NDOJ/judge/models/problem.py

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Python
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from operator import attrgetter
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from math import sqrt
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from django.conf import settings
from django.contrib.contenttypes.fields import GenericRelation
from django.core.cache import cache
from django.core.validators import MaxValueValidator, MinValueValidator, RegexValidator
from django.db import models
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from django.db.models import CASCADE, F, Q, QuerySet, SET_NULL
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from django.db.models.expressions import RawSQL
from django.db.models.functions import Coalesce
from django.urls import reverse
from django.utils.functional import cached_property
from django.utils.translation import gettext_lazy as _
from judge.fulltext import SearchQuerySet
from judge.models.profile import Organization, Profile
from judge.models.runtime import Language
from judge.user_translations import gettext as user_gettext
from judge.utils.raw_sql import RawSQLColumn, unique_together_left_join
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__all__ = [
"ProblemGroup",
"ProblemType",
"Problem",
"ProblemTranslation",
"ProblemClarification",
"License",
"Solution",
"TranslatedProblemQuerySet",
"TranslatedProblemForeignKeyQuerySet",
]
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class ProblemType(models.Model):
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name = models.CharField(
max_length=20, verbose_name=_("problem category ID"), unique=True
)
full_name = models.CharField(
max_length=100, verbose_name=_("problem category name")
)
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def __str__(self):
return self.full_name
class Meta:
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ordering = ["full_name"]
verbose_name = _("problem type")
verbose_name_plural = _("problem types")
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class ProblemGroup(models.Model):
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name = models.CharField(
max_length=20, verbose_name=_("problem group ID"), unique=True
)
full_name = models.CharField(max_length=100, verbose_name=_("problem group name"))
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def __str__(self):
return self.full_name
class Meta:
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ordering = ["full_name"]
verbose_name = _("problem group")
verbose_name_plural = _("problem groups")
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class License(models.Model):
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key = models.CharField(
max_length=20,
unique=True,
verbose_name=_("key"),
validators=[RegexValidator(r"^[-\w.]+$", r"License key must be ^[-\w.]+$")],
)
link = models.CharField(max_length=256, verbose_name=_("link"))
name = models.CharField(max_length=256, verbose_name=_("full name"))
display = models.CharField(
max_length=256,
blank=True,
verbose_name=_("short name"),
help_text=_("Displayed on pages under this license"),
)
icon = models.CharField(
max_length=256,
blank=True,
verbose_name=_("icon"),
help_text=_("URL to the icon"),
)
text = models.TextField(verbose_name=_("license text"))
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def __str__(self):
return self.name
def get_absolute_url(self):
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return reverse("license", args=(self.key,))
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class Meta:
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verbose_name = _("license")
verbose_name_plural = _("licenses")
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class TranslatedProblemQuerySet(SearchQuerySet):
def __init__(self, **kwargs):
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super(TranslatedProblemQuerySet, self).__init__(
("code", "name", "description"), **kwargs
)
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def add_i18n_name(self, language):
queryset = self._clone()
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alias = unique_together_left_join(
queryset, ProblemTranslation, "problem", "language", language
)
return queryset.annotate(
i18n_name=Coalesce(
RawSQL("%s.name" % alias, ()),
F("name"),
output_field=models.CharField(),
)
)
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class TranslatedProblemForeignKeyQuerySet(QuerySet):
def add_problem_i18n_name(self, key, language, name_field=None):
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queryset = (
self._clone() if name_field is None else self.annotate(_name=F(name_field))
)
alias = unique_together_left_join(
queryset,
ProblemTranslation,
"problem",
"language",
language,
parent_model=Problem,
)
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# You must specify name_field if Problem is not yet joined into the QuerySet.
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kwargs = {
key: Coalesce(
RawSQL("%s.name" % alias, ()),
F(name_field) if name_field else RawSQLColumn(Problem, "name"),
output_field=models.CharField(),
)
}
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return queryset.annotate(**kwargs)
class Problem(models.Model):
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code = models.CharField(
max_length=20,
verbose_name=_("problem code"),
unique=True,
validators=[
RegexValidator("^[a-z0-9]+$", _("Problem code must be ^[a-z0-9]+$"))
],
help_text=_(
"A short, unique code for the problem, " "used in the url after /problem/"
),
)
name = models.CharField(
max_length=100,
verbose_name=_("problem name"),
db_index=True,
help_text=_("The full name of the problem, " "as shown in the problem list."),
)
description = models.TextField(verbose_name=_("problem body"))
authors = models.ManyToManyField(
Profile,
verbose_name=_("creators"),
blank=True,
related_name="authored_problems",
help_text=_(
"These users will be able to edit the problem, " "and be listed as authors."
),
)
curators = models.ManyToManyField(
Profile,
verbose_name=_("curators"),
blank=True,
related_name="curated_problems",
help_text=_(
"These users will be able to edit the problem, "
"but not be listed as authors."
),
)
testers = models.ManyToManyField(
Profile,
verbose_name=_("testers"),
blank=True,
related_name="tested_problems",
help_text=_(
"These users will be able to view the private problem, but not edit it."
),
)
types = models.ManyToManyField(
ProblemType,
verbose_name=_("problem types"),
help_text=_("The type of problem, " "as shown on the problem's page."),
)
group = models.ForeignKey(
ProblemGroup,
verbose_name=_("problem group"),
on_delete=CASCADE,
help_text=_("The group of problem, shown under Category in the problem list."),
)
time_limit = models.FloatField(
verbose_name=_("time limit"),
help_text=_(
"The time limit for this problem, in seconds. "
"Fractional seconds (e.g. 1.5) are supported."
),
validators=[
MinValueValidator(settings.DMOJ_PROBLEM_MIN_TIME_LIMIT),
MaxValueValidator(settings.DMOJ_PROBLEM_MAX_TIME_LIMIT),
],
)
memory_limit = models.PositiveIntegerField(
verbose_name=_("memory limit"),
help_text=_(
"The memory limit for this problem, in kilobytes "
"(e.g. 64mb = 65536 kilobytes)."
),
validators=[
MinValueValidator(settings.DMOJ_PROBLEM_MIN_MEMORY_LIMIT),
MaxValueValidator(settings.DMOJ_PROBLEM_MAX_MEMORY_LIMIT),
],
)
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short_circuit = models.BooleanField(default=False)
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points = models.FloatField(
verbose_name=_("points"),
help_text=_(
"Points awarded for problem completion. "
"Points are displayed with a 'p' suffix if partial."
),
validators=[MinValueValidator(settings.DMOJ_PROBLEM_MIN_PROBLEM_POINTS)],
)
partial = models.BooleanField(
verbose_name=_("allows partial points"), default=False
)
allowed_languages = models.ManyToManyField(
Language,
verbose_name=_("allowed languages"),
help_text=_("List of allowed submission languages."),
)
is_public = models.BooleanField(
verbose_name=_("publicly visible"), db_index=True, default=False
)
is_manually_managed = models.BooleanField(
verbose_name=_("manually managed"),
db_index=True,
default=False,
help_text=_("Whether judges should be allowed to manage data or not."),
)
date = models.DateTimeField(
verbose_name=_("date of publishing"),
null=True,
blank=True,
db_index=True,
help_text=_(
"Doesn't have magic ability to auto-publish due to backward compatibility"
),
)
banned_users = models.ManyToManyField(
Profile,
verbose_name=_("personae non gratae"),
blank=True,
help_text=_("Bans the selected users from submitting to this problem."),
)
license = models.ForeignKey(
License,
null=True,
blank=True,
on_delete=SET_NULL,
help_text=_("The license under which this problem is published."),
)
og_image = models.CharField(
verbose_name=_("OpenGraph image"), max_length=150, blank=True
)
summary = models.TextField(
blank=True,
verbose_name=_("problem summary"),
help_text=_(
"Plain-text, shown in meta description tag, e.g. for social media."
),
)
user_count = models.IntegerField(
verbose_name=_("number of users"),
default=0,
help_text=_("The number of users who solved the problem."),
)
ac_rate = models.FloatField(verbose_name=_("solve rate"), default=0)
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objects = TranslatedProblemQuerySet.as_manager()
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tickets = GenericRelation("Ticket")
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organizations = models.ManyToManyField(
Organization,
blank=True,
verbose_name=_("organizations"),
help_text=_("If private, only these organizations may see the problem."),
)
is_organization_private = models.BooleanField(
verbose_name=_("private to organizations"), default=False
)
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def __init__(self, *args, **kwargs):
super(Problem, self).__init__(*args, **kwargs)
self._translated_name_cache = {}
self._i18n_name = None
self.__original_code = self.code
@cached_property
def types_list(self):
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return list(map(user_gettext, map(attrgetter("full_name"), self.types.all())))
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def languages_list(self):
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return (
self.allowed_languages.values_list("common_name", flat=True)
.distinct()
.order_by("common_name")
)
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def is_editor(self, profile):
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return (
self.authors.filter(id=profile.id) | self.curators.filter(id=profile.id)
).exists()
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def is_editable_by(self, user):
if not user.is_authenticated:
return False
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if (
user.has_perm("judge.edit_all_problem")
or user.has_perm("judge.edit_public_problem")
and self.is_public
):
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return True
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return user.has_perm("judge.edit_own_problem") and self.is_editor(user.profile)
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def is_accessible_by(self, user, in_contest_mode=True):
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# Problem is public.
if self.is_public:
# Problem is not private to an organization.
if not self.is_organization_private:
return True
# If the user can see all organization private problems.
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if user.has_perm("judge.see_organization_problem"):
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return True
# If the user is in the organization.
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if user.is_authenticated and self.organizations.filter(
id__in=user.profile.organizations.all()
):
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return True
# If the user can view all problems.
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if user.has_perm("judge.see_private_problem"):
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return True
if not user.is_authenticated:
return False
# If the user authored the problem or is a curator.
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if user.has_perm("judge.edit_own_problem") and self.is_editor(user.profile):
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return True
# If user is a tester.
if self.testers.filter(id=user.profile.id).exists():
return True
# If user is currently in a contest containing that problem.
current = user.profile.current_contest_id
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if not in_contest_mode or current is None:
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return False
from judge.models import ContestProblem
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return ContestProblem.objects.filter(
problem_id=self.id, contest__users__id=current
).exists()
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def is_subs_manageable_by(self, user):
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return (
user.is_staff
and user.has_perm("judge.rejudge_submission")
and self.is_editable_by(user)
)
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@classmethod
def get_visible_problems(cls, user):
# Do unauthenticated check here so we can skip authentication checks later on.
if not user.is_authenticated:
return cls.get_public_problems()
# Conditions for visible problem:
# - `judge.edit_all_problem` or `judge.see_private_problem`
# - otherwise
# - not is_public problems
# - author or curator or tester
# - is_public problems
# - not is_organization_private or in organization or `judge.see_organization_problem`
# - author or curator or tester
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queryset = cls.objects.defer("description")
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if not (
user.has_perm("judge.see_private_problem")
or user.has_perm("judge.edit_all_problem")
):
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q = Q(is_public=True)
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if not user.has_perm("judge.see_organization_problem"):
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# Either not organization private or in the organization.
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q &= Q(is_organization_private=False) | Q(
is_organization_private=True,
organizations__in=user.profile.organizations.all(),
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)
# Authors, curators, and testers should always have access, so OR at the very end.
q |= Q(authors=user.profile)
q |= Q(curators=user.profile)
q |= Q(testers=user.profile)
queryset = queryset.filter(q)
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return queryset
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@classmethod
def get_public_problems(cls):
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return cls.objects.filter(is_public=True, is_organization_private=False).defer(
"description"
)
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def __str__(self):
return self.name
def get_absolute_url(self):
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return reverse("problem_detail", args=(self.code,))
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@cached_property
def author_ids(self):
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return self.authors.values_list("id", flat=True)
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@cached_property
def editor_ids(self):
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return self.author_ids | self.curators.values_list("id", flat=True)
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@cached_property
def tester_ids(self):
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return self.testers.values_list("id", flat=True)
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@cached_property
def usable_common_names(self):
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return set(self.usable_languages.values_list("common_name", flat=True))
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@property
def usable_languages(self):
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return self.allowed_languages.filter(
judges__in=self.judges.filter(online=True)
).distinct()
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def translated_name(self, language):
if language in self._translated_name_cache:
return self._translated_name_cache[language]
# Hits database despite prefetch_related.
try:
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name = self.translations.filter(language=language).values_list(
"name", flat=True
)[0]
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except IndexError:
name = self.name
self._translated_name_cache[language] = name
return name
@property
def i18n_name(self):
if self._i18n_name is None:
self._i18n_name = self._trans[0].name if self._trans else self.name
return self._i18n_name
@i18n_name.setter
def i18n_name(self, value):
self._i18n_name = value
@property
def clarifications(self):
return ProblemClarification.objects.filter(problem=self)
def update_stats(self):
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self.user_count = (
self.submission_set.filter(
points__gte=self.points, result="AC", user__is_unlisted=False
)
.values("user")
.distinct()
.count()
)
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submissions = self.submission_set.count()
if submissions:
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self.ac_rate = (
100.0
* self.submission_set.filter(
points__gte=self.points, result="AC", user__is_unlisted=False
).count()
/ submissions
)
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else:
self.ac_rate = 0
self.save()
update_stats.alters_data = True
def _get_limits(self, key):
global_limit = getattr(self, key)
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limits = {
limit["language_id"]: (limit["language__name"], limit[key])
for limit in self.language_limits.values(
"language_id", "language__name", key
)
if limit[key] != global_limit
}
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limit_ids = set(limits.keys())
common = []
for cn, ids in Language.get_common_name_map().items():
if ids - limit_ids:
continue
limit = set(limits[id][1] for id in ids)
if len(limit) == 1:
limit = next(iter(limit))
common.append((cn, limit))
for id in ids:
del limits[id]
limits = list(limits.values()) + common
limits.sort()
return limits
@property
def language_time_limit(self):
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key = "problem_tls:%d" % self.id
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result = cache.get(key)
if result is not None:
return result
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result = self._get_limits("time_limit")
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cache.set(key, result)
return result
@property
def language_memory_limit(self):
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key = "problem_mls:%d" % self.id
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result = cache.get(key)
if result is not None:
return result
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result = self._get_limits("memory_limit")
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cache.set(key, result)
return result
def save(self, *args, **kwargs):
super(Problem, self).save(*args, **kwargs)
if self.code != self.__original_code:
try:
problem_data = self.data_files
except AttributeError:
pass
else:
problem_data._update_code(self.__original_code, self.code)
save.alters_data = True
class Meta:
permissions = (
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("see_private_problem", "See hidden problems"),
("edit_own_problem", "Edit own problems"),
("edit_all_problem", "Edit all problems"),
("edit_public_problem", "Edit all public problems"),
("clone_problem", "Clone problem"),
("change_public_visibility", "Change is_public field"),
("change_manually_managed", "Change is_manually_managed field"),
("see_organization_problem", "See organization-private problems"),
("suggest_problem_changes", "Suggest changes to problem"),
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)
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verbose_name = _("problem")
verbose_name_plural = _("problems")
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class ProblemTranslation(models.Model):
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problem = models.ForeignKey(
Problem,
verbose_name=_("problem"),
related_name="translations",
on_delete=CASCADE,
)
language = models.CharField(
verbose_name=_("language"), max_length=7, choices=settings.LANGUAGES
)
name = models.CharField(
verbose_name=_("translated name"), max_length=100, db_index=True
)
description = models.TextField(verbose_name=_("translated description"))
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class Meta:
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unique_together = ("problem", "language")
verbose_name = _("problem translation")
verbose_name_plural = _("problem translations")
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class ProblemClarification(models.Model):
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problem = models.ForeignKey(
Problem, verbose_name=_("clarified problem"), on_delete=CASCADE
)
description = models.TextField(verbose_name=_("clarification body"))
date = models.DateTimeField(
verbose_name=_("clarification timestamp"), auto_now_add=True
)
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class LanguageLimit(models.Model):
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problem = models.ForeignKey(
Problem,
verbose_name=_("problem"),
related_name="language_limits",
on_delete=CASCADE,
)
language = models.ForeignKey(
Language, verbose_name=_("language"), on_delete=CASCADE
)
time_limit = models.FloatField(
verbose_name=_("time limit"),
validators=[
MinValueValidator(settings.DMOJ_PROBLEM_MIN_TIME_LIMIT),
MaxValueValidator(settings.DMOJ_PROBLEM_MAX_TIME_LIMIT),
],
)
memory_limit = models.IntegerField(
verbose_name=_("memory limit"),
validators=[
MinValueValidator(settings.DMOJ_PROBLEM_MIN_MEMORY_LIMIT),
MaxValueValidator(settings.DMOJ_PROBLEM_MAX_MEMORY_LIMIT),
],
)
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class Meta:
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unique_together = ("problem", "language")
verbose_name = _("language-specific resource limit")
verbose_name_plural = _("language-specific resource limits")
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class LanguageTemplate(models.Model):
problem = models.ForeignKey(
Problem,
verbose_name=_("problem"),
related_name="language_templates",
on_delete=CASCADE,
)
language = models.ForeignKey(
Language, verbose_name=_("language"), on_delete=CASCADE
)
source = models.TextField(verbose_name=_("source code"), max_length=65536)
class Meta:
unique_together = ("problem", "language")
verbose_name = _("language-specific template")
verbose_name_plural = _("language-specific templates")
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class Solution(models.Model):
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problem = models.OneToOneField(
Problem,
on_delete=SET_NULL,
verbose_name=_("associated problem"),
null=True,
blank=True,
related_name="solution",
)
is_public = models.BooleanField(verbose_name=_("public visibility"), default=False)
publish_on = models.DateTimeField(verbose_name=_("publish date"))
authors = models.ManyToManyField(Profile, verbose_name=_("authors"), blank=True)
content = models.TextField(verbose_name=_("editorial content"))
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def get_absolute_url(self):
problem = self.problem
if problem is None:
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return reverse("home")
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else:
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return reverse("problem_editorial", args=[problem.code])
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def __str__(self):
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return _("Editorial for %s") % self.problem.name
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class Meta:
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permissions = (("see_private_solution", "See hidden solutions"),)
verbose_name = _("solution")
verbose_name_plural = _("solutions")
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class ProblemPointsVote(models.Model):
points = models.IntegerField(
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verbose_name=_("proposed point value"),
help_text=_("The amount of points you think this problem deserves."),
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validators=[
MinValueValidator(100),
MaxValueValidator(600),
],
)
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voter = models.ForeignKey(
Profile, related_name="problem_points_votes", on_delete=CASCADE, db_index=True
)
problem = models.ForeignKey(
Problem, related_name="problem_points_votes", on_delete=CASCADE, db_index=True
)
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vote_time = models.DateTimeField(
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verbose_name=_("The time this vote was cast"),
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auto_now_add=True,
blank=True,
)
class Meta:
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verbose_name = _("vote")
verbose_name_plural = _("votes")
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def __str__(self):
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return f"{self.voter}: {self.points} for {self.problem.code}"