from abc import ABCMeta, abstractmethod, abstractproperty from django.db.models import Max class abstractclassmethod(classmethod): __isabstractmethod__ = True def __init__(self, callable): callable.__isabstractmethod__ = True super(abstractclassmethod, self).__init__(callable) class BaseContestFormat(metaclass=ABCMeta): @abstractmethod def __init__(self, contest, config): self.config = config self.contest = contest # Use in ioi16 to display ranking with hidden subtasks self.has_hidden_subtasks = False @abstractproperty def name(self): """ Name of this contest format. Should be invoked with gettext_lazy. :return: str """ raise NotImplementedError() @abstractclassmethod def validate(cls, config): """ Validates the contest format configuration. :param config: A dictionary containing the configuration for this contest format. :return: None :raises: ValidationError """ raise NotImplementedError() @abstractmethod def update_participation(self, participation): """ Updates a ContestParticipation object's score, cumtime, and format_data fields based on this contest format. Implementations should call ContestParticipation.save(). :param participation: A ContestParticipation object. :return: None """ raise NotImplementedError() @abstractmethod def display_user_problem(self, participation, contest_problem, show_final): """ Returns the HTML fragment to show a user's performance on an individual problem. This is expected to use information from the format_data field instead of computing it from scratch. :param participation: The ContestParticipation object linking the user to the contest. :param contest_problem: The ContestProblem object representing the problem in question. :return: An HTML fragment, marked as safe for Jinja2. """ raise NotImplementedError() @abstractmethod def display_participation_result(self, participation, show_final): """ Returns the HTML fragment to show a user's performance on the whole contest. This is expected to use information from the format_data field instead of computing it from scratch. :param participation: The ContestParticipation object. :return: An HTML fragment, marked as safe for Jinja2. """ raise NotImplementedError() @abstractmethod def get_problem_breakdown(self, participation, contest_problems): """ Returns a machine-readable breakdown for the user's performance on every problem. :param participation: The ContestParticipation object. :param contest_problems: The list of ContestProblem objects to display performance for. :return: A list of dictionaries, whose content is to be determined by the contest system. """ raise NotImplementedError() @abstractmethod def get_contest_problem_label_script(self): """ Returns the default Lua script to generate contest problem labels. :return: A string, the Lua script. """ raise NotImplementedError() @classmethod def best_solution_state(cls, points, total): if not points: return "failed-score" if points == total: return "full-score" return "partial-score" def handle_frozen_state(self, participation, format_data): hidden_subtasks = {} if hasattr(self, "get_hidden_subtasks"): hidden_subtasks = self.get_hidden_subtasks() queryset = participation.submissions.values("problem_id").annotate( time=Max("submission__date") ) for result in queryset: problem = str(result["problem_id"]) if format_data.get(problem): is_after_freeze = ( self.contest.freeze_after and result["time"] >= self.contest.freeze_after + participation.start ) if is_after_freeze or hidden_subtasks.get(problem): format_data[problem]["frozen"] = True else: format_data[problem] = {"time": 0, "points": 0, "frozen": True}