import csv
import operator
from decimal import ROUND_DOWN
from decimal import Decimal as D
from django.conf import settings
from django.core import exceptions
from django.db import models
from django.db.models.query import Q
from django.template.defaultfilters import date as date_filter
from django.urls import reverse
from django.utils.functional import cached_property
from django.utils.timezone import get_current_timezone, now
from django.utils.translation import gettext_lazy as _
from oscar.core.compat import AUTH_USER_MODEL
from oscar.core.loading import (
cached_import_string, get_class, get_classes, get_model)
from oscar.models import fields
from oscar.templatetags.currency_filters import currency
ActiveOfferManager, RangeManager, BrowsableRangeManager \
= get_classes('offer.managers', ['ActiveOfferManager', 'RangeManager', 'BrowsableRangeManager'])
ZERO_DISCOUNT = get_class('offer.results', 'ZERO_DISCOUNT')
load_proxy, unit_price = get_classes('offer.utils', ['load_proxy', 'unit_price'])
class BaseOfferMixin(models.Model):
class Meta:
abstract = True
def proxy(self):
"""
Return the proxy model
"""
klassmap = self.proxy_map
# Short-circuit logic if current class is already a proxy class.
if self.__class__ in klassmap.values():
return self
field_dict = dict(self.__dict__)
for field in list(field_dict.keys()):
if field.startswith('_'):
del field_dict[field]
if self.proxy_class:
klass = load_proxy(self.proxy_class)
# Short-circuit again.
if self.__class__ == klass:
return self
return klass(**field_dict)
if self.type in klassmap:
return klassmap[self.type](**field_dict)
raise RuntimeError("Unrecognised %s type (%s)" % (self.__class__.__name__.lower(), self.type))
def __str__(self):
return self.name
@property
def name(self):
"""
A text description of the benefit/condition. Every proxy class
has to implement it.
This is used in the dropdowns within the offer dashboard.
"""
proxy_instance = self.proxy()
if self.proxy_class and self.__class__ == proxy_instance.__class__:
raise AssertionError('Name property is not defined on proxy class.')
return proxy_instance.name
@property
def description(self):
"""
A description of the benefit/condition.
Defaults to the name. May contain HTML.
"""
return self.name
[docs]class AbstractConditionalOffer(models.Model):
"""
A conditional offer (e.g. buy 1, get 10% off)
"""
name = models.CharField(
_("Name"), max_length=128, unique=True,
help_text=_("This is displayed within the customer's basket"))
slug = fields.AutoSlugField(
_("Slug"), max_length=128, unique=True, populate_from='name')
description = models.TextField(_("Description"), blank=True,
help_text=_("This is displayed on the offer"
" browsing page"))
# Offers come in a few different types:
# (a) Offers that are available to all customers on the site. e.g. a
# 3-for-2 offer.
# (b) Offers that are linked to a voucher, and only become available once
# that voucher has been applied to the basket
# (c) Offers that are linked to a user. e.g. all students get 10% off. The
# code to apply this offer needs to be coded
# (d) Session offers - these are temporarily available to a user after some
# trigger event. e.g. users coming from some affiliate site get 10%
# off.
SITE, VOUCHER, USER, SESSION = ("Site", "Voucher", "User", "Session")
TYPE_CHOICES = (
(SITE, _("Site offer - available to all users")),
(VOUCHER, _("Voucher offer - only available after entering "
"the appropriate voucher code")),
(USER, _("User offer - available to certain types of user")),
(SESSION, _("Session offer - temporary offer, available for "
"a user for the duration of their session")),
)
offer_type = models.CharField(
_("Type"), choices=TYPE_CHOICES, default=SITE, max_length=128)
exclusive = models.BooleanField(
_("Exclusive offer"),
help_text=_("Exclusive offers cannot be combined on the same items"),
default=True
)
combinations = models.ManyToManyField(
'offer.ConditionalOffer',
help_text=_('Select other non-exclusive offers that this offer can be combined with on the same items'),
related_name='in_combination',
limit_choices_to={'exclusive': False},
blank=True,
)
# We track a status variable so it's easier to load offers that are
# 'available' in some sense.
OPEN, SUSPENDED, CONSUMED = "Open", "Suspended", "Consumed"
status = models.CharField(_("Status"), max_length=64, default=OPEN)
condition = models.ForeignKey(
'offer.Condition',
on_delete=models.CASCADE,
related_name='offers',
verbose_name=_("Condition"))
benefit = models.ForeignKey(
'offer.Benefit',
on_delete=models.CASCADE,
related_name='offers',
verbose_name=_("Benefit"))
# Some complicated situations require offers to be applied in a set order.
priority = models.IntegerField(
_("Priority"), default=0, db_index=True,
help_text=_("The highest priority offers are applied first"))
# AVAILABILITY
# Range of availability. Note that if this is a voucher offer, then these
# dates are ignored and only the dates from the voucher are used to
# determine availability.
start_datetime = models.DateTimeField(
_("Start date"), blank=True, null=True,
help_text=_("Offers are active from the start date. "
"Leave this empty if the offer has no start date."))
end_datetime = models.DateTimeField(
_("End date"), blank=True, null=True,
help_text=_("Offers are active until the end date. "
"Leave this empty if the offer has no expiry date."))
# Use this field to limit the number of times this offer can be applied in
# total. Note that a single order can apply an offer multiple times so
# this is not necessarily the same as the number of orders that can use it.
# Also see max_basket_applications.
max_global_applications = models.PositiveIntegerField(
_("Max global applications"),
help_text=_("The number of times this offer can be used before it "
"is unavailable"), blank=True, null=True)
# Use this field to limit the number of times this offer can be used by a
# single user. This only works for signed-in users - it doesn't really
# make sense for sites that allow anonymous checkout.
max_user_applications = models.PositiveIntegerField(
_("Max user applications"),
help_text=_("The number of times a single user can use this offer"),
blank=True, null=True)
# Use this field to limit the number of times this offer can be applied to
# a basket (and hence a single order). Often, an offer should only be
# usable once per basket/order, so this field will commonly be set to 1.
max_basket_applications = models.PositiveIntegerField(
_("Max basket applications"),
blank=True, null=True,
help_text=_("The number of times this offer can be applied to a "
"basket (and order)"))
# Use this field to limit the amount of discount an offer can lead to.
# This can be helpful with budgeting.
max_discount = models.DecimalField(
_("Max discount"), decimal_places=2, max_digits=12, null=True,
blank=True,
help_text=_("When an offer has given more discount to orders "
"than this threshold, then the offer becomes "
"unavailable"))
# TRACKING
# These fields are used to enforce the limits set by the
# max_* fields above.
total_discount = models.DecimalField(
_("Total Discount"), decimal_places=2, max_digits=12,
default=D('0.00'))
num_applications = models.PositiveIntegerField(
_("Number of applications"), default=0)
num_orders = models.PositiveIntegerField(
_("Number of Orders"), default=0)
redirect_url = fields.ExtendedURLField(
_("URL redirect (optional)"), blank=True)
date_created = models.DateTimeField(_("Date Created"), auto_now_add=True)
objects = models.Manager()
active = ActiveOfferManager()
# We need to track the voucher that this offer came from (if it is a
# voucher offer)
_voucher = None
class Meta:
abstract = True
app_label = 'offer'
ordering = ['-priority', 'pk']
verbose_name = _("Conditional offer")
verbose_name_plural = _("Conditional offers")
[docs] def save(self, *args, **kwargs):
# Check to see if consumption thresholds have been broken
if not self.is_suspended:
if self.get_max_applications() == 0:
self.status = self.CONSUMED
else:
self.status = self.OPEN
return super().save(*args, **kwargs)
def get_absolute_url(self):
return reverse('offer:detail', kwargs={'slug': self.slug})
def __str__(self):
return self.name
[docs] def clean(self):
if (self.start_datetime and self.end_datetime
and self.start_datetime > self.end_datetime):
raise exceptions.ValidationError(
_('End date should be later than start date'))
@property
def is_open(self):
return self.status == self.OPEN
@property
def is_suspended(self):
return self.status == self.SUSPENDED
def suspend(self):
self.status = self.SUSPENDED
self.save()
suspend.alters_data = True
def unsuspend(self):
self.status = self.OPEN
self.save()
unsuspend.alters_data = True
[docs] def is_available(self, user=None, test_date=None):
"""
Test whether this offer is available to be used
"""
if self.is_suspended:
return False
if test_date is None:
test_date = now()
predicates = []
if self.start_datetime:
predicates.append(self.start_datetime > test_date)
if self.end_datetime:
predicates.append(test_date > self.end_datetime)
if any(predicates):
return False
return self.get_max_applications(user) > 0
def is_condition_satisfied(self, basket):
return self.condition.proxy().is_satisfied(self, basket)
def is_condition_partially_satisfied(self, basket):
return self.condition.proxy().is_partially_satisfied(self, basket)
def get_upsell_message(self, basket):
return self.condition.proxy().get_upsell_message(self, basket)
[docs] def apply_benefit(self, basket):
"""
Applies the benefit to the given basket and returns the discount.
"""
if not self.is_condition_satisfied(basket):
return ZERO_DISCOUNT
return self.benefit.proxy().apply(
basket, self.condition.proxy(), self)
[docs] def apply_deferred_benefit(self, basket, order, application):
"""
Applies any deferred benefits. These are things like adding loyalty
points to someone's account.
"""
return self.benefit.proxy().apply_deferred(basket, order, application)
def set_voucher(self, voucher):
self._voucher = voucher
def get_voucher(self):
return self._voucher
[docs] def get_max_applications(self, user=None):
"""
Return the number of times this offer can be applied to a basket for a
given user.
"""
if self.max_discount and self.total_discount >= self.max_discount:
return 0
# Hard-code a maximum value as we need some sensible upper limit for
# when there are not other caps.
limits = [10000]
if self.max_user_applications and user:
limits.append(max(0, self.max_user_applications
- self.get_num_user_applications(user)))
if self.max_basket_applications:
limits.append(self.max_basket_applications)
if self.max_global_applications:
limits.append(
max(0, self.max_global_applications - self.num_applications))
return min(limits)
def get_num_user_applications(self, user):
OrderDiscount = get_model('order', 'OrderDiscount')
aggregates = OrderDiscount.objects.filter(offer_id=self.id,
order__user=user)\
.aggregate(total=models.Sum('frequency'))
return aggregates['total'] if aggregates['total'] is not None else 0
def shipping_discount(self, charge, currency=None):
return self.benefit.proxy().shipping_discount(charge, currency)
def record_usage(self, discount):
self.num_applications += discount['freq']
self.total_discount += discount['discount']
self.num_orders += 1
self.save()
record_usage.alters_data = True
[docs] def availability_description(self):
"""
Return a description of when this offer is available
"""
restrictions = self.availability_restrictions()
descriptions = [r['description'] for r in restrictions]
return "<br/>".join(descriptions)
def availability_restrictions(self): # noqa (too complex (15))
restrictions = []
if self.is_suspended:
restrictions.append({
'description': _("Offer is suspended"),
'is_satisfied': False})
if self.max_global_applications:
remaining = self.max_global_applications - self.num_applications
desc = _("Limited to %(total)d uses (%(remainder)d remaining)") \
% {'total': self.max_global_applications,
'remainder': remaining}
restrictions.append({'description': desc,
'is_satisfied': remaining > 0})
if self.max_user_applications:
if self.max_user_applications == 1:
desc = _("Limited to 1 use per user")
else:
desc = _("Limited to %(total)d uses per user") \
% {'total': self.max_user_applications}
restrictions.append({'description': desc,
'is_satisfied': True})
if self.max_basket_applications:
if self.max_user_applications == 1:
desc = _("Limited to 1 use per basket")
else:
desc = _("Limited to %(total)d uses per basket") \
% {'total': self.max_basket_applications}
restrictions.append({
'description': desc,
'is_satisfied': True})
def hide_time_if_zero(dt):
# Only show hours/minutes if they have been specified
if dt.tzinfo:
localtime = dt.astimezone(get_current_timezone())
else:
localtime = dt
if localtime.hour == 0 and localtime.minute == 0:
return date_filter(localtime, settings.DATE_FORMAT)
return date_filter(localtime, settings.DATETIME_FORMAT)
if self.start_datetime or self.end_datetime:
today = now()
if self.start_datetime and self.end_datetime:
desc = _("Available between %(start)s and %(end)s") \
% {'start': hide_time_if_zero(self.start_datetime),
'end': hide_time_if_zero(self.end_datetime)}
is_satisfied \
= self.start_datetime <= today <= self.end_datetime
elif self.start_datetime:
desc = _("Available from %(start)s") % {
'start': hide_time_if_zero(self.start_datetime)}
is_satisfied = today >= self.start_datetime
elif self.end_datetime:
desc = _("Available until %(end)s") % {
'end': hide_time_if_zero(self.end_datetime)}
is_satisfied = today <= self.end_datetime
restrictions.append({
'description': desc,
'is_satisfied': is_satisfied})
if self.max_discount:
desc = _("Limited to a cost of %(max)s") % {
'max': currency(self.max_discount)}
restrictions.append({
'description': desc,
'is_satisfied': self.total_discount < self.max_discount})
return restrictions
@property
def has_products(self):
return self.condition.range is not None
[docs] def products(self):
"""
Return a queryset of products in this offer
"""
Product = get_model('catalogue', 'Product')
if not self.has_products:
return Product.objects.none()
queryset = self.condition.range.all_products()
return queryset.filter(is_discountable=True).exclude(
structure=Product.CHILD)
@cached_property
def combined_offers(self):
return self.__class__.objects.filter(
models.Q(pk=self.pk)
| models.Q(pk__in=self.combinations.values_list("pk", flat=True))
| models.Q(pk__in=self.in_combination.values_list("pk", flat=True))
).distinct()
class AbstractBenefit(BaseOfferMixin, models.Model):
range = models.ForeignKey(
'offer.Range',
blank=True,
null=True,
on_delete=models.CASCADE,
verbose_name=_("Range"))
# Benefit types
PERCENTAGE, FIXED, MULTIBUY, FIXED_PRICE = (
"Percentage", "Absolute", "Multibuy", "Fixed price")
SHIPPING_PERCENTAGE, SHIPPING_ABSOLUTE, SHIPPING_FIXED_PRICE = (
'Shipping percentage', 'Shipping absolute', 'Shipping fixed price')
TYPE_CHOICES = (
(PERCENTAGE, _("Discount is a percentage off of the product's value")),
(FIXED, _("Discount is a fixed amount off of the product's value")),
(MULTIBUY, _("Discount is to give the cheapest product for free")),
(FIXED_PRICE,
_("Get the products that meet the condition for a fixed price")),
(SHIPPING_ABSOLUTE,
_("Discount is a fixed amount of the shipping cost")),
(SHIPPING_FIXED_PRICE, _("Get shipping for a fixed price")),
(SHIPPING_PERCENTAGE, _("Discount is a percentage off of the shipping"
" cost")),
)
type = models.CharField(
_("Type"), max_length=128, choices=TYPE_CHOICES, blank=True)
# The value to use with the designated type. This can be either an integer
# (eg for multibuy) or a decimal (eg an amount) which is slightly
# confusing.
value = fields.PositiveDecimalField(
_("Value"), decimal_places=2, max_digits=12, null=True, blank=True)
# If this is not set, then there is no upper limit on how many products
# can be discounted by this benefit.
max_affected_items = models.PositiveIntegerField(
_("Max Affected Items"), blank=True, null=True,
help_text=_("Set this to prevent the discount consuming all items "
"within the range that are in the basket."))
# A custom benefit class can be used instead. This means the
# type/value/max_affected_items fields should all be None.
proxy_class = fields.NullCharField(
_("Custom class"), max_length=255, default=None)
class Meta:
abstract = True
app_label = 'offer'
verbose_name = _("Benefit")
verbose_name_plural = _("Benefits")
@property
def proxy_map(self):
return {
self.PERCENTAGE: get_class(
'offer.benefits', 'PercentageDiscountBenefit'),
self.FIXED: get_class(
'offer.benefits', 'AbsoluteDiscountBenefit'),
self.MULTIBUY: get_class(
'offer.benefits', 'MultibuyDiscountBenefit'),
self.FIXED_PRICE: get_class(
'offer.benefits', 'FixedPriceBenefit'),
self.SHIPPING_ABSOLUTE: get_class(
'offer.benefits', 'ShippingAbsoluteDiscountBenefit'),
self.SHIPPING_FIXED_PRICE: get_class(
'offer.benefits', 'ShippingFixedPriceBenefit'),
self.SHIPPING_PERCENTAGE: get_class(
'offer.benefits', 'ShippingPercentageDiscountBenefit')
}
def apply(self, basket, condition, offer):
return ZERO_DISCOUNT
def apply_deferred(self, basket, order, application):
return None
def clean(self):
if not self.type:
return
method_name = 'clean_%s' % self.type.lower().replace(' ', '_')
if hasattr(self, method_name):
getattr(self, method_name)()
def clean_multibuy(self):
errors = []
if not self.range:
errors.append(_("Multibuy benefits require a product range"))
if self.value:
errors.append(_("Multibuy benefits don't require a value"))
if self.max_affected_items:
errors.append(_("Multibuy benefits don't require a "
"'max affected items' attribute"))
if errors:
raise exceptions.ValidationError(errors)
def clean_percentage(self):
errors = []
if not self.range:
errors.append(_("Percentage benefits require a product range"))
if not self.value:
errors.append(_("Percentage discount benefits require a value"))
elif self.value > 100:
errors.append(_("Percentage discount cannot be greater than 100"))
if errors:
raise exceptions.ValidationError(errors)
def clean_shipping_absolute(self):
errors = []
if not self.value:
errors.append(_("A discount value is required"))
if self.range:
errors.append(_("No range should be selected as this benefit does "
"not apply to products"))
if self.max_affected_items:
errors.append(_("Shipping discounts don't require a "
"'max affected items' attribute"))
if errors:
raise exceptions.ValidationError(errors)
def clean_shipping_percentage(self):
errors = []
if not self.value:
errors.append(_("Percentage discount benefits require a value"))
elif self.value > 100:
errors.append(_("Percentage discount cannot be greater than 100"))
if self.range:
errors.append(_("No range should be selected as this benefit does "
"not apply to products"))
if self.max_affected_items:
errors.append(_("Shipping discounts don't require a "
"'max affected items' attribute"))
if errors:
raise exceptions.ValidationError(errors)
def clean_shipping_fixed_price(self):
errors = []
if self.range:
errors.append(_("No range should be selected as this benefit does "
"not apply to products"))
if self.max_affected_items:
errors.append(_("Shipping discounts don't require a "
"'max affected items' attribute"))
if errors:
raise exceptions.ValidationError(errors)
def clean_fixed_price(self):
if self.range:
raise exceptions.ValidationError(
_("No range should be selected as the condition range will "
"be used instead."))
def clean_absolute(self):
errors = []
if not self.range:
errors.append(_("Fixed discount benefits require a product range"))
if not self.value:
errors.append(_("Fixed discount benefits require a value"))
if errors:
raise exceptions.ValidationError(errors)
def round(self, amount, currency=None):
"""
Apply rounding to discount amount
"""
rounding_function_path = getattr(settings, 'OSCAR_OFFER_ROUNDING_FUNCTION', None)
if rounding_function_path:
rounding_function = cached_import_string(rounding_function_path)
return rounding_function(amount, currency)
return amount.quantize(D('.01'), ROUND_DOWN)
def _effective_max_affected_items(self):
"""
Return the maximum number of items that can have a discount applied
during the application of this benefit
"""
return self.max_affected_items if self.max_affected_items else 10000
def can_apply_benefit(self, line):
"""
Determines whether the benefit can be applied to a given basket line
"""
return line.stockrecord and line.product.is_discountable
def get_applicable_lines(self, offer, basket, range=None):
"""
Return the basket lines that are available to be discounted
:basket: The basket
:range: The range of products to use for filtering. The fixed-price
benefit ignores its range and uses the condition range
"""
if range is None:
range = self.range
line_tuples = []
for line in basket.all_lines():
product = line.product
if (not range.contains_product(product) or not self.can_apply_benefit(line)):
continue
price = unit_price(offer, line)
if not price:
# Avoid zero price products
continue
line_tuples.append((price, line))
# We sort lines to be cheapest first to ensure consistent applications
return sorted(line_tuples, key=operator.itemgetter(0))
def shipping_discount(self, charge, currency=None):
return D('0.00')
[docs]class AbstractCondition(BaseOfferMixin, models.Model):
"""
A condition for an offer to be applied. You can either specify a custom
proxy class, or need to specify a type, range and value.
"""
COUNT, VALUE, COVERAGE = ("Count", "Value", "Coverage")
TYPE_CHOICES = (
(COUNT, _("Depends on number of items in basket that are in "
"condition range")),
(VALUE, _("Depends on value of items in basket that are in "
"condition range")),
(COVERAGE, _("Needs to contain a set number of DISTINCT items "
"from the condition range")))
range = models.ForeignKey(
'offer.Range',
blank=True,
null=True,
on_delete=models.CASCADE,
verbose_name=_("Range"))
type = models.CharField(_('Type'), max_length=128, choices=TYPE_CHOICES,
blank=True)
value = fields.PositiveDecimalField(
_('Value'), decimal_places=2, max_digits=12, null=True, blank=True)
proxy_class = fields.NullCharField(
_("Custom class"), max_length=255, default=None)
class Meta:
abstract = True
app_label = 'offer'
verbose_name = _("Condition")
verbose_name_plural = _("Conditions")
@property
def proxy_map(self):
return {
self.COUNT: get_class(
'offer.conditions', 'CountCondition'),
self.VALUE: get_class(
'offer.conditions', 'ValueCondition'),
self.COVERAGE: get_class(
'offer.conditions', 'CoverageCondition'),
}
def consume_items(self, offer, basket, affected_lines):
pass
[docs] def is_satisfied(self, offer, basket):
"""
Determines whether a given basket meets this condition. This is
stubbed in this top-class object. The subclassing proxies are
responsible for implementing it correctly.
"""
return False
[docs] def is_partially_satisfied(self, offer, basket):
"""
Determine if the basket partially meets the condition. This is useful
for up-selling messages to entice customers to buy something more in
order to qualify for an offer.
"""
return False
def get_upsell_message(self, offer, basket):
return None
[docs] def can_apply_condition(self, line):
"""
Determines whether the condition can be applied to a given basket line
"""
if not line.stockrecord_id:
return False
product = line.product
return (self.range.contains_product(product)
and product.get_is_discountable())
[docs] def get_applicable_lines(self, offer, basket, most_expensive_first=True):
"""
Return line data for the lines that can be consumed by this condition
"""
line_tuples = []
for line in basket.all_lines():
if not self.can_apply_condition(line):
continue
price = unit_price(offer, line)
if not price:
continue
line_tuples.append((price, line))
key = operator.itemgetter(0)
if most_expensive_first:
return sorted(line_tuples, reverse=True, key=key)
return sorted(line_tuples, key=key)
[docs]class AbstractRange(models.Model):
"""
Represents a range of products that can be used within an offer.
Ranges only support adding parent or stand-alone products. Offers will
consider child products automatically.
"""
name = models.CharField(_("Name"), max_length=128, unique=True)
slug = fields.AutoSlugField(
_("Slug"), max_length=128, unique=True, populate_from="name")
description = models.TextField(blank=True)
# Whether this range is public
is_public = models.BooleanField(
_('Is public?'), default=False,
help_text=_("Public ranges have a customer-facing page"))
includes_all_products = models.BooleanField(
_('Includes all products?'), default=False)
included_products = models.ManyToManyField(
'catalogue.Product', related_name='includes', blank=True,
verbose_name=_("Included Products"), through='offer.RangeProduct')
excluded_products = models.ManyToManyField(
'catalogue.Product', related_name='excludes', blank=True,
verbose_name=_("Excluded Products"))
classes = models.ManyToManyField(
'catalogue.ProductClass', related_name='classes', blank=True,
verbose_name=_("Product Types"))
included_categories = models.ManyToManyField(
'catalogue.Category', related_name='includes', blank=True,
verbose_name=_("Included Categories"))
# Allow a custom range instance to be specified
proxy_class = fields.NullCharField(
_("Custom class"), max_length=255, default=None, unique=True)
date_created = models.DateTimeField(_("Date Created"), auto_now_add=True)
objects = RangeManager()
browsable = BrowsableRangeManager()
class Meta:
abstract = True
app_label = 'offer'
ordering = ['name']
verbose_name = _("Range")
verbose_name_plural = _("Ranges")
def __str__(self):
return self.name
def get_absolute_url(self):
return reverse(
'catalogue:range', kwargs={'slug': self.slug})
@cached_property
def proxy(self):
if self.proxy_class:
return load_proxy(self.proxy_class)()
[docs] def add_product(self, product, display_order=None):
""" Add product to the range
When adding product that is already in the range, prevent re-adding it.
If display_order is specified, update it.
Default display_order for a new product in the range is 0; this puts
the product at the top of the list.
"""
initial_order = display_order or 0
RangeProduct = self.included_products.through
relation, __ = RangeProduct.objects.get_or_create(
range=self, product=product,
defaults={'display_order': initial_order})
if (display_order is not None
and relation.display_order != display_order):
relation.display_order = display_order
relation.save()
# Remove product from excluded products if it was removed earlier and
# re-added again, thus it returns back to the range product list.
self.excluded_products.remove(product)
# invalidate cache because queryset has changed
self.invalidate_cached_queryset()
[docs] def remove_product(self, product):
"""
Remove product from range. To save on queries, this function does not
check if the product is in fact in the range.
"""
RangeProduct = self.included_products.through
RangeProduct.objects.filter(range=self, product=product).delete()
# Making sure product will be excluded from range products list by adding to
# respective field. Otherwise, it could be included as a product from included
# category or etc.
self.excluded_products.add(product)
# invalidate cache because queryset has changed
self.invalidate_cached_queryset()
def contains_product(self, product):
if self.proxy:
return self.proxy.contains_product(product)
return self.product_queryset.filter(id=product.id).exists()
def invalidate_cached_queryset(self):
try:
del self.product_queryset
except AttributeError:
pass
def num_products(self):
# Delegate to a proxy class if one is provided
if self.proxy:
return self.proxy.num_products()
if self.includes_all_products:
return None
return self.all_products().count()
[docs] def all_products(self):
"""
Return a queryset containing all the products in the range
This includes included_products plus the products contained in the
included classes and categories, minus the products in
excluded_products.
"""
if self.proxy:
return self.proxy.all_products()
return self.product_queryset
@cached_property
def product_queryset(self):
"cached queryset of all the products in the Range"
Product = self.included_products.model
if self.includes_all_products:
# Filter out blacklisted products
return Product.objects.all().exclude(
id__in=self.excluded_products.values("id")
)
if self.included_categories.exists():
# build query to select all category subtrees.
category_filter = Q()
for path, depth in self.included_categories.values_list("path", "depth"):
category_filter |= Q(
categories__depth__gte=depth, categories__path__startswith=path
)
# select all those product that are selected either by product class,
# category, or explicitly by included_products.
selected_parents = Product.objects.annotate(
selected_categories=models.FilteredRelation(
"categories", condition=category_filter
)
).filter(
Q(product_class_id__in=self.classes.values("id"))
| Q(selected_categories__isnull=False)
) | self.included_products.all()
else:
selected_parents = Product.objects.filter(
product_class_id__in=self.classes.values("id")
) | self.included_products.all()
# select parents and their children
selected_products = selected_parents | Product.objects.filter(
parent__in=selected_parents
)
# now go and exclude all explicitly excluded products
excludes = self.excluded_products.values("id")
return selected_products.exclude(
Q(parent_id__in=excludes) | Q(id__in=excludes)
).distinct()
@property
def is_editable(self):
"""
Test whether this range can be edited in the dashboard.
"""
return not self.proxy_class
@property
def is_reorderable(self):
"""
Test whether products for the range can be re-ordered.
"""
return not (self.included_categories.exists() or self.classes.exists())
[docs]class AbstractRangeProduct(models.Model):
"""
Allow ordering products inside ranges
Exists to allow customising.
"""
range = models.ForeignKey('offer.Range', on_delete=models.CASCADE)
product = models.ForeignKey('catalogue.Product', on_delete=models.CASCADE)
display_order = models.IntegerField(default=0)
class Meta:
abstract = True
app_label = 'offer'
unique_together = ('range', 'product')
class AbstractRangeProductFileUpload(models.Model):
range = models.ForeignKey(
'offer.Range',
on_delete=models.CASCADE,
related_name='file_uploads',
verbose_name=_("Range"))
filepath = models.CharField(_("File Path"), max_length=255)
size = models.PositiveIntegerField(_("Size"))
uploaded_by = models.ForeignKey(
AUTH_USER_MODEL,
on_delete=models.CASCADE,
verbose_name=_("Uploaded By"))
date_uploaded = models.DateTimeField(_("Date Uploaded"), auto_now_add=True, db_index=True)
PENDING, FAILED, PROCESSED = 'Pending', 'Failed', 'Processed'
choices = (
(PENDING, PENDING),
(FAILED, FAILED),
(PROCESSED, PROCESSED),
)
status = models.CharField(_("Status"), max_length=32, choices=choices,
default=PENDING)
error_message = models.CharField(_("Error Message"), max_length=255,
blank=True)
# Post-processing audit fields
date_processed = models.DateTimeField(_("Date Processed"), null=True)
num_new_skus = models.PositiveIntegerField(_("Number of New SKUs"),
null=True)
num_unknown_skus = models.PositiveIntegerField(_("Number of Unknown SKUs"),
null=True)
num_duplicate_skus = models.PositiveIntegerField(
_("Number of Duplicate SKUs"), null=True)
class Meta:
abstract = True
app_label = 'offer'
ordering = ('-date_uploaded',)
verbose_name = _("Range Product Uploaded File")
verbose_name_plural = _("Range Product Uploaded Files")
def mark_as_failed(self, message=None):
self.date_processed = now()
self.error_message = message
self.status = self.FAILED
self.save()
def mark_as_processed(self, num_new, num_unknown, num_duplicate):
self.status = self.PROCESSED
self.date_processed = now()
self.num_new_skus = num_new
self.num_unknown_skus = num_unknown
self.num_duplicate_skus = num_duplicate
self.save()
def was_processing_successful(self):
return self.status == self.PROCESSED
def process(self, file_obj):
"""
Process the file upload and add products to the range
"""
all_ids = set(self.extract_ids(file_obj))
products = self.range.all_products()
existing_skus = products.values_list(
'stockrecords__partner_sku', flat=True)
existing_skus = set(filter(bool, existing_skus))
existing_upcs = products.values_list('upc', flat=True)
existing_upcs = set(filter(bool, existing_upcs))
existing_ids = existing_skus.union(existing_upcs)
new_ids = all_ids - existing_ids
Product = get_model('catalogue', 'Product')
products = Product._default_manager.filter(
models.Q(stockrecords__partner_sku__in=new_ids)
| models.Q(upc__in=new_ids))
for product in products:
self.range.add_product(product)
# Processing stats
found_skus = products.values_list(
'stockrecords__partner_sku', flat=True)
found_skus = set(filter(bool, found_skus))
found_upcs = set(filter(bool, products.values_list('upc', flat=True)))
found_ids = found_skus.union(found_upcs)
missing_ids = new_ids - found_ids
dupes = set(all_ids).intersection(existing_ids)
self.mark_as_processed(products.count(), len(missing_ids), len(dupes))
return products
def extract_ids(self, file_obj):
reader = csv.reader(file_obj)
for line in reader:
if line:
yield line[0]