def test_bad_var():
grader = SumGrader(answers={
'lower': '0',
'upper': '1',
'summand': 't',
'summation_variable': 't'
},
variables=['x'])
with raises(
SummationError,
match=
"Summation variable x conflicts with another previously-defined variable."
):
grader(None, ['0', '1', 'x', 'x'])
grader = SumGrader(answers={
'lower': '0',
'upper': '1',
'summand': 'i',
'summation_variable': 'i'
})
with raises(
ConfigError,
match=
"Summation Error with author's stored answer: Summation variable i conflicts with another previously-defined variable."
):
grader(None, ['0', '1', 'x', 'x'])
def test_convergence():
# Test that we get convergence to well-known functions
# Here we bypass the class entirely to just test the summation capabilities.
grader = SumGrader(answers={
'lower': '0',
'upper': '1',
'summand': 'x',
'summation_variable': 'x'
},
input_positions={'summand': 1})
x = 0.1
def exp_summand(n):
value, _ = evaluator('x^n/fact(n)', {'n': n, 'x': x})
return value
result = grader.perform_summation(exp_summand,
lower=0,
upper=float('inf'),
even_odd=0,
infty_val=100)
expect = np.exp(x)
assert abs(result - expect) < 1e-14
def sin_summand(n):
value, _ = evaluator('(-1)^((n-1)/2)*x^n/fact(n)', {'n': n, 'x': x})
return value
result = grader.perform_summation(sin_summand,
lower=0,
upper=float('inf'),
even_odd=1,
infty_val=100)
expect = np.sin(x)
assert abs(result - expect) < 1e-14
def cos_summand(n):
value, _ = evaluator('(-1)^(n/2)*x^n/fact(n)', {'n': n, 'x': x})
return value
result = grader.perform_summation(cos_summand,
lower=0,
upper=float('inf'),
even_odd=2,
infty_val=100)
expect = np.cos(x)
assert abs(result - expect) < 1e-14
def test_vector_sums():
grader = SumGrader(
answers={
'lower': '0',
'upper': '10',
'summand': '[1, t, t^2]',
'summation_variable': 't'
})
assert grader(None, ['0', '10', '[1, 0, 0] + t*[0, 1, t]', 't'])['ok']
def test_matrix_sums():
grader = SumGrader(
answers={
'lower': '0',
'upper': 'infty',
'summand': '[[0, 1], [1, 0]]^n/fact(n)',
'summation_variable': 'n'
})
assert grader(None,
['0', 'infty', '[[0, 1], [1, 0]]^n/fact(n)', 'n'])['ok']
def test_bad_inf_sums():
grader = SumGrader(answers={
'lower': '0',
'upper': '1',
'summand': 't',
'summation_variable': 't'
})
with raises(SummationError, match="Cannot sum from infty to infty."):
grader(None, ['infty', 'infty', 'x', 'x'])
with raises(SummationError, match="Cannot sum from -infty to -infty."):
grader(None, ['-infty', '-infty', 'x', 'x'])
def test_infinities():
grader = SumGrader(answers={
'lower': '0',
'upper': 'infty',
'summand': 'x^n/fact(n)',
'summation_variable': 'n'
},
variables=['x'])
assert grader(None, ['0', 'infty', 'x^n/fact(n)', 'n'])['ok']
assert grader(None, ['infty', '0', 'x^n/fact(n)', 'n'])['ok']
assert grader(None, ['0', '-infty', 'x^(-n)/fact(-n)', 'n'])['ok']
assert grader(None, ['-infty', '0', 'x^(-n)/fact(-n)', 'n'])['ok']
grader = SumGrader(answers={
'lower': '1',
'upper': 'infty',
'summand': '1/n^4',
'summation_variable': 'n'
},
input_positions={'summand': 1})
assert grader(None, '1/n^4')['ok']
def test_empty_input_raises_error():
grader = SumGrader(answers={
'lower': 'a',
'upper': 'b',
'summand': 'x^2',
'summation_variable': 'x'
},
variables=['a', 'b'])
student_input = ['a', 'b', 'x^2', '']
msg = ("Please enter a value for summation_variable, it cannot be empty.")
with raises(MissingInput, match=msg):
grader(None, student_input)
def test_summation():
grader = SumGrader(answers={
'lower': '0',
'upper': '1',
'summand': 'x',
'summation_variable': 'x'
},
input_positions={'summand': 1})
# Here we bypass the class entirely to just test the summation capabilities.
def summand(x):
return x
assert 6 == grader.perform_summation(summand, lower=1, upper=3, even_odd=0)
assert 9 == grader.perform_summation(summand, lower=1, upper=5, even_odd=1)
assert 6 == grader.perform_summation(summand, lower=1, upper=5, even_odd=2)
assert 1e3 * (1e3 + 1) / 2 == grader.perform_summation(summand,
lower=1,
upper=float('inf'),
even_odd=0)
def summand(x):
return x**2
assert 14 == grader.perform_summation(summand,
lower=1,
upper=3,
even_odd=0)
def test_bad_answer():
grader = SumGrader(answers={
'lower': '0',
'upper': '1',
'summand': '1/t',
'summation_variable': 't'
})
with raises(
ConfigError,
match=
"Summation Error with author's stored answer: Division by zero occurred."
):
grader(None, ['0', '1', 't', 't'])
def test_suffixes():
grader = SumGrader(answers={
'lower': '1',
'upper': '1k',
'summand': '1%',
'summation_variable': 'x'
},
metric_suffixes=True)
assert grader(None, ['1', '10', '1', 't']) == {
'ok': True,
'grade_decimal': 1,
'msg': ''
}
def test_user_provided_summation_conflict_raises_error():
grader = SumGrader(answers={
'lower': 'a',
'upper': 'b',
'summand': 'x^2',
'summation_variable': 'x'
},
variables=['a', 'b'])
student_input = ['a', 'b', 'pi^2', 'pi']
msg = ("Cannot use pi as summation variable; it is already has "
"another meaning in this problem.")
with raises(InvalidInput, match=msg):
grader(None, student_input)
def test_with_single_input():
grader = SumGrader(answers={
'lower': '-1',
'upper': '1',
'summand': 'x^2',
'summation_variable': 'x'
},
input_positions={'summand': 1})
# The same answer as instructor
student_input0 = 'x^2'
# same, but with an extra odd function that sums to zero
student_input1 = 'x^2 + x'
assert grader(None, student_input0)['ok']
assert grader(None, student_input1)['ok']
def test_required_funcs():
"""Ensures that required functions must be used"""
grader = SumGrader(answers={
'lower': '0',
'upper': '1',
'summand': 'tan(x)',
'summation_variable': 'x'
},
input_positions={'summand': 1},
required_functions=['tan'])
assert grader(None, 'tan(x)')['ok']
with raises(InvalidInput, match="Answer must contain the function tan"):
grader(None, 'sin(x)/cos(x)')
def test_bad_numbered_var():
grader = SumGrader(answers={
'lower': '0',
'upper': '10',
'summand': 'c_{n}*n',
'summation_variable': 'n'
},
numbered_vars=['c'])
with raises(
ConfigError,
match=
"Summation Error with author's stored answer: Invalid Input: 'c_{n}' not permitted in answer as a variable"
):
grader(None, ['0', '10', 'n', 'n'])
def test_noninteger_limits():
grader = SumGrader(answers={
'lower': '0',
'upper': '1',
'summand': 't',
'summation_variable': 't'
})
with raises(
SummationError,
match="Upper summation limit does not evaluate to an integer."):
grader(None, ['0', '1/2', 'x', 'x'])
with raises(
SummationError,
match="Lower summation limit does not evaluate to an integer."):
grader(None, ['1/3', '0', 'x', 'x'])
def test_reordered_inputs():
grader = SumGrader(answers={
'lower': '1',
'upper': '2',
'summand': 'x',
'summation_variable': 'x'
},
input_positions={
'summand': 1,
'lower': 3,
'upper': 2,
})
student_input = ['x', '2', '1']
expected_result = {'ok': True, 'grade_decimal': 1, 'msg': ''}
assert grader(None, student_input) == expected_result
def test_forbidden():
"""Ensures that answers don't contain forbidden strings"""
grader = SumGrader(answers={
'lower': '0',
'upper': '1',
'summand': '2*t',
'summation_variable': 't'
},
forbidden_strings=['+'],
forbidden_message='No addition!')
assert grader(None, ['0', '1', '2*t', 't'])['ok']
with raises(InvalidInput, match="No addition!"):
grader(None, ['0', '1', 't+t', 't'])
with raises(InvalidInput, match="No addition!"):
grader(None, ['0', '0+1', '2*t', 't'])
def test_user_provided_summation_variable_has_invalid_name():
grader = SumGrader(answers={
'lower': 'a',
'upper': 'b',
'summand': 'x^2',
'summation_variable': 'x'
},
variables=['a', 'b'])
student_input = ['a', 'b', '_x^2', '_x']
msg = (
"Summation variable _x is an invalid variable name."
"Variable name should begin with a letter and contain alphanumeric"
"characters or underscores thereafter, but may end in single quotes.")
with raises(InvalidInput, match=msg):
grader(None, student_input)
def test_skipped_input_positions():
expected_message = (
"Key input_positions values must be consecutive positive "
"integers starting at 1")
with raises(ConfigError, match=expected_message):
SumGrader(answers={
'lower': 'a',
'upper': 'b',
'summand': 'x^2',
'summation_variable': 'x'
},
input_positions={
'summand': 1,
'summation_variable': 3,
},
variables=['a', 'b'])
def test_duplicate_input_positions():
expected_message = "Key input_positions has repeated indices."
with raises(ConfigError, match=expected_message):
SumGrader(answers={
'lower': 'a',
'upper': 'b',
'summand': 'x^2',
'summation_variable': 'x'
},
input_positions={
'summand': 1,
'lower': 2,
'upper': 3,
'summation_variable': 3
},
variables=['a', 'b'])
def test_whitelist_grading():
grader = SumGrader(answers={
'lower': '1',
'upper': '10',
'summand': 'x^2',
'summation_variable': 'x'
},
whitelist=['sin', 'cos'])
# Correct answer with forbidden functions raises error
student_input0 = ['1', '10', 'x^2 * cos(0) + tan(0)*sec(0)', 'x']
with raises(InvalidInput,
match=r"Invalid Input: function\(s\) 'sec', 'tan' "
"not permitted in answer"):
grader(None, student_input0)
# Incorrect answer with forbidden functions marked wrong
student_input1 = ['1', '10', 'x^2 * cos(0) + tan(pi/4)', 'x']
assert not grader(None, student_input1)['ok']
def test_complex_limits():
grader = SumGrader(answers={
'lower': '0',
'upper': '1',
'summand': 't',
'summation_variable': 't'
})
with raises(
SummationError,
match=
"Summation limits must be real but have evaluated to complex numbers."
):
grader(None, ['0', '1+i', 'x', 'x'])
with raises(
SummationError,
match=
"Summation limits must be real but have evaluated to complex numbers."
):
grader(None, ['1+i', '0', 'x', 'x'])
def test_numbered_vars():
grader = SumGrader(
answers={
'lower': '0',
'upper': '1',
'summand': 'a_{2}*x',
'summation_variable': 'x'
},
numbered_vars=['a'],
)
# Correct answers
correct_input = ['0', '1', 't*a_{2}', 't']
# Incorrect answers
wrong_input = ['0', '1', 't*a_{3}', 't']
correct_result = grader(None, correct_input)
wrong_result = grader(None, wrong_input)
assert correct_result == {'ok': True, 'grade_decimal': 1, 'msg': ''}
assert wrong_result == {'ok': False, 'grade_decimal': 0, 'msg': ''}
def test_wrong_number_of_inputs_raises_error():
grader = SumGrader(answers={
'lower': 'a',
'upper': 'b',
'summand': 'x^2',
'summation_variable': 'x'
},
input_positions={
'summand': 1,
'lower': 2,
'upper': 3
},
variables=['a', 'b'])
student_input = ['a', 'b']
expected_message = (
r"Expected 3 student inputs but found 2. "
r"Inputs should appear in order \[u?'summand', u?'lower', u?'upper'\]."
)
with raises(ConfigError, match=expected_message):
grader(None, student_input)
def test_error_catching():
grader = SumGrader(answers={
'lower': '1',
'upper': '10',
'summand': 'x^2',
'summation_variable': 'x'
},
input_positions={
'summand': 1,
'lower': 2,
'upper': 3
})
student_input = ['1+', '1', '2']
expected_message = r"Invalid Input: Could not parse '1\+' as a formula"
with raises(CalcError, match=expected_message):
grader(None, student_input)
student_input = ['1/0', '1', '2']
expected_message = (
"Division by zero occurred. Check your input's denominators.")
with raises(CalcError, match=expected_message):
grader(None, student_input)
def test_instructor_vars():
"""Ensures that instructor variables are not available to students"""
grader = SumGrader(
answers={
'lower': '0',
'upper': '1',
'summand': 'c*t',
'summation_variable': 't'
},
input_positions={'summand': 1},
variables=['x', 'c'],
sample_from={
'x': [-3.14159, 3.14159],
'c': DependentSampler(depends=["x"], formula="cos(x)")
},
instructor_vars=['c', 'pi', 'nothere'] # nothere will be ignored
)
assert grader(None, 'cos(x)*t')['ok']
with raises(CalcError, match="'c' not permitted in answer as a variable"):
grader(None, 'c*t')
with raises(CalcError, match="'pi' not permitted in answer as a variable"):
grader(None, 'pi*t')
def test_debug_message():
grader = SumGrader(answers={
'lower': '1',
'upper': '8',
'summand': 'sin(s)',
'summation_variable': 's'
},
debug=True,
samples=2)
student_input = ['1', '8', 'sin(x)', 'x']
expected_message = (
"<pre>MITx Grading Library Version {version}<br/>\n"
"Running on edX using python {python_version}<br/>\n"
"Student Responses:<br/>\n"
"1<br/>\n"
"8<br/>\n"
"sin(x)<br/>\n"
"x<br/>\n"
"<br/>\n"
"==============================================================<br/>\n"
"SumGrader Debug Info<br/>\n"
"==============================================================<br/>\n"
"Functions available during evaluation and allowed in answer:<br/>\n"
"{{{u}'abs': <function absolute at 0x...>,<br/>\n"
" {u}'arccos': <function arccos at 0x...>,<br/>\n"
" {u}'arccosh': <function arccosh at 0x...>,<br/>\n"
" {u}'arccot': <function arccot at 0x...>,<br/>\n"
" {u}'arccoth': <function arccoth at 0x...>,<br/>\n"
" {u}'arccsc': <function arccsc at 0x...>,<br/>\n"
" {u}'arccsch': <function arccsch at 0x...>,<br/>\n"
" {u}'arcsec': <function arcsec at 0x...>,<br/>\n"
" {u}'arcsech': <function arcsech at 0x...>,<br/>\n"
" {u}'arcsin': <function arcsin at 0x...>,<br/>\n"
" {u}'arcsinh': <function arcsinh at 0x...>,<br/>\n"
" {u}'arctan': <function arctan at 0x...>,<br/>\n"
" {u}'arctan2': <function arctan2 at 0x...>,<br/>\n"
" {u}'arctanh': <function arctanh at 0x...>,<br/>\n"
" {u}'ceil': <function ceil at 0x...>,<br/>\n"
" {u}'conj': <ufunc 'conjugate'>,<br/>\n"
" {u}'cos': <function cos at 0x...>,<br/>\n"
" {u}'cosh': <function cosh at 0x...>,<br/>\n"
" {u}'cot': <function cot at 0x...>,<br/>\n"
" {u}'coth': <function coth at 0x...>,<br/>\n"
" {u}'csc': <function csc at 0x...>,<br/>\n"
" {u}'csch': <function csch at 0x...>,<br/>\n"
" {u}'exp': <function exp at 0x...>,<br/>\n"
" {u}'fact': <function factorial at 0x...>,<br/>\n"
" {u}'factorial': <function factorial at 0x...>,<br/>\n"
" {u}'floor': <function floor at 0x...>,<br/>\n"
" {u}'im': <function imag at 0x...>,<br/>\n"
" {u}'kronecker': <function kronecker at 0x...>,<br/>\n"
" {u}'ln': <function log at 0x...>,<br/>\n"
" {u}'log10': <function log10 at 0x...>,<br/>\n"
" {u}'log2': <function log2 at 0x...>,<br/>\n"
" {u}'max': <function max at 0x...>,<br/>\n"
" {u}'min': <function min at 0x...>,<br/>\n"
" {u}'re': <function real at 0x...>,<br/>\n"
" {u}'sec': <function sec at 0x...>,<br/>\n"
" {u}'sech': <function sech at 0x...>,<br/>\n"
" {u}'sin': <function sin at 0x...>,<br/>\n"
" {u}'sinh': <function sinh at 0x...>,<br/>\n"
" {u}'sqrt': <function sqrt at 0x...>,<br/>\n"
" {u}'tan': <function tan at 0x...>,<br/>\n"
" {u}'tanh': <function tanh at 0x...>}}<br/>\n"
"Functions available during evaluation and disallowed in answer:<br/>\n"
"{{}}<br/>\n"
"<br/>\n"
"<br/>\n"
"==============================================<br/>\n"
"Summation Data for Sample Number 1 of 2<br/>\n"
"==============================================<br/>\n"
"Variables: {{{u}'e': 2.718282,<br/>\n"
" {u}'i': 1j,<br/>\n"
" {u}'infty': inf,<br/>\n"
" {u}'j': 1j,<br/>\n"
" {u}'pi': 3.141593}}<br/>\n"
"<br/>\n"
"Student Value: 1.543091<br/>\n"
"Instructor Value: 1.543091<br/>\n"
"<br/>\n"
"<br/>\n"
"==============================================<br/>\n"
"Summation Data for Sample Number 2 of 2<br/>\n"
"==============================================<br/>\n"
"Variables: {{{u}'e': 2.718282,<br/>\n"
" {u}'i': 1j,<br/>\n"
" {u}'infty': inf,<br/>\n"
" {u}'j': 1j,<br/>\n"
" {u}'pi': 3.141593}}<br/>\n"
"<br/>\n"
"Student Value: 1.543091<br/>\n"
"Instructor Value: 1.543091<br/>\n"
"<br/>\n"
"<br/>\n"
"==========================================<br/>\n"
"Comparison Data for All 2 Samples<br/>\n"
"==========================================<br/>\n"
"Comparer Function: EqualityComparer({{{u}'transform': <function identity_transform at 0x...>}})<br/>\n"
"Comparison Results:<br/>\n"
"[{{{u}'grade_decimal': 1.0, {u}'msg': {u}'', {u}'ok': True}},<br/>\n"
" {{{u}'grade_decimal': 1.0, {u}'msg': {u}'', {u}'ok': True}}]<br/>\n"
"</pre>").format(version=__version__,
python_version=platform.python_version(),
u=UNICODE_PREFIX)
expected_message = expected_message.replace("<func", "<func").replace(
"...>", "...>")
expected_message = round_decimals_in_string(expected_message)
result = grader(None, student_input)
assert result['ok'] is True
assert result['grade_decimal'] == 1.0
assert expected_message == round_decimals_in_string(result['msg'])
