Source code for oscar.apps.catalogue.abstract_models

import logging
import os
from datetime import date, datetime

from django.conf import settings
from django.contrib.contenttypes.fields import GenericForeignKey
from django.contrib.contenttypes.models import ContentType
from django.contrib.staticfiles.finders import find
from django.core.cache import cache
from django.core.exceptions import ImproperlyConfigured, ValidationError
from django.core.files.base import File
from django.core.validators import RegexValidator
from django.db import models
from django.db.models import Count, Exists, OuterRef, Sum
from django.db.models.fields import Field
from django.db.models.lookups import StartsWith
from django.template.defaultfilters import striptags
from django.urls import reverse
from django.utils.functional import cached_property
from django.utils.html import strip_tags
from django.utils.safestring import mark_safe
from django.utils.translation import get_language
from django.utils.translation import gettext_lazy as _
from django.utils.translation import pgettext, pgettext_lazy
from treebeard.mp_tree import MP_Node

from oscar.core.decorators import deprecated
from oscar.core.loading import get_class, get_classes, get_model
from oscar.core.utils import slugify
from oscar.core.validators import non_python_keyword
from oscar.models.fields import AutoSlugField, NullCharField
from oscar.models.fields.slugfield import SlugField
from oscar.utils.models import get_image_upload_path

CategoryQuerySet, ProductQuerySet = get_classes(
    "catalogue.managers", ["CategoryQuerySet", "ProductQuerySet"]
ProductAttributesContainer = get_class(
    "catalogue.product_attributes", "ProductAttributesContainer"

# pylint: disable=abstract-method
[docs]class ReverseStartsWith(StartsWith): """ Adds a new lookup method to the django query language, that allows the following syntax:: henk__rstartswith="koe" The regular version of startswith:: henk__startswith="koe" Would be about the same as the python statement:: henk.startswith("koe") ReverseStartsWith will flip the right and left hand side of the expression, effectively making this the same query as:: "koe".startswith(henk) """ def process_rhs(self, qn, connection): return super().process_lhs(qn, connection) def process_lhs(self, compiler, connection, lhs=None): if lhs is not None: raise Exception("Flipped process_lhs does not accept lhs argument") return super().process_rhs(compiler, connection)
Field.register_lookup(ReverseStartsWith, "rstartswith")
[docs]class AbstractProductClass(models.Model): """ Used for defining options and attributes for a subset of products. E.g. Books, DVDs and Toys. A product can only belong to one product class. At least one product class must be created when setting up a new Oscar deployment. Not necessarily equivalent to top-level categories but usually will be. """ name = models.CharField(_("Name"), max_length=128) slug = AutoSlugField(_("Slug"), max_length=128, unique=True, populate_from="name") #: Some product type don't require shipping (e.g. digital products) - we use #: this field to take some shortcuts in the checkout. requires_shipping = models.BooleanField(_("Requires shipping?"), default=True) #: Digital products generally don't require their stock levels to be #: tracked. track_stock = models.BooleanField(_("Track stock levels?"), default=True) #: These are the options (set by the user when they add to basket) for this #: item class. For instance, a product class of "SMS message" would always #: require a message to be specified before it could be bought. #: Note that you can also set options on a per-product level. options = models.ManyToManyField( "catalogue.Option", blank=True, verbose_name=_("Options") ) class Meta: abstract = True app_label = "catalogue" ordering = ["name"] verbose_name = _("Product class") verbose_name_plural = _("Product classes") def __str__(self): return @property def has_attributes(self): return self.attributes.exists()
[docs]class AbstractCategory(MP_Node): """ A product category. Merely used for navigational purposes; has no effects on business logic. Uses :py:mod:`django-treebeard`. """ #: Allow comparison of categories on a limited number of fields by ranges. #: When the Category model is overwritten to provide CMS content, defining #: this avoids fetching a lot of unneeded extra data from the database. COMPARISON_FIELDS = ("pk", "path", "depth") name = models.CharField(_("Name"), max_length=255, db_index=True) description = models.TextField(_("Description"), blank=True) meta_title = models.CharField( _("Meta title"), max_length=255, blank=True, null=True ) meta_description = models.TextField(_("Meta description"), blank=True, null=True) image = models.ImageField( _("Image"), upload_to="categories", blank=True, null=True, max_length=255 ) slug = SlugField(_("Slug"), max_length=255, db_index=True) is_public = models.BooleanField( _("Is public"), default=True, db_index=True, help_text=_("Show this category in search results and catalogue listings."), ) ancestors_are_public = models.BooleanField( _("Ancestor categories are public"), default=True, db_index=True, help_text=_("The ancestors of this category are public"), ) _slug_separator = "/" _full_name_separator = " > " objects = CategoryQuerySet.as_manager() def __str__(self): return self.full_name @property def full_name(self): """ Returns a string representation of the category and it's ancestors, e.g. 'Books > Non-fiction > Essential programming'. It's rarely used in Oscar, but used to be stored as a CharField and is hence kept for backwards compatibility. It's also sufficiently useful to keep around. """ names = [ for category in self.get_ancestors_and_self()] return self._full_name_separator.join(names) def get_full_slug(self, parent_slug=None): if self.is_root(): return self.slug cache_key = self.get_url_cache_key() full_slug = cache.get(cache_key) if full_slug is None: parent_slug = ( parent_slug if parent_slug is not None else self.get_parent().full_slug ) full_slug = "%s%s%s" % (parent_slug, self._slug_separator, self.slug) cache.set(cache_key, full_slug) return full_slug @property def full_slug(self): """ Returns a string of this category's slug concatenated with the slugs of it's ancestors, e.g. 'books/non-fiction/essential-programming'. Oscar used to store this as in the 'slug' model field, but this field has been re-purposed to only store this category's slug and to not include it's ancestors' slugs. """ return self.get_full_slug()
[docs] def generate_slug(self): """ Generates a slug for a category. This makes no attempt at generating a unique slug. """ return slugify(
[docs] def save(self, *args, **kwargs): """ Oscar traditionally auto-generated slugs from names. As that is often convenient, we still do so if a slug is not supplied through other means. If you want to control slug creation, just create instances with a slug already set, or expose a field on the appropriate forms. """ if not self.slug: self.slug = self.generate_slug() super().save(*args, **kwargs)
def set_ancestors_are_public(self): # Update ancestors_are_public for the sub tree. # note: This doesn't trigger a new save for each instance, rather # just a SQL update. included_in_non_public_subtree = self.__class__.objects.filter( is_public=False, path__rstartswith=OuterRef("path"), depth__lt=OuterRef("depth"), ) self.get_descendants_and_self().update( ancestors_are_public=~Exists(included_in_non_public_subtree.values("id")) ) # Correctly populate ancestors_are_public self.refresh_from_db()
[docs] @classmethod def fix_tree(cls, destructive=False, fix_paths=False): super().fix_tree(destructive, fix_paths) for node in cls.get_root_nodes(): # ancestors_are_public *must* be True for root nodes, or all trees # will become non-public if not node.ancestors_are_public: node.ancestors_are_public = True else: node.set_ancestors_are_public()
def get_meta_title(self): return self.meta_title or def get_meta_description(self): return self.meta_description or striptags(self.description)
[docs] def get_ancestors_and_self(self): """ Gets ancestors and includes itself. Use treebeard's get_ancestors if you don't want to include the category itself. It's a separate function as it's commonly used in templates. """ if self.is_root(): return [self] return list(self.get_ancestors()) + [self]
[docs] def get_descendants_and_self(self): """ Gets descendants and includes itself. Use treebeard's get_descendants if you don't want to include the category itself. It's a separate function as it's commonly used in templates. """ return self.get_tree(self)
def get_url_cache_key(self): current_locale = get_language() cache_key = "CATEGORY_URL_%s_%s" % (current_locale, return cache_key def _get_absolute_url(self, parent_slug=None): """ Our URL scheme means we have to look up the category's ancestors. As that is a bit more expensive, we cache the generated URL. That is safe even for a stale cache, as the default implementation of ProductCategoryView does the lookup via primary key anyway. But if you change that logic, you'll have to reconsider the caching approach. """ return reverse( "catalogue:category", kwargs={ "category_slug": self.get_full_slug(parent_slug=parent_slug), "pk":, }, ) def get_absolute_url(self): return self._get_absolute_url()
[docs] class Meta: abstract = True app_label = "catalogue" ordering = ["path"] verbose_name = _("Category") verbose_name_plural = _("Categories")
def has_children(self): return self.get_num_children() > 0 def get_num_children(self): return self.get_children().count()
[docs]class AbstractProductCategory(models.Model): """ Joining model between products and categories. Exists to allow customising. """ product = models.ForeignKey( "catalogue.Product", on_delete=models.CASCADE, verbose_name=_("Product") ) category = models.ForeignKey( "catalogue.Category", on_delete=models.CASCADE, verbose_name=_("Category") ) class Meta: abstract = True app_label = "catalogue" ordering = ["product", "category"] unique_together = ("product", "category") verbose_name = _("Product category") verbose_name_plural = _("Product categories") def __str__(self): return "<productcategory for product '%s'>" % self.product
[docs]class AbstractProduct(models.Model): """ The base product object There's three kinds of products; they're distinguished by the structure field. - A stand alone product. Regular product that lives by itself. - A child product. All child products have a parent product. They're a specific version of the parent. - A parent product. It essentially represents a set of products. An example could be a yoga course, which is a parent product. The different times/locations of the courses would be associated with the child products. """ STANDALONE, PARENT, CHILD = "standalone", "parent", "child" STRUCTURE_CHOICES = ( (STANDALONE, _("Stand-alone product")), (PARENT, _("Parent product")), (CHILD, _("Child product")), ) structure = models.CharField( _("Product structure"), max_length=10, choices=STRUCTURE_CHOICES, default=STANDALONE, ) is_public = models.BooleanField( _("Is public"), default=True, db_index=True, help_text=_("Show this product in search results and catalogue listings."), ) upc = NullCharField( _("UPC"), max_length=64, blank=True, null=True, unique=True, help_text=_( "Universal Product Code (UPC) is an identifier for " "a product which is not specific to a particular " " supplier. Eg an ISBN for a book." ), ) parent = models.ForeignKey( "self", blank=True, null=True, on_delete=models.CASCADE, related_name="children", verbose_name=_("Parent product"), help_text=_( "Only choose a parent product if you're creating a child " "product. For example if this is a size " "4 of a particular t-shirt. Leave blank if this is a " "stand-alone product (i.e. there is only one version of" " this product)." ), ) # Title is mandatory for canonical products but optional for child products title = models.CharField( pgettext_lazy("Product title", "Title"), max_length=255, blank=True ) slug = SlugField(_("Slug"), max_length=255, unique=False) description = models.TextField(_("Description"), blank=True) meta_title = models.CharField( _("Meta title"), max_length=255, blank=True, null=True ) meta_description = models.TextField(_("Meta description"), blank=True, null=True) #: "Kind" of product, e.g. T-Shirt, Book, etc. #: None for child products, they inherit their parent's product class product_class = models.ForeignKey( "catalogue.ProductClass", null=True, blank=True, on_delete=models.PROTECT, verbose_name=_("Product type"), related_name="products", help_text=_("Choose what type of product this is"), ) attributes = models.ManyToManyField( "catalogue.ProductAttribute", through="ProductAttributeValue", verbose_name=_("Attributes"), help_text=_( "A product attribute is something that this product may " "have, such as a size, as specified by its class" ), ) #: It's possible to have options product class-wide, and per product. product_options = models.ManyToManyField( "catalogue.Option", blank=True, verbose_name=_("Product options"), help_text=_( "Options are values that can be associated with a item " "when it is added to a customer's basket. This could be " "something like a personalised message to be printed on " "a T-shirt." ), ) recommended_products = models.ManyToManyField( "catalogue.Product", through="ProductRecommendation", blank=True, verbose_name=_("Recommended products"), help_text=_( "These are products that are recommended to accompany the main product." ), ) # Denormalised product rating - used by reviews app. # Product has no ratings if rating is None rating = models.FloatField(_("Rating"), null=True, editable=False) date_created = models.DateTimeField( _("Date created"), auto_now_add=True, db_index=True ) # This field is used by Haystack to reindex search date_updated = models.DateTimeField(_("Date updated"), auto_now=True, db_index=True) categories = models.ManyToManyField( "catalogue.Category", through="ProductCategory", verbose_name=_("Categories") ) #: Determines if a product may be used in an offer. It is illegal to #: discount some types of product (e.g. ebooks) and this field helps #: merchants from avoiding discounting such products #: Note that this flag is ignored for child products; they inherit from #: the parent product. is_discountable = models.BooleanField( _("Is discountable?"), default=True, help_text=_( "This flag indicates if this product can be used in an offer or not" ), ) objects = ProductQuerySet.as_manager() class Meta: abstract = True app_label = "catalogue" ordering = ["-date_created"] verbose_name = _("Product") verbose_name_plural = _("Products") def __init__(self, *args, **kwargs): super().__init__(*args, **kwargs) self.attr = ProductAttributesContainer(product=self) def __str__(self): if self.title: return self.title if self.attribute_summary: return "%s (%s)" % (self.get_title(), self.attribute_summary) else: return self.get_title()
[docs] def get_absolute_url(self): """ Return a product's absolute URL """ return reverse( "catalogue:detail", kwargs={"product_slug": self.slug, "pk":} )
[docs] def clean(self): """ Validate a product. Those are the rules: +---------------+-------------+--------------+--------------+ | | stand alone | parent | child | +---------------+-------------+--------------+--------------+ | title | required | required | optional | +---------------+-------------+--------------+--------------+ | product class | required | required | must be None | +---------------+-------------+--------------+--------------+ | parent | forbidden | forbidden | required | +---------------+-------------+--------------+--------------+ | stockrecords | 0 or more | forbidden | 0 or more | +---------------+-------------+--------------+--------------+ | categories | 1 or more | 1 or more | forbidden | +---------------+-------------+--------------+--------------+ | attributes | optional | optional | optional | +---------------+-------------+--------------+--------------+ | rec. products | optional | optional | unsupported | +---------------+-------------+--------------+--------------+ | options | optional | optional | forbidden | +---------------+-------------+--------------+--------------+ Because the validation logic is quite complex, validation is delegated to the sub method appropriate for the product's structure. """ getattr(self, "_clean_%s" % self.structure)() if not self.is_parent: self.attr.validate_attributes()
def _clean_standalone(self): """ Validates a stand-alone product """ if not self.title: raise ValidationError(_("Your product must have a title.")) if not self.product_class: raise ValidationError(_("Your product must have a product class.")) if self.parent_id: raise ValidationError(_("Only child products can have a parent.")) def _clean_child(self): """ Validates a child product """ if not self.parent_id: raise ValidationError(_("A child product needs a parent.")) if self.parent_id and not self.parent.is_parent: raise ValidationError( _("You can only assign child products to parent products.") ) if self.product_class: raise ValidationError(_("A child product can't have a product class.")) if and self.categories.exists(): raise ValidationError(_("A child product can't have a category assigned.")) # Note that we only forbid options on product level if and self.product_options.exists(): raise ValidationError(_("A child product can't have options.")) def _clean_parent(self): """ Validates a parent product. """ self._clean_standalone() if self.has_stockrecords: raise ValidationError(_("A parent product can't have stockrecords."))
[docs] def save(self, *args, **kwargs): if not self.slug: self.slug = slugify(self.get_title()) super().save(*args, **kwargs)
# Properties @property def is_standalone(self): return self.structure == self.STANDALONE @property def is_parent(self): return self.structure == self.PARENT @property def is_child(self): return self.structure == self.CHILD
[docs] def can_be_parent(self, give_reason=False): """ Helps decide if a the product can be turned into a parent product. """ reason = None if self.is_child: reason = _("The specified parent product is a child product.") if self.has_stockrecords: reason = _("One can't add a child product to a product with stock records.") is_valid = reason is None if give_reason: return is_valid, reason else: return is_valid
@property def options(self): """ Returns a set of all valid options for this product. It's possible to have options product class-wide, and per product. """ pclass_options = self.get_product_class().options.all() return pclass_options | self.product_options.all() @cached_property def has_options(self): # Extracting annotated value with number of product class options # from product list queryset. has_product_class_options = getattr(self, "has_product_class_options", None) has_product_options = getattr(self, "has_product_options", None) if has_product_class_options is not None and has_product_options is not None: return has_product_class_options or has_product_options return self.options.exists() @property def is_shipping_required(self): return self.get_product_class().requires_shipping @property def has_stockrecords(self): """ Test if this product has any stockrecords """ if return self.stockrecords.exists() return False @property def num_stockrecords(self): return self.stockrecords.count() @property def attribute_summary(self): """ Return a string of all of a product's attributes """ attributes = self.get_attribute_values() pairs = [attribute.summary() for attribute in attributes] return ", ".join(pairs)
[docs] def get_title(self): """ Return a product's title or it's parent's title if it has no title """ title = self.title if not title and self.parent_id: title = self.parent.title return title
get_title.short_description = pgettext_lazy("Product title", "Title") def get_meta_title(self): title = self.meta_title if not title and self.is_child: title = self.parent.meta_title return title or self.get_title() get_meta_title.short_description = pgettext_lazy("Product meta title", "Meta title") def get_meta_description(self): meta_description = self.meta_description if not meta_description and self.is_child: meta_description = self.parent.meta_description return meta_description or striptags(self.description) get_meta_description.short_description = pgettext_lazy( "Product meta description", "Meta description" )
[docs] def get_product_class(self): """ Return a product's item class. Child products inherit their parent's. """ if self.is_child: return self.parent.product_class else: return self.product_class
get_product_class.short_description = _("Product class") @deprecated def get_is_discountable(self): """ It used to be that, :py:attr:`.is_discountable` couldn't be set individually for child products; so they had to inherit it from their parent. This is nolonger the case because ranges can include child products as well. That make this method useless. """ return self.is_discountable # pylint: disable=no-member
[docs] def get_categories(self): """ Return a product's public categories or parent's if there is a parent product. """ if self.is_child: return self.parent.categories.browsable() else: return self.categories.browsable()
get_categories.short_description = _("Categories") def get_attribute_values(self): attribute_values = self.attribute_values.all() if self.is_child: parent_attribute_values = self.parent.attribute_values.exclude( attribute__code__in=attribute_values.values("attribute__code") ) return attribute_values | parent_attribute_values return attribute_values # Images
[docs] def get_missing_image(self): """ Returns a missing image object. """ # This class should have a 'name' property so it mimics the Django file # field. return MissingProductImage()
# pylint: disable=no-member def get_all_images(self): if self.is_child and not self.images.exists() and self.parent_id is not None: return self.parent.images.all() return self.images.all()
[docs] def primary_image(self): """ Returns the primary image for a product. Usually used when one can only display one product image, e.g. in a list of products. """ images = self.get_all_images() ordering = self.images.model.Meta.ordering if not ordering or ordering[0] != "display_order": # Only apply order_by() if a custom model doesn't use default # ordering. Applying order_by() busts the prefetch cache of # the ProductManager images = images.order_by("display_order") try: return images[0] except IndexError: # We return a dict with fields that mirror the key properties of # the ProductImage class so this missing image can be used # interchangeably in templates. Strategy pattern ftw! missing_image = self.get_missing_image() return {"original":, "caption": "", "is_missing": True}
# Updating methods
[docs] def update_rating(self): """ Recalculate rating field """ self.rating = self.calculate_rating()
update_rating.alters_data = True # pylint: disable=no-member
[docs] def calculate_rating(self): """ Calculate rating value """ result = sum=Sum("score"), count=Count("id") ) reviews_sum = result["sum"] or 0 reviews_count = result["count"] or 0 rating = None if reviews_count > 0: rating = float(reviews_sum) / reviews_count return rating
def has_review_by(self, user): if user.is_anonymous: return False return
[docs] def is_review_permitted(self, user): """ Determines whether a user may add a review on this product. Default implementation respects OSCAR_ALLOW_ANON_REVIEWS and only allows leaving one review per user and product. Override this if you want to alter the default behaviour; e.g. enforce that a user purchased the product to be allowed to leave a review. """ if user.is_authenticated or settings.OSCAR_ALLOW_ANON_REVIEWS: return not self.has_review_by(user) else: return False
@cached_property def num_approved_reviews(self): return @property def sorted_recommended_products(self): """Keeping order by recommendation ranking.""" return [ r.recommendation for r in self.primary_recommendations.select_related("recommendation").all() ]
[docs]class AbstractProductRecommendation(models.Model): """ 'Through' model for product recommendations """ primary = models.ForeignKey( "catalogue.Product", on_delete=models.CASCADE, related_name="primary_recommendations", verbose_name=_("Primary product"), ) recommendation = models.ForeignKey( "catalogue.Product", on_delete=models.CASCADE, verbose_name=_("Recommended product"), ) ranking = models.PositiveSmallIntegerField( _("Ranking"), default=0, db_index=True, help_text=_( "Determines order of the products. A product with a higher" " value will appear before one with a lower ranking." ), ) class Meta: abstract = True app_label = "catalogue" ordering = ["primary", "-ranking"] unique_together = ("primary", "recommendation") verbose_name = _("Product recommendation") verbose_name_plural = _("Product recomendations")
[docs]class AbstractProductAttribute(models.Model): """ Defines an attribute for a product class. (For example, number_of_pages for a 'book' class) """ product_class = models.ForeignKey( "catalogue.ProductClass", blank=True, on_delete=models.CASCADE, related_name="attributes", null=True, verbose_name=_("Product type"), ) name = models.CharField(_("Name"), max_length=128) code = models.SlugField( _("Code"), max_length=128, validators=[ RegexValidator( regex=r"^[a-zA-Z_][0-9a-zA-Z_]*$", message=_( "Code can only contain the letters a-z, A-Z, digits, " "and underscores, and can't start with a digit." ), ), non_python_keyword, ], ) # Attribute types TEXT = "text" INTEGER = "integer" BOOLEAN = "boolean" FLOAT = "float" RICHTEXT = "richtext" DATE = "date" DATETIME = "datetime" OPTION = "option" MULTI_OPTION = "multi_option" ENTITY = "entity" FILE = "file" IMAGE = "image" TYPE_CHOICES = ( (TEXT, _("Text")), (INTEGER, _("Integer")), (BOOLEAN, _("True / False")), (FLOAT, _("Float")), (RICHTEXT, _("Rich Text")), (DATE, _("Date")), (DATETIME, _("Datetime")), (OPTION, _("Option")), (MULTI_OPTION, _("Multi Option")), (ENTITY, _("Entity")), (FILE, _("File")), (IMAGE, _("Image")), ) type = models.CharField( choices=TYPE_CHOICES, default=TYPE_CHOICES[0][0], max_length=20, verbose_name=_("Type"), ) option_group = models.ForeignKey( "catalogue.AttributeOptionGroup", blank=True, null=True, on_delete=models.CASCADE, related_name="product_attributes", verbose_name=_("Option Group"), help_text=_('Select an option group if using type "Option" or "Multi Option"'), ) required = models.BooleanField(_("Required"), default=False) class Meta: abstract = True app_label = "catalogue" ordering = ["code"] verbose_name = _("Product attribute") verbose_name_plural = _("Product attributes") unique_together = ("code", "product_class") @property def is_option(self): return self.type == self.OPTION @property def is_multi_option(self): return self.type == self.MULTI_OPTION @property def is_file(self): return self.type in [self.FILE, self.IMAGE] def __str__(self): return
[docs] def clean(self): if self.type == self.BOOLEAN and self.required: raise ValidationError(_("Boolean attribute should not be required."))
def _save_file(self, value_obj, value): # File fields in Django are treated differently, see # django.db.models.fields.FileField and method save_form_data if value is None: # No change return elif value is False: # Delete file value_obj.delete() else: # New uploaded file value_obj.value = value def _save_multi_option(self, value_obj, value): # ManyToMany fields are handled separately if value is None: value_obj.delete() return try: count = value.count() except (AttributeError, TypeError): count = len(value) if count == 0: value_obj.delete() else: value_obj.value = value def _save_value(self, value_obj, value): if value is None or value == "": value_obj.delete() return if value != value_obj.value: value_obj.value = value def save_value(self, product, value): ProductAttributeValue = get_model("catalogue", "ProductAttributeValue") try: value_obj = product.attribute_values.get(attribute=self) except ProductAttributeValue.DoesNotExist: # FileField uses False for announcing deletion of the file # not creating a new value delete_file = self.is_file and value is False if value is None or value == "" or delete_file: return value_obj = ProductAttributeValue.objects.create( product=product, attribute=self ) if self.is_file: self._save_file(value_obj, value) elif self.is_multi_option: self._save_multi_option(value_obj, value) else: self._save_value(value_obj, value) def validate_value(self, value): validator = getattr(self, "_validate_%s" % self.type) validator(value) # Validators def _validate_text(self, value): if not isinstance(value, str): raise ValidationError(_("Must be str")) _validate_richtext = _validate_text def _validate_float(self, value): try: float(value) except ValueError: raise ValidationError(_("Must be a float")) def _validate_integer(self, value): try: int(value) except ValueError: raise ValidationError(_("Must be an integer")) def _validate_date(self, value): if not (isinstance(value, datetime) or isinstance(value, date)): raise ValidationError(_("Must be a date or datetime")) def _validate_datetime(self, value): if not isinstance(value, datetime): raise ValidationError(_("Must be a datetime")) def _validate_boolean(self, value): if not type(value) == bool: raise ValidationError(_("Must be a boolean")) def _validate_entity(self, value): if not isinstance(value, models.Model): raise ValidationError(_("Must be a model instance")) def _validate_multi_option(self, value): try: values = iter(value) except TypeError: raise ValidationError(_("Must be a list or AttributeOption queryset")) # Validate each value as if it were an option # Pass in valid_values so that the DB isn't hit multiple times per iteration valid_values = self.option_group.options.values_list("option", flat=True) for value in values: self._validate_option(value, valid_values=valid_values) def _validate_option(self, value, valid_values=None): if not isinstance(value, get_model("catalogue", "AttributeOption")): raise ValidationError(_("Must be an AttributeOption model object instance")) if not raise ValidationError(_("AttributeOption has not been saved yet")) if valid_values is None: valid_values = self.option_group.options.values_list("option", flat=True) if value.option not in valid_values: raise ValidationError( _("%(enum)s is not a valid choice for %(attr)s") % {"enum": value, "attr": self} ) def _validate_file(self, value): if value and not isinstance(value, File): raise ValidationError(_("Must be a file field")) _validate_image = _validate_file
[docs]class AbstractProductAttributeValue(models.Model): """ The "through" model for the m2m relationship between :py:class:`Product <.AbstractProduct>` and :py:class:`ProductAttribute <.AbstractProductAttribute>` This specifies the value of the attribute for a particular product For example: ``number_of_pages = 295`` """ attribute = models.ForeignKey( "catalogue.ProductAttribute", on_delete=models.CASCADE, verbose_name=_("Attribute"), ) product = models.ForeignKey( "catalogue.Product", on_delete=models.CASCADE, related_name="attribute_values", verbose_name=_("Product"), ) value_text = models.TextField(_("Text"), blank=True, null=True) value_integer = models.IntegerField( _("Integer"), blank=True, null=True, db_index=True ) value_boolean = models.BooleanField( _("Boolean"), blank=True, null=True, db_index=True ) value_float = models.FloatField(_("Float"), blank=True, null=True, db_index=True) value_richtext = models.TextField(_("Richtext"), blank=True, null=True) value_date = models.DateField(_("Date"), blank=True, null=True, db_index=True) value_datetime = models.DateTimeField( _("DateTime"), blank=True, null=True, db_index=True ) value_multi_option = models.ManyToManyField( "catalogue.AttributeOption", blank=True, related_name="multi_valued_attribute_values", verbose_name=_("Value multi option"), ) value_option = models.ForeignKey( "catalogue.AttributeOption", blank=True, null=True, on_delete=models.CASCADE, verbose_name=_("Value option"), ) value_file = models.FileField( upload_to=get_image_upload_path, max_length=255, blank=True, null=True ) value_image = models.ImageField( upload_to=get_image_upload_path, max_length=255, blank=True, null=True ) value_entity = GenericForeignKey("entity_content_type", "entity_object_id") entity_content_type = models.ForeignKey( ContentType, blank=True, editable=False, on_delete=models.CASCADE, null=True ) entity_object_id = models.PositiveIntegerField( null=True, blank=True, editable=False ) def _get_value(self): value = getattr(self, "value_%s" % self.attribute.type) if hasattr(value, "all"): value = value.all() return value def _set_value(self, new_value): attr_name = "value_%s" % self.attribute.type if self.attribute.is_option and isinstance(new_value, str): # Need to look up instance of AttributeOption new_value = self.attribute.option_group.options.get(option=new_value) elif self.attribute.is_multi_option: getattr(self, attr_name).set(new_value) return setattr(self, attr_name, new_value) return value = property(_get_value, _set_value) class Meta: abstract = True app_label = "catalogue" unique_together = ("attribute", "product") verbose_name = _("Product attribute value") verbose_name_plural = _("Product attribute values") def __str__(self): return self.summary()
[docs] def summary(self): """ Gets a string representation of both the attribute and it's value, used e.g in product summaries. """ return "%s: %s" % (, self.value_as_text)
@property def value_as_text(self): """ Returns a string representation of the attribute's value. To customise e.g. image attribute values, declare a _image_as_text property and return something appropriate. """ property_name = "_%s_as_text" % self.attribute.type return getattr(self, property_name, self.value) @property def _multi_option_as_text(self): return ", ".join(str(option) for option in self.value_multi_option.all()) @property def _option_as_text(self): return str(self.value_option) @property def _richtext_as_text(self): return strip_tags(self.value) @property def _entity_as_text(self): """ Returns the unicode representation of the related model. You likely want to customise this (and maybe _entity_as_html) if you use entities. """ return str(self.value) @property def _boolean_as_text(self): if self.value: return pgettext("Product attribute value", "Yes") return pgettext("Product attribute value", "No") @property def value_as_html(self): """ Returns a HTML representation of the attribute's value. To customise e.g. image attribute values, declare a ``_image_as_html`` property and return e.g. an ``<img>`` tag. Defaults to the ``_as_text`` representation. """ property_name = "_%s_as_html" % self.attribute.type return getattr(self, property_name, self.value_as_text) @property def _richtext_as_html(self): return mark_safe(self.value)
[docs]class AbstractAttributeOptionGroup(models.Model): """ Defines a group of options that collectively may be used as an attribute type For example, Language """ name = models.CharField(_("Name"), max_length=128) def __str__(self): return class Meta: abstract = True app_label = "catalogue" verbose_name = _("Attribute option group") verbose_name_plural = _("Attribute option groups") @property def option_summary(self): options = [o.option for o in self.options.all()] return ", ".join(options)
[docs]class AbstractAttributeOption(models.Model): """ Provides an option within an option group for an attribute type Examples: In a Language group, English, Greek, French """ group = models.ForeignKey( "catalogue.AttributeOptionGroup", on_delete=models.CASCADE, related_name="options", verbose_name=_("Group"), ) option = models.CharField(_("Option"), max_length=255) def __str__(self): return self.option class Meta: abstract = True app_label = "catalogue" unique_together = ("group", "option") verbose_name = _("Attribute option") verbose_name_plural = _("Attribute options")
[docs]class AbstractOption(models.Model): """ An option that can be selected for a particular item when the product is added to the basket. For example, a list ID for an SMS message send, or a personalised message to print on a T-shirt. This is not the same as an 'attribute' as options do not have a fixed value for a particular item. Instead, option need to be specified by a customer when they add the item to their basket. The `type` of the option determines the form input that will be used to collect the information from the customer, and the `required` attribute determines whether a value must be supplied in order to add the item to the basket. """ # Option types TEXT = "text" INTEGER = "integer" FLOAT = "float" BOOLEAN = "boolean" DATE = "date" SELECT = "select" RADIO = "radio" MULTI_SELECT = "multi_select" CHECKBOX = "checkbox" TYPE_CHOICES = ( (TEXT, _("Text")), (INTEGER, _("Integer")), (BOOLEAN, _("True / False")), (FLOAT, _("Float")), (DATE, _("Date")), (SELECT, _("Select")), (RADIO, _("Radio")), (MULTI_SELECT, _("Multi select")), (CHECKBOX, _("Checkbox")), ) empty_label = "------" empty_radio_label = _("Skip this option") name = models.CharField(_("Name"), max_length=128, db_index=True) code = AutoSlugField(_("Code"), max_length=128, unique=True, populate_from="name") type = models.CharField( _("Type"), max_length=255, default=TEXT, choices=TYPE_CHOICES ) required = models.BooleanField(_("Is this option required?"), default=False) option_group = models.ForeignKey( "catalogue.AttributeOptionGroup", blank=True, null=True, on_delete=models.CASCADE, related_name="product_options", verbose_name=_("Option Group"), help_text=_('Select an option group if using type "Option" or "Multi Option"'), ) help_text = models.CharField( verbose_name=_("Help text"), blank=True, null=True, max_length=255, help_text=_("Help text shown to the user on the add to basket form"), ) order = models.IntegerField( _("Ordering"), null=True, blank=True, help_text=_("Controls the ordering of product options on product detail pages"), db_index=True, ) @property def is_option(self): return self.type in [self.SELECT, self.RADIO] @property def is_multi_option(self): return self.type in [self.MULTI_SELECT, self.CHECKBOX] @property def is_select(self): return self.type in [self.SELECT, self.MULTI_SELECT] @property def is_radio(self): return self.type in [self.RADIO] def add_empty_choice(self, choices): if self.is_select and not self.is_multi_option: choices = [("", self.empty_label)] + choices elif self.is_radio: choices = [(None, self.empty_radio_label)] + choices return choices def get_choices(self): if self.option_group: choices = [ (opt.option, opt.option) for opt in self.option_group.options.all() ] else: choices = [] if not self.required: choices = self.add_empty_choice(choices) return choices
[docs] def clean(self): if self.type in [self.RADIO, self.SELECT, self.MULTI_SELECT, self.CHECKBOX]: if self.option_group is None: raise ValidationError( _("Option Group is required for type %s") % self.get_type_display() ) elif self.option_group: raise ValidationError( _("Option Group can not be used with type %s") % self.get_type_display() ) return super().clean()
class Meta: abstract = True app_label = "catalogue" ordering = ["order", "name"] verbose_name = _("Option") verbose_name_plural = _("Options") def __str__(self): return
[docs]class MissingProductImage(object): """ Mimics a Django file field by having a name property. :py:mod:`sorl-thumbnail` requires all it's images to be in MEDIA_ROOT. This class tries symlinking the default "missing image" image in STATIC_ROOT into MEDIA_ROOT for convenience, as that is necessary every time an Oscar project is setup. This avoids the less helpful NotFound IOError that would be raised when :py:mod:`sorl-thumbnail` tries to access it. """ def __init__(self, name=None): = name if name else settings.OSCAR_MISSING_IMAGE_URL media_file_path = os.path.join(settings.MEDIA_ROOT, # don't try to symlink if MEDIA_ROOT is not set (e.g. running tests) if settings.MEDIA_ROOT and not os.path.exists(media_file_path): self.symlink_missing_image(media_file_path) def symlink_missing_image(self, media_file_path): static_file_path = find("oscar/img/%s" % if static_file_path is not None: try: # Check that the target directory exists, and attempt to # create it if it doesn't. media_file_dir = os.path.dirname(media_file_path) if not os.path.exists(media_file_dir): os.makedirs(media_file_dir) os.symlink(static_file_path, media_file_path) except OSError: raise ImproperlyConfigured( ( "Please copy/symlink the " "'missing image' image at %s into your MEDIA_ROOT at %s. " "This exception was raised because Oscar was unable to " "symlink it for you." ) % (static_file_path, settings.MEDIA_ROOT), ) else: ( "Symlinked the 'missing image' image at %s into your " "MEDIA_ROOT at %s" ), static_file_path, settings.MEDIA_ROOT, )
[docs]class AbstractProductImage(models.Model): """ An image of a product """ product = models.ForeignKey( "catalogue.Product", on_delete=models.CASCADE, related_name="images", verbose_name=_("Product"), ) original = models.ImageField( _("Original"), upload_to=get_image_upload_path, max_length=255 ) caption = models.CharField(_("Caption"), max_length=200, blank=True) #: Use display_order to determine which is the "primary" image display_order = models.PositiveIntegerField( _("Display order"), default=0, db_index=True, help_text=_( "An image with a display order of zero will be the primary" " image for a product" ), ) date_created = models.DateTimeField(_("Date created"), auto_now_add=True) class Meta: abstract = True app_label = "catalogue" # Any custom models should ensure that this ordering is unchanged, or # your query count will explode. See AbstractProduct.primary_image. ordering = ["display_order"] verbose_name = _("Product image") verbose_name_plural = _("Product images") def __str__(self): return "Image of '%s'" % self.product
[docs] def is_primary(self): """ Return bool if image display order is 0 """ return self.display_order == 0
[docs] def delete(self, *args, **kwargs): """ Always keep the display_order as consecutive integers. This avoids issue #855. """ super().delete(*args, **kwargs) for idx, image in enumerate(self.product.images.all()): image.display_order = idx