# # This file is part of pretix (Community Edition). # # Copyright (C) 2014-2020 Raphael Michel and contributors # Copyright (C) 2020-2021 rami.io GmbH and contributors # # This program is free software: you can redistribute it and/or modify it under the terms of the GNU Affero General # Public License as published by the Free Software Foundation in version 3 of the License. # # ADDITIONAL TERMS APPLY: Pursuant to Section 7 of the GNU Affero General Public License, additional terms are # applicable granting you additional permissions and placing additional restrictions on your usage of this software. # Please refer to the pretix LICENSE file to obtain the full terms applicable to this work. If you did not receive # this file, see . # # This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied # warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU Affero General Public License for more # details. # # You should have received a copy of the GNU Affero General Public License along with this program. If not, see # . # import datetime from collections import namedtuple from typing import Union import pytz from dateutil import parser from django import forms from django.core.exceptions import ValidationError from django.db import models from django.utils.translation import gettext_lazy as _ from rest_framework import serializers BASE_CHOICES = ( ('date_from', _('Event start')), ('date_to', _('Event end')), ('date_admission', _('Event admission')), ('presale_start', _('Presale start')), ('presale_end', _('Presale end')), ) RelativeDate = namedtuple('RelativeDate', ['days_before', 'minutes_before', 'time', 'base_date_name']) class RelativeDateWrapper: """ This contains information on a date that might be relative to an event. This means that the underlying data is either a fixed date or a number of days and a wall clock time to calculate the date based on a base point. The base point can be the date_from, date_to, date_admission, presale_start or presale_end attribute of an event or subevent. If the respective attribute is not set, ``date_from`` will be used. """ def __init__(self, data: Union[datetime.datetime, RelativeDate]): self.data = data def date(self, event) -> datetime.date: from .models import SubEvent if isinstance(self.data, datetime.date): return self.data elif isinstance(self.data, datetime.datetime): return self.data.date() else: if self.data.minutes_before is not None: raise ValueError('A minute-based relative datetime can not be used as a date') tz = pytz.timezone(event.settings.timezone) if isinstance(event, SubEvent): base_date = ( getattr(event, self.data.base_date_name) or getattr(event.event, self.data.base_date_name) or event.date_from ) else: base_date = getattr(event, self.data.base_date_name) or event.date_from new_date = base_date.astimezone(tz) - datetime.timedelta(days=self.data.days_before) return new_date.date() def datetime(self, event) -> datetime.datetime: from .models import SubEvent if isinstance(self.data, (datetime.datetime, datetime.date)): return self.data else: tz = pytz.timezone(event.settings.timezone) if isinstance(event, SubEvent): base_date = ( getattr(event, self.data.base_date_name) or getattr(event.event, self.data.base_date_name) or event.date_from ) else: base_date = getattr(event, self.data.base_date_name) or event.date_from if self.data.minutes_before is not None: return base_date.astimezone(tz) - datetime.timedelta(minutes=self.data.minutes_before) else: oldoffset = base_date.astimezone(tz).utcoffset() new_date = base_date.astimezone(tz) - datetime.timedelta(days=self.data.days_before) if self.data.time: new_date = new_date.replace( hour=self.data.time.hour, minute=self.data.time.minute, second=self.data.time.second ) new_date = new_date.astimezone(tz) new_offset = new_date.utcoffset() new_date += oldoffset - new_offset return new_date def to_string(self) -> str: if isinstance(self.data, (datetime.datetime, datetime.date)): return self.data.isoformat() else: if self.data.minutes_before is not None: return 'RELDATE/minutes/{}/{}/'.format( # self.data.minutes_before, self.data.base_date_name ) return 'RELDATE/{}/{}/{}/'.format( # self.data.days_before, self.data.time.strftime('%H:%M:%S') if self.data.time else '-', self.data.base_date_name ) @classmethod def from_string(cls, input: str): if input.startswith('RELDATE/'): parts = input.split('/') if parts[1] == 'minutes': data = RelativeDate( days_before=0, minutes_before=int(parts[2]), base_date_name=parts[3], time=None ) else: if parts[2] == '-': time = None else: timeparts = parts[2].split(':') time = datetime.time(hour=int(timeparts[0]), minute=int(timeparts[1]), second=int(timeparts[2])) try: data = RelativeDate( days_before=int(parts[1] or 0), base_date_name=parts[3], time=time, minutes_before=None ) except ValueError: data = RelativeDate( days_before=0, base_date_name=parts[3], time=time, minutes_before=None ) if data.base_date_name not in [k[0] for k in BASE_CHOICES]: raise ValueError('{} is not a valid base date'.format(data.base_date_name)) else: data = parser.parse(input) return RelativeDateWrapper(data) def __len__(self): return len(self.to_string()) class RelativeDateTimeWidget(forms.MultiWidget): template_name = 'pretixbase/forms/widgets/reldatetime.html' def __init__(self, *args, **kwargs): self.status_choices = kwargs.pop('status_choices') widgets = ( forms.RadioSelect(choices=self.status_choices), forms.DateTimeInput( attrs={'class': 'datetimepicker'} ), forms.NumberInput(), forms.Select(choices=kwargs.pop('base_choices')), forms.TimeInput(attrs={'placeholder': _('Time'), 'class': 'timepickerfield'}), forms.NumberInput(), ) super().__init__(widgets=widgets, *args, **kwargs) def decompress(self, value): if isinstance(value, str): value = RelativeDateWrapper.from_string(value) if not value: return ['unset', None, 1, 'date_from', None, 0] elif isinstance(value.data, (datetime.datetime, datetime.date)): return ['absolute', value.data, 1, 'date_from', None, 0] elif value.data.minutes_before is not None: return ['relative_minutes', None, None, value.data.base_date_name, None, value.data.minutes_before] return ['relative', None, value.data.days_before, value.data.base_date_name, value.data.time, 0] def get_context(self, name, value, attrs): ctx = super().get_context(name, value, attrs) ctx['required'] = self.status_choices[0][0] == 'unset' return ctx class RelativeDateTimeField(forms.MultiValueField): def __init__(self, *args, **kwargs): status_choices = [ ('absolute', _('Fixed date:')), ('relative', _('Relative date:')), ('relative_minutes', _('Relative time:')), ] if kwargs.get('limit_choices'): limit = kwargs.pop('limit_choices') choices = [(k, v) for k, v in BASE_CHOICES if k in limit] else: choices = BASE_CHOICES if not kwargs.get('required', True): status_choices.insert(0, ('unset', _('Not set'))) fields = ( forms.ChoiceField( choices=status_choices, required=True ), forms.DateTimeField( required=False ), forms.IntegerField( required=False ), forms.ChoiceField( choices=choices, required=False ), forms.TimeField( required=False, ), forms.IntegerField( required=False ), ) if 'widget' not in kwargs: kwargs['widget'] = RelativeDateTimeWidget(status_choices=status_choices, base_choices=choices) kwargs.pop('max_length', 0) kwargs.pop('empty_value', 0) super().__init__( fields=fields, require_all_fields=False, *args, **kwargs ) def set_event(self, event): self.widget.widgets[3].choices = [ (k, v) for k, v in BASE_CHOICES if getattr(event, k, None) ] def compress(self, data_list): if not data_list: return None if data_list[0] == 'absolute': return RelativeDateWrapper(data_list[1]) elif data_list[0] == 'unset': return None elif data_list[0] == 'relative_minutes': return RelativeDateWrapper(RelativeDate( days_before=0, base_date_name=data_list[3], time=None, minutes_before=data_list[5] )) else: return RelativeDateWrapper(RelativeDate( days_before=data_list[2], base_date_name=data_list[3], time=data_list[4], minutes_before=None )) def clean(self, value): if value[0] == 'absolute' and not value[1]: raise ValidationError(self.error_messages['incomplete']) elif value[0] == 'relative' and (value[2] is None or not value[3]): raise ValidationError(self.error_messages['incomplete']) elif value[0] == 'relative_minutes' and (value[5] is None or not value[3]): raise ValidationError(self.error_messages['incomplete']) return super().clean(value) class RelativeDateWidget(RelativeDateTimeWidget): template_name = 'pretixbase/forms/widgets/reldate.html' def __init__(self, *args, **kwargs): self.status_choices = kwargs.pop('status_choices') widgets = ( forms.RadioSelect(choices=self.status_choices), forms.DateInput( attrs={'class': 'datepickerfield'} ), forms.NumberInput(), forms.Select(choices=kwargs.pop('base_choices')), ) forms.MultiWidget.__init__(self, widgets=widgets, *args, **kwargs) def decompress(self, value): if isinstance(value, str): value = RelativeDateWrapper.from_string(value) if not value: return ['unset', None, 1, 'date_from'] elif isinstance(value.data, (datetime.datetime, datetime.date)): return ['absolute', value.data, 1, 'date_from'] return ['relative', None, value.data.days_before, value.data.base_date_name] class RelativeDateField(RelativeDateTimeField): def __init__(self, *args, **kwargs): status_choices = [ ('absolute', _('Fixed date:')), ('relative', _('Relative date:')), ] if not kwargs.get('required', True): status_choices.insert(0, ('unset', _('Not set'))) fields = ( forms.ChoiceField( choices=status_choices, required=True ), forms.DateField( required=False ), forms.IntegerField( required=False ), forms.ChoiceField( choices=BASE_CHOICES, required=False ), ) if 'widget' not in kwargs: kwargs['widget'] = RelativeDateWidget(status_choices=status_choices, base_choices=BASE_CHOICES) forms.MultiValueField.__init__( self, fields=fields, require_all_fields=False, *args, **kwargs ) def compress(self, data_list): if not data_list: return None if data_list[0] == 'absolute': return RelativeDateWrapper(data_list[1]) elif data_list[0] == 'unset': return None else: return RelativeDateWrapper(RelativeDate( days_before=data_list[2], base_date_name=data_list[3], time=None, minutes_before=None )) def clean(self, value): if value[0] == 'absolute' and not value[1]: raise ValidationError(self.error_messages['incomplete']) elif value[0] == 'relative' and (value[2] is None or not value[3]): raise ValidationError(self.error_messages['incomplete']) return super().clean(value) class ModelRelativeDateTimeField(models.CharField): form_class = RelativeDateTimeField def __init__(self, *args, **kwargs): self.event = kwargs.pop('event', None) kwargs.setdefault('max_length', 255) super().__init__(*args, **kwargs) def to_python(self, value): if isinstance(value, RelativeDateWrapper): return value if value is None: return None return RelativeDateWrapper.from_string(value) def get_prep_value(self, value): if isinstance(value, RelativeDateWrapper): return value.to_string() return value def from_db_value(self, value, expression, connection): if value is None: return None return RelativeDateWrapper.from_string(value) def formfield(self, **kwargs): defaults = {'form_class': self.form_class} defaults.update(kwargs) return super().formfield(**defaults) class SerializerRelativeDateField(serializers.CharField): def to_internal_value(self, data): if data is None: return None try: r = RelativeDateWrapper.from_string(data) if isinstance(r.data, RelativeDate): if r.data.time is not None: raise ValidationError("Do not specify a time for a date field") return r except: raise ValidationError("Invalid relative date") def to_representation(self, value: RelativeDateWrapper): if value is None: return None return value.to_string() class SerializerRelativeDateTimeField(serializers.CharField): def to_internal_value(self, data): if data is None: return None try: return RelativeDateWrapper.from_string(data) except: raise ValidationError("Invalid relative date") def to_representation(self, value: RelativeDateWrapper): if value is None: return None return value.to_string()