from registrasion.controllers.product import ProductController from registrasion.models import commerce from registrasion.models import inventory from django import forms class ApplyCreditNoteForm(forms.Form): def __init__(self, user, *a, **k): ''' User: The user whose invoices should be made available as choices. ''' self.user = user super(ApplyCreditNoteForm, self).__init__(*a, **k) self.fields["invoice"].choices = self._unpaid_invoices_for_user def _unpaid_invoices_for_user(self): invoices = commerce.Invoice.objects.filter( status=commerce.Invoice.STATUS_UNPAID, user=self.user, ) return [ (invoice.id, "Invoice %(id)d - $%(value)d" % invoice.__dict__) for invoice in invoices ] invoice = forms.ChoiceField( required=True, ) class ManualCreditNoteRefundForm(forms.ModelForm): class Meta: model = commerce.ManualCreditNoteRefund fields = ["reference"] class ManualPaymentForm(forms.ModelForm): class Meta: model = commerce.ManualPayment fields = ["reference", "amount"] # Products forms -- none of these have any fields: they are to be subclassed # and the fields added as needs be. ProductsForm (the function) is responsible # for the subclassing. def ProductsForm(category, products): ''' Produces an appropriate _ProductsForm subclass for the given render type. ''' # Each Category.RENDER_TYPE value has a subclass here. cat = inventory.Category RENDER_TYPES = { cat.RENDER_TYPE_QUANTITY: _QuantityBoxProductsForm, cat.RENDER_TYPE_RADIO: _RadioButtonProductsForm, cat.RENDER_TYPE_ITEM_QUANTITY: _ItemQuantityProductsForm, } # Produce a subclass of _ProductsForm which we can alter the base_fields on class ProductsForm(RENDER_TYPES[category.render_type]): pass ProductsForm.set_fields(category, products) if category.render_type == inventory.Category.RENDER_TYPE_ITEM_QUANTITY: ProductsForm = forms.formset_factory( ProductsForm, formset=_ItemQuantityProductsFormSet, ) return ProductsForm class _HasProductsFields(object): PRODUCT_PREFIX = "product_" ''' Base class for product entry forms. ''' def __init__(self, *a, **k): if "product_quantities" in k: initial = self.initial_data(k["product_quantities"]) k["initial"] = initial del k["product_quantities"] super(_HasProductsFields, self).__init__(*a, **k) @classmethod def field_name(cls, product): return cls.PRODUCT_PREFIX + ("%d" % product.id) @classmethod def set_fields(cls, category, products): ''' Sets the base_fields on this _ProductsForm to allow selecting from the provided products. ''' pass @classmethod def initial_data(cls, product_quantites): ''' Prepares initial data for an instance of this form. product_quantities is a sequence of (product,quantity) tuples ''' return {} def product_quantities(self): ''' Yields a sequence of (product, quantity) tuples from the cleaned form data. ''' return iter([]) def add_product_error(self, product, error): ''' Adds an error to the given product's field ''' ''' if product in field_names: field = field_names[product] elif isinstance(product, inventory.Product): return else: field = None ''' self.add_error(self.field_name(product), error) class _ProductsForm(_HasProductsFields, forms.Form): pass class _QuantityBoxProductsForm(_ProductsForm): ''' Products entry form that allows users to enter quantities of desired products. ''' @classmethod def set_fields(cls, category, products): for product in products: if product.description: help_text = "$%d each -- %s" % ( product.price, product.description, ) else: help_text = "$%d each" % product.price field = forms.IntegerField( label=product.name, help_text=help_text, min_value=0, max_value=500, # Issue #19. We should figure out real limit. ) cls.base_fields[cls.field_name(product)] = field @classmethod def initial_data(cls, product_quantities): initial = {} for product, quantity in product_quantities: initial[cls.field_name(product)] = quantity return initial def product_quantities(self): for name, value in self.cleaned_data.items(): if name.startswith(self.PRODUCT_PREFIX): product_id = int(name[len(self.PRODUCT_PREFIX):]) yield (product_id, value) class _RadioButtonProductsForm(_ProductsForm): ''' Products entry form that allows users to enter quantities of desired products. ''' FIELD = "chosen_product" @classmethod def set_fields(cls, category, products): choices = [] for product in products: choice_text = "%s -- $%d" % (product.name, product.price) choices.append((product.id, choice_text)) if not category.required: choices.append((0, "No selection")) cls.base_fields[cls.FIELD] = forms.TypedChoiceField( label=category.name, widget=forms.RadioSelect, choices=choices, empty_value=0, coerce=int, ) @classmethod def initial_data(cls, product_quantities): initial = {} for product, quantity in product_quantities: if quantity > 0: initial[cls.FIELD] = product.id break return initial def product_quantities(self): ours = self.cleaned_data[self.FIELD] choices = self.fields[self.FIELD].choices for choice_value, choice_display in choices: if choice_value == 0: continue yield ( choice_value, 1 if ours == choice_value else 0, ) def add_product_error(self, product, error): self.add_error(self.FIELD, error) class _ItemQuantityProductsForm(_ProductsForm): ''' Products entry form that allows users to select a product type, and enter a quantity of that product. This version _only_ allows a single product type to be purchased. This form is usually used in concert with the _ItemQuantityProductsFormSet to allow selection of multiple products.''' CHOICE_FIELD = "choice" QUANTITY_FIELD = "quantity" @classmethod def set_fields(cls, category, products): choices = [] if not category.required: choices.append((0, "---")) for product in products: choice_text = "%s -- $%d each" % (product.name, product.price) choices.append((product.id, choice_text)) cls.base_fields[cls.CHOICE_FIELD] = forms.TypedChoiceField( label=category.name, widget=forms.Select, choices=choices, initial=0, empty_value=0, coerce=int, ) cls.base_fields[cls.QUANTITY_FIELD] = forms.IntegerField( label="Quantity", # TODO: internationalise min_value=0, max_value=500, # Issue #19. We should figure out real limit. ) @classmethod def initial_data(cls, product_quantities): initial = {} for product, quantity in product_quantities: if quantity > 0: initial[cls.CHOICE_FIELD] = product.id initial[cls.QUANTITY_FIELD] = quantity break return initial def product_quantities(self): our_choice = self.cleaned_data[self.CHOICE_FIELD] our_quantity = self.cleaned_data[self.QUANTITY_FIELD] choices = self.fields[self.CHOICE_FIELD].choices for choice_value, choice_display in choices: if choice_value == 0: continue yield ( choice_value, our_quantity if our_choice == choice_value else 0, ) def add_product_error(self, product, error): if self.CHOICE_FIELD not in self.cleaned_data: return if product.id == self.cleaned_data[self.CHOICE_FIELD]: self.add_error(self.CHOICE_FIELD, error) self.add_error(self.QUANTITY_FIELD, error) class _ItemQuantityProductsFormSet(_HasProductsFields, forms.BaseFormSet): @classmethod def set_fields(cls, category, products): raise ValueError("set_fields must be called on the underlying Form") @classmethod def initial_data(cls, product_quantities): ''' Prepares initial data for an instance of this form. product_quantities is a sequence of (product,quantity) tuples ''' f = [ { _ItemQuantityProductsForm.CHOICE_FIELD: product.id, _ItemQuantityProductsForm.QUANTITY_FIELD: quantity, } for product, quantity in product_quantities if quantity > 0 ] return f def product_quantities(self): ''' Yields a sequence of (product, quantity) tuples from the cleaned form data. ''' products = set() # Track everything so that we can yield some zeroes all_products = set() for form in self: if form.empty_permitted and not form.cleaned_data: # This is the magical empty form at the end of the list. continue for product, quantity in form.product_quantities(): all_products.add(product) if quantity == 0: continue if product in products: form.add_error( _ItemQuantityProductsForm.CHOICE_FIELD, "You may only choose each product type once.", ) form.add_error( _ItemQuantityProductsForm.QUANTITY_FIELD, "You may only choose each product type once.", ) products.add(product) yield product, quantity for product in (all_products - products): yield product, 0 def add_product_error(self, product, error): for form in self.forms: form.add_product_error(product, error) @property def errors(self): _errors = super(_ItemQuantityProductsFormSet, self).errors if False not in [not form.errors for form in self.forms]: return [] else: return _errors class VoucherForm(forms.Form): voucher = forms.CharField( label="Voucher code", help_text="If you have a voucher code, enter it here", required=False, ) def staff_products_form_factory(user): ''' Creates a StaffProductsForm that restricts the available products to those that are available to a user. ''' products = inventory.Product.objects.all() products = ProductController.available_products(user, products=products) product_ids = [product.id for product in products] product_set = inventory.Product.objects.filter(id__in=product_ids) class StaffProductsForm(forms.Form): ''' Form for allowing staff to add an item to a user's cart. ''' product = forms.ModelChoiceField( widget=forms.Select, queryset=product_set, ) quantity = forms.IntegerField( min_value=0, ) return StaffProductsForm def staff_products_formset_factory(user): ''' Creates a formset of StaffProductsForm for the given user. ''' form_type = staff_products_form_factory(user) return forms.formset_factory(form_type)