# -*- coding: utf-8 -*- """ Spanish-specific Form helpers """ from django.forms import ValidationError from django.forms.fields import RegexField, Select, EMPTY_VALUES from django.utils.translation import ugettext_lazy as _ import re class ESPostalCodeField(RegexField): """ A form field that validates its input as a spanish postal code. Spanish postal code is a five digits string, with two first digits between 01 and 52, assigned to provinces code. """ default_error_messages = { 'invalid': _('Enter a valid postal code in the range and format 01XXX - 52XXX.'), } def __init__(self, *args, **kwargs): super(ESPostalCodeField, self).__init__( r'^(0[1-9]|[1-4][0-9]|5[0-2])\d{3}$', max_length=None, min_length=None, *args, **kwargs) class ESPhoneNumberField(RegexField): """ A form field that validates its input as a Spanish phone number. Information numbers are ommited. Spanish phone numbers are nine digit numbers, where first digit is 6 (for cell phones), 8 (for special phones), or 9 (for landlines and special phones) TODO: accept and strip characters like dot, hyphen... in phone number """ default_error_messages = { 'invalid': _('Enter a valid phone number in one of the formats 6XXXXXXXX, 8XXXXXXXX or 9XXXXXXXX.'), } def __init__(self, *args, **kwargs): super(ESPhoneNumberField, self).__init__(r'^(6|8|9)\d{8}$', max_length=None, min_length=None, *args, **kwargs) class ESIdentityCardNumberField(RegexField): """ Spanish NIF/NIE/CIF (Fiscal Identification Number) code. Validates three diferent formats: NIF (individuals): 12345678A CIF (companies): A12345678 NIE (foreigners): X12345678A according to a couple of simple checksum algorithms. Value can include a space or hyphen separator between number and letters. Number length is not checked for NIF (or NIE), old values start with a 1, and future values can contain digits greater than 8. The CIF control digit can be a number or a letter depending on company type. Algorithm is not public, and different authors have different opinions on which ones allows letters, so both validations are assumed true for all types. """ default_error_messages = { 'invalid': _('Please enter a valid NIF, NIE, or CIF.'), 'invalid_only_nif': _('Please enter a valid NIF or NIE.'), 'invalid_nif': _('Invalid checksum for NIF.'), 'invalid_nie': _('Invalid checksum for NIE.'), 'invalid_cif': _('Invalid checksum for CIF.'), } def __init__(self, only_nif=False, *args, **kwargs): self.only_nif = only_nif self.nif_control = 'TRWAGMYFPDXBNJZSQVHLCKE' self.cif_control = 'JABCDEFGHI' self.cif_types = 'ABCDEFGHKLMNPQS' self.nie_types = 'XT' id_card_re = re.compile(r'^([%s]?)[ -]?(\d+)[ -]?([%s]?)$' % (self.cif_types + self.nie_types, self.nif_control + self.cif_control), re.IGNORECASE) super(ESIdentityCardNumberField, self).__init__(id_card_re, max_length=None, min_length=None, error_message=self.default_error_messages['invalid%s' % (self.only_nif and '_only_nif' or '')], *args, **kwargs) def clean(self, value): super(ESIdentityCardNumberField, self).clean(value) if value in EMPTY_VALUES: return u'' nif_get_checksum = lambda d: self.nif_control[int(d)%23] value = value.upper().replace(' ', '').replace('-', '') m = re.match(r'^([%s]?)[ -]?(\d+)[ -]?([%s]?)$' % (self.cif_types + self.nie_types, self.nif_control + self.cif_control), value) letter1, number, letter2 = m.groups() if not letter1 and letter2: # NIF if letter2 == nif_get_checksum(number): return value else: raise ValidationError, self.error_messages['invalid_nif'] elif letter1 in self.nie_types and letter2: # NIE if letter2 == nif_get_checksum(number): return value else: raise ValidationError, self.error_messages['invalid_nie'] elif not self.only_nif and letter1 in self.cif_types and len(number) in [7, 8]: # CIF if not letter2: number, letter2 = number[:-1], int(number[-1]) checksum = cif_get_checksum(number) if letter2 in (checksum, self.cif_control[checksum]): return value else: raise ValidationError, self.error_messages['invalid_cif'] else: raise ValidationError, self.error_messages['invalid'] class ESCCCField(RegexField): """ A form field that validates its input as a Spanish bank account or CCC (Codigo Cuenta Cliente). Spanish CCC is in format EEEE-OOOO-CC-AAAAAAAAAA where: E = entity O = office C = checksum A = account It's also valid to use a space as delimiter, or to use no delimiter. First checksum digit validates entity and office, and last one validates account. Validation is done multiplying every digit of 10 digit value (with leading 0 if necessary) by number in its position in string 1, 2, 4, 8, 5, 10, 9, 7, 3, 6. Sum resulting numbers and extract it from 11. Result is checksum except when 10 then is 1, or when 11 then is 0. TODO: allow IBAN validation too """ default_error_messages = { 'invalid': _('Please enter a valid bank account number in format XXXX-XXXX-XX-XXXXXXXXXX.'), 'checksum': _('Invalid checksum for bank account number.'), } def __init__(self, *args, **kwargs): super(ESCCCField, self).__init__(r'^\d{4}[ -]?\d{4}[ -]?\d{2}[ -]?\d{10}$', max_length=None, min_length=None, *args, **kwargs) def clean(self, value): super(ESCCCField, self).clean(value) if value in EMPTY_VALUES: return u'' control_str = [1, 2, 4, 8, 5, 10, 9, 7, 3, 6] m = re.match(r'^(\d{4})[ -]?(\d{4})[ -]?(\d{2})[ -]?(\d{10})$', value) entity, office, checksum, account = m.groups() get_checksum = lambda d: str(11 - sum([int(digit) * int(control) for digit, control in zip(d, control_str)]) % 11).replace('10', '1').replace('11', '0') if get_checksum('00' + entity + office) + get_checksum(account) == checksum: return value else: raise ValidationError, self.error_messages['checksum'] class ESRegionSelect(Select): """ A Select widget that uses a list of spanish regions as its choices. """ def __init__(self, attrs=None): from es_regions import REGION_CHOICES super(ESRegionSelect, self).__init__(attrs, choices=REGION_CHOICES) class ESProvinceSelect(Select): """ A Select widget that uses a list of spanish provinces as its choices. """ def __init__(self, attrs=None): from es_provinces import PROVINCE_CHOICES super(ESProvinceSelect, self).__init__(attrs, choices=PROVINCE_CHOICES) def cif_get_checksum(number): s1 = sum([int(digit) for pos, digit in enumerate(number) if int(pos) % 2]) s2 = sum([sum([int(unit) for unit in str(int(digit) * 2)]) for pos, digit in enumerate(number) if not int(pos) % 2]) return (10 - ((s1 + s2) % 10)) % 10