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#!/usr/bin/env python
import traceback
import pwd
import os
from os.path import join, isfile
import subprocess
import importlib
# local imports
from code_evaluator import CodeEvaluator
class JavaCodeEvaluator(CodeEvaluator):
"""Tests the Java code obtained from Code Server"""
def setup(self):
super(JavaCodeEvaluator, self).setup()
self.submit_code_path = self.create_submit_code_file('Test.java')
self.compiled_user_answer = None
self.compiled_test_code = None
def teardown(self):
super(JavaCodeEvaluator, self).teardown()
# Delete the created file.
os.remove(self.submit_code_path)
def get_commands(self, clean_ref_code_path, user_code_directory):
compile_command = 'javac {0}'.format(self.submit_code_path),
compile_main = ('javac {0} -classpath '
'{1} -d {2}').format(clean_ref_code_path,
user_code_directory,
user_code_directory)
return compile_command, compile_main
def set_file_paths(self, directory, file_name):
output_path = "{0}{1}.class".format(directory, file_name)
return output_path
def compile_code(self, user_answer, test_case):
if self.compiled_user_answer and self.compiled_test_code:
return None
else:
ref_code_path = test_case
clean_ref_code_path, clean_test_case_path = self._set_test_code_file_path(ref_code_path)
if not isfile(clean_ref_code_path):
return False, "No file at %s or Incorrect path" % clean_ref_code_path
if not isfile(self.submit_code_path):
return False, 'No file at %s or Incorrect path' % self.submit_code_path
user_code_directory = os.getcwd() + '/'
self.write_to_submit_code_file(self.submit_code_path, user_answer)
ref_file_name = (clean_ref_code_path.split('/')[-1]).split('.')[0]
# user_output_path = "{0}{1}.class".format(user_code_directory,
# 'Test')
# ref_output_path = "{0}{1}.class".format(user_code_directory,
# ref_file_name)
# user_output_path, ref_output_path = self.set_file_paths(user_code_directory, clean_ref_code_path)
self.user_output_path = self.set_file_paths(user_code_directory, 'Test')
self.ref_output_path = self.set_file_paths(user_code_directory, ref_file_name)
compile_command, self.compile_main = self.get_commands(clean_ref_code_path, user_code_directory)
self.run_command_args = "java -cp {0} {1}".format(user_code_directory,
ref_file_name)
# self.compiled_output = self._compile_command(compile_command)
self.compiled_user_answer = self._run_command(compile_command,
shell=True,
stdout=subprocess.PIPE,
stderr=subprocess.PIPE)
self.compiled_test_code = self._run_command(self.compile_main,
shell=True,
stdout=subprocess.PIPE,
stderr=subprocess.PIPE)
return self.compiled_user_answer, self.compiled_test_code
def check_code(self, user_answer, test_case):
""" Function validates student code using instructor code as
reference.The first argument ref_code_path, is the path to
instructor code, it is assumed to have executable permission.
The second argument submit_code_path, is the path to the student
code, it is assumed to have executable permission.
Returns
--------
returns (True, "Correct answer") : If the student function returns
expected output when called by reference code.
returns (False, error_msg): If the student function fails to return
expected output when called by reference code.
Returns (False, error_msg): If mandatory arguments are not files or
if the required permissions are not given to the file(s).
"""
# ref_code_path = test_case
# clean_ref_code_path, clean_test_case_path = self._set_test_code_file_path(ref_code_path)
# if not isfile(clean_ref_code_path):
# return False, "No file at %s or Incorrect path" % clean_ref_code_path
# if not isfile(self.submit_code_path):
# return False, 'No file at %s or Incorrect path' % self.submit_code_path
# success = False
# user_code_directory = os.getcwd() + '/'
# self.write_to_submit_code_file(self.submit_code_path, user_answer)
# ref_file_name = (clean_ref_code_path.split('/')[-1]).split('.')[0]
# # user_output_path = "{0}{1}.class".format(user_code_directory,
# # 'Test')
# # ref_output_path = "{0}{1}.class".format(user_code_directory,
# # ref_file_name)
# # user_output_path, ref_output_path = self.set_file_paths(user_code_directory, clean_ref_code_path)
# user_output_path = self.set_file_paths(user_code_directory, 'Test')
# ref_output_path = self.set_file_paths(user_code_directory, ref_file_name)
# compile_command, compile_main = self.get_commands(clean_ref_code_path, user_code_directory)
# run_command_args = "java -cp {0} {1}".format(user_code_directory,
# ref_file_name)
# ret = self._compile_command(compile_command)
# proc, stdnt_stderr = ret
success = False
proc, stdnt_out, stdnt_stderr = self.compiled_user_answer
stdnt_stderr = self._remove_null_substitute_char(stdnt_stderr)
# Only if compilation is successful, the program is executed
# And tested with testcases
if stdnt_stderr == '':
# ret = self._compile_command(self.compile_main)
# ret = self._run_command(self.compile_main,
# shell=True,
# stdout=subprocess.PIPE,
# stderr=subprocess.PIPE)
proc, main_out, main_err = self.compiled_test_code
main_err = self._remove_null_substitute_char(main_err)
if main_err == '':
ret = self._run_command(self.run_command_args, shell=True,
stdin=None,
stdout=subprocess.PIPE,
stderr=subprocess.PIPE)
proc, stdout, stderr = ret
if proc.returncode == 0:
success, err = True, "Correct answer"
else:
err = stdout + "\n" + stderr
os.remove(self.ref_output_path)
else:
err = "Error:"
try:
error_lines = main_err.splitlines()
for e in error_lines:
if ':' in e:
err = err + "\n" + e.split(":", 1)[1]
else:
err = err + "\n" + e
except:
err = err + "\n" + main_err
os.remove(self.user_output_path)
else:
err = "Compilation Error:"
try:
error_lines = stdnt_stderr.splitlines()
for e in error_lines:
if ':' in e:
err = err + "\n" + e.split(":", 1)[1]
else:
err = err + "\n" + e
except:
err = err + "\n" + stdnt_stderr
return success, err
# def __init__(self, test_case_data, test, language, user_answer,
# ref_code_path=None, in_dir=None):
# super(JavaCodeEvaluator, self).__init__(test_case_data, test,
# language, user_answer,
# ref_code_path, in_dir)
# self.test_case_args = self.setup()
# def setup(self):
# super(JavaCodeEvaluator, self).setup()
# ref_path, test_case_path = self._set_test_code_file_path(self.ref_code_path)
# self.submit_path = self.create_submit_code_file('Test.java')
# # Set file paths
# java_student_directory = os.getcwd() + '/'
# java_ref_file_name = (ref_path.split('/')[-1]).split('.')[0]
# # Set command variables
# compile_command = 'javac {0}'.format(self.submit_path),
# compile_main = ('javac {0} -classpath '
# '{1} -d {2}').format(ref_path,
# java_student_directory,
# java_student_directory)
# run_command_args = "java -cp {0} {1}".format(java_student_directory,
# java_ref_file_name)
# remove_user_output = "{0}{1}.class".format(java_student_directory,
# 'Test')
# remove_ref_output = "{0}{1}.class".format(java_student_directory,
# java_ref_file_name)
# return (ref_path, self.submit_path, compile_command, compile_main,
# run_command_args, remove_user_output, remove_ref_output)
# def teardown(self):
# # Delete the created file.
# super(JavaCodeEvaluator, self).teardown()
# os.remove(self.submit_path)
# def check_code(self, ref_code_path, submit_code_path, compile_command,
# compile_main, run_command_args, remove_user_output,
# remove_ref_output):
# """ Function validates student code using instructor code as
# reference.The first argument ref_code_path, is the path to
# instructor code, it is assumed to have executable permission.
# The second argument submit_code_path, is the path to the student
# code, it is assumed to have executable permission.
# Returns
# --------
# returns (True, "Correct answer") : If the student function returns
# expected output when called by reference code.
# returns (False, error_msg): If the student function fails to return
# expected output when called by reference code.
# Returns (False, error_msg): If mandatory arguments are not files or
# if the required permissions are not given to the file(s).
# """
# if not isfile(ref_code_path):
# return False, "No file at %s or Incorrect path" % ref_code_path
# if not isfile(submit_code_path):
# return False, 'No file at %s or Incorrect path' % submit_code_path
# success = False
# ret = self._compile_command(compile_command)
# proc, stdnt_stderr = ret
# stdnt_stderr = self._remove_null_substitute_char(stdnt_stderr)
# # Only if compilation is successful, the program is executed
# # And tested with testcases
# if stdnt_stderr == '':
# ret = self._compile_command(compile_main)
# proc, main_err = ret
# main_err = self._remove_null_substitute_char(main_err)
# if main_err == '':
# ret = self._run_command(run_command_args, shell=True,
# stdin=None,
# stdout=subprocess.PIPE,
# stderr=subprocess.PIPE)
# proc, stdout, stderr = ret
# if proc.returncode == 0:
# success, err = True, "Correct answer"
# else:
# err = stdout + "\n" + stderr
# os.remove(remove_ref_output)
# else:
# err = "Error:"
# try:
# error_lines = main_err.splitlines()
# for e in error_lines:
# if ':' in e:
# err = err + "\n" + e.split(":", 1)[1]
# else:
# err = err + "\n" + e
# except:
# err = err + "\n" + main_err
# os.remove(remove_user_output)
# else:
# err = "Compilation Error:"
# try:
# error_lines = stdnt_stderr.splitlines()
# for e in error_lines:
# if ':' in e:
# err = err + "\n" + e.split(":", 1)[1]
# else:
# err = err + "\n" + e
# except:
# err = err + "\n" + stdnt_stderr
# return success, err
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