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|
# IVLE - Informatics Virtual Learning Environment
# Copyright (C) 2007-2008 The University of Melbourne
#
# This program is free software; you can redistribute it and/or modify
# it under the terms of the GNU General Public License as published by
# the Free Software Foundation; either version 2 of the License, or
# (at your option) any later version.
#
# This program is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
# GNU General Public License for more details.
#
# You should have received a copy of the GNU General Public License
# along with this program; if not, write to the Free Software
# Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA
# Module: TestFramework
# Author: Dilshan Angampitiya
# Steven Bird (revisions)
# Date: 24/1/2008
# Brief description of the Module# define custom exceptions
# use exceptions for all errors found in testing
import sys, StringIO, copy
import types
# student error or author error
# errors in student code get handled internally
# errors in solution code get passed up
class ScriptExecutionError(Exception):
"""Runtime error in the student code or solution code"""
def __init__(self, exc_info):
cla, exc, trbk = exc_info
self._name = cla.__name__
self._detail = str(exc)
self._trbk = trbk
def is_critical(self):
if ( self._name == 'FunctionNotFoundError'
or self._name == 'SyntaxError'
or self._name == 'IndentationError'):
return True
else:
return False
def to_dict(self):
import traceback
return {'name': self._name,
'detail': self._detail,
'critical': self.is_critical(),
'lineno': traceback.tb_lineno(self._trbk)
}
def __str__(self):
return self._name + " - " + str(self._detail)
# author error
class TestCreationError(Exception):
"""An error occured while creating the test suite or one of its components"""
def __init__(self, reason):
self._reason = reason
def __str__(self):
return self._reason
# author error
class TestError(Exception):
"""Runtime error in the testing framework outside of the provided or student code"""
def __init__(self, exc_info):
cla, exc, trbk = exc_info
self._name = cla.__name__
self._detail = str(exc)
self._exc_info = exc_info
def exc_info(self):
return self._exc_info
def __str__(self):
return "Error testing solution against attempt: %s - %s" %(self._name, self._detail)
# author error
# raised when expected file not found in solution output
# Always gets caught and passed up as a TestError
class FileNotFoundError(Exception):
def __init__(self, filename):
self._filename = filename
def __str__(self):
return "File %s not found in output" %(self._filename)
# Error encountered when executing solution or attempt code
# Always gets caught and passed up in a ScriptExecutionError
class FunctionNotFoundError(Exception):
"""This error is returned when a function was expected in a
test case but was not found"""
def __init__(self, function_name):
self.function_name = function_name
def __str__(self):
return "Function " + self.function_name + " not found"
class TestCasePart:
"""
A part of a test case which compares a subset of the input files or file streams.
This can be done either with a comparison function, or by comparing directly, after
applying normalisations.
"""
ident = classmethod(lambda x: x)
ignore = classmethod(lambda x: None)
match = classmethod(lambda x,y: x==y)
always_match = classmethod(lambda x,y: True)
true = classmethod(lambda *x: True)
false = classmethod(lambda *x: False)
def __init__(self, pass_msg, fail_msg, default='match'):
"""Initialise with descriptions (pass,fail) and a default behavior for output
If default is match, unspecified files are matched exactly
If default is ignore, unspecified files are ignored
The default default is match.
"""
self._pass_msg = pass_msg
self._fail_msg = fail_msg
self._default = default
if default == 'ignore':
self._default_func = self.true
else:
self._default_func = self.match
self._file_tests = {}
self._stdout_test = ('check', self._default_func)
self._stderr_test = ('check', self._default_func)
self._exception_test = ('check', self._default_func)
self._result_test = ('check', self._default_func)
self._code_test = ('check', self._default_func)
def _set_default_function(self, function, test_type):
""""Ensure test type is valid and set function to a default
if not specified"""
if test_type not in ['norm', 'check']:
raise TestCreationError("Invalid test type in %s" %self._desc)
if function == '':
if test_type == 'norm': function = self.ident
else: function = self.match
return function
def _validate_function(self, function, included_code):
"""Create a function object from the given string.
If a valid function object cannot be created, raise an error.
"""
if not callable(function):
try:
exec "__f__ = %s" %function in included_code
except:
raise TestCreationError("Invalid function %s" % function)
f = included_code['__f__']
if not callable(f):
raise TestCreationError("Invalid function %s" % function)
else:
f = function
return f
def validate_functions(self, included_code):
"""Ensure all functions used by the test cases exist and are callable.
Also convert their string representations to function objects.
This can only be done once all the include code has been specified.
"""
(test_type, function) = self._stdout_test
self._stdout_test = (test_type, self._validate_function(function, included_code))
(test_type, function) = self._stderr_test
self._stderr_test = (test_type, self._validate_function(function, included_code))
(test_type, function) = self._result_test
self._result_test = (test_type, self._validate_function(function, included_code))
(test_type, function) = self._exception_test
self._exception_test = (test_type, self._validate_function(function, included_code))
for filename, (test_type, function) in self._file_tests.items():
self._file_tests[filename] = (test_type, self._validate_function(function, included_code))
def add_result_test(self, function, test_type='norm'):
"Test part that compares function return values"
function = self._set_default_function(function, test_type)
self._result_test = (test_type, function)
def add_stdout_test(self, function, test_type='norm'):
"Test part that compares stdout"
function = self._set_default_function(function, test_type)
self._stdout_test = (test_type, function)
def add_stderr_test(self, function, test_type='norm'):
"Test part that compares stderr"
function = self._set_default_function(function, test_type)
self._stderr_test = (test_type, function)
def add_exception_test(self, function, test_type='norm'):
"Test part that compares stderr"
function = self._set_default_function(function, test_type)
self._exception_test = (test_type, function)
def add_file_test(self, filename, function, test_type='norm'):
"Test part that compares the contents of a specified file"
function = self._set_default_function(function, test_type)
self._file_tests[filename] = (test_type, function)
def add_code_test(self, function, test_type='norm'):
"Test part that examines the supplied code"
function = self._set_default_function(function, test_type)
self._code_test = (test_type, function)
def _check_output(self, solution_output, attempt_output, test_type, f):
"""Compare solution output and attempt output using the
specified comparison function.
"""
solution_output = str(solution_output)
attempt_output = str(attempt_output)
if test_type == 'norm':
return f(solution_output) == f(attempt_output)
else:
return f(solution_output, attempt_output)
def _check_code(self, solution, attempt, test_type, f, include_space):
"""Compare solution code and attempt code using the
specified comparison function.
"""
if type(f) in types.StringTypes: # kludge
f = eval(str(f), include_space)
if test_type == 'norm':
return f(solution) == f(attempt)
else:
return f(solution, attempt)
def run(self, solution_data, attempt_data, include_space):
"""Run the tests to compare the solution and attempt data
Returns the empty string if the test passes, or else an error message.
"""
# check source code itself
(test_type, f) = self._code_test
if not self._check_code(solution_data['code'], attempt_data['code'], test_type, f, include_space):
return 'Unexpected code'
# check function return value (None for scripts)
(test_type, f) = self._result_test
if not self._check_output(solution_data['result'], attempt_data['result'], test_type, f):
return 'Unexpected function return value'
# check stdout
(test_type, f) = self._stdout_test
if not self._check_output(solution_data['stdout'], attempt_data['stdout'], test_type, f):
return 'Unexpected output'
#check stderr
(test_type, f) = self._stderr_test
if not self._check_output(solution_data['stderr'], attempt_data['stderr'], test_type, f):
return 'Unexpected error output'
#check exception
(test_type, f) = self._exception_test
if not self._check_output(solution_data['exception'], attempt_data['exception'], test_type, f):
return 'Unexpected exception'
solution_files = solution_data['modified_files']
attempt_files = attempt_data['modified_files']
# check files indicated by test
for (filename, (test_type, f)) in self._file_tests.items():
if filename not in solution_files:
raise FileNotFoundError(filename)
elif filename not in attempt_files:
return filename + ' not found'
elif not self._check_output(solution_files[filename], attempt_files[filename], test_type, f):
return filename + ' does not match'
if self._default == 'ignore':
return ''
# check files found in solution, but not indicated by test
for filename in [f for f in solution_files if f not in self._file_tests]:
if filename not in attempt_files:
return filename + ' not found'
elif not self._check_output(solution_files[filename], attempt_files[filename], 'match', self.match):
return filename + ' does not match'
# check if attempt has any extra files
for filename in [f for f in attempt_files if f not in solution_files]:
return "Unexpected file found: " + filename
# Everything passed with no problems
return ''
class TestCase:
"""
A set of tests with a common inputs
"""
def __init__(self, name='', function=None, stdin='', filespace=None, global_space=None):
"""Initialise with name and optionally, a function to test (instead of the entire script)
The inputs stdin, the filespace and global variables can also be specified at
initialisation, but may also be set later.
"""
if global_space == None:
global_space = {}
if filespace == None:
filespace = {}
self._name = name
if function == '': function = None
self._function = function
self._list_args = []
self._keyword_args = {}
# stdin must have a newline at the end for raw_input to work properly
if stdin[-1:] != '\n': stdin += '\n'
self._stdin = stdin
self._filespace = TestFilespace(filespace)
self._global_space = global_space
self._parts = []
self._allowed_exceptions = set()
def set_stdin(self, stdin):
""" Set the given string as the stdin for this test case"""
self._stdin = stdin
def add_file(self, filename, data):
""" Insert the given filename-data pair into the filespace for this test case"""
self._filespace.add_file(filename, data)
def add_variable(self, variable, value):
""" Add the given varibale-value pair to the initial global environment
for this test case.
Throw and exception if the value cannot be paresed.
"""
try:
self._global_space[variable] = eval(value)
except:
raise TestCreationError("Invalid value for variable %s: %s" %(variable, value))
def add_arg(self, value, name=None):
""" Add a value to the argument list. This only applies when testing functions.
By default arguments are not named, but if they are, they become keyword arguments.
"""
try:
if name == None or name == '':
self._list_args.append(eval(value))
else:
self._keyword_args[name] = value
except:
raise TestCreationError("Invalid value for function argument: %s" %value)
def add_exception(self, exception_name):
self._allowed_exceptions.add(exception_name)
def add_part(self, test_part):
""" Add a TestPart to this test case"""
self._parts.append(test_part)
def validate_functions(self, included_code):
""" Validate all the functions in each part in this test case
This can only be done once all the include code has been specified.
"""
for part in self._parts:
part.validate_functions(included_code)
def get_name(self):
""" Get the name of the test case """
return self._name
def run(self, solution, attempt_code, include_space, stop_on_fail=True):
""" Run the solution and the attempt with the inputs specified for this test case.
Then pass the outputs to each test part and collate the results.
"""
case_dict = {}
case_dict['name'] = self._name
# Run solution
try:
global_space_copy = copy.deepcopy(self._global_space)
solution_data = self._execstring(solution, global_space_copy)
# if we are just testing a function
if not self._function == None:
if self._function not in global_space_copy:
raise FunctionNotFoundError(self._function)
func_to_exec = lambda: global_space_copy[self._function](
*self._list_args, **self._keyword_args)
solution_data = self._run_function(func_to_exec, solution)
except:
raise ScriptExecutionError(sys.exc_info())
# Run student attempt
try:
global_space_copy = copy.deepcopy(self._global_space)
attempt_data = self._execstring(attempt_code, global_space_copy)
# if we are just testing a function
if not self._function == None:
if self._function not in global_space_copy:
raise FunctionNotFoundError(self._function)
func_to_exec = lambda: global_space_copy[self._function](
*self._list_args, **self._keyword_args)
attempt_data = self._run_function(func_to_exec, attempt_code)
except:
case_dict['exception'] = ScriptExecutionError(sys.exc_info()).to_dict()
case_dict['passed'] = False
return case_dict
results = []
passed = True
# generate results
for test_part in self._parts:
try:
result = test_part.run(solution_data, attempt_data, include_space)
except:
raise TestError(sys.exc_info())
result_dict = {}
result_dict['description'] = test_part._pass_msg
result_dict['passed'] = (result == '')
if result_dict['passed'] == False:
result_dict['error_message'] = result
result_dict['description'] = test_part._fail_msg
passed = False
results.append(result_dict)
# Do we continue the test_parts after one of them has failed?
if not passed and stop_on_fail:
break;
case_dict['parts'] = results
case_dict['passed'] = passed
return case_dict
def _execfile(self, filename, global_space):
""" Execute the file given by 'filename' in global_space, and return the outputs. """
self._initialise_global_space(global_space)
data = self._run_function(lambda: execfile(filename, global_space),
code = open(filename).read())
return data
def _execstring(self, string, global_space):
""" Execute the given string in global_space, and return the outputs. """
self._initialise_global_space(global_space)
def f():
exec string in global_space
data = self._run_function(f, code=string)
return data
def _initialise_global_space(self, global_space):
""" Modify the provided global_space so that file, open and raw_input are redefined
to use our methods instead.
"""
self._current_filespace_copy = self._filespace.copy()
global_space['file'] = lambda filename, mode='r', bufsize=-1: self._current_filespace_copy.openfile(filename, mode)
global_space['open'] = global_space['file']
global_space['raw_input'] = lambda x=None: raw_input()
return global_space
def _run_function(self, function, code):
""" Run the provided function with the provided stdin, capturing stdout and stderr
and the return value.
Return all the output data.
code: The full text of the code, which needs to be stored as part of
the returned dictionary.
"""
import sys, StringIO
sys_stdout, sys_stdin, sys_stderr = sys.stdout, sys.stdin, sys.stderr
output_stream, input_stream, error_stream = StringIO.StringIO(), StringIO.StringIO(self._stdin), StringIO.StringIO()
sys.stdout, sys.stdin, sys.stderr = output_stream, input_stream, error_stream
result = None
exception_name = None
try:
result = function()
except:
sys.stdout, sys.stdin, sys.stderr = sys_stdout, sys_stdin, sys_stderr
exception_name = sys.exc_info()[0].__name__
if exception_name not in self._allowed_exceptions:
raise
sys.stdout, sys.stdin, sys.stderr = sys_stdout, sys_stdin, sys_stderr
self._current_filespace_copy.flush_all()
return {'code': code,
'result': result,
'exception': exception_name,
'stdout': output_stream.getvalue(),
'stderr': output_stream.getvalue(),
'modified_files': self._current_filespace_copy.get_modified_files()}
class TestSuite:
"""
The complete collection of test cases for a given exercise
"""
def __init__(self, name, solution=None):
"""Initialise with the name of the test suite (the exercise name) and the solution.
The solution may be specified later.
"""
self._solution = solution
self._name = name
self._tests = []
self.add_include_code("")
def add_solution(self, solution):
" Specify the solution script for this exercise "
self._solution = solution
def has_solution(self):
" Returns true if a solution has been provided "
return self._solution != None
def add_include_code(self, include_code = ''):
""" Add include code that may be used by the test cases during
comparison of outputs.
"""
# if empty, make sure it can still be executed
if include_code == "":
include_code = "pass"
self._include_code = str(include_code)
include_space = {}
try:
exec self._include_code in include_space
except:
raise TestCreationError("Bad include code")
self._include_space = include_space
def add_case(self, test_case):
""" Add a TestCase, then validate all functions inside test case
now that the include code is known
"""
self._tests.append(test_case)
test_case.validate_functions(self._include_space)
def run_tests(self, attempt_code, stop_on_fail=False):
" Run all test cases and collate the results "
exercise_dict = {}
exercise_dict['name'] = self._name
test_case_results = []
passed = True
for test in self._tests:
result_dict = test.run(self._solution, attempt_code, self._include_space)
if 'exception' in result_dict and result_dict['exception']['critical']:
# critical error occured, running more cases is useless
# FunctionNotFound, Syntax, Indentation
exercise_dict['critical_error'] = result_dict['exception']
exercise_dict['passed'] = False
return exercise_dict
test_case_results.append(result_dict)
if not result_dict['passed']:
passed = False
if stop_on_fail:
break
exercise_dict['cases'] = test_case_results
exercise_dict['passed'] = passed
return exercise_dict
def get_name(self):
return self._name
class TestFilespace:
"""
Our dummy file system which is accessed by code being tested.
Implemented as a dictionary which maps filenames to strings
"""
def __init__(self, files=None):
"Initialise, optionally with filename-filedata pairs"
if files == None:
files = {}
# dict mapping files to strings
self._files = {}
self._files.update(files)
# set of file names
self._modified_files = set([])
# dict mapping files to stringIO objects
self._open_files = {}
def add_file(self, filename, data):
" Add a file to the filespace "
self._files[filename] = data
def openfile(self, filename, mode='r'):
""" Open a file from the filespace with the given mode.
Return a StringIO subclass object with the file contents.
"""
# currently very messy, needs to be cleaned up
# Probably most of this should be in the initialiser to the TestStringIO
import re
if filename in self._open_files:
raise IOError("File already open: %s" %filename)
if not re.compile("[rwa][+b]{0,2}").match(mode):
raise IOError("invalid mode %s" %mode)
## TODO: validate filename?
mode.replace("b",'')
# initialise the file properly (truncate/create if required)
if mode[0] == 'w':
self._files[filename] = ''
self._modified_files.add(filename)
elif filename not in self._files:
if mode[0] == 'a':
self._files[filename] = ''
self._modified_files.add(filename)
else:
raise IOError(2, "Access to file denied: %s" %filename)
# for append mode, remember the existing data
if mode[0] == 'a':
existing_data = self._files[filename]
else:
existing_data = ""
# determine what operations are allowed
reading_ok = (len(mode) == 2 or mode[0] == 'r')
writing_ok = (len(mode) == 2 or mode[0] in 'wa')
# for all writing modes, start off with blank file
if mode[0] == 'w':
initial_data = ''
else:
initial_data = self._files[filename]
file_object = TestStringIO(initial_data, filename, self, reading_ok, writing_ok, existing_data)
self._open_files[filename] = file_object
return file_object
def flush_all(self):
""" Flush all open files
"""
for file_object in self._open_files.values():
file_object.flush()
def updatefile(self,filename, data):
""" Callback function used by an open file to inform when it has been updated.
"""
if filename in self._open_files:
self._files[filename] = data
if self._open_files[filename].is_modified():
self._modified_files.add(filename)
else:
raise IOError(2, "Access to file denied: %s" %filename)
def closefile(self, filename):
""" Callback function used by an open file to inform when it has been closed.
"""
if filename in self._open_files:
del self._open_files[filename]
def get_modified_files(self):
"""" A subset of the filespace containing only those files which have been
modified
"""
modified_files = {}
for filename in self._modified_files:
modified_files[filename] = self._files[filename]
return modified_files
def get_open_files(self):
" Return the names of all open files "
return self._open_files.keys()
def copy(self):
""" Return a copy of the current filespace.
Only the files are copied, not the modified or open file lists.
"""
self.flush_all()
return TestFilespace(self._files)
class TestStringIO(StringIO.StringIO):
"""
A subclass of StringIO which acts as a file in our dummy file system
"""
def __init__(self, string, filename, filespace, reading_ok, writing_ok, existing_data):
""" Initialise with the filedata, file name and infomation on what ops are
acceptable """
StringIO.StringIO.__init__(self, string)
self._filename = filename
self._filespace = filespace
self._reading_ok = reading_ok
self._writing_ok = writing_ok
self._existing_data = existing_data
self._modified = False
self._open = True
# Override all standard file ops. Make sure that they are valid with the given
# permissions and if so then call the corresponding method in StringIO
def read(self, *args):
if not self._reading_ok:
raise IOError(9, "Bad file descriptor")
else:
return StringIO.StringIO.read(self, *args)
def readline(self, *args):
if not self._reading_ok:
raise IOError(9, "Bad file descriptor")
else:
return StringIO.StringIO.readline(self, *args)
def readlines(self, *args):
if not self._reading_ok:
raise IOError(9, "Bad file descriptor")
else:
return StringIO.StringIO.readlines(self, *args)
def seek(self, *args):
if not self._reading_ok:
raise IOError(9, "Bad file descriptor")
else:
return StringIO.StringIO.seek(self, *args)
def truncate(self, *args):
self._modified = True
if not self._writing_ok:
raise IOError(9, "Bad file descriptor")
else:
return StringIO.StringIO.truncate(self, *args)
def write(self, *args):
self._modified = True
if not self._writing_ok:
raise IOError(9, "Bad file descriptor")
else:
return StringIO.StringIO.write(self, *args)
def writelines(self, *args):
self._modified = True
if not self._writing_ok:
raise IOError(9, "Bad file descriptor")
else:
return StringIO.StringIO.writelines(self, *args)
def is_modified(self):
" Return true if the file has been written to, or truncated"
return self._modified
def flush(self):
" Update the contents of the filespace with the new data "
self._filespace.updatefile(self._filename, self._existing_data+self.getvalue())
return StringIO.StringIO.flush(self)
def close(self):
" Flush the file and close it "
self.flush()
self._filespace.closefile(self._filename)
return StringIO.StringIO.close(self)
##def get_function(filename, function_name):
## import compiler
## mod = compiler.parseFile(filename)
## for node in mod.node.nodes:
## if isinstance(node, compiler.ast.Function) and node.name == function_name:
## return node
##
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