def test_comp(typestr, comptype, index, iter_vars_names, not_called_msg, insufficient_ifs_msg, incorrect_iter_vars_msg, comp_iter, ifs, key=None, body=None, value=None, rep=None, state=None): MSG_INCORRECT_ITER_VARS = "Have you used the correct iterator variables?" MSG_INCORRECT_NUM_ITER_VARS = "Have you used {{num_vars}} iterator variables?" MSG_INSUFFICIENT_IFS = "Have you used {{sol_len}} ifs?" # make sure other messages are set to default if None if insufficient_ifs_msg is None: insufficient_ifs_msg = MSG_INSUFFICIENT_IFS # get comprehension child = check_node(comptype, index-1, typestr, missing_msg=not_called_msg, state=state) # test comprehension iter and its variable names (or number of variables) if comp_iter: multi(comp_iter, state=check_part("iter", "iterable part", state=child)) # test iterator variables default_msg = MSG_INCORRECT_ITER_VARS if iter_vars_names else MSG_INCORRECT_NUM_ITER_VARS has_context(incorrect_iter_vars_msg or default_msg, iter_vars_names, state=child) # test the main expressions. if body: multi(body, state=check_part("body", "body", state=child)) # list and gen comp if key: multi(key, state=check_part("key", "key part", state=child)) # dict comp if value: multi(value, state=check_part("value", "value part", state=child)) # "" # test a list of ifs. each entry corresponds to a filter in the comprehension. for i, if_test in enumerate(ifs or []): # test that ifs are same length has_equal_part_len('ifs', insufficient_ifs_msg, state=child) # test individual ifs multi(if_test, state=check_part_index("ifs", i, utils.get_ord(i+1) + " if", state=child))
def test_with( index, context_vals=False, # whether to check number of context vals context_tests=None, # check on context expressions body=None, undefined_msg=None, context_vals_len_msg=None, context_vals_msg=None, expand_message=True, state=None): """Test a with statement. with open_file('...') as bla: [ open_file('...').__enter__() ] with open_file('...') as file: [ ] """ check_with = partial(check_node, 'withs', index - 1, "`with` statement", MSG_MISSING, state=state) child = check_with(MSG_PREPEND if expand_message else "") child2 = check_with(MSG_PREPEND2 if expand_message else "") if context_vals: # test context var names ---- has_context(incorrect_msg=context_vals_msg or MSG_CTXT_NAMES, exact_names=True, state=child) # test num context vars ---- has_equal_part_len('context', MSG_NUM_CTXT, state=child) # Context sub tests ---- if context_tests and not isinstance(context_tests, list): context_tests = [context_tests] for i, context_test in enumerate(context_tests or []): # partial the substate check, because the function uses two prepended messages check_context = partial(check_part_index, 'context', i, "%s context" % utils.get_ord(i + 1), MSG_NUM_CTXT2) check_context(state=child) # test exist ctxt_state = check_context(state=child2) # sub tests multi(context_test, state=ctxt_state) # Body sub tests ---- if body is not None: body_state = check_part('body', 'body', state=child2) with_context(body, state=body_state)
def test_comp(typestr, comptype, index, iter_vars_names, not_called_msg, insufficient_ifs_msg, incorrect_iter_vars_msg, comp_iter, ifs, key=None, body=None, value=None, expand_message = True, rep=None, state=None): # if true, set expand_message to default (for backwards compatibility) expand_message = MSG_PREPEND if expand_message is True else (expand_message or "") # make sure other messages are set to default if None if insufficient_ifs_msg is None: insufficient_ifs_msg = MSG_INSUFFICIENT_IFS if not_called_msg is None: not_called_msg = MSG_NOT_CALLED # TODO MSG: function was not consistent with prepending, so use state w/o expand_message quiet_state = check_node(comptype, index-1, typestr, not_called_msg, "", state) # get comprehension state = check_node(comptype, index-1, typestr, not_called_msg, expand_message, state) # test comprehension iter and its variable names (or number of variables) if comp_iter: multi(comp_iter, state=check_part("iter", "iterable part", state)) has_iter_vars(incorrect_iter_vars_msg, iter_vars_names, state=quiet_state) # test the main expressions. if body: multi(body, state=check_part("body", "body", state)) # list and gen comp if key: multi(key, state=check_part("key", "key part", state)) # dict comp if value: multi(value, state=check_part("value", "value part", state)) # "" # test a list of ifs. each entry corresponds to a filter in the comprehension. for i, if_test in enumerate(ifs or []): # test that ifs are same length has_equal_part_len('ifs', insufficient_ifs_msg, state=quiet_state) # test individual ifs multi(if_test, state=check_part_index("ifs", i, get_ord(i+1) + " if", state=state))
def test_comp(typestr, comptype, index, iter_vars_names, not_called_msg, insufficient_ifs_msg, incorrect_iter_vars_msg, comp_iter, ifs, key=None, body=None, value=None, expand_message=True, rep=None, state=None): # if true, set expand_message to default (for backwards compatibility) expand_message = MSG_PREPEND if expand_message is True else (expand_message or "") # make sure other messages are set to default if None if insufficient_ifs_msg is None: insufficient_ifs_msg = MSG_INSUFFICIENT_IFS if not_called_msg is None: not_called_msg = MSG_NOT_CALLED # TODO MSG: function was not consistent with prepending, so use state w/o expand_message quiet_state = check_node(comptype, index - 1, typestr, not_called_msg, "", state) # get comprehension state = check_node(comptype, index - 1, typestr, not_called_msg, expand_message, state) # test comprehension iter and its variable names (or number of variables) if comp_iter: multi(comp_iter, state=check_part("iter", "iterable part", state)) # test iterator variables default_msg = MSG_INCORRECT_ITER_VARS if iter_vars_names else MSG_INCORRECT_NUM_ITER_VARS has_context(incorrect_iter_vars_msg or default_msg, iter_vars_names, state=quiet_state) # test the main expressions. if body: multi(body, state=check_part("body", "body", state)) # list and gen comp if key: multi(key, state=check_part("key", "key part", state)) # dict comp if value: multi(value, state=check_part("value", "value part", state)) # "" # test a list of ifs. each entry corresponds to a filter in the comprehension. for i, if_test in enumerate(ifs or []): # test that ifs are same length has_equal_part_len('ifs', insufficient_ifs_msg, state=quiet_state) # test individual ifs multi(if_test, state=check_part_index("ifs", i, get_ord(i + 1) + " if", state=state))
def test_with(index, context_vals=False, # whether to check number of context vals context_tests=None, # check on context expressions body=None, undefined_msg=None, context_vals_len_msg=None, context_vals_msg=None, expand_message=True, state=None): """Test a with statement. with open_file('...') as bla: [ open_file('...').__enter__() ] with open_file('...') as file: [ ] """ rep = Reporter.active_reporter rep.set_tag("fun", "test_with") check_with = partial(check_node, 'withs', index-1, "`with` statement", MSG_MISSING, state=state) child = check_with(MSG_PREPEND if expand_message else "") child2 = check_with(MSG_PREPEND2 if expand_message else "") quiet_child = quiet(1, child) if context_vals: # test num context vars ---- too_many = len(child.student_parts['context']) > len(child.solution_parts['context']) if too_many: _msg = child.build_message(MSG_NUM_CTXT) rep.do_test(Test(Feedback(_msg, child.student_tree))) # test context var names ---- for i in range(len(child.solution_parts['context'])): ctxt_state = check_part_index('context', i, "", state=child) has_equal_part('target_vars', MSG_CTXT_NAMES, state=ctxt_state) # Context sub tests ---- if context_tests and not isinstance(context_tests, list): context_tests = [context_tests] for i, context_test in enumerate(context_tests or []): # partial the substate check, because the function uses two prepended messages check_context = partial(check_part_index, 'context', i, "%s context"%utils.get_ord(i+1), MSG_NUM_CTXT2) check_context(state=child) # test exist ctxt_state = check_context(state=child2) # sub tests multi(context_test, state=ctxt_state) # Body sub tests ---- if body is not None: body_state = check_part('body', 'body', state=child2) with_context(body, state=body_state)
def test_with(index, context_vals=False, # whether to check number of context vals context_tests=None, # check on context expressions body=None, undefined_msg=None, context_vals_len_msg=None, context_vals_msg=None, state=None): """Test a with statement. with open_file('...') as bla: [ open_file('...').__enter__() ] with open_file('...') as file: [ ] """ MSG_NUM_CTXT = "Make sure to use the correct number of context variables. It seems you defined too many." MSG_NUM_CTXT2 = "Make sure to use the correct number of context variables. It seems you defined too little." MSG_CTXT_NAMES = "Make sure to use the correct context variable names. Was expecting `{{sol_vars}}` but got `{{stu_vars}}`." check_with = partial(check_node, 'withs', index-1, "{{ordinal}} `with` statement", state=state) child = check_with() child2 = check_with() if context_vals: # test context var names ---- has_context(incorrect_msg=context_vals_msg or MSG_CTXT_NAMES, exact_names = True, state=child) # test num context vars ---- has_equal_part_len('context', MSG_NUM_CTXT, state=child) # Context sub tests ---- if context_tests and not isinstance(context_tests, list): context_tests = [context_tests] for i, context_test in enumerate(context_tests or []): # partial the substate check, because the function uses two prepended messages check_context = partial(check_part_index, 'context', i, "%s context"%utils.get_ord(i+1), missing_msg=MSG_NUM_CTXT2) check_context(state=child) # test exist ctxt_state = check_context(state=child2) # sub tests multi(context_test, state=ctxt_state) # Body sub tests ---- if body is not None: body_state = check_part('body', 'body', state=child2) with_context(body, state=body_state)
def test_or(*tests, state=None): """Test whether at least one SCT passes.""" rep = Reporter.active_reporter success = False first_feedback = None for test in tests: try: multi(test, state=state) success = True except TestFail as e: if not first_feedback: first_feedback = e.feedback if success: return rep.do_test(Test(first_feedback))
def test_or(*tests, state=None): """Test whether at least one SCT passes.""" rep = Reporter.active_reporter rep.set_tag("fun", "test_or") success = False first_feedback = None for test in tests: try: multi(test, state=state) success = True except TestFail as e: if not first_feedback: first_feedback = rep.feedback rep.failed_test = False if success: return rep.failed_test = True rep.feedback = first_feedback raise TestFail
def test_for_loop(index=1, for_iter=None, body=None, orelse=None, state=None): """Test parts of the for loop. This test function will allow you to extract parts of a specific for loop and perform a set of tests specifically on these parts. A for loop consists of two parts: the sequence, `for_iter`, which is the values over which are looped, and the `body`. A for loop can have a else part as well, `orelse`, but this is almost never used.:: for i in range(10): print(i) Has :code:`range(10)` as the sequence and :code:`print(i)` as the body. Args: index (int): index of the function call to be checked. Defaults to 1. for_iter: this argument holds the part of code that will be ran to check the sequence of the for loop. It should be passed as a lambda expression or a function. The functions that are ran should be other pythonwhat test functions, and they will be tested specifically on only the sequence part of the for loop. body: this argument holds the part of code that will be ran to check the body of the for loop. It should be passed as a lambda expression or a function. The functions that are ran should be other pythonwhat test functions, and they will be tested specifically on only the body of the for loop. orelse: this argument holds the part of code that will be ran to check the else part of the for loop. It should be passed as a lambda expression or a function. The functions that are ran should be other pythonwhat test functions, and they will be tested specifically on only the else part of the for loop. :Example: Student code:: for i in range(10): print(i) Solution code:: for n in range(10): print(n) SCT:: test_for_loop(1, for_iter = test_function("range"), body = test_expression_output(context_val = [5]) This SCT will evaluate to True as the function :code:`range` is used in the sequence and the function :code:`test_exression_output()` will pass on the body code. """ state = check_node('for_loops', index-1, "{{ordinal}} for loop", state=state) multi(for_iter, state = check_part('iter', 'sequence part', state=state)) multi(body, state = check_part('body', 'body', state=state)) multi(orelse, state = check_part('orelse', 'else part', state=state))
def test_if_else(index=1, test=None, body=None, orelse=None, expand_message=True, use_if_exp=False, state=None): """Test parts of the if statement. This test function will allow you to extract parts of a specific if statement and perform a set of tests specifically on these parts. A for loop consists of three potential parts: the condition test, :code:`test`, which specifies the condition of the if statement, the :code:`body`, which is what's executed if the condition is True and a else part, :code:`orelse`, which will be executed if the condition is not True.:: if 5 == 3: print("success") else: print("fail") Has :code:`5 == 3` as the condition test, :code:`print("success")` as the body and :code:`print("fail")` as the else part. Args: index (int): index of the function call to be checked. Defaults to 1. test: this argument holds the part of code that will be ran to check the condition test of the if statement. It should be passed as a lambda expression or a function definition. The functions that are ran should be other pythonwhat test functions, and they will be tested specifically on only the condition test of the if statement. body: this argument holds the part of code that will be ran to check the body of the if statement. It should be passed as a lambda expression or a function definition. The functions that are ran should be other pythonwhat test functions, and they will be tested specifically on only the body of the if statement. orelse: this argument holds the part of code that will be ran to check the else part of the if statement. It should be passed as a lambda expression or a function definition. The functions that are ran should be other pythonwhat test functions, and they will be tested specifically on only the else part of the if statement. expand_message (bool): if true, feedback messages will be expanded with :code:`in the ___ of the if statement on line ___`. Defaults to True. If False, :code:`test_if_else()` will generate no extra feedback. :Example: Student code:: a = 12 if a > 3: print('test %d' % a) Solution code:: a = 4 if a > 3: print('test %d' % a) SCT:: test_if_else(1, body = test_expression_output( extra_env = { 'a': 5 } incorrect_msg = "Print out the correct things")) This SCT will pass as :code:`test_expression_output()` is ran on the body of the if statement and it will output the same thing in the solution as in the student code. """ rep = Reporter.active_reporter rep.set_tag("fun", "test_if_else") # get state with specific if block node_name = 'if_exps' if use_if_exp else 'if_elses' # TODO original typestr for check_node used if rather than `if` state = check_node(node_name, index-1, "if statement", MSG_MISSING, MSG_PREPEND if expand_message else "", state=state) # run sub tests multi(test, state = check_part('test', 'condition', state)) multi(body, state = check_part('body', 'body', state)) multi(orelse, state = check_part('orelse', 'else part', state))
def test_try_except(index=1, not_called_msg=None, body=None, handlers={}, except_missing_msg = None, orelse=None, orelse_missing_msg=None, finalbody=None, finalbody_missing_msg=None, expand_message=True, state=None): """Test whether the student correctly coded a `try-except` block. This function allows you to test specific parts of a try-except block. A try-except block consists of 4 parts: a body, error handlers, plus (rarely) an else and final block. :: try: print(hello) except NameError: print('hello what?') except: print('unexplained error') else: print('else block') finally: print('final block') Args: index (int): index of the try-except block to check. not_called_msg: override the default message when too few try-except blocks found in student code. body: sub-sct to test the code of the `try` block. handlers: a dictionary, where the keys are the error classes you expect the student to capture (for the general `except:`, use `'all'`), and the values are sub-SCTs for each of these `except` blocks. except_missing_message: override the default message when a expect block in the handlers arg is missing. orelse: similar to body, but for the else block. finalbody: similar to body, but for the finally block. _missing_msg: custom messages if the orelse, or finalbody pieces are missing. """ rep = Reporter.active_reporter # TODO: alternatively, could have missing_msg not use prepended messages # then we wouldn't have to run check_part twice for everything child = check_node('try_excepts', index-1, "try-except block", MSG_MISSING, MSG_PREPEND, state) quiet_child = quiet(1, state=child) multi(body, state=check_part("body", "body", child)) # subtests # handler tests for key,value in handlers.items(): incorrect_part = "{} `except` block".format('general' if key == 'all' else "`%s`"%key) # run to see if index exists, since the message depends on using the quiet child :o check_handler = partial(check_part_index, 'handlers', key, incorrect_part, MSG_MISSING_PART) check_handler(state=quiet_child) # exists multi(value, state=check_handler(state=child)) # subtests # test orelse and finalbody check = partial(check_part, missing_msg = MSG_MISSING_PART) # test orelse if child.solution_parts['orelse']: check('orelse', "`else` part", quiet_child) # exists multi(orelse, state=check('orelse', "`else` part", child)) # subtests # test orelse if child.solution_parts['finalbody']: check('finalbody', "`finally` part", quiet_child) # exists multi(finalbody, state=check('finalbody', "`finally` part", child)) # subtests
def test_while_loop(index=1, test=None, body=None, orelse=None, expand_message=True, state=None): """Test parts of the while loop. This test function will allow you to extract parts of a specific while loop and perform a set of tests specifically on these parts. A while loop generally consists of two parts: the condition test, :code:`test`, which is the condition that is tested each loop, and the :code:`body`. A for while can have a else part as well, :code:`orelse`, but this is almost never used.:: a = 10 while a < 5: print(a) a -= 1 Has :code:`a < 5` as the condition test and `print(i)` as the body. Args: index (int): index of the function call to be checked. Defaults to 1. test: this argument holds the part of code that will be ran to check the condition test of the while loop. It should be passed as a lambda expression or a function definition. The functions that are ran should be other pythonwhat test functions, and they will be tested specifically on only the condition test of the while loop. body: this argument holds the part of code that will be ran to check the body of the while loop. It should be passed as a lambda expression or a function definition. The functions that are ran should be other pythonwhat test functions, and they will be tested specifically on only the body of the while loop. orelse: this argument holds the part of code that will be ran to check the else part of the while loop. It should be passed as a lambda expression or a function definition. The functions that are ran should be other pythonwhat test functions, and they will be tested specifically on only the else part of the while loop. expand_message (bool): if true, feedback messages will be expanded with :code:`in the ___ of the while loop on line ___`. Defaults to True. If False, `test_for_loop()` will generate no extra feedback. :Example: Student code:: a = 10 while a < 5: print(a) a -= 1 Solution code:: a = 20 while a < 5: print(a) a -= 1 SCT:: test_while_loop(1, test = test_expression_result({"a": 5}), body = test_expression_output({"a": 5})) This SCT will evaluate to True as condition test will have thes same result in student and solution code and `test_exression_output()` will pass on the body code. """ rep = Reporter.active_reporter rep.set_tag("fun", "test_while_loop") state = check_node('whiles', index-1, "`while` loops", MSG_MISSING, MSG_PREPEND if expand_message else "", state=state) multi(test, state = check_part('test', 'condition', state)) multi(body, state = check_part('body', 'body', state)) multi(orelse, state = check_part('orelse', 'else part', state))
def test_with( index, context_vals=False, # whether to check number of context vals context_tests=None, # check on context expressions body=None, undefined_msg=None, context_vals_len_msg=None, context_vals_msg=None, expand_message=True, state=None): """Test a with statement. with open_file('...') as bla: [ open_file('...').__enter__() ] with open_file('...') as file: [ ] """ rep = Reporter.active_reporter rep.set_tag("fun", "test_with") check_with = partial(check_node, 'withs', index - 1, "`with` statement", MSG_MISSING, state=state) child = check_with(MSG_PREPEND if expand_message else "") child2 = check_with(MSG_PREPEND2 if expand_message else "") quiet_child = quiet(1, child) if context_vals: # test num context vars ---- too_many = len(child.student_parts['context']) > len( child.solution_parts['context']) if too_many: _msg = child.build_message(MSG_NUM_CTXT) rep.do_test(Test(Feedback(_msg, child.student_tree))) # test context var names ---- for i in range(len(child.solution_parts['context'])): ctxt_state = check_part_index('context', i, "", state=child) has_equal_part('target_vars', MSG_CTXT_NAMES, state=ctxt_state) # Context sub tests ---- if context_tests and not isinstance(context_tests, list): context_tests = [context_tests] for i, context_test in enumerate(context_tests or []): # partial the substate check, because the function uses two prepended messages check_context = partial(check_part_index, 'context', i, "%s context" % utils.get_ord(i + 1), MSG_NUM_CTXT2) check_context(state=child) # test exist ctxt_state = check_context(state=child2) # sub tests multi(context_test, state=ctxt_state) # Body sub tests ---- if body is not None: body_state = check_part('body', 'body', state=child2) with_context(body, state=body_state)
def test_try_except(index=1, not_called_msg=None, body=None, handlers={}, except_missing_msg = None, orelse=None, orelse_missing_msg=None, finalbody=None, finalbody_missing_msg=None, expand_message=True, state=None): """Test whether the student correctly coded a `try-except` block. This function allows you to test specific parts of a try-except block. A try-except block consists of 4 parts: a body, error handlers, plus (rarely) an else and final block. :: try: print(hello) except NameError: print('hello what?') except: print('unexplained error') else: print('else block') finally: print('final block') Args: index (int): index of the try-except block to check. not_called_msg: override the default message when too few try-except blocks found in student code. body: sub-sct to test the code of the `try` block. handlers: a dictionary, where the keys are the error classes you expect the student to capture (for the general `except:`, use `'all'`), and the values are sub-SCTs for each of these `except` blocks. except_missing_message: override the default message when a expect block in the handlers arg is missing. orelse: similar to body, but for the else block. finalbody: similar to body, but for the finally block. _missing_msg: custom messages if the orelse, or finalbody pieces are missing. """ rep = Reporter.active_reporter rep.set_tag("fun", "test_try_except") # TODO: alternatively, could have missing_msg not use prepended messages # then we wouldn't have to run check_part twice for everything child = check_node('try_excepts', index-1, "try-except block", MSG_MISSING, MSG_PREPEND, state) quiet_child = quiet(1, state=child) multi(body, state=check_part("body", "body", child)) # subtests # handler tests for key,value in handlers.items(): incorrect_part = "{} `except` block".format('general' if key == 'all' else "`%s`"%key) # run to see if index exists, since the message depends on using the quiet child :o check_handler = partial(check_part_index, 'handlers', key, incorrect_part, MSG_MISSING_PART) check_handler(state=quiet_child) # exists multi(value, state=check_handler(state=child)) # subtests # test orelse and finalbody check = partial(check_part, missing_msg = MSG_MISSING_PART) # test orelse if child.solution_parts['orelse']: check('orelse', "`else` part", quiet_child) # exists multi(orelse, state=check('orelse', "`else` part", child)) # subtests # test orelse if child.solution_parts['finalbody']: check('finalbody', "`finally` part", quiet_child) # exists multi(finalbody, state=check('finalbody', "`finally` part", child)) # subtests
def diagnose_and_check(state=None): # use multi twice, since diagnose and check may be lists of tests multi(diagnose, state=state) multi(check, state=state)
def test_function_definition(name, arg_names=True, arg_defaults=True, body=None, results=None, outputs=None, errors=None, not_called_msg=None, nb_args_msg=None, other_args_msg=None, arg_names_msg=None, arg_defaults_msg=None, wrong_result_msg=None, wrong_output_msg=None, no_error_msg=None, wrong_error_msg=None, expand_message=True, state=None): """Test a function definition. This function helps you test a function definition. Generally four things can be tested: 1) The argument names of the function (including if the correct defaults are used) 2) The body of the functions (does it output correctly, are the correct functions used) 3) The return value with a certain input 4) The output value with a certain input 5) Whether certain inputs generate an error and what type of error Custom feedback messages can be set for all these parts, default messages are generated automatically if none are set. Args: name (str): the name of the function definition to be tested. arg_names (bool): if True, the argument names will be tested, if False they won't be tested. Defaults to True. arg_defaults (bool): if True, the default values of the arguments will be tested, if False they won't be tested. Defaults to True. body: this arguments holds the part of the code that will be ran to check the body of the function definition. It should be passed as a lambda expression or a function. The functions that are ran should be other pythonwhat test functions, and they will be tested specifically on only the body of the for loop. Defaults to None. results (list(list)): a list of lists representing arguments that should be passed to the defined function. These arguments are passed to the function in the student environment and the solution environment, the results (what's returned) are compared. outputs (list(list)): a list of lists representing arguments that should be passed to the defined function. These arguments are passed to the function in the student environment and the solution environment, the outpus are compared. errors (list(list)): a list of lists representing arguments that should be passed to the defined function. These arguments are passed to the function in the student environment and the solution environment, the errors they generate are compared. not_called_msg (str): message if the function is not defined. nb_args_msg (str): message if the number of arguments do not matched. arg_names_msg (str): message if the argument names do not match. arg_defaults_msg (str): message if the argument default values do not match. wrong_result_msg (str): message if one of the tested function calls' result did not match. wrong_output_msg (str): message if one of the tested functions calls' output did not match. no_error_msg (str): message if one of the tested function calls' result did not generate an error. wrong_error_msg (str): message if the error that one of the tested function calls generated did not match. expand_message (bool): only relevant if there is a body test. If True, feedback messages defined in the body test will be preceded by 'In your definition of ___, '. If False, `test_function_definition()` will generate no extra feedback if the body test fails. Defaults to True. :Example: Student code:: def shout( word, times = 3): shout_word = not_word + '???' print( shout_word ) return word * times Solution code:: def shout( word = 'help', times = 3 ): shout_word = word + '!!!' print( shout_word ) return word * times SCT:: test_function_definition('shout') # fail test_function_definition('shout', arg_defaults = False) # pass test_function_definition('shout', arg_defaults = False, # fail outputs = [('help')]) test_function_definition('shout', arg_defaults = False, # pass results = [('help', 2)]) test_function_definition('shout', args_defaults = False # pass body = test_function('print', args = []])) """ MSG_MISSING = "FMT:You didn't define the following function: {typestr}." MSG_PREPEND = "FMT:Check your definition of {typestr}. " # what the function will be referred to as typestr = "`{}()`".format(name) get_func_child = partial(check_node, 'function_defs', name, typestr, not_called_msg or MSG_MISSING, state=state) child = get_func_child(expand_msg=MSG_PREPEND if expand_message else "") # make a temporary child state, to reflect that there were two types of # messages prepended in the original function quiet_child = get_func_child(expand_msg="") prep_child2 = get_func_child(expand_msg=MSG_PREPEND) test_args(arg_names, arg_defaults, nb_args_msg, arg_names_msg, arg_defaults_msg, prep_child2, quiet_child) multi(body, state=check_part('body', "", expand_msg=None if expand_message else "", state=child)) # Test function calls ----------------------------------------------------- #fun_name = ("`%s()`" % name) for el in (results or []): el = fix_format(el) call(el, 'value', incorrect_msg=wrong_result_msg, error_msg=wrong_result_msg, argstr='`{}{}`'.format(name, stringify(el)), state=quiet_child) for el in (outputs or []): el = fix_format(el) call(el, 'output', incorrect_msg=wrong_output_msg, error_msg=wrong_output_msg, argstr='`{}{}`'.format(name, stringify(el)), state=quiet_child) for el in (errors or []): el = fix_format(el) call(el, 'error', incorrect_msg=wrong_error_msg, error_msg=no_error_msg, argstr='`{}{}`'.format(name, stringify(el)), state=quiet_child)
def test_if_else(index=1, test=None, body=None, orelse=None, expand_message=True, use_if_exp=False, state=None): """Test parts of the if statement. This test function will allow you to extract parts of a specific if statement and perform a set of tests specifically on these parts. A for loop consists of three potential parts: the condition test, :code:`test`, which specifies the condition of the if statement, the :code:`body`, which is what's executed if the condition is True and a else part, :code:`orelse`, which will be executed if the condition is not True.:: if 5 == 3: print("success") else: print("fail") Has :code:`5 == 3` as the condition test, :code:`print("success")` as the body and :code:`print("fail")` as the else part. Args: index (int): index of the function call to be checked. Defaults to 1. test: this argument holds the part of code that will be ran to check the condition test of the if statement. It should be passed as a lambda expression or a function definition. The functions that are ran should be other pythonwhat test functions, and they will be tested specifically on only the condition test of the if statement. body: this argument holds the part of code that will be ran to check the body of the if statement. It should be passed as a lambda expression or a function definition. The functions that are ran should be other pythonwhat test functions, and they will be tested specifically on only the body of the if statement. orelse: this argument holds the part of code that will be ran to check the else part of the if statement. It should be passed as a lambda expression or a function definition. The functions that are ran should be other pythonwhat test functions, and they will be tested specifically on only the else part of the if statement. expand_message (bool): if true, feedback messages will be expanded with :code:`in the ___ of the if statement on line ___`. Defaults to True. If False, :code:`test_if_else()` will generate no extra feedback. :Example: Student code:: a = 12 if a > 3: print('test %d' % a) Solution code:: a = 4 if a > 3: print('test %d' % a) SCT:: test_if_else(1, body = test_expression_output( extra_env = { 'a': 5 } incorrect_msg = "Print out the correct things")) This SCT will pass as :code:`test_expression_output()` is ran on the body of the if statement and it will output the same thing in the solution as in the student code. """ MSG_MISSING = "FMT:The system wants to check the {typestr}, but it hasn't found it. Have another look at your code." MSG_PREPEND = "FMT:Check the {typestr}. " # get state with specific if block node_name = 'if_exps' if use_if_exp else 'if_elses' # TODO original typestr for check_node used if rather than `if` state = check_node(node_name, index - 1, "{ordinal} if statement", MSG_MISSING, MSG_PREPEND if expand_message else "", state=state) # run sub tests multi(test, state=check_part('test', 'condition', expand_msg=None if expand_message else "", state=state)) multi(body, state=check_part('body', 'body', expand_msg=None if expand_message else "", state=state)) multi(orelse, state=check_part('orelse', 'else part', expand_msg=None if expand_message else "", state=state))
def test_for_loop(index=1, for_iter=None, body=None, orelse=None, expand_message=True, state=None): """Test parts of the for loop. This test function will allow you to extract parts of a specific for loop and perform a set of tests specifically on these parts. A for loop consists of two parts: the sequence, `for_iter`, which is the values over which are looped, and the `body`. A for loop can have a else part as well, `orelse`, but this is almost never used.:: for i in range(10): print(i) Has :code:`range(10)` as the sequence and :code:`print(i)` as the body. Args: index (int): index of the function call to be checked. Defaults to 1. for_iter: this argument holds the part of code that will be ran to check the sequence of the for loop. It should be passed as a lambda expression or a function. The functions that are ran should be other pythonwhat test functions, and they will be tested specifically on only the sequence part of the for loop. body: this argument holds the part of code that will be ran to check the body of the for loop. It should be passed as a lambda expression or a function. The functions that are ran should be other pythonwhat test functions, and they will be tested specifically on only the body of the for loop. orelse: this argument holds the part of code that will be ran to check the else part of the for loop. It should be passed as a lambda expression or a function. The functions that are ran should be other pythonwhat test functions, and they will be tested specifically on only the else part of the for loop. expand_message (bool): if true, feedback messages will be expanded with :code:`in the ___ of the for loop on line ___`. Defaults to True. If False, :code:`test_for_loop()` will generate no extra feedback. :Example: Student code:: for i in range(10): print(i) Solution code:: for n in range(10): print(n) SCT:: test_for_loop(1, for_iter = test_function("range"), body = test_expression_output(context_val = [5]) This SCT will evaluate to True as the function :code:`range` is used in the sequence and the function :code:`test_exression_output()` will pass on the body code. """ MSG_MISSING = "FMT:Define more for loops." MSG_PREPEND = "FMT:Check the {typestr}. " state = check_node('for_loops', index - 1, "{ordinal} for loop", MSG_MISSING, MSG_PREPEND, state=state) # TODO for_iter is a level up, so shouldn't have targets set, but this is done is check_node multi(for_iter, state=check_part('iter', 'sequence part', expand_msg=None if expand_message else "", state=state)) multi(body, state=check_part('body', 'body', expand_msg=None if expand_message else "", state=state)) multi(orelse, state=check_part('orelse', 'else part', expand_msg=None if expand_message else "", state=state))
def test_function_definition(name, arg_names=True, arg_defaults=True, body=None, results=None, outputs=None, errors=None, not_called_msg=None, nb_args_msg=None, other_args_msg=None, arg_names_msg=None, arg_defaults_msg=None, wrong_result_msg=None, wrong_output_msg=None, no_error_msg=None, wrong_error_msg=None, expand_message=True, state=None): """Test a function definition. This function helps you test a function definition. Generally four things can be tested: 1) The argument names of the function (including if the correct defaults are used) 2) The body of the functions (does it output correctly, are the correct functions used) 3) The return value with a certain input 4) The output value with a certain input 5) Whether certain inputs generate an error and what type of error Custom feedback messages can be set for all these parts, default messages are generated automatically if none are set. Args: name (str): the name of the function definition to be tested. arg_names (bool): if True, the argument names will be tested, if False they won't be tested. Defaults to True. arg_defaults (bool): if True, the default values of the arguments will be tested, if False they won't be tested. Defaults to True. body: this arguments holds the part of the code that will be ran to check the body of the function definition. It should be passed as a lambda expression or a function. The functions that are ran should be other pythonwhat test functions, and they will be tested specifically on only the body of the for loop. Defaults to None. results (list(list)): a list of lists representing arguments that should be passed to the defined function. These arguments are passed to the function in the student environment and the solution environment, the results (what's returned) are compared. outputs (list(list)): a list of lists representing arguments that should be passed to the defined function. These arguments are passed to the function in the student environment and the solution environment, the outpus are compared. errors (list(list)): a list of lists representing arguments that should be passed to the defined function. These arguments are passed to the function in the student environment and the solution environment, the errors they generate are compared. not_called_msg (str): message if the function is not defined. nb_args_msg (str): message if the number of arguments do not matched. arg_names_msg (str): message if the argument names do not match. arg_defaults_msg (str): message if the argument default values do not match. wrong_result_msg (str): message if one of the tested function calls' result did not match. wrong_output_msg (str): message if one of the tested functions calls' output did not match. no_error_msg (str): message if one of the tested function calls' result did not generate an error. wrong_error_msg (str): message if the error that one of the tested function calls generated did not match. expand_message (bool): only relevant if there is a body test. If True, feedback messages defined in the body test will be preceded by 'In your definition of ___, '. If False, `test_function_definition()` will generate no extra feedback if the body test fails. Defaults to True. :Example: Student code:: def shout( word, times = 3): shout_word = not_word + '???' print( shout_word ) return word * times Solution code:: def shout( word = 'help', times = 3 ): shout_word = word + '!!!' print( shout_word ) return word * times SCT:: test_function_definition('shout') # fail test_function_definition('shout', arg_defaults = False) # pass test_function_definition('shout', arg_defaults = False, # fail outputs = [('help')]) test_function_definition('shout', arg_defaults = False, # pass results = [('help', 2)]) test_function_definition('shout', args_defaults = False # pass body = test_function('print', args = []])) """ rep = Reporter.active_reporter rep.set_tag("fun", "test_function_definition") # what the function will be referred to as typestr = "`{}()`".format(name) get_func_child = partial(check_node, 'function_defs', name, typestr, not_called_msg or MSG_MISSING, state=state) child = get_func_child(expand_msg = MSG_PREPEND if expand_message else "") # make a temporary child state, to reflect that there were two types of # messages prepended in the original function quiet_child = get_func_child(expand_msg = "") prep_child2 = get_func_child(expand_msg = MSG_PREPEND_ARG) test_args(arg_names, arg_defaults, nb_args_msg, arg_names_msg, arg_defaults_msg, prep_child2, quiet_child) multi(body, state=check_part('body', "", child)) # Test function calls ----------------------------------------------------- #fun_name = ("`%s()`" % name) for el in (results or []): el = fix_format(el) call(el, 'value', incorrect_msg = wrong_result_msg or MSG_RES_INCORRECT, error_msg = wrong_result_msg or MSG_RES_ERROR, argstr = name + stringify(el), state = quiet_child) for el in (outputs or []): el = fix_format(el) call(el, 'output', incorrect_msg = wrong_output_msg or MSG_OUT_INCORRECT, error_msg = wrong_output_msg or MSG_OUT_ERROR, argstr = name + stringify(el), state = quiet_child) for el in (errors or []): el = fix_format(el) call(el, 'error', incorrect_msg = wrong_error_msg or MSG_ERR_INCORRECT, error_msg = no_error_msg or MSG_ERR_NONE, argstr = name + stringify(el), state = quiet_child)
def test_while_loop(index=1, test=None, body=None, orelse=None, expand_message=True, state=None): """Test parts of the while loop. This test function will allow you to extract parts of a specific while loop and perform a set of tests specifically on these parts. A while loop generally consists of two parts: the condition test, :code:`test`, which is the condition that is tested each loop, and the :code:`body`. A for while can have a else part as well, :code:`orelse`, but this is almost never used.:: a = 10 while a < 5: print(a) a -= 1 Has :code:`a < 5` as the condition test and `print(i)` as the body. Args: index (int): index of the function call to be checked. Defaults to 1. test: this argument holds the part of code that will be ran to check the condition test of the while loop. It should be passed as a lambda expression or a function definition. The functions that are ran should be other pythonwhat test functions, and they will be tested specifically on only the condition test of the while loop. body: this argument holds the part of code that will be ran to check the body of the while loop. It should be passed as a lambda expression or a function definition. The functions that are ran should be other pythonwhat test functions, and they will be tested specifically on only the body of the while loop. orelse: this argument holds the part of code that will be ran to check the else part of the while loop. It should be passed as a lambda expression or a function definition. The functions that are ran should be other pythonwhat test functions, and they will be tested specifically on only the else part of the while loop. expand_message (bool): if true, feedback messages will be expanded with :code:`in the ___ of the while loop on line ___`. Defaults to True. If False, `test_for_loop()` will generate no extra feedback. :Example: Student code:: a = 10 while a < 5: print(a) a -= 1 Solution code:: a = 20 while a < 5: print(a) a -= 1 SCT:: test_while_loop(1, test = test_expression_result({"a": 5}), body = test_expression_output({"a": 5})) This SCT will evaluate to True as condition test will have thes same result in student and solution code and `test_exression_output()` will pass on the body code. """ MSG_MISSING = "FMT:Define more while loops." MSG_PREPEND = "FMT:Check the {typestr}. " state = check_node('whiles', index - 1, "{ordinal} while loop", MSG_MISSING, MSG_PREPEND if expand_message else "", state=state) expand_msg = None if expand_message else "" multi(test, state=check_part('test', 'condition', expand_msg=expand_msg, state=state)) multi(body, state=check_part('body', 'body', expand_msg=expand_msg, state=state)) multi(orelse, state=check_part('orelse', 'else part', expand_msg=expand_msg, state=state))
def test_if_else(index=1, test=None, body=None, orelse=None, state=None): """Test parts of the if statement. This test function will allow you to extract parts of a specific if statement and perform a set of tests specifically on these parts. A for loop consists of three potential parts: the condition test, :code:`test`, which specifies the condition of the if statement, the :code:`body`, which is what's executed if the condition is True and a else part, :code:`orelse`, which will be executed if the condition is not True.:: if 5 == 3: print("success") else: print("fail") Has :code:`5 == 3` as the condition test, :code:`print("success")` as the body and :code:`print("fail")` as the else part. Args: index (int): index of the function call to be checked. Defaults to 1. test: this argument holds the part of code that will be ran to check the condition test of the if statement. It should be passed as a lambda expression or a function definition. The functions that are ran should be other pythonwhat test functions, and they will be tested specifically on only the condition test of the if statement. body: this argument holds the part of code that will be ran to check the body of the if statement. It should be passed as a lambda expression or a function definition. The functions that are ran should be other pythonwhat test functions, and they will be tested specifically on only the body of the if statement. orelse: this argument holds the part of code that will be ran to check the else part of the if statement. It should be passed as a lambda expression or a function definition. The functions that are ran should be other pythonwhat test functions, and they will be tested specifically on only the else part of the if statement. :Example: Student code:: a = 12 if a > 3: print('test %d' % a) Solution code:: a = 4 if a > 3: print('test %d' % a) SCT:: test_if_else(1, body = test_expression_output( extra_env = { 'a': 5 } incorrect_msg = "Print out the correct things")) This SCT will pass as :code:`test_expression_output()` is ran on the body of the if statement and it will output the same thing in the solution as in the student code. """ state = check_node('if_elses', index-1, typestr='{{ordinal}} if expression', state=state) multi(test, state = check_part('test', 'condition', state=state)) multi(body, state = check_part('body', 'body', state=state)) multi(orelse, state = check_part('orelse', 'else part', state=state))
def test_lambda_function(index, arg_names=True, arg_defaults=True, body=None, results=[], errors=[], not_called_msg=None, nb_args_msg=None, arg_names_msg=None, arg_defaults_msg=None, wrong_result_msg=None, no_error_msg=None, expand_message=True, state=None): """Test a lambda function definition. This function helps you test a lambda function definition. Generally four things can be tested: 1) The argument names of the function (including if the correct defaults are used) 2) The body of the functions (does it output correctly, are the correct functions used) 3) The return value with a certain input 4) Whether certain inputs generate an error Custom feedback messages can be set for all these parts, default messages are generated automatically if none are set. Args: index (int): the number of the lambda function you want to test. arg_names (bool): if True, the argument names will be tested, if False they won't be tested. Defaults to True. arg_defaults (bool): if True, the default values of the arguments will be tested, if False they won't be tested. Defaults to True. body: this arguments holds the part of the code that will be ran to check the body of the function definition. It should be passed as a lambda expression or a function. The functions that are ran should be other pythonwhat test functions, and they will be tested specifically on only the body of the for loop. Defaults to None. results (list(str)): a list of strings representing function calls to the lam function. The lam function will be replaced by the actual lambda function from the student and solution code. The result of calling the lambda function will be compared between student and solution. errors (list(str)): a list of strings representing function calls to the lam function. The lam function will be replaced by the actual lambda function from the student and solution code. It will be checked if an error is generated appropriately for the specified inputs. not_called_msg (str): message if the function is not defined. nb_args_msg (str): message if the number of arguments do not matched. arg_names_msg (str): message if the argument names do not match. arg_defaults_msg (str): message if the argument default values do not match. wrong_result_msg (str): message if one of the tested function calls' result did not match. no_error_msg (str): message if one of the tested function calls' result did not generate an error. expand_message (bool): only relevant if there is a body test. If True, feedback messages defined in the body test will be preceded by 'In your definition of ___, '. If False, :code:`test_function_definition()` will generate no extra feedback if the body test fails. Defaults to True. """ rep = Reporter.active_reporter rep.set_tag("fun", "test_lambda_function") # what the lambda will be referred to as typestr = "the {} lambda function".format(get_ord(index)) get_func_child = partial(check_node, 'lambda_functions', index-1, typestr, not_called_msg or MSG_MISSING, state=state) child = get_func_child(expand_msg = MSG_PREPEND if expand_message else "") # make a temporary child states, to reflect that there were two types of # messages prepended in the original function quiet_child = get_func_child(expand_msg = "") prep_child2 = get_func_child(expand_msg = MSG_PREPEND_ARG if expand_message else "") test_args(arg_names, arg_defaults, nb_args_msg, arg_names_msg, arg_defaults_msg, prep_child2, quiet_child) multi(body, state=check_part('body', "", child)) # Test function calls ----------------------------------------------------- student_fun = state.student_lambda_functions[index-1]['node'] solution_fun = state.solution_lambda_functions[index-1]['node'] for el in results: argstr = el.replace('lam', '') call(el, incorrect_msg = wrong_result_msg or MSG_RES_INCORRECT, error_msg = wrong_result_msg or MSG_RES_ERROR, argstr = argstr, state = child) for el in errors: argstr = el.replace('lam', '') call(el, 'error', incorrect_msg = no_error_msg or MSG_ERR_WRONG, error_msg = no_error_msg or MSG_ERR_WRONG, argstr = argstr, state = child)
def test_while_loop(index=1, test=None, body=None, orelse=None, state=None): """Test parts of the while loop. This test function will allow you to extract parts of a specific while loop and perform a set of tests specifically on these parts. A while loop generally consists of two parts: the condition test, :code:`test`, which is the condition that is tested each loop, and the :code:`body`. A for while can have a else part as well, :code:`orelse`, but this is almost never used.:: a = 10 while a < 5: print(a) a -= 1 Has :code:`a < 5` as the condition test and `print(i)` as the body. Args: index (int): index of the function call to be checked. Defaults to 1. test: this argument holds the part of code that will be ran to check the condition test of the while loop. It should be passed as a lambda expression or a function definition. The functions that are ran should be other pythonwhat test functions, and they will be tested specifically on only the condition test of the while loop. body: this argument holds the part of code that will be ran to check the body of the while loop. It should be passed as a lambda expression or a function definition. The functions that are ran should be other pythonwhat test functions, and they will be tested specifically on only the body of the while loop. orelse: this argument holds the part of code that will be ran to check the else part of the while loop. It should be passed as a lambda expression or a function definition. The functions that are ran should be other pythonwhat test functions, and they will be tested specifically on only the else part of the while loop. :Example: Student code:: a = 10 while a < 5: print(a) a -= 1 Solution code:: a = 20 while a < 5: print(a) a -= 1 SCT:: test_while_loop(1, test = test_expression_result({"a": 5}), body = test_expression_output({"a": 5})) This SCT will evaluate to True as condition test will have thes same result in student and solution code and `test_exression_output()` will pass on the body code. """ state = check_node('whiles', index-1, "{{ordinal}} while loop", state=state) multi(test, state = check_part('test', 'condition', state=state)) multi(body, state = check_part('body', 'body', state=state)) multi(orelse, state = check_part('orelse', 'else part', state=state))
def test_lambda_function(index, arg_names=True, arg_defaults=True, body=None, results=[], errors=[], not_called_msg=None, nb_args_msg=None, arg_names_msg=None, arg_defaults_msg=None, wrong_result_msg=None, no_error_msg=None, expand_message=True, state=None): """Test a lambda function definition. This function helps you test a lambda function definition. Generally four things can be tested: 1) The argument names of the function (including if the correct defaults are used) 2) The body of the functions (does it output correctly, are the correct functions used) 3) The return value with a certain input 4) Whether certain inputs generate an error Custom feedback messages can be set for all these parts, default messages are generated automatically if none are set. Args: index (int): the number of the lambda function you want to test. arg_names (bool): if True, the argument names will be tested, if False they won't be tested. Defaults to True. arg_defaults (bool): if True, the default values of the arguments will be tested, if False they won't be tested. Defaults to True. body: this arguments holds the part of the code that will be ran to check the body of the function definition. It should be passed as a lambda expression or a function. The functions that are ran should be other pythonwhat test functions, and they will be tested specifically on only the body of the for loop. Defaults to None. results (list(str)): a list of strings representing function calls to the lam function. The lam function will be replaced by the actual lambda function from the student and solution code. The result of calling the lambda function will be compared between student and solution. errors (list(str)): a list of strings representing function calls to the lam function. The lam function will be replaced by the actual lambda function from the student and solution code. It will be checked if an error is generated appropriately for the specified inputs. not_called_msg (str): message if the function is not defined. nb_args_msg (str): message if the number of arguments do not matched. arg_names_msg (str): message if the argument names do not match. arg_defaults_msg (str): message if the argument default values do not match. wrong_result_msg (str): message if one of the tested function calls' result did not match. no_error_msg (str): message if one of the tested function calls' result did not generate an error. expand_message (bool): only relevant if there is a body test. If True, feedback messages defined in the body test will be preceded by 'In your definition of ___, '. If False, :code:`test_function_definition()` will generate no extra feedback if the body test fails. Defaults to True. """ rep = Reporter.active_reporter rep.set_tag("fun", "test_lambda_function") # what the lambda will be referred to as typestr = "the {} lambda function".format(get_ord(index)) get_func_child = partial(check_node, 'lambda_functions', index - 1, typestr, not_called_msg or MSG_MISSING, state=state) child = get_func_child(expand_msg=MSG_PREPEND if expand_message else "") # make a temporary child states, to reflect that there were two types of # messages prepended in the original function quiet_child = get_func_child(expand_msg="") prep_child2 = get_func_child( expand_msg=MSG_PREPEND_ARG if expand_message else "") test_args(arg_names, arg_defaults, nb_args_msg, arg_names_msg, arg_defaults_msg, prep_child2, quiet_child) multi(body, state=check_part('body', "", child)) # Test function calls ----------------------------------------------------- student_fun = state.student_lambda_functions[index - 1]['node'] solution_fun = state.solution_lambda_functions[index - 1]['node'] for el in results: argstr = el.replace('lam', '') call(el, incorrect_msg=wrong_result_msg or MSG_RES_INCORRECT, error_msg=wrong_result_msg or MSG_RES_ERROR, argstr=argstr, state=child) for el in errors: argstr = el.replace('lam', '') call(el, 'error', incorrect_msg=no_error_msg or MSG_ERR_WRONG, error_msg=no_error_msg or MSG_ERR_WRONG, argstr=argstr, state=child)
def test_function_definition(name, arg_names=True, arg_defaults=True, body=None, results=None, outputs=None, errors=None, not_called_msg=None, nb_args_msg=None, other_args_msg=None, arg_names_msg=None, arg_defaults_msg=None, wrong_result_msg=None, wrong_output_msg=None, no_error_msg=None, wrong_error_msg=None, state=None): """Test a function definition. This function helps you test a function definition. Generally four things can be tested: 1) The argument names of the function (including if the correct defaults are used) 2) The body of the functions (does it output correctly, are the correct functions used) 3) The return value with a certain input 4) The output value with a certain input 5) Whether certain inputs generate an error and what type of error Custom feedback messages can be set for all these parts, default messages are generated automatically if none are set. Args: name (str): the name of the function definition to be tested. arg_names (bool): if True, the argument names will be tested, if False they won't be tested. Defaults to True. arg_defaults (bool): if True, the default values of the arguments will be tested, if False they won't be tested. Defaults to True. body: this arguments holds the part of the code that will be ran to check the body of the function definition. It should be passed as a lambda expression or a function. The functions that are ran should be other pythonwhat test functions, and they will be tested specifically on only the body of the for loop. Defaults to None. results (list(list)): a list of lists representing arguments that should be passed to the defined function. These arguments are passed to the function in the student environment and the solution environment, the results (what's returned) are compared. outputs (list(list)): a list of lists representing arguments that should be passed to the defined function. These arguments are passed to the function in the student environment and the solution environment, the outpus are compared. errors (list(list)): a list of lists representing arguments that should be passed to the defined function. These arguments are passed to the function in the student environment and the solution environment, the errors they generate are compared. not_called_msg (str): message if the function is not defined. nb_args_msg (str): message if the number of arguments do not matched. arg_names_msg (str): message if the argument names do not match. arg_defaults_msg (str): message if the argument default values do not match. wrong_result_msg (str): message if one of the tested function calls' result did not match. wrong_output_msg (str): message if one of the tested functions calls' output did not match. no_error_msg (str): message if one of the tested function calls' result did not generate an error. wrong_error_msg (str): message if the error that one of the tested function calls generated did not match. :Example: Student code:: def shout( word, times = 3): shout_word = not_word + '???' print( shout_word ) return word * times Solution code:: def shout( word = 'help', times = 3 ): shout_word = word + '!!!' print( shout_word ) return word * times SCT:: test_function_definition('shout') # fail test_function_definition('shout', arg_defaults = False) # pass test_function_definition('shout', arg_defaults = False, # fail outputs = [('help')]) test_function_definition('shout', arg_defaults = False, # pass results = [('help', 2)]) test_function_definition('shout', args_defaults = False # pass body = test_function('print', args = []])) """ # what the function will be referred to as child = check_node('function_defs', name, 'definition of `{{index}}()`', state=state) test_args(arg_names, arg_defaults, nb_args_msg, arg_names_msg, arg_defaults_msg, child) multi(body, state=check_part('body', "", state=child)) # Test function calls ----------------------------------------------------- for el in (results or []): el = fix_format(el) call(el, 'value', incorrect_msg = wrong_result_msg, error_msg = wrong_result_msg, argstr = '`{}{}`'.format(name, stringify(el)), state=child) for el in (outputs or []): el = fix_format(el) call(el, 'output', incorrect_msg = wrong_output_msg, error_msg = wrong_output_msg, argstr = '`{}{}`'.format(name, stringify(el)), state=child) for el in (errors or []): el = fix_format(el) call(el, 'error', incorrect_msg = wrong_error_msg, error_msg = no_error_msg, argstr = '`{}{}`'.format(name, stringify(el)), state=child)
def test_for_loop(index=1, for_iter=None, body=None, orelse=None, expand_message=True, state=None): """Test parts of the for loop. This test function will allow you to extract parts of a specific for loop and perform a set of tests specifically on these parts. A for loop consists of two parts: the sequence, `for_iter`, which is the values over which are looped, and the `body`. A for loop can have a else part as well, `orelse`, but this is almost never used.:: for i in range(10): print(i) Has :code:`range(10)` as the sequence and :code:`print(i)` as the body. Args: index (int): index of the function call to be checked. Defaults to 1. for_iter: this argument holds the part of code that will be ran to check the sequence of the for loop. It should be passed as a lambda expression or a function. The functions that are ran should be other pythonwhat test functions, and they will be tested specifically on only the sequence part of the for loop. body: this argument holds the part of code that will be ran to check the body of the for loop. It should be passed as a lambda expression or a function. The functions that are ran should be other pythonwhat test functions, and they will be tested specifically on only the body of the for loop. orelse: this argument holds the part of code that will be ran to check the else part of the for loop. It should be passed as a lambda expression or a function. The functions that are ran should be other pythonwhat test functions, and they will be tested specifically on only the else part of the for loop. expand_message (bool): if true, feedback messages will be expanded with :code:`in the ___ of the for loop on line ___`. Defaults to True. If False, :code:`test_for_loop()` will generate no extra feedback. :Example: Student code:: for i in range(10): print(i) Solution code:: for n in range(10): print(n) SCT:: test_for_loop(1, for_iter = test_function("range"), body = test_expression_output(context_val = [5]) This SCT will evaluate to True as the function :code:`range` is used in the sequence and the function :code:`test_exression_output()` will pass on the body code. """ rep = Reporter.active_reporter rep.set_tag("fun", "test_for_loop") state = check_node('for_loops', index-1, "`for` loops", MSG_MISSING, MSG_PREPEND, state=state) # TODO for_iter is a level up, so shouldn't have targets set, but this is done is check_node multi(for_iter, state = check_part('iter', 'sequence part', state)) multi(body, state = check_part('body', 'body', state)) multi(orelse, state = check_part('orelse', 'else part', state))