class ProblemStatisticsModel(db.Model):
__tablename__ = 'problem_statistics'
id = db.Column(db.Integer(),
nullable=False,
primary_key=True,
autoincrement=False)
solutions_count = db.Column(db.Integer(),
default=0,
nullable=False,
server_default='0',
index=True)
accepts_count = db.Column(db.Integer(),
default=0,
nullable=False,
server_default='0',
index=True)
solution_users_count = db.Column(db.Integer(),
default=0,
nullable=False,
server_default='0',
index=True)
accept_users_count = db.Column(db.Integer(),
default=0,
nullable=False,
server_default='0',
index=True)
class CodeModel(db.Model):
__tablename__ = 'code'
id = db.Column(db.Integer, primary_key=True)
solution_id = db.Column(db.Integer(), nullable=False, index=True)
content = db.Column(db.UnicodeText(), nullable=False)
date_created = db.Column(
db.DateTime, nullable=False, index=True,
server_default=db.func.current_timestamp())
compile_info = db.relationship(
'CompileInfoModel',
primaryjoin='CompileInfoModel.code_id==CodeModel.id',
foreign_keys='[CompileInfoModel.code_id]',
backref='code',
uselist=False
)
@property
def linage(self):
return len(self.content.splitlines())
@property
def url(self):
return url_for('code.detail', code_id=self.id)
def as_dict(self):
return {
'id': self.id,
}
def __repr__(self):
return '<Code %r>' % self.id
class UserFavoritesModel(db.Model):
__tablename__ = 'user_favorites'
id = db.Column(db.Integer, primary_key=True)
user_id = db.Column(db.Integer(), nullable=False, index=True)
problem_id = db.Column(db.Integer(), nullable=False, index=True)
date_created = db.Column(db.DateTime(),
server_default=db.func.current_timestamp(),
nullable=False,
index=True)
class CompileInfoModel(db.Model):
__tablename__ = 'compile_info'
id = db.Column(db.Integer, primary_key=True)
code_id = db.Column(db.Integer(), nullable=False, index=True)
content = db.Column(db.UnicodeText(), default=None)
date_created = db.Column(
db.DateTime, nullable=False, index=True,
server_default=db.func.current_timestamp())
def as_dict(self):
return {
'id': self.id,
}
def __repr__(self):
return '<CompileInfo %r>' % self.id
class MessageModel(db.Model):
__tablename__ = 'message'
id = db.Column(db.Integer, primary_key=True)
from_user_id = db.Column(db.Integer(), nullable=False, index=True)
to_user_id = db.Column(db.Integer(), nullable=False, index=True)
title = db.Column(db.String(512), nullable=False)
content = db.Column(db.UnicodeText(), nullable=False)
is_read = db.Column(db.Boolean(),
server_default=sql.false(),
nullable=False,
index=True)
date_created = db.Column(db.DateTime,
nullable=False,
index=True,
server_default=db.func.current_timestamp())
@staticmethod
def get_unread_count(user_id):
return MessageModel.query.filter(
MessageModel.to_user_id == user_id,
MessageModel.is_read.is_(False),
).count()
def as_dict(self):
return {
'id': self.id,
'title': self.title,
}
def __repr__(self):
return '<Message %r>' % self.title
class RegistryModel(db.Model):
__tablename__ = 'registry'
key = db.Column(db.String(100), nullable=False, primary_key=True)
name = db.Column(db.Unicode(1024), nullable=False)
meta = db.Column(JSON, nullable=False, default=[])
value = db.Column(JSON, default=[])
def as_dict(self):
return {'key': self.key, 'name': self.name, 'value': self.value}
def save_to_cache(self):
if app.config['TESTING']:
return
redis.set(self.redis_key(self.key), json.dumps(self.value))
@classmethod
def get_from_cache(cls, key):
if app.config['TESTING']:
return
raw = redis.get(cls.redis_key(key))
if raw:
return json.loads(raw)
@classmethod
def fetch(cls, key):
value = cls.get_from_cache(key)
if value is not None:
return value
registry = cls.query.get(key)
if registry:
registry.save_to_cache()
return registry.value
return []
@classmethod
def redis_key(cls, key):
return 'admin-registry::%s' % key
class RoleModel(db.Model):
__tablename__ = 'role'
id = db.Column(db.Integer, primary_key=True)
name = db.Column(db.String(64), unique=True, index=True)
default = db.Column(db.Boolean,
default=False,
index=True,
server_default=sql.false())
permissions = db.Column(db.Integer)
date_created = db.Column(db.DateTime,
nullable=False,
server_default=db.func.current_timestamp())
@staticmethod
def insert_roles():
roles = {
'User': (Permission.SUBMIT, True),
'Teacher': (Permission.SUBMIT | Permission.VIEW_CODE, False),
'Administrator': (0xff, False)
}
for r in roles:
role = RoleModel.query.filter_by(name=r).first()
if role is None:
role = RoleModel(name=r)
role.permissions = roles[r][0]
role.default = roles[r][1]
db.session.add(role)
db.session.commit()
def __repr__(self):
return '<Role %r>' % self.name
def as_dict(self):
return {
'id': self.id,
'name': self.name,
'permissions': self.permissions,
}
class NewsModel(db.Model):
__tablename__ = 'news'
id = db.Column(db.Integer, primary_key=True)
user_id = db.Column(db.Integer(), nullable=False, index=True)
title = db.Column(db.String(512), nullable=False)
content = db.Column(db.UnicodeText(), nullable=False)
is_display = db.Column(db.Boolean,
default=True,
server_default=sql.true(),
nullable=False,
index=True)
date_created = db.Column(db.DateTime,
nullable=False,
index=True,
server_default=db.func.current_timestamp())
@property
def url(self):
return url_for('news.detail', news_id=self.id)
def as_dict(self):
return {
'id': self.id,
'title': self.title,
}
@staticmethod
def generate_fake(count=100):
from sqlalchemy.exc import IntegrityError
from random import seed, randint
import forgery_py
seed()
user_count = UserModel.query.count()
if user_count == 0:
UserModel.generate_fake()
user_count = UserModel.query.count()
for i in range(count):
u = UserModel.query.offset(randint(0, user_count - 1)).first()
n = NewsModel(user_id=u.id,
title=forgery_py.lorem_ipsum.title(),
content=forgery_py.lorem_ipsum.paragraphs())
db.session.add(n)
try:
db.session.commit()
except IntegrityError:
db.session.rollback()
def __repr__(self):
return '<News %r>' % self.title
class HeadlineModel(db.Model):
__tablename__ = 'headline'
id = db.Column(db.Integer, primary_key=True)
user_id = db.Column(db.Integer(), nullable=False, index=True)
title = db.Column(db.Unicode(512), nullable=False)
url = db.Column(db.Unicode(512))
is_display = db.Column(db.Boolean,
default=True,
server_default=sql.true(),
nullable=False,
index=True)
date_created = db.Column(db.DateTime,
nullable=False,
index=True,
server_default=db.func.current_timestamp())
def as_dict(self):
return {
'id': self.id,
'title': self.title,
}
@staticmethod
def generate_fake(count=100):
from sqlalchemy.exc import IntegrityError
from random import seed, randint
import forgery_py
seed()
user_count = UserModel.query.count()
if user_count == 0:
UserModel.generate_fake()
user_count = UserModel.query.count()
for i in range(count):
u = UserModel.query.offset(randint(0, user_count - 1)).first()
h = HeadlineModel(user_id=u.id,
title=forgery_py.lorem_ipsum.title())
db.session.add(h)
try:
db.session.commit()
except IntegrityError:
db.session.rollback()
def __repr__(self):
return '<Headline %r>' % self.title
class ProblemModel(db.Model):
__tablename__ = 'problem'
id = db.Column(db.Integer,
Sequence('problem_id_seq', start=1000, increment=1),
primary_key=True)
title = db.Column(db.String(512), nullable=False)
time_limit = db.Column(db.Integer, nullable=False)
memory_limit = db.Column(db.Integer, nullable=False)
description = db.Column(db.UnicodeText())
input = db.Column(db.UnicodeText())
output = db.Column(db.UnicodeText())
sample_input = db.Column(db.UnicodeText())
sample_output = db.Column(db.UnicodeText())
sample_code = db.Column(db.UnicodeText())
hint = db.Column(db.UnicodeText())
source = db.Column(db.String(512))
author = db.Column(db.String(128))
is_display = db.Column(db.Boolean,
default=True,
server_default=sql.true(),
nullable=True,
index=True)
is_special_judge = db.Column(db.Boolean,
default=False,
server_default=sql.false(),
nullable=True,
index=True)
date_modified = db.Column(db.DateTime,
nullable=False,
index=True,
server_default=db.func.current_timestamp())
date_created = db.Column(db.DateTime,
nullable=False,
index=True,
server_default=db.func.current_timestamp())
_statistics = db.relationship(
'ProblemStatisticsModel',
primaryjoin='ProblemModel.id==ProblemStatisticsModel.id',
foreign_keys='[ProblemStatisticsModel.id]',
backref='problem',
uselist=False,
passive_deletes='all')
solutions = db.relationship(
'SolutionModel',
primaryjoin='SolutionModel.problem_id==ProblemModel.id',
foreign_keys='[SolutionModel.problem_id]',
backref=db.backref('problem', uselist=False, lazy=True),
order_by='SolutionModel.date_created.desc()',
passive_deletes='all',
lazy='dynamic')
accepts = db.relationship(
'SolutionModel',
primaryjoin=
'and_(SolutionModel.problem_id==ProblemModel.id, SolutionModel.result==1)',
foreign_keys='[SolutionModel.problem_id]',
order_by='SolutionModel.date_created.desc()',
passive_deletes='all',
lazy='dynamic')
solution_users = db.relationship(
'UserModel',
secondary=lambda: SolutionModel.__table__,
primaryjoin='ProblemModel.id==SolutionModel.problem_id',
secondaryjoin='UserModel.id==SolutionModel.user_id',
order_by='SolutionModel.date_created.desc()',
foreign_keys='[SolutionModel.user_id, SolutionModel.problem_id]',
lazy='dynamic')
accept_users = db.relationship(
'UserModel',
secondary=lambda: SolutionModel.__table__,
primaryjoin=
'and_(SolutionModel.problem_id==ProblemModel.id, SolutionModel.result==1)',
secondaryjoin='UserModel.id==SolutionModel.user_id',
order_by='SolutionModel.date_created.desc()',
foreign_keys='[SolutionModel.user_id, SolutionModel.problem_id]',
lazy='dynamic')
def __init__(self, **kwargs):
super(ProblemModel, self).__init__(**kwargs)
self._statistics = ProblemStatisticsModel()
@staticmethod
def generate_fake(count=100):
from sqlalchemy.exc import IntegrityError
from random import seed, randint, choice
import forgery_py
seed()
for i in range(count):
p = ProblemModel(title=forgery_py.lorem_ipsum.title(),
time_limit=randint(1, 5) * 1000,
memory_limit=choice([2 << 14, 2 << 15]),
description=forgery_py.lorem_ipsum.paragraphs(),
input=forgery_py.lorem_ipsum.paragraphs(),
output=forgery_py.lorem_ipsum.paragraphs(),
sample_input=forgery_py.lorem_ipsum.paragraphs(),
sample_output=forgery_py.lorem_ipsum.paragraphs(),
sample_code=forgery_py.lorem_ipsum.paragraphs(),
hint=forgery_py.lorem_ipsum.paragraphs(),
source=forgery_py.internet.domain_name(),
author=forgery_py.internet.user_name(True),
is_display=choice([True, False]),
is_special_judge=choice([True, False]))
db.session.add(p)
try:
db.session.commit()
except IntegrityError:
db.session.rollback()
@hybrid_property
def solutions_count(self):
if self._statistics:
return self._statistics.solutions_count
else:
return 0
@solutions_count.setter
def solutions_count_setter(self, value):
if not self._statistics:
self._statistics = ProblemStatisticsModel()
self._statistics.solutions_count = value
@solutions_count.expression
def solutions_count_expr(cls):
return ProblemStatisticsModel.solutions_count
@hybrid_property
def accepts_count(self):
if self._statistics:
return self._statistics.accepts_count
else:
return 0
@accepts_count.setter
def accepts_count_setter(self, value):
if not self._statistics:
self._statistics = ProblemStatisticsModel()
self._statistics.accepts_count = value
@accepts_count.expression
def accepts_count_expr(cls):
return ProblemStatisticsModel.accepts_count
@hybrid_property
def solution_users_count(self):
if self._statistics:
return self._statistics.solution_users_count
else:
return 0
@solution_users_count.setter
def solution_users_count_setter(self, value):
if not self._statistics:
self._statistics = ProblemStatisticsModel()
self._statistics.solution_users_count = value
@solution_users_count.expression
def solution_users_count_expr(cls):
return ProblemStatisticsModel.solution_users_count
@hybrid_property
def accept_users_count(self):
if self._statistics:
return self._statistics.accept_users_count
else:
return 0
@accept_users_count.setter
def accept_users_count_setter(self, value):
if not self._statistics:
self._statistics = ProblemStatisticsModel()
self._statistics.accept_users_count = value
@accept_users_count.expression
def accept_users_count_expr(cls):
return ProblemStatisticsModel.accept_users_count
@property
def url(self):
return url_for('problem.detail', problem_id=self.id)
@property
def ratio(self):
return '%.f%%' % round(
self.accepts_count * 100.0 /
self.solutions_count if self.solutions_count else 0)
@classmethod
def __declare_last__(cls):
cls.current_user_has_solved = db.column_property(db.and_(
db.current_user_id().isnot(None),
db.exists().where(SolutionModel.user_id == db.current_user_id()).
where(SolutionModel.problem_id == cls.id).where(
SolutionModel.result == 1).correlate_except(SolutionModel)),
deferred=True)
cls.current_user_has_submitted = db.column_property(db.and_(
db.current_user_id().isnot(None),
db.exists().where(
SolutionModel.user_id == db.current_user_id()).where(
SolutionModel.problem_id == cls.id).correlate_except(
SolutionModel)),
deferred=True)
def as_dict(self):
return {
'id': self.id,
'title': self.title,
'time_limit': self.time_limit,
'memory_limit': self.memory_limit,
'description': self.description,
'input': self.input,
'output': self.output,
'sample_input': self.sample_input,
'sample_output': self.sample_output,
'sample_code': self.sample_code,
'hint': self.hint,
'source': self.source,
'author': self.author,
'is_display': self.is_display,
'is_special_judge': self.is_special_judge,
'date_modified': self.date_modified,
'date_created': self.date_created,
'solutions_count': self.solutions_count,
'accepts_count': self.accepts_count,
'ratio': self.ratio,
'url': self.url,
'current_user_has_solved': self.current_user_has_solved,
'current_user_has_submitted': self.current_user_has_submitted,
}
def __repr__(self):
return '<Problem %r>' % self.title
class SolutionModel(db.Model):
__tablename__ = 'solution'
id = db.Column(db.Integer, primary_key=True)
user_id = db.Column(db.Integer(), index=True)
contest_id = db.Column(
db.Integer(), nullable=False, default=0,
server_default='0', index=True)
problem_id = db.Column(db.Integer(), nullable=False, index=True)
result = db.Column(
db.Integer(), nullable=False, index=True,
default=0, server_default='0')
length = db.Column(
db.Integer(), nullable=False, default=0, server_default='0')
take_time = db.Column(
db.Integer(), nullable=False, default=0, server_default='0')
take_memory = db.Column(
db.Integer(), nullable=False, default=0, server_default='0')
program_language = db.Column(
db.Enum('gcc', 'g++', 'java', name='solution_program_language_enum'),
nullable=False, index=True)
date_created = db.Column(
db.DateTime, nullable=False, index=True,
server_default=db.func.current_timestamp())
code = db.relationship(
'CodeModel',
primaryjoin='CodeModel.solution_id==SolutionModel.id',
foreign_keys='[CodeModel.solution_id]',
backref='solution',
uselist=False
)
@staticmethod
def generate_fake(count=100):
from sqlalchemy.exc import IntegrityError
from random import seed, randint, choice
import forgery_py
from .user import UserModel
from .contest import ContestModel
from .problem import ProblemModel
seed()
user_count = UserModel.query.count()
contest_count = ContestModel.query.count()
problem_count = ProblemModel.query.count()
if user_count == 0:
UserModel.generate_fake()
user_count = UserModel.query.count()
if contest_count == 0:
ContestModel.generate_fake()
contest_count = ContestModel.query.count()
if problem_count == 0:
ProblemModel.generate_fake()
problem_count = ProblemModel.query.count()
for i in range(count):
u = UserModel.query.offset(randint(0, user_count - 1)).first()
c = ContestModel.query.offset(randint(0, contest_count - 1)).first()
p = ProblemModel.query.offset(randint(0, problem_count - 1)).first()
# TODO add contest problem solution to contest
s = SolutionModel(
user_id=u.id,
contest_id=choice([0, c.id]),
problem_id=p.id,
result=randint(0, 3),
length=randint(1, 0xfff),
take_time=randint(1, 0xffff),
take_memory=randint(1, 0xffff),
program_language=choice(['gcc', 'g++', 'java']))
db.session.add(s)
code = CodeModel(
content=forgery_py.lorem_ipsum.paragraphs(),
solution=s)
db.session.add(code)
compile_info = CompileInfoModel(
content=forgery_py.lorem_ipsum.paragraphs(),
code=code)
db.session.add(compile_info)
try:
db.session.commit()
except IntegrityError:
db.session.rollback()
def as_dict(self):
return {
'id': self.id,
}
def __repr__(self):
return '<Solution %r>' % self.id
class UserModel(UserMixin, db.Model):
__tablename__ = 'user'
id = db.Column(db.Integer, primary_key=True)
username = db.Column(db.String(256),
unique=True,
index=True,
nullable=False)
nickname = db.Column(db.String(256),
unique=True,
index=True,
nullable=False)
email = db.Column(db.String(256), unique=True, index=True, nullable=False)
password_hash = db.Column(db.String(128), nullable=False)
gender = db.Column(db.Enum('male', 'female', name='user_gender'))
school = db.Column(db.String(256))
college = db.Column(db.String(256))
major = db.Column(db.String(256))
grade = db.Column(db.String(64))
clazz = db.Column(db.String(64))
program_language = db.Column(
db.Enum('gcc', 'g++', 'java', name='user_program_language_enum'))
avatar = db.Column(db.String(256))
qq = db.Column(db.String(64))
phone = db.Column(db.String(64))
address = db.Column(db.String(256))
role_id = db.Column(db.Integer)
is_bulk_registration = db.Column(db.Boolean,
default=False,
server_default=sql.false(),
nullable=True)
confirmed = db.Column(db.Boolean,
default=False,
server_default=sql.false(),
nullable=False)
last_login_ip = db.Column(db.String(64))
current_login_ip = db.Column(db.String(64))
login_count = db.Column(db.Integer())
date_last_login = db.Column(db.DateTime,
nullable=False,
server_default=db.func.current_timestamp())
date_current_login = db.Column(db.DateTime,
nullable=False,
server_default=db.func.current_timestamp())
date_created = db.Column(db.DateTime,
nullable=False,
index=True,
server_default=db.func.current_timestamp())
_statistics = db.relationship(
'UserStatisticsModel',
primaryjoin='UserModel.id==UserStatisticsModel.id',
foreign_keys='[UserStatisticsModel.id]',
backref='user',
uselist=False,
cascade="all, delete-orphan",
)
favorites = db.relationship(
'ProblemModel',
secondary=lambda: UserFavoritesModel.__table__,
primaryjoin='UserModel.id==UserFavoritesModel.user_id',
secondaryjoin='ProblemModel.id==UserFavoritesModel.problem_id',
order_by='UserFavoritesModel.date_created.desc()',
foreign_keys=
'[UserFavoritesModel.problem_id, UserFavoritesModel.user_id]',
lazy='dynamic')
message_sent = db.relationship(
'MessageModel',
primaryjoin='MessageModel.from_user_id==UserModel.id',
foreign_keys='[MessageModel.from_user_id]',
backref=db.backref('user', lazy=True, uselist=False),
order_by='MessageModel.date_created.desc()',
lazy='dynamic')
message_received = db.relationship(
'MessageModel',
primaryjoin='MessageModel.to_user_id==UserModel.id',
foreign_keys='[MessageModel.to_user_id]',
order_by='MessageModel.date_created.desc()',
lazy='dynamic')
news = db.relationship('NewsModel',
primaryjoin='NewsModel.user_id==UserModel.id',
foreign_keys='[NewsModel.user_id]',
backref=db.backref('user', lazy=True,
uselist=False),
order_by='NewsModel.date_created.desc()',
lazy='dynamic')
headlines = db.relationship(
'HeadlineModel',
primaryjoin='HeadlineModel.user_id==UserModel.id',
foreign_keys='[HeadlineModel.user_id]',
backref=db.backref('user', lazy=True, uselist=False),
order_by='HeadlineModel.date_created.desc()',
lazy='dynamic')
solutions = db.relationship(
'SolutionModel',
primaryjoin='SolutionModel.user_id==UserModel.id',
foreign_keys='[SolutionModel.user_id]',
backref=db.backref('user', lazy=True, uselist=False),
order_by='SolutionModel.date_created.desc()',
passive_deletes='all',
lazy='dynamic')
accepts = db.relationship(
'SolutionModel',
primaryjoin=
'and_(SolutionModel.user_id==UserModel.id, SolutionModel.result==1)',
foreign_keys='[SolutionModel.user_id]',
order_by='SolutionModel.date_created.desc()',
passive_deletes='all',
lazy='dynamic')
role = db.relationship('RoleModel',
primaryjoin='UserModel.role_id==RoleModel.id',
foreign_keys='[UserModel.role_id]',
backref=db.backref('user', lazy='dynamic'),
lazy=True)
def __init__(self, **kwargs):
super(UserModel, self).__init__(**kwargs)
self._statistics = UserStatisticsModel()
@property
def email_md5(self):
email = self.email.strip()
if isinstance(email, unicode):
email = email.encode('utf-8')
return md5(email).hexdigest()
def g_avatar(self, size=48, default='retro', rating='g'):
return "{url}{hash}?d={default}&s={size}".format(
url=current_app.config['GRAVATAR_BASE_URL'],
hash=self.email_md5,
default=default,
size=size,
rating=rating)
@staticmethod
def generate_fake(count=100):
from sqlalchemy.exc import IntegrityError
from random import seed
import forgery_py
seed()
for i in range(count):
u = UserModel(username=forgery_py.internet.user_name(True),
nickname=forgery_py.internet.user_name(True),
email=forgery_py.internet.email_address(),
password='******')
db.session.add(u)
try:
db.session.commit()
except IntegrityError:
db.session.rollback()
@property
def url(self):
return url_for('profile.profile', user_id=self.id)
@property
def password(self):
raise AttributeError('password is not a readable attribute')
@password.setter
def password(self, password):
self.password_hash = generate_password_hash(password)
def verify_password(self, password):
return check_password_hash(self.password_hash, password)
def generate_reset_token(self, expiration=3600):
s = Serializer(current_app.config['SECRET_KEY'], expiration)
return s.dumps({'reset': self.id})
def reset_password(self, token, new_password):
s = Serializer(current_app.config['SECRET_KEY'])
try:
data = s.loads(token)
except:
return False
if data.get('reset') != self.id:
return False
self.password = new_password
db.session.add(self)
db.session.commit()
return True
def generate_confirmation_token(self, expiration=3600):
s = Serializer(current_app.config['SECRET_KEY'], expiration)
return s.dumps({'confirm': self.id})
def confirm(self, token):
s = Serializer(current_app.config['SECRET_KEY'])
try:
data = s.loads(token)
except:
return False
if data.get('confirm') != self.id:
return False
self.confirmed = True
db.session.add(self)
db.session.commit()
return True
def generate_email_change_token(self, new_email, expiration=3600):
s = Serializer(current_app.config['SECRET_KEY'], expiration)
return s.dumps({'change_email': self.id, 'new_email': new_email})
def change_email(self, token):
s = Serializer(current_app.config['SECRET_KEY'])
try:
data = s.loads(token)
except:
return False
if data.get('change_email') != self.id:
return False
new_email = data.get('new_email')
if new_email is None:
return False
self.email = new_email
db.session.add(self)
db.session.commit()
return True
@hybrid_property
def solutions_count(self):
if self._statistics:
return self._statistics.solutions_count
else:
return 0
@solutions_count.setter
def solutions_count_setter(self, value):
if not self._statistics:
self._statistics = UserStatisticsModel()
self._statistics.solutions_count = value
@solutions_count.expression
def solutions_count_expr(cls):
return UserStatisticsModel.solutions_count
@hybrid_property
def accepts_count(self):
if self._statistics:
return self._statistics.accepts_count
else:
return 0
@accepts_count.setter
def accepts_count_setter(self, value):
if not self._statistics:
self._statistics = UserStatisticsModel()
self._statistics.accepts_count = value
@accepts_count.expression
def accepts_count_expr(cls):
return UserStatisticsModel.accepts_count
@property
def ratio(self):
return '%.f%%' % round(
self.accepts_count * 100.0 /
self.solutions_count if self.solutions_count else 0)
def can(self, permissions):
return (self.role is not None
and (self.role.permissions & permissions) == permissions)
def is_administrator(self):
return self.can(Permission.ADMINISTER)
def as_dict(self):
return {
'id': self.id,
'username': self.username,
}
def __repr__(self):
return '<User %r>' % self.username
from flask.ext.login import UserMixin, AnonymousUserMixin
from oj import db, login_manager
from .role import Permission
from hashlib import md5
__all__ = [
'UserModel',
'UserFavoritesModel',
'UserStatisticsModel',
]
@db.preserve_deleted(id=db.Column(db.Integer,
primary_key=True,
nullable=False,
autoincrement=False),
date_deleted=db.Column(
db.DateTime,
nullable=False,
index=True,
server_default=db.func.current_timestamp()),
reason=db.Column(db.Enum('deleted_by_user',
'deleted_by_admin',
'censored_automatically',
name='deleted_reason'),
nullable=False))
class UserModel(UserMixin, db.Model):
__tablename__ = 'user'
id = db.Column(db.Integer, primary_key=True)
class ContestUserModel(db.Model):
__tablename__ = 'contest_user'
id = db.Column(db.Integer, primary_key=True)
contest_id = db.Column(db.Integer(), nullable=False, index=True)
team_name = db.Column(db.Unicode(256), nullable=False)
status = db.Column(db.Enum('accept',
'waiting',
'reject',
'again',
name='contest_user_status_enum'),
server_default='waiting',
nullable=False,
index=True)
seat_number = db.Column(db.Unicode(128))
reason = db.Column(db.Unicode(256))
user_id = db.Column(db.Integer(), nullable=False, index=True)
student_id = db.Column(db.String(32))
name = db.Column(db.Unicode(256))
school = db.Column(db.Unicode(256))
college = db.Column(db.Unicode(256))
major = db.Column(db.Unicode(256))
clazz = db.Column(db.Unicode(256))
phone = db.Column(db.String(32))
email = db.Column(db.String(256))
student_id1 = db.Column(db.String(32))
name1 = db.Column(db.Unicode(256))
school1 = db.Column(db.Unicode(256))
college1 = db.Column(db.Unicode(256))
major1 = db.Column(db.Unicode(256))
clazz1 = db.Column(db.Unicode(256))
phone1 = db.Column(db.String(32))
email1 = db.Column(db.String(256))
student_id2 = db.Column(db.String(32))
name2 = db.Column(db.Unicode(256))
school2 = db.Column(db.Unicode(256))
college2 = db.Column(db.Unicode(256))
major2 = db.Column(db.Unicode(256))
clazz2 = db.Column(db.Unicode(256))
phone2 = db.Column(db.String(32))
email2 = db.Column(db.String(256))
date_created = db.Column(db.DateTime,
nullable=False,
index=True,
server_default=db.func.current_timestamp())
solutions = db.relationship(
'SolutionModel',
primaryjoin=
'and_(SolutionModel.user_id==ContestUserModel.user_id, SolutionModel.contest_id==ContestUserModel.contest_id)',
foreign_keys='[SolutionModel.user_id, SolutionModel.contest_id]',
backref=db.backref('contest_user', lazy=True),
order_by='SolutionModel.date_created.desc()',
passive_deletes='all',
lazy='dynamic')
accepts = db.relationship(
'SolutionModel',
primaryjoin=
'and_(SolutionModel.user_id==ContestUserModel.user_id, SolutionModel.contest_id==ContestUserModel.contest_id, SolutionModel.result==1)',
foreign_keys='[SolutionModel.user_id, SolutionModel.contest_id]',
order_by='SolutionModel.date_created.desc()',
passive_deletes='all',
lazy='dynamic')
def as_dict(self):
return {
'id': self.id,
}
def __repr__(self):
return '<ContestUser %r>' % self.id
class ContestModel(db.Model):
__tablename__ = 'contest'
id = db.Column(db.Integer, primary_key=True)
name = db.Column(db.Unicode(512), nullable=False)
date_start = db.Column(db.DateTime, nullable=False)
date_end = db.Column(db.DateTime, nullable=False)
description = db.Column(db.UnicodeText)
type = db.Column(db.Enum('public',
'private',
'register',
'diy',
name='contest_type_enum'),
server_default='public',
nullable=False)
user_id = db.Column(db.Integer(), nullable=False, index=True)
password_hash = db.Column(db.String(128))
date_start_register = db.Column(db.DateTime)
date_end_register = db.Column(db.DateTime)
is_hidden = db.Column(db.Boolean,
default=False,
server_default=sql.false(),
nullable=True)
date_created = db.Column(db.DateTime,
nullable=False,
index=True,
server_default=db.func.current_timestamp())
user = db.relationship('UserModel',
primaryjoin='UserModel.id==ContestModel.user_id',
foreign_keys='[ContestModel.user_id]',
lazy=True)
contest_users = db.relationship(
'ContestUserModel',
primaryjoin=
'and_(ContestUserModel.contest_id==ContestModel.id, ContestModel.type=="register")',
foreign_keys='[ContestUserModel.contest_id]',
backref=db.backref('contest', lazy=True),
passive_deletes='all',
lazy='dynamic')
solutions = db.relationship(
'SolutionModel',
primaryjoin='SolutionModel.contest_id==ContestModel.id',
foreign_keys='[SolutionModel.contest_id]',
backref=db.backref('contest', lazy=True, uselist=False),
order_by='SolutionModel.date_created.desc()',
passive_deletes='all',
lazy='dynamic')
problems = db.relationship(
'ContestProblemModel',
primaryjoin='ContestProblemModel.contest_id==ContestModel.id',
foreign_keys='[ContestProblemModel.contest_id]',
backref=db.backref('contest', lazy=True),
order_by='(ContestProblemModel.ordinal, ContestProblemModel.id)',
passive_deletes='all',
lazy='dynamic')
@staticmethod
def generate_fake(count=100):
from sqlalchemy.exc import IntegrityError
from random import seed, randint, choice
import forgery_py
seed()
now = datetime.datetime.now()
user_count = UserModel.query.count()
if user_count == 0:
UserModel.generate_fake()
user_count = UserModel.query.count()
for i in range(count):
date_start = now + datetime.timedelta(randint(-100, 100))
date_end = date_start + datetime.timedelta(hours=randint(2, 10))
date_end_register = date_start - datetime.timedelta(randint(1, 5))
date_start_register = date_end_register - datetime.timedelta(
randint(1, 10))
u = UserModel.query.offset(randint(0, user_count - 1)).first()
c = ContestModel(
name=forgery_py.lorem_ipsum.title(),
date_start=date_start,
date_end=date_end,
description=forgery_py.lorem_ipsum.paragraph(),
type=choice(['public', 'private', 'register', 'diy']),
user_id=u.id,
password='******',
date_start_register=date_start_register,
date_end_register=date_end_register,
)
db.session.add(c)
try:
db.session.commit()
except IntegrityError:
db.session.rollback()
@property
def url(self):
return url_for('contest.detail', contest_id=self.id)
@property
def status(self):
now = datetime.datetime.now()
if now < self.date_start:
status = 'pending'
elif now > self.date_end:
status = 'ended'
else:
status = 'running'
return status
@property
def password(self):
raise AttributeError('password is not a readable attribute')
@password.setter
def password(self, password):
self.password_hash = generate_password_hash(password)
def verify_password(self, password):
return check_password_hash(self.password_hash, password)
def as_dict(self):
return {
'id': self.id,
'name': self.name,
}
def __repr__(self):
return '<Contest %r>' % self.name
class ContestProblemModel(db.Model):
__tablename__ = 'contest_problem'
id = db.Column(db.Integer, primary_key=True)
name = db.Column(db.Unicode(512))
contest_id = db.Column(db.Integer(), nullable=False, index=True)
problem_id = db.Column(db.Integer(), nullable=False, index=True)
ordinal = db.Column(db.Integer(),
default=0,
server_default='0',
index=True)
date_created = db.Column(db.DateTime,
nullable=False,
index=True,
server_default=db.func.current_timestamp())
_statistics = db.relationship(
'ContestProblemStatisticsModel',
primaryjoin='ContestProblemModel.id==ContestProblemStatisticsModel.id',
foreign_keys='[ContestProblemStatisticsModel.id]',
backref='contest_problem',
uselist=False,
passive_deletes='all')
problem = db.relationship(
'ProblemModel',
primaryjoin='ProblemModel.id==ContestProblemModel.problem_id',
foreign_keys='[ContestProblemModel.problem_id]',
lazy=True)
solutions = db.relationship(
'SolutionModel',
primaryjoin=
'and_(SolutionModel.problem_id==ContestProblemModel.problem_id, SolutionModel.contest_id==ContestProblemModel.contest_id)',
foreign_keys='[SolutionModel.problem_id, SolutionModel.contest_id]',
backref=db.backref('contest_problem', lazy=True),
order_by='SolutionModel.date_created.desc()',
passive_deletes='all',
lazy='dynamic')
accepts = db.relationship(
'SolutionModel',
primaryjoin=
'and_(SolutionModel.problem_id==ContestProblemModel.problem_id, SolutionModel.contest_id==ContestProblemModel.contest_id, SolutionModel.result==1)',
foreign_keys='[SolutionModel.problem_id, SolutionModel.contest_id]',
order_by='SolutionModel.date_created.desc()',
passive_deletes='all',
lazy='dynamic')
@property
def url(self):
return url_for('contest.contest_problem',
contest_id=self.contest_id,
contest_problem_id=self.id)
@hybrid_property
def solutions_count(self):
if self._statistics:
return self._statistics.solutions_count
else:
return 0
@solutions_count.setter
def solutions_count_setter(self, value):
if not self._statistics:
self._statistics = ContestProblemStatisticsModel()
self._statistics.solutions_count = value
@solutions_count.expression
def solutions_count_expr(cls):
return ContestProblemStatisticsModel.solutions_count
@hybrid_property
def accepts_count(self):
if self._statistics:
return self._statistics.accepts_count
else:
return 0
@accepts_count.setter
def accepts_count_setter(self, value):
if not self._statistics:
self._statistics = ContestProblemStatisticsModel()
self._statistics.accepts_count = value
@accepts_count.expression
def accepts_count_expr(cls):
return ContestProblemStatisticsModel.accepts_count
@staticmethod
def generate_fake(count=100):
from sqlalchemy.exc import IntegrityError
from random import seed, randint
import forgery_py
from .problem import ProblemModel
seed()
contest_count = ContestModel.query.count()
problem_count = ProblemModel.query.count()
if contest_count == 0:
ContestModel.generate_fake()
contest_count = ContestModel.query.count()
if problem_count == 0:
ProblemModel.generate_fake()
problem_count = ProblemModel.query.count()
for i in range(count):
c = ContestModel.query.offset(randint(0,
contest_count - 1)).first()
p = ProblemModel.query.offset(randint(0,
problem_count - 1)).first()
cp = ContestProblemModel(name=p.title,
contest_id=c.id,
problem_id=p.id,
ordinal=randint(0, 0xffff))
db.session.add(cp)
try:
db.session.commit()
except IntegrityError:
db.session.rollback()
@classmethod
def __declare_last__(cls):
cls.current_user_has_solved = db.column_property(db.and_(
db.current_user_id().isnot(None),
db.exists().where(
SolutionModel.user_id == db.current_user_id()).where(
SolutionModel.problem_id == cls.problem_id).
where(SolutionModel.contest_id == cls.contest_id).where(
SolutionModel.result == 1).correlate_except(SolutionModel)),
deferred=True)
cls.current_user_has_submitted = db.column_property(db.and_(
db.current_user_id().isnot(None),
db.exists().where(
SolutionModel.user_id == db.current_user_id()).where(
SolutionModel.problem_id == cls.problem_id).where(
SolutionModel.contest_id ==
cls.contest_id).correlate_except(SolutionModel)),
deferred=True)
def as_dict(self):
return {
'id': self.id,
}
def __repr__(self):
return '<ContestProblem %r>' % self.id
