from __future__ import unicode_literals import unittest import os import tempfile import shutil from textwrap import dedent # Local import from yaksh.python_assertion_evaluator import PythonAssertionEvaluator from yaksh.python_stdio_evaluator import PythonStdioEvaluator from yaksh.settings import SERVER_TIMEOUT class PythonAssertionEvaluationTestCases(unittest.TestCase): def setUp(self): with open('/tmp/test.txt', 'wb') as f: f.write('2'.encode('ascii')) tmp_in_dir_path = tempfile.mkdtemp() self.in_dir = tmp_in_dir_path self.test_case_data = [{"test_case": 'assert(add(1,2)==3)', 'weight': 0.0}, {"test_case": 'assert(add(-1,2)==1)', 'weight': 0.0}, {"test_case": 'assert(add(-1,-2)==-3)', 'weight': 0.0}, ] self.timeout_msg = ("Code took more than {0} seconds to run. " "You probably have an infinite loop in" " your code.").format(SERVER_TIMEOUT) self.file_paths = None def tearDown(self): os.remove('/tmp/test.txt') shutil.rmtree(self.in_dir) def test_correct_answer(self): # Given user_answer = "def add(a,b):\n\treturn a + b" kwargs = {'user_answer': user_answer, 'test_case_data': self.test_case_data, 'file_paths': self.file_paths, 'partial_grading': False } # When evaluator = PythonAssertionEvaluator() result = evaluator.evaluate(**kwargs) # Then self.assertTrue(result.get('success')) self.assertIn("Correct answer", result.get('error')) def test_incorrect_answer(self): # Given user_answer = "def add(a,b):\n\treturn a - b" kwargs = {'user_answer': user_answer, 'test_case_data': self.test_case_data, 'file_paths': self.file_paths, 'partial_grading': False } # When evaluator = PythonAssertionEvaluator() result = evaluator.evaluate(**kwargs) # Then self.assertFalse(result.get('success')) self.assertIn('AssertionError in: assert(add(1,2)==3)', result.get('error') ) self.assertIn('AssertionError in: assert(add(-1,2)==1)', result.get('error') ) self.assertIn('AssertionError in: assert(add(-1,-2)==-3)', result.get('error') ) def test_partial_incorrect_answer(self): # Given user_answer = "def add(a,b):\n\treturn abs(a) + abs(b)" test_case_data = [{"test_case": 'assert(add(-1,2)==1)', 'weight': 1.0}, {"test_case": 'assert(add(-1,-2)==-3)', 'weight': 1.0}, {"test_case": 'assert(add(1,2)==3)', 'weight': 2.0} ] kwargs = {'user_answer': user_answer, 'test_case_data': test_case_data, 'file_paths': self.file_paths, 'partial_grading': True } # When evaluator = PythonAssertionEvaluator() result = evaluator.evaluate(**kwargs) # Then self.assertFalse(result.get('success')) self.assertEqual(result.get('weight'), 2.0) self.assertIn('AssertionError in: assert(add(-1,2)==1)', result.get('error') ) self.assertIn('AssertionError in: assert(add(-1,-2)==-3)', result.get('error') ) def test_infinite_loop(self): # Given user_answer = "def add(a, b):\n\twhile True:\n\t\tpass" kwargs = {'user_answer': user_answer, 'test_case_data': self.test_case_data, 'file_paths': self.file_paths, 'partial_grading': False } # When evaluator = PythonAssertionEvaluator() result = evaluator.evaluate(**kwargs) # Then self.assertFalse(result.get('success')) self.assertEqual(result.get('error'), self.timeout_msg) def test_syntax_error(self): # Given user_answer = dedent(""" def add(a, b); return a + b """) syntax_error_msg = ["Traceback", "call", "File", "line", "", "SyntaxError", "invalid syntax" ] kwargs = {'user_answer': user_answer, 'test_case_data': self.test_case_data, 'file_paths': self.file_paths, 'partial_grading': False } # When evaluator = PythonAssertionEvaluator() result = evaluator.evaluate(**kwargs) err = result.get("error").splitlines() # Then self.assertFalse(result.get("success")) self.assertEqual(5, len(err)) for msg in syntax_error_msg: self.assertIn(msg, result.get("error")) def test_indent_error(self): # Given user_answer = dedent(""" def add(a, b): return a + b """) indent_error_msg = ["Traceback", "call", "File", "line", "", "IndentationError", "indented block" ] kwargs = {'user_answer': user_answer, 'test_case_data': self.test_case_data, 'file_paths': self.file_paths, 'partial_grading': False } # When evaluator = PythonAssertionEvaluator() result = evaluator.evaluate(**kwargs) err = result.get("error").splitlines() # Then self.assertFalse(result.get("success")) self.assertEqual(5, len(err)) for msg in indent_error_msg: self.assertIn(msg, result.get("error")) def test_name_error(self): # Given user_answer = "" name_error_msg = ["Traceback", "call", "NameError", "name", "defined" ] kwargs = {'user_answer': user_answer, 'test_case_data': self.test_case_data, 'file_paths': self.file_paths, 'partial_grading': False } # When evaluator = PythonAssertionEvaluator() result = evaluator.evaluate(**kwargs) err = result.get("error").splitlines() # Then self.assertFalse(result.get("success")) self.assertEqual(3, len(err)) for msg in name_error_msg: self.assertIn(msg, result.get("error")) def test_recursion_error(self): # Given user_answer = dedent(""" def add(a, b): return add(3, 3) """) recursion_error_msg = ["Traceback", "call", "maximum recursion depth exceeded" ] kwargs = {'user_answer': user_answer, 'test_case_data': self.test_case_data, 'file_paths': self.file_paths, 'partial_grading': False } # When evaluator = PythonAssertionEvaluator() result = evaluator.evaluate(**kwargs) err = result.get("error").splitlines() # Then self.assertFalse(result.get("success")) for msg in recursion_error_msg: self.assertIn(msg, result.get("error")) def test_type_error(self): # Given user_answer = dedent(""" def add(a): return a + b """) type_error_msg = ["Traceback", "call", "TypeError", "argument" ] kwargs = {'user_answer': user_answer, 'test_case_data': self.test_case_data, 'file_paths': self.file_paths, 'partial_grading': False } # When evaluator = PythonAssertionEvaluator() result = evaluator.evaluate(**kwargs) err = result.get("error").splitlines() # Then self.assertFalse(result.get("success")) self.assertEqual(3, len(err)) for msg in type_error_msg: self.assertIn(msg, result.get("error")) def test_value_error(self): # Given user_answer = dedent(""" def add(a, b): c = 'a' return int(a) + int(b) + int(c) """) value_error_msg = ["Traceback", "call", "ValueError", "invalid literal", "base" ] kwargs = {'user_answer': user_answer, 'test_case_data': self.test_case_data, 'file_paths': self.file_paths, 'partial_grading': False } # When evaluator = PythonAssertionEvaluator() result = evaluator.evaluate(**kwargs) err = result.get("error").splitlines() # Then self.assertFalse(result.get("success")) self.assertEqual(4, len(err)) for msg in value_error_msg: self.assertIn(msg, result.get("error")) def test_file_based_assert(self): # Given self.test_case_data = [{"test_case": "assert(ans()=='2')", "weight": 0.0}] self.file_paths = [('/tmp/test.txt', False)] user_answer = dedent(""" def ans(): with open("test.txt") as f: return f.read()[0] """) kwargs = {'user_answer': user_answer, 'test_case_data': self.test_case_data, 'file_paths': self.file_paths, 'partial_grading': False } # When evaluator = PythonAssertionEvaluator() result = evaluator.evaluate(**kwargs) # Then self.assertIn("Correct answer", result.get('error')) self.assertTrue(result.get('success')) def test_single_testcase_error(self): # Given """ Tests the user answer with just an incorrect test case """ user_answer = "def palindrome(a):\n\treturn a == a[::-1]" test_case_data = [{"test_case": 's="abbb"\nasert palindrome(s)==False', "weight": 0.0 } ] syntax_error_msg = ["Traceback", "call", "File", "line", "", "SyntaxError", "invalid syntax" ] kwargs = {'user_answer': user_answer, 'test_case_data': test_case_data, 'file_paths': self.file_paths, 'partial_grading': False } # When evaluator = PythonAssertionEvaluator() result = evaluator.evaluate(**kwargs) err = result.get("error").splitlines() # Then self.assertFalse(result.get("success")) self.assertEqual(5, len(err)) for msg in syntax_error_msg: self.assertIn(msg, result.get("error")) def test_multiple_testcase_error(self): """ Tests the user answer with an correct test case first and then with an incorrect test case """ # Given user_answer = "def palindrome(a):\n\treturn a == a[::-1]" test_case_data = [{"test_case": 'assert(palindrome("abba")==True)', "weight": 0.0 }, {"test_case": 's="abbb"\nassert palindrome(S)==False', "weight": 0.0 } ] name_error_msg = ["Traceback", "call", "File", "line", "", "NameError", "name 'S' is not defined" ] kwargs = {'user_answer': user_answer, 'test_case_data': test_case_data, 'file_paths': self.file_paths, 'partial_grading': False } # When evaluator = PythonAssertionEvaluator() result = evaluator.evaluate(**kwargs) err = result.get("error").splitlines() # Then self.assertFalse(result.get("success")) self.assertEqual(3, len(err)) for msg in name_error_msg: self.assertIn(msg, result.get("error")) class PythonStdIOEvaluationTestCases(unittest.TestCase): def setUp(self): with open('/tmp/test.txt', 'wb') as f: f.write('2'.encode('ascii')) self.file_paths = None def test_correct_answer_integer(self): # Given self.test_case_data = [{"expected_input": "1\n2", "expected_output": "3", "weight": 0.0 }] user_answer = dedent(""" a = int(input()) b = int(input()) print(a+b) """ ) kwargs = {'user_answer': user_answer, 'test_case_data': self.test_case_data, 'partial_grading': False } # When evaluator = PythonStdioEvaluator() result = evaluator.evaluate(**kwargs) # Then self.assertTrue(result.get('success')) self.assertIn("Correct answer", result.get('error')) def test_correct_answer_list(self): # Given self.test_case_data = [{"expected_input": "1,2,3\n5,6,7", "expected_output": "[1, 2, 3, 5, 6, 7]", "weight": 0.0 }] user_answer = dedent(""" from six.moves import input input_a = input() input_b = input() a = [int(i) for i in input_a.split(',')] b = [int(i) for i in input_b.split(',')] print(a+b) """ ) kwargs = {'user_answer': user_answer, 'test_case_data': self.test_case_data, 'partial_grading': False } # When evaluator = PythonStdioEvaluator() result = evaluator.evaluate(**kwargs) # Then self.assertTrue(result.get('success')) self.assertIn("Correct answer", result.get('error')) def test_correct_answer_string(self): # Given self.test_case_data = [{"expected_input": ("the quick brown fox jumps over the lazy dog\nthe"), "expected_output": "2", "weight": 0.0 }] user_answer = dedent(""" from six.moves import input a = str(input()) b = str(input()) print(a.count(b)) """ ) kwargs = {'user_answer': user_answer, 'test_case_data': self.test_case_data, 'partial_grading': False } # When evaluator = PythonStdioEvaluator() result = evaluator.evaluate(**kwargs) # Then self.assertTrue(result.get('success')) self.assertIn("Correct answer", result.get('error')) def test_incorrect_answer_integer(self): # Given self.test_case_data = [{"expected_input": "1\n2", "expected_output": "3", "weight": 0.0 }] user_answer = dedent(""" a = int(input()) b = int(input()) print(a-b) """ ) kwargs = {'user_answer': user_answer, 'test_case_data': self.test_case_data, 'partial_grading': False } # When evaluator = PythonStdioEvaluator() result = evaluator.evaluate(**kwargs) # Then self.assertFalse(result.get('success')) self.assertIn("Incorrect answer", result.get('error')) def test_file_based_answer(self): # Given self.test_case_data = [{"expected_input": "", "expected_output": "2", "weight": 0.0 }] self.file_paths = [('/tmp/test.txt', False)] user_answer = dedent(""" with open("test.txt") as f: a = f.read() print(a[0]) """ ) kwargs = {'user_answer': user_answer, 'test_case_data': self.test_case_data, 'file_paths': self.file_paths, 'partial_grading': False } # When evaluator = PythonStdioEvaluator() result = evaluator.evaluate(**kwargs) # Then self.assertEqual(result.get('error'), "Correct answer\n") self.assertTrue(result.get('success')) def test_infinite_loop(self): # Given test_case_data = [{"expected_input": "1\n2", "expected_output": "3", "weight": 0.0 }] timeout_msg = ("Code took more than {0} seconds to run. " "You probably have an infinite loop in" " your code.").format(SERVER_TIMEOUT) user_answer = "while True:\n\tpass" kwargs = {'user_answer': user_answer, 'test_case_data': test_case_data, 'partial_grading': False } # When evaluator = PythonStdioEvaluator() result = evaluator.evaluate(**kwargs) # Then self.assertEqual(result.get('error'), timeout_msg) self.assertFalse(result.get('success')) if __name__ == '__main__': unittest.main()