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import datetime
import json
from random import sample, shuffle
from django.db import models
from django.contrib.auth.models import User
from taggit_autocomplete_modified.managers import TaggableManagerAutocomplete\
as TaggableManager
###############################################################################
class Profile(models.Model):
"""Profile for a user to store roll number and other details."""
user = models.OneToOneField(User)
roll_number = models.CharField(max_length=20)
institute = models.CharField(max_length=128)
department = models.CharField(max_length=64)
position = models.CharField(max_length=64)
languages = (
("python", "Python"),
("bash", "Bash"),
("C", "C Language"),
("C++", "C++ Language"),
("java", "Java Language"),
("scilab", "Scilab"),
)
question_types = (
("mcq", "Multiple Choice"),
("mcc", "Multiple Correct Choices"),
("code", "Code"),
("upload", "Assignment Upload"),
)
attempts = [(i, i) for i in range(1, 6)]
attempts.append((-1, 'Infinite'))
days_between_attempts = ((j, j) for j in range(401))
test_status = (
('inprogress', 'Inprogress'),
('completed', 'Completed'),
)
def get_assignment_dir(instance, filename):
return '%s/%s' % (instance.user.roll_number, instance.assignmentQuestion.id)
###############################################################################
class Question(models.Model):
"""Question for a quiz."""
# A one-line summary of the question.
summary = models.CharField(max_length=256)
# The question text, should be valid HTML.
description = models.TextField()
# Number of points for the question.
points = models.FloatField(default=1.0)
# Answer for MCQs.
solution = models.TextField(blank=True)
# Test cases file paths
ref_code_path = models.TextField(blank=True)
# Any multiple choice options. Place one option per line.
options = models.TextField(blank=True)
# The language for question.
language = models.CharField(max_length=24,
choices=languages)
# The type of question.
type = models.CharField(max_length=24, choices=question_types)
# Is this question active or not. If it is inactive it will not be used
# when creating a QuestionPaper.
active = models.BooleanField(default=True)
# Snippet of code provided to the user.
snippet = models.CharField(max_length=256)
# Tags for the Question.
tags = TaggableManager()
def consolidate_answer_data(self, test, user_answer):
test_case_parameter = []
info_parameter = {}
for i in test:
kw_args_dict = {}
pos_args_list = []
parameter_dict = {}
parameter_dict['test_id'] = i.id
parameter_dict['func_name'] = i.func_name
parameter_dict['expected_answer'] = i.expected_answer
parameter_dict['ref_code_path'] = i.ref_code_path
if i.kw_args:
for args in i.kw_args.split(","):
key, val = args.split("=")
kw_args_dict[key.strip()] = val.strip()
if i.pos_args:
for args in i.pos_args.split(","):
pos_args_list.append(args.strip())
parameter_dict['kw_args'] = kw_args_dict
parameter_dict['pos_args'] = pos_args_list
test_case_parameter.append(parameter_dict)
info_parameter['language'] = self.language
info_parameter['id'] = self.id
info_parameter['user_answer'] = user_answer
info_parameter['test_parameter'] = test_case_parameter
info_parameter['ref_code_path'] = self.ref_code_path
return json.dumps(info_parameter)
def __unicode__(self):
return self.summary
###############################################################################
class Answer(models.Model):
"""Answers submitted by the users."""
# The question for which user answers.
question = models.ForeignKey(Question)
# The answer submitted by the user.
answer = models.TextField(null=True, blank=True)
# Error message when auto-checking the answer.
error = models.TextField()
# Marks obtained for the answer. This can be changed by the teacher if the
# grading is manual.
marks = models.FloatField(default=0.0)
# Is the answer correct.
correct = models.BooleanField(default=False)
# Whether skipped or not.
skipped = models.BooleanField(default=False)
def __unicode__(self):
return self.answer
###############################################################################
class Quiz(models.Model):
"""A quiz that students will participate in. One can think of this
as the "examination" event.
"""
# The start date of the quiz.
start_date = models.DateField("Date of the quiz")
# This is always in minutes.
duration = models.IntegerField("Duration of quiz in minutes", default=20)
# Is the quiz active. The admin should deactivate the quiz once it is
# complete.
active = models.BooleanField(default=True)
# Description of quiz.
description = models.CharField(max_length=256)
# Mininum passing percentage condition.
pass_criteria = models.FloatField("Passing percentage", default=40)
# List of prerequisite quizzes to be passed to take this quiz
prerequisite = models.ForeignKey("Quiz", null=True)
# Programming language for a quiz
language = models.CharField(max_length=20, choices=languages)
# Number of attempts for the quiz
attempts_allowed = models.IntegerField(default=1, choices=attempts)
time_between_attempts = models.IntegerField("Number of Days",\
choices=days_between_attempts)
class Meta:
verbose_name_plural = "Quizzes"
def __unicode__(self):
desc = self.description or 'Quiz'
return '%s: on %s for %d minutes' % (desc, self.start_date,
self.duration)
###############################################################################
class QuestionPaper(models.Model):
"""Question paper stores the detail of the questions."""
# Question paper belongs to a particular quiz.
quiz = models.ForeignKey(Quiz)
# Questions that will be mandatory in the quiz.
fixed_questions = models.ManyToManyField(Question)
# Questions that will be fetched randomly from the Question Set.
random_questions = models.ManyToManyField("QuestionSet")
# Option to shuffle questions, each time a new question paper is created.
shuffle_questions = models.BooleanField(default=False)
# Total marks for the question paper.
total_marks = models.FloatField()
def update_total_marks(self):
""" Updates the total marks for the Question Paper"""
marks = 0.0
questions = self.fixed_questions.all()
for question in questions:
marks += question.points
for question_set in self.random_questions.all():
marks += question_set.marks * question_set.num_questions
self.total_marks = marks
def _get_questions_for_answerpaper(self):
""" Returns fixed and random questions for the answer paper"""
questions = []
questions = list(self.fixed_questions.all())
for question_set in self.random_questions.all():
questions += question_set.get_random_questions()
return questions
def make_answerpaper(self, user, ip, attempt_num):
"""Creates an answer paper for the user to attempt the quiz"""
ans_paper = AnswerPaper(user=user, user_ip=ip, attempt_number=attempt_num)
ans_paper.start_time = datetime.datetime.now()
ans_paper.end_time = ans_paper.start_time \
+ datetime.timedelta(minutes=self.quiz.duration)
ans_paper.question_paper = self
questions = self._get_questions_for_answerpaper()
question_ids = [str(x.id) for x in questions]
if self.shuffle_questions:
shuffle(question_ids)
ans_paper.questions = "|".join(question_ids)
ans_paper.save()
return ans_paper
###############################################################################
class QuestionSet(models.Model):
"""Question set contains a set of questions from which random questions
will be selected for the quiz.
"""
# Marks of each question of a particular Question Set
marks = models.FloatField()
# Number of questions to be fetched for the quiz.
num_questions = models.IntegerField()
# Set of questions for sampling randomly.
questions = models.ManyToManyField(Question)
def get_random_questions(self):
""" Returns random questions from set of questions"""
return sample(self.questions.all(), self.num_questions)
###############################################################################
class AnswerPaper(models.Model):
"""A answer paper for a student -- one per student typically.
"""
# The user taking this question paper.
user = models.ForeignKey(User)
# All questions that remain to be attempted for a particular Student
# (a list of ids separated by '|')
questions = models.CharField(max_length=128)
# The Quiz to which this question paper is attached to.
question_paper = models.ForeignKey(QuestionPaper)
# The attempt number for the question paper.
attempt_number = models.IntegerField()
# The time when this paper was started by the user.
start_time = models.DateTimeField()
# The time when this paper was ended by the user.
end_time = models.DateTimeField()
# User's IP which is logged.
user_ip = models.CharField(max_length=15)
# The questions successfully answered (a list of ids separated by '|')
questions_answered = models.CharField(max_length=128)
# All the submitted answers.
answers = models.ManyToManyField(Answer)
# Teacher comments on the question paper.
comments = models.TextField()
# Total marks earned by the student in this paper.
marks_obtained = models.FloatField(null=True, default=None)
# Marks percent scored by the user
percent = models.FloatField(null=True, default=None)
# Result of the quiz, True if student passes the exam.
passed = models.NullBooleanField()
# Status of the quiz attempt
status = models.CharField(max_length=20, choices=test_status,\
default='inprogress')
def current_question(self):
"""Returns the current active question to display."""
qs = self.questions.split('|')
if len(qs) > 0:
return qs[0]
else:
return ''
def questions_left(self):
"""Returns the number of questions left."""
qs = self.questions
if len(qs) == 0:
return 0
else:
return qs.count('|') + 1
def completed_question(self, question_id):
"""
Removes the completed question from the list of questions and
returns the next question.
"""
qa = self.questions_answered
if len(qa) > 0:
self.questions_answered = '|'.join([qa, str(question_id)])
else:
self.questions_answered = str(question_id)
qs = self.questions.split('|')
qs.remove(unicode(question_id))
self.questions = '|'.join(qs)
self.save()
if len(qs) == 0:
return ''
else:
return qs[0]
def skip(self):
"""
Skips the current question and returns the next available question.
"""
qs = self.questions.split('|')
if len(qs) == 0:
return ''
else:
# Put head at the end.
head = qs.pop(0)
qs.append(head)
self.questions = '|'.join(qs)
self.save()
return qs[0]
def time_left(self):
"""Return the time remaining for the user in seconds."""
dt = datetime.datetime.now() - self.start_time.replace(tzinfo=None)
try:
secs = dt.total_seconds()
except AttributeError:
# total_seconds is new in Python 2.7. :(
secs = dt.seconds + dt.days*24*3600
total = self.question_paper.quiz.duration*60.0
remain = max(total - secs, 0)
return int(remain)
def get_answered_str(self):
"""Returns the answered questions, sorted and as a nice string."""
qa = self.questions_answered.split('|')
answered = ', '.join(sorted(qa))
return answered if answered else 'None'
def update_marks_obtained(self):
"""Updates the total marks earned by student for this paper."""
marks = sum([x.marks for x in self.answers.filter(marks__gt=0.0)])
self.marks_obtained = marks
def update_percent(self):
"""Updates the percent gained by the student for this paper."""
total_marks = self.question_paper.total_marks
if self.marks_obtained is not None:
percent = self.marks_obtained/self.question_paper.total_marks*100
self.percent = round(percent, 2)
def update_passed(self):
"""
Checks whether student passed or failed, as per the quiz
passing criteria.
"""
if self.percent is not None:
if self.percent >= self.question_paper.quiz.pass_criteria:
self.passed = True
else:
self.passed = False
def update_status(self):
""" Sets status to completed """
self.status = 'completed'
def get_question_answers(self):
"""
Return a dictionary with keys as questions and a list of the
corresponding answers.
"""
q_a = {}
for answer in self.answers.all():
question = answer.question
if question in q_a:
q_a[question].append(answer)
else:
q_a[question] = [answer]
return q_a
def __unicode__(self):
u = self.user
return u'Question paper for {0} {1}'.format(u.first_name, u.last_name)
###############################################################################
class AssignmentUpload(models.Model):
user = models.ForeignKey(Profile)
assignmentQuestion = models.ForeignKey(Question)
assignmentFile = models.FileField(upload_to=get_assignment_dir)
################################################################################
class TestCase(models.Model):
question = models.ForeignKey(Question, blank=True, null = True)
# Test case function name
func_name = models.CharField(blank=True, null = True, max_length=200)
# Test case Keyword arguments in dict form
kw_args = models.TextField(blank=True, null = True)
# Test case Positional arguments in list form
pos_args = models.TextField(blank=True, null = True)
# Test case Expected answer in list form
expected_answer = models.TextField(blank=True, null = True)
# # Test case path to system test code applicable for CPP, C, Java and Scilab
# ref_code_path = models.TextField(blank=True, null = True)
|