, False) == "No Problem", "Exercise 3: fix_it - it doesn't move, and it shouldn't", )) # loops tenStars = ["*", "*", "*", "*", "*", "*", "*", "*", "*", "*"] result = exercise3.loops_1a() == tenStars testResults.append(test(result, "Exercise 3: loops_1a - 1d for loop")) if not result: fail = exercise3.loops_1a() print(("{norm}You're returning {em}{f}{norm}. " "We're looking for {em}{p}{norm}").format(f=fail, p=tenStars, em=EM, norm=NORM)) if fail == None: print(( "{norm}Do you have a line that says " "{em}return the_answer{norm}?\n" "Or maybe you have a line that says {em}return None{norm}?" "Or you are returning a variable that has the value {em}return None{norm}?\n" "You need to return the computed value, so either assign " "it to a variable and return that, or return it directly." ).format(em=EM, norm=NORM)) if fail == "**********": print("remember that we're looking for a list") # TODO: write more failure modes as they come up in testing. testResults.append( test( exercise3.loops_1c(3, ":)") == [":)", ":)", ":)"], "Exercise 3: loops_1c - 1d with arguments", )) ten_by_ten_stars = [ ["*", "*", "*", "*", "*", "*", "*", "*", "*", "*"], ["*", "*", "*", "*", "*", "*", "*", "*", "*", "*"], ["*", "*", "*", "*", "*", "*", "*", "*", "*", "*"], ["*", "*", "*", "*", "*", "*", "*", "*", "*", "*"], ["*", "*", "*", "*", "*", "*", "*", "*", "*", "*"], ["*", "*", "*", "*", "*", "*", "*", "*", "*", "*"], ["*", "*", "*", "*", "*", "*", "*", "*", "*", "*"], ["*", "*", "*", "*", "*", "*", "*", "*", "*", "*"], ["*", "*", "*", "*", "*", "*", "*", "*", "*", "*"], ["*", "*", "*", "*", "*", "*", "*", "*", "*", "*"], ] testResults.append( test( exercise3.loops_2() == ten_by_ten_stars, "Exercise 3: loops_2 - 10×10 stars", )) ten_matching_numbers = [ ["0", "0", "0", "0", "0", "0", "0", "0", "0", "0"], ["1", "1", "1", "1", "1", "1", "1", "1", "1", "1"], ["2", "2", "2", "2", "2", "2", "2", "2", "2", "2"], ["3", "3", "3", "3", "3", "3", "3", "3", "3", "3"], ["4", "4", "4", "4", "4", "4", "4", "4", "4", "4"], ["5", "5", "5", "5", "5", "5", "5", "5", "5", "5"], ["6", "6", "6", "6", "6", "6", "6", "6", "6", "6"], ["7", "7", "7", "7", "7", "7", "7", "7", "7", "7"], ["8", "8", "8", "8", "8", "8", "8", "8", "8", "8"], ["9", "9", "9", "9", "9", "9", "9", "9", "9", "9"], ] testResults.append( test( exercise3.loops_3() == ten_matching_numbers, "Exercise 3: loops_3 - 10 matching lists", )) ten_rising_lists = [ ["0", "1", "2", "3", "4", "5", "6", "7", "8", "9"], ["0", "1", "2", "3", "4", "5", "6", "7", "8", "9"], ["0", "1", "2", "3", "4", "5", "6", "7", "8", "9"], ["0", "1", "2", "3", "4", "5", "6", "7", "8", "9"], ["0", "1", "2", "3", "4", "5", "6", "7", "8", "9"], ["0", "1", "2", "3", "4", "5", "6", "7", "8", "9"], ["0", "1", "2", "3", "4", "5", "6", "7", "8", "9"], ["0", "1", "2", "3", "4", "5", "6", "7", "8", "9"], ["0", "1", "2", "3", "4", "5", "6", "7", "8", "9"], ["0", "1", "2", "3", "4", "5", "6", "7", "8", "9"], ] testResults.append( test( exercise3.loops_4() == ten_rising_lists, "Exercise 3: loops_4 - ten rising lists", )) coords = [ ["(i0, j0)", "(i0, j1)", "(i0, j2)", "(i0, j3)", "(i0, j4)"], ["(i1, j0)", "(i1, j1)", "(i1, j2)", "(i1, j3)", "(i1, j4)"], ["(i2, j0)", "(i2, j1)", "(i2, j2)", "(i2, j3)", "(i2, j4)"], ["(i3, j0)", "(i3, j1)", "(i3, j2)", "(i3, j3)", "(i3, j4)"], ["(i4, j0)", "(i4, j1)", "(i4, j2)", "(i4, j3)", "(i4, j4)"], ["(i5, j0)", "(i5, j1)", "(i5, j2)", "(i5, j3)", "(i5, j4)"], ["(i6, j0)", "(i6, j1)", "(i6, j2)", "(i6, j3)", "(i6, j4)"], ["(i7, j0)", "(i7, j1)", "(i7, j2)", "(i7, j3)", "(i7, j4)"], ["(i8, j0)", "(i8, j1)", "(i8, j2)", "(i8, j3)", "(i8, j4)"], ["(i9, j0)", "(i9, j1)", "(i9, j2)", "(i9, j3)", "(i9, j4)"], ] testResults.append( test(exercise3.loops_5() == coords, "Exercise 3: loops_5 - write the coords")) wedge = [ ["0"], ["0", "1"], ["0", "1", "2"], ["0", "1", "2", "3"], ["0", "1", "2", "3", "4"], ["0", "1", "2", "3", "4", "5"], ["0", "1", "2", "3", "4", "5", "6"], ["0", "1", "2", "3", "4", "5", "6", "7"], ["0", "1", "2", "3", "4", "5", "6", "7", "8"], ["0", "1", "2", "3", "4", "5", "6", "7", "8", "9"], ] testResults.append( test(exercise3.loops_6() == wedge, "Exercise 3: loops_6 - make a wedge")) pyramid = [ [" ", " ", " ", " ", "*", " ", " ", " ", " "], [" ", " ", " ", "*", "*", "*", " ", " ", " "], [" ", " ", "*", "*", "*", "*", "*", " ", " "], [" ", "*", "*", "*", "*", "*", "*", "*", " "], ["*", "*", "*", "*", "*", "*", "*", "*", "*"], ] testResults.append( test(exercise3.loops_7() == pyramid, "Exercise 3: loops_7 - pyramid of stars")) testResults.append( test( lab_book_entry_completed(WEEK_NUMBER, path_to_code_to_check), "Lab book entry completed", )) message = "Rad, you've got all the tests passing!" return finish_up(testResults, message, nyan_cat())
def theTests(path_to_code_to_check="."): """Run all the tests.""" print("\nWelcome to the exam!") print("May the odds be ever in your favour.\nEspecially today!") testResults = [] ex1path = "{}/week{}/exercise1.py".format(path_to_code_to_check, WEEK_NUMBER) if ex_runs(path_to_code_to_check, exNumber=1, weekNumber=WEEK_NUMBER): exam = imp.load_source("exercise1", ex1path) testResults.append( test(test_flake8(ex1path), "Pass the linter")) testResults.append( test(exam.greet("the Queen") == "Hello the Queen", "greet the Queen")) testResults.append( test(exam.greet("Pr♂nc♀♂") == "Hello Pr♂nc♀♂", "greet Pr♂nc♀♂")) testResults.append( test(exam.three_counter([3, 3, 3, 3, 1]) == 4, "three_counter [3, 3, 3, 3, 1]")) testResults.append( test(exam.three_counter([0, 1, 2, 5, -9]) == 0, "three_counter [0, 1, 2, 5, -9]")) fizza = [1, 2, 'Fizz', 4, 'Buzz', 'Fizz', 7, 8, 'Fizz', 'Buzz', 11, 'Fizz', 13, 14, 'FizzBuzz', 16, 17, 'Fizz', 19, 'Buzz', 'Fizz', 22, 23, 'Fizz', 'Buzz', 26, 'Fizz', 28, 29, 'FizzBuzz', 31, 32, 'Fizz', 34, 'Buzz', 'Fizz', 37, 38, 'Fizz', 'Buzz', 41, 'Fizz', 43, 44, 'FizzBuzz', 46, 47, 'Fizz', 49, 'Buzz', 'Fizz', 52, 53, 'Fizz', 'Buzz', 56, 'Fizz', 58, 59, 'FizzBuzz', 61, 62, 'Fizz', 64, 'Buzz', 'Fizz', 67, 68, 'Fizz', 'Buzz', 71, 'Fizz', 73, 74, 'FizzBuzz', 76, 77, 'Fizz', 79, 'Buzz', 'Fizz', 82, 83, 'Fizz', 'Buzz', 86, 'Fizz', 88, 89, 'FizzBuzz', 91, 92, 'Fizz', 94, 'Buzz', 'Fizz', 97, 98, 'Fizz', 'Buzz'] testResults.append( test(exam.fizz_buzz() == fizza, "fizz_buzz")) a = exam.put_behind_bars("a serial killer") testResults.append( test(a == "|a| |s|e|r|i|a|l| |k|i|l|l|e|r|", "put_behind_bars")) a = exam.put_behind_bars("a bartender") testResults.append( test(a == "|a| |b|a|r|t|e|n|d|e|r|", "put_behind_bars")) testResults.append( test(exam.pet_filter("x") == ['red fox'], "pet_filter")) testResults.append( test(exam.pet_filter("q") == [], "pet_filter")) testResults.append( test(exam.pet_filter("p") == ['pig', 'sheep', 'guinea pig', 'pigeon', 'alpaca', 'guppy'], "pet_filter")) testResults.append( test(exam.best_letter_for_pets() == "e", "best_letter_for_pets")) testResults.append( test(len(str(exam.make_filler_text_dictionary())) == 175, "make_filler_text_dictionary")) filler1 = exam.random_filler_text(50) testResults.append( test(len(filler1.split(" ")) == 50 and len(filler1) > 3*50, "random_filler_text")) filler2 = exam.fast_filler(1000) testResults.append( test(len(filler2.split(" ")) == 1000 and len(filler2) > 3*1000, "first fast_filler")) testResults.append( test(exam.fast_filler(10)[0] in string.uppercase and exam.fast_filler(10)[1] in string.lowercase, "first fast_filler has a starting capital")) testResults.append( test(exam.fast_filler(10)[-1] == ".", "first fast_filler ends with a .")) try: with Timeout(1): for _ in range(10): exam.fast_filler(1000) testResults.append( test(True, "subsiquent fast_filler")) except Exception as e: print(e) testResults.append( test(False, "subsiquent fast_filler wasn't fast enough")) print("{0}/{1} (passed/attempted)".format(sum(testResults), len(testResults))) if sum(testResults) == len(testResults): print(nyan_cat()) message = "Cowabunga! You've got all the tests passing!" completion_message(message, len(message) + 2) return {"of_total": len(testResults), "mark": sum(testResults), "results": testResults}
def theTests(path_to_code_to_check="../me") -> dict: """Run the tests.""" print(f"\nWelcome to week {WEEK_NUMBER}!\n") print("May the odds be ever in your favour.\n") testResults = [] # Tests from here: if ex_runs(path_to_code_to_check, exerciseNumber=0, weekNumber=WEEK_NUMBER): exercise0 = loadExerciseFile(path_to_code_to_check, weekNumber=WEEK_NUMBER, exerciseNumber=0) testResults.append( test(exercise0.add_1(55) == 56, "Exercise 0: add_1 - 55 + 1 = 56")) testResults.append( test(exercise0.add_1(-5) == -4, "Exercise 0: add_1 - -5 + 1 = -4")) testResults.append( test( exercise0.add_1(0.1) == 1.1, "Exercise 0: add_1 - 0.1 + 1 = 1.1")) testResults.append( test(exercise0.add_5(55) == 60, "Exercise 0: add_5 - 55 + 5 = 60")) testResults.append( test(exercise0.add_5(-5) == 0, "Exercise 0: add_5 - -5 + 5 = 0")) testResults.append( test( exercise0.add_5(0.1) == 5.1, "Exercise 0: add_5 - 0.1 + 5 = 5.1")) testResults.append( test( exercise0.adder(5, 5) == 10, "Exercise 0: adder - 5 + 5 = 10")) testResults.append( test( exercise0.adder(-5, -5) == -10, "Exercise 0: adder - -5 + -5 = -10")) testResults.append( test( exercise0.adder(0.1, 0.9) == 1, "Exercise 0: adder - 0.1 + 0.9 = 1")) words = "you've got to fight for your right to party".split(" ") for word in words: word_up = word.upper() testResults.append( test( exercise0.shout(word) == word_up, f"Exercise 0: shout - {word} => {word_up}", )) testResults.append( test( exercise0.shout_with_a_number("hi", 1) == "HI 1", "Exercise 0: shout_with_a_number - hi, 1 => HI 1", )) ex2_runs = ex_runs(path_to_code_to_check, exerciseNumber=2, weekNumber=WEEK_NUMBER) if not ex2_runs: print( "Don't worry, exercise 2 comes with errors. It's your job to fix them!" ) testResults.append(test(ex2_runs, "Exercise 2: debug the file")) if ex_runs(path_to_code_to_check, exerciseNumber=3, weekNumber=WEEK_NUMBER): exercise3 = loadExerciseFile(path_to_code_to_check, weekNumber=WEEK_NUMBER, exerciseNumber=3) # is odd testResults.append( test( exercise3.is_odd(2) is False, "Exercise 3: is_odd - is 2 odd")) testResults.append( test(exercise3.is_odd(5), "Exercise 3: is_odd - is 5 odd")) # fix it scenarios = [ { "it_moves": True, "it_should_move": True, "answer": "No Problem" }, { "it_moves": True, "it_should_move": False, "answer": "WD-40" }, { "it_moves": False, "it_should_move": True, "answer": "Duct Tape" }, { "it_moves": False, "it_should_move": False, "answer": "No Problem" }, ] for s in scenarios: it = "moves" if s["it_moves"] else "does not move" should = "" if s["it_should_move"] else "not" testResults.append( test( exercise3.fix_it(s["it_moves"], s["it_should_move"]) == s["answer"], f"Exercise 3: fix_it - it {it}, and it should {should} move", )) # loops tenStars = ["*", "*", "*", "*", "*", "*", "*", "*", "*", "*"] result = exercise3.loops_1a() if result == tenStars: testResults.append(test(True, "Exercise 3: loops_1a - 1d for loop")) else: print(f"{NORM}" f"You're returning: {EM}{result}{NORM}. " f"We're looking for: {EM}{tenStars}{NORM}") if result == None: print(( "{norm}Do you have a line that says " "{em}return the_answer{norm}?\n" "Or maybe you have a line that says {em}return None{norm}?" "Or you are returning a variable that has the value " "{em}return None{norm}?\n" "Remember: {em}return print(something){norm} is the same " "as {em}return None{norm} because {em}print{norm} returns " "None\n" "You need to return the computed value, so either assign " "it to a variable and return that, or return it directly." ).format(em=EM, norm=NORM)) elif result == "**********": print("remember that we're looking for a list") # TODO: write more failure modes as they come up in testing. testResults.append( test( exercise3.loops_1c(3, ":)") == [":)", ":)", ":)"], "Exercise 3: loops_1c - 1d with arguments", )) ten_by_ten_stars = [ ["*", "*", "*", "*", "*", "*", "*", "*", "*", "*"], ["*", "*", "*", "*", "*", "*", "*", "*", "*", "*"], ["*", "*", "*", "*", "*", "*", "*", "*", "*", "*"], ["*", "*", "*", "*", "*", "*", "*", "*", "*", "*"], ["*", "*", "*", "*", "*", "*", "*", "*", "*", "*"], ["*", "*", "*", "*", "*", "*", "*", "*", "*", "*"], ["*", "*", "*", "*", "*", "*", "*", "*", "*", "*"], ["*", "*", "*", "*", "*", "*", "*", "*", "*", "*"], ["*", "*", "*", "*", "*", "*", "*", "*", "*", "*"], ["*", "*", "*", "*", "*", "*", "*", "*", "*", "*"], ] testResults.append( test( exercise3.loops_2() == ten_by_ten_stars, "Exercise 3: loops_2 - 10×10 stars", )) ten_matching_numbers = [ ["0", "0", "0", "0", "0", "0", "0", "0", "0", "0"], ["1", "1", "1", "1", "1", "1", "1", "1", "1", "1"], ["2", "2", "2", "2", "2", "2", "2", "2", "2", "2"], ["3", "3", "3", "3", "3", "3", "3", "3", "3", "3"], ["4", "4", "4", "4", "4", "4", "4", "4", "4", "4"], ["5", "5", "5", "5", "5", "5", "5", "5", "5", "5"], ["6", "6", "6", "6", "6", "6", "6", "6", "6", "6"], ["7", "7", "7", "7", "7", "7", "7", "7", "7", "7"], ["8", "8", "8", "8", "8", "8", "8", "8", "8", "8"], ["9", "9", "9", "9", "9", "9", "9", "9", "9", "9"], ] testResults.append( test( exercise3.loops_3() == ten_matching_numbers, "Exercise 3: loops_3 - 10 matching lists", )) ten_rising_lists = [ ["0", "1", "2", "3", "4", "5", "6", "7", "8", "9"], ["0", "1", "2", "3", "4", "5", "6", "7", "8", "9"], ["0", "1", "2", "3", "4", "5", "6", "7", "8", "9"], ["0", "1", "2", "3", "4", "5", "6", "7", "8", "9"], ["0", "1", "2", "3", "4", "5", "6", "7", "8", "9"], ["0", "1", "2", "3", "4", "5", "6", "7", "8", "9"], ["0", "1", "2", "3", "4", "5", "6", "7", "8", "9"], ["0", "1", "2", "3", "4", "5", "6", "7", "8", "9"], ["0", "1", "2", "3", "4", "5", "6", "7", "8", "9"], ["0", "1", "2", "3", "4", "5", "6", "7", "8", "9"], ] res = exercise3.loops_4() if res == ten_rising_lists: testResults.append( test(True, "Exercise 3: loops_4 - ten rising lists")) else: if len(res) == 10 and res[0][0] == 0: print("This is looking promising, but the test is looking for " "strings, not numbers. look into what str() does") testResults.append( test(False, "Exercise 3: loops_4 - ten rising lists")) else: testResults.append( test(False, "Exercise 3: loops_4 - ten rising lists")) coords = [ ["(i0, j0)", "(i0, j1)", "(i0, j2)", "(i0, j3)", "(i0, j4)"], ["(i1, j0)", "(i1, j1)", "(i1, j2)", "(i1, j3)", "(i1, j4)"], ["(i2, j0)", "(i2, j1)", "(i2, j2)", "(i2, j3)", "(i2, j4)"], ["(i3, j0)", "(i3, j1)", "(i3, j2)", "(i3, j3)", "(i3, j4)"], ["(i4, j0)", "(i4, j1)", "(i4, j2)", "(i4, j3)", "(i4, j4)"], ["(i5, j0)", "(i5, j1)", "(i5, j2)", "(i5, j3)", "(i5, j4)"], ["(i6, j0)", "(i6, j1)", "(i6, j2)", "(i6, j3)", "(i6, j4)"], ["(i7, j0)", "(i7, j1)", "(i7, j2)", "(i7, j3)", "(i7, j4)"], ["(i8, j0)", "(i8, j1)", "(i8, j2)", "(i8, j3)", "(i8, j4)"], ["(i9, j0)", "(i9, j1)", "(i9, j2)", "(i9, j3)", "(i9, j4)"], ] testResults.append( test(exercise3.loops_5() == coords, "Exercise 3: loops_5 - write the coords")) wedge = [ ["0"], ["0", "1"], ["0", "1", "2"], ["0", "1", "2", "3"], ["0", "1", "2", "3", "4"], ["0", "1", "2", "3", "4", "5"], ["0", "1", "2", "3", "4", "5", "6"], ["0", "1", "2", "3", "4", "5", "6", "7"], ["0", "1", "2", "3", "4", "5", "6", "7", "8"], ["0", "1", "2", "3", "4", "5", "6", "7", "8", "9"], ] testResults.append( test(exercise3.loops_6() == wedge, "Exercise 3: loops_6 - make a wedge")) pyramid = [ [" ", " ", " ", " ", "*", " ", " ", " ", " "], [" ", " ", " ", "*", "*", "*", " ", " ", " "], [" ", " ", "*", "*", "*", "*", "*", " ", " "], [" ", "*", "*", "*", "*", "*", "*", "*", " "], ["*", "*", "*", "*", "*", "*", "*", "*", "*"], ] testResults.append( test(exercise3.loops_7() == pyramid, "Exercise 3: loops_7 - pyramid of stars")) testResults.append( test( lab_book_entry_completed(WEEK_NUMBER, path_to_code_to_check), "Lab book entry completed", )) message = "Rad, you've got all the tests passing!" return finish_up(testResults, message, nyan_cat())