import secrets import uuid from collections.abc import Callable from django.conf import settings from django.core.exceptions import ValidationError from django.db import models from django.utils.timezone import now DEFAULT_CHOICES_NAME = 'STATUS' class AutoCreatedField(models.DateTimeField): """ A DateTimeField that automatically populates itself at object creation. By default, sets editable=False, default=datetime.now. """ def __init__(self, *args, **kwargs): kwargs.setdefault('editable', False) kwargs.setdefault('default', now) super().__init__(*args, **kwargs) class AutoLastModifiedField(AutoCreatedField): """ A DateTimeField that updates itself on each save() of the model. By default, sets editable=False and default=datetime.now. """ def get_default(self): """Return the default value for this field.""" if not hasattr(self, "_default"): self._default = self._get_default() return self._default def pre_save(self, model_instance, add): value = now() if add: current_value = getattr(model_instance, self.attname, self.get_default()) if current_value != self.get_default(): # when creating an instance and the modified date is set # don't change the value, assume the developer wants that # control. value = getattr(model_instance, self.attname) else: for field in model_instance._meta.get_fields(): if isinstance(field, AutoCreatedField): value = getattr(model_instance, field.name) break setattr(model_instance, self.attname, value) return value class StatusField(models.CharField): """ A CharField that looks for a ``STATUS`` class-attribute and automatically uses that as ``choices``. The first option in ``STATUS`` is set as the default. Also has a default max_length so you don't have to worry about setting that. Also features a ``no_check_for_status`` argument to make sure South can handle this field when it freezes a model. """ def __init__(self, *args, **kwargs): kwargs.setdefault('max_length', 100) self.check_for_status = not kwargs.pop('no_check_for_status', False) self.choices_name = kwargs.pop('choices_name', DEFAULT_CHOICES_NAME) super().__init__(*args, **kwargs) def prepare_class(self, sender, **kwargs): if not sender._meta.abstract and self.check_for_status: assert hasattr(sender, self.choices_name), \ "To use StatusField, the model '%s' must have a %s choices class attribute." \ % (sender.__name__, self.choices_name) self.choices = getattr(sender, self.choices_name) if not self.has_default(): self.default = tuple(getattr(sender, self.choices_name))[0][0] # set first as default def contribute_to_class(self, cls, name): models.signals.class_prepared.connect(self.prepare_class, sender=cls) # we don't set the real choices until class_prepared (so we can rely on # the STATUS class attr being available), but we need to set some dummy # choices now so the super method will add the get_FOO_display method self.choices = [(0, 'dummy')] super().contribute_to_class(cls, name) def deconstruct(self): name, path, args, kwargs = super().deconstruct() kwargs['no_check_for_status'] = True return name, path, args, kwargs class MonitorField(models.DateTimeField): """ A DateTimeField that monitors another field on the same model and sets itself to the current date/time whenever the monitored field changes. """ def __init__(self, *args, **kwargs): kwargs.setdefault('default', now) monitor = kwargs.pop('monitor', None) if not monitor: raise TypeError( '%s requires a "monitor" argument' % self.__class__.__name__) self.monitor = monitor when = kwargs.pop('when', None) if when is not None: when = set(when) self.when = when super().__init__(*args, **kwargs) def contribute_to_class(self, cls, name): self.monitor_attname = '_monitor_%s' % name models.signals.post_init.connect(self._save_initial, sender=cls) super().contribute_to_class(cls, name) def get_monitored_value(self, instance): return getattr(instance, self.monitor) def _save_initial(self, sender, instance, **kwargs): if self.monitor in instance.get_deferred_fields(): # Fix related to issue #241 to avoid recursive error on double monitor fields return setattr(instance, self.monitor_attname, self.get_monitored_value(instance)) def pre_save(self, model_instance, add): value = now() previous = getattr(model_instance, self.monitor_attname, None) current = self.get_monitored_value(model_instance) if previous != current: if self.when is None or current in self.when: setattr(model_instance, self.attname, value) self._save_initial(model_instance.__class__, model_instance) return super().pre_save(model_instance, add) def deconstruct(self): name, path, args, kwargs = super().deconstruct() kwargs['monitor'] = self.monitor if self.when is not None: kwargs['when'] = self.when return name, path, args, kwargs SPLIT_MARKER = getattr(settings, 'SPLIT_MARKER', '') # the number of paragraphs after which to split if no marker SPLIT_DEFAULT_PARAGRAPHS = getattr(settings, 'SPLIT_DEFAULT_PARAGRAPHS', 2) def _excerpt_field_name(name): return '_%s_excerpt' % name def get_excerpt(content): excerpt = [] default_excerpt = [] paras_seen = 0 for line in content.splitlines(): if not line.strip(): paras_seen += 1 if paras_seen < SPLIT_DEFAULT_PARAGRAPHS: default_excerpt.append(line) if line.strip() == SPLIT_MARKER: return '\n'.join(excerpt) excerpt.append(line) return '\n'.join(default_excerpt) class SplitText: def __init__(self, instance, field_name, excerpt_field_name): # instead of storing actual values store a reference to the instance # along with field names, this makes assignment possible self.instance = instance self.field_name = field_name self.excerpt_field_name = excerpt_field_name # content is read/write @property def content(self): return self.instance.__dict__[self.field_name] @content.setter def content(self, val): setattr(self.instance, self.field_name, val) # excerpt is a read only property def _get_excerpt(self): return getattr(self.instance, self.excerpt_field_name) excerpt = property(_get_excerpt) # has_more is a boolean property def _get_has_more(self): return self.excerpt.strip() != self.content.strip() has_more = property(_get_has_more) def __str__(self): return self.content class SplitDescriptor: def __init__(self, field): self.field = field self.excerpt_field_name = _excerpt_field_name(self.field.name) def __get__(self, instance, owner): if instance is None: raise AttributeError('Can only be accessed via an instance.') content = instance.__dict__[self.field.name] if content is None: return None return SplitText(instance, self.field.name, self.excerpt_field_name) def __set__(self, obj, value): if isinstance(value, SplitText): obj.__dict__[self.field.name] = value.content setattr(obj, self.excerpt_field_name, value.excerpt) else: obj.__dict__[self.field.name] = value class SplitField(models.TextField): def __init__(self, *args, **kwargs): # for South FakeORM compatibility: the frozen version of a # SplitField can't try to add an _excerpt field, because the # _excerpt field itself is frozen as well. See introspection # rules below. self.add_excerpt_field = not kwargs.pop('no_excerpt_field', False) super().__init__(*args, **kwargs) def contribute_to_class(self, cls, name): if self.add_excerpt_field and not cls._meta.abstract: excerpt_field = models.TextField(editable=False) cls.add_to_class(_excerpt_field_name(name), excerpt_field) super().contribute_to_class(cls, name) setattr(cls, self.name, SplitDescriptor(self)) def pre_save(self, model_instance, add): value = super().pre_save(model_instance, add) excerpt = get_excerpt(value.content) setattr(model_instance, _excerpt_field_name(self.attname), excerpt) return value.content def value_to_string(self, obj): value = self.value_from_object(obj) return value.content def get_prep_value(self, value): try: return value.content except AttributeError: return value def deconstruct(self): name, path, args, kwargs = super().deconstruct() kwargs['no_excerpt_field'] = True return name, path, args, kwargs class UUIDField(models.UUIDField): """ A field for storing universally unique identifiers. Use Python UUID class. """ def __init__(self, primary_key=True, version=4, editable=False, *args, **kwargs): """ Parameters ---------- primary_key : bool If True, this field is the primary key for the model. version : int An integer that set default UUID version. editable : bool If False, the field will not be displayed in the admin or any other ModelForm, default is false. Raises ------ ValidationError UUID version 2 is not supported. """ if version == 2: raise ValidationError( 'UUID version 2 is not supported.') if version < 1 or version > 5: raise ValidationError( 'UUID version is not valid.') if version == 1: default = uuid.uuid1 elif version == 3: default = uuid.uuid3 elif version == 4: default = uuid.uuid4 elif version == 5: default = uuid.uuid5 kwargs.setdefault('primary_key', primary_key) kwargs.setdefault('editable', editable) kwargs.setdefault('default', default) super().__init__(*args, **kwargs) class UrlsafeTokenField(models.CharField): """ A field for storing a unique token in database. """ def __init__(self, editable=False, max_length=128, factory=None, **kwargs): """ Parameters ---------- editable: bool If true token is editable. max_length: int Maximum length of the token. factory: callable If provided, called with max_length of the field instance to generate token. Raises ------ TypeError non-callable value for factory is not supported. """ if factory is not None and not isinstance(factory, Callable): raise TypeError("'factory' should either be a callable not 'None'") self._factory = factory kwargs.pop('default', None) # passing default value has not effect. super().__init__(editable=editable, max_length=max_length, **kwargs) def get_default(self): if self._factory is not None: return self._factory(self.max_length) # generate a token of length x1.33 approx. trim up to max length token = secrets.token_urlsafe(self.max_length)[:self.max_length] return token def deconstruct(self): name, path, args, kwargs = super().deconstruct() kwargs['factory'] = self._factory return name, path, args, kwargs