forked from faker-ruby/faker
/
test_faker_company.rb
307 lines (253 loc) · 9.62 KB
/
test_faker_company.rb
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# frozen_string_literal: true
require_relative '../../test_helper'
class TestFakerCompany < Test::Unit::TestCase
def setup
@tester = Faker::Company
end
def test_ein
assert @tester.ein.match(/\d\d-\d\d\d\d\d\d\d/)
end
def test_duns_number
assert @tester.duns_number.match(/\d\d-\d\d\d-\d\d\d\d/)
end
def test_logo
assert @tester.logo.match(%r{https://pigment.github.io/fake-logos/logos/medium/color/\d+\.png})
end
def test_buzzword
assert @tester.buzzword.match(/\w+\.?/)
end
def test_type
assert @tester.type.match(/\w+/)
end
def test_spanish_organisation_number
assert cif_valid?(@tester.spanish_organisation_number(organization_type: 'A'))
assert cif_valid?(@tester.spanish_organisation_number)
end
def test_swedish_organisation_number
org_no = @tester.swedish_organisation_number
assert org_no.match(/\d{10}/)
assert [1, 2, 3, 5, 6, 7, 8, 9].include?(org_no[0].to_i)
assert org_no[2].to_i >= 2
assert org_no[9] == @tester.send(:luhn_algorithm, org_no[0..8]).to_s
end
def test_czech_organisation_number
org_no = @tester.czech_organisation_number
assert org_no.match(/\d{8}/)
assert [0, 1, 2, 3, 5, 6, 7, 8, 9].include?(org_no[0].to_i)
assert czech_o_n_checksum(org_no) == org_no[-1].to_i
end
def test_french_siren_number
siren = @tester.french_siren_number
assert siren.match(/\A\d{9}\z/)
assert siren[8] == @tester.send(:luhn_algorithm, siren[0..-2]).to_s
end
def test_french_siret_number
siret = @tester.french_siret_number
assert siret.match(/\A\d{14}\z/)
assert siret[8] == @tester.send(:luhn_algorithm, siret[0..7]).to_s
assert siret[13] == @tester.send(:luhn_algorithm, siret[0..-2]).to_s
end
def test_norwegian_organisation_number
org_no = @tester.norwegian_organisation_number
assert org_no.match(/\d{9}/)
assert [8, 9].include?(org_no[0].to_i)
assert org_no[8] == @tester.send(:mod11, org_no[0..7]).to_s
end
def test_australian_business_number
abn = @tester.australian_business_number
checksum = abn_checksum(abn)
assert abn.match(/\d{11}/)
assert((checksum % 89).zero?)
end
def test_profession
assert @tester.profession.match(/[a-z ]+\.?/)
end
def test_polish_taxpayer_identification_number
number = @tester.polish_taxpayer_identification_number
control_sum = 0
[6, 5, 7, 2, 3, 4, 5, 6, 7].each_with_index do |control, index|
control_sum += control * number[index].to_i
end
assert control_sum.modulo(11) != 10
end
def test_polish_register_of_national_economy
# 8 length should fail
assert_raise ArgumentError do
@tester.polish_register_of_national_economy(length: 8)
end
# 9 length
number = @tester.polish_register_of_national_economy
control_sum = 0
[8, 9, 2, 3, 4, 5, 6, 7].each_with_index do |control, index|
control_sum += control * number[index].to_i
end
control_number = control_sum.modulo(11) == 10 ? 0 : control_sum.modulo(11)
assert control_number == number[8].to_i
# 14 length
number = @tester.polish_register_of_national_economy(length: 14)
control_sum = 0
[2, 4, 8, 5, 0, 9, 7, 3, 6, 1, 2, 4, 8].each_with_index do |control, index|
control_sum += control * number[index].to_i
end
control_number = control_sum.modulo(11) == 10 ? 0 : control_sum.modulo(11)
assert control_number == number[13].to_i
end
def test_mod11
assert @tester.send(:mod11, 0)
end
def test_south_african_pty_ltd_registration_number
assert_match(
/\A\d{4}\/\d{4,10}\/07\z/,
@tester.south_african_pty_ltd_registration_number
)
end
def test_south_african_close_corporation_registration_number
assert_match(
/\A(CK\d{2}|\d{4})\/\d{4,10}\/23\z/,
@tester.south_african_close_corporation_registration_number
)
end
def test_south_african_listed_company_registration_number
assert_match(
/\A\d{4}\/\d{4,10}\/06\z/,
@tester.south_african_listed_company_registration_number
)
end
def test_south_african_trust_registration_number
assert_match(
/\AIT\d{2,4}\/\d{2,10}\z/,
@tester.south_african_trust_registration_number
)
end
def test_luhn_algorithm
# Odd length base for luhn algorithm
odd_base = Faker::Number.number(digits: [5, 7, 9, 11, 13].sample)
odd_luhn_complement = @tester.send(:luhn_algorithm, odd_base).to_s
odd_control = "#{odd_base}#{odd_luhn_complement}"
# Even length base for luhn algorithm
even_base = Faker::Number.number(digits: [4, 6, 8, 10, 12].sample)
even_luhn_complement = @tester.send(:luhn_algorithm, even_base).to_s
even_control = "#{even_base}#{even_luhn_complement}"
assert((luhn_checksum(odd_control) % 10).zero?)
assert((luhn_checksum(even_control) % 10).zero?)
end
def test_brazilian_company_number
sample = @tester.brazilian_company_number
assert_match(/^\d{14}$/, sample)
digit_sum = sample[0..11].chars.each_with_index.inject(0) do |acc, (digit, i)|
factor = 2 + (3 - i) % 8
acc + digit.to_i * factor
end
remainder = digit_sum % 11
first_digit = remainder < 2 ? '0' : (11 - remainder).to_s
assert_equal sample[12], first_digit
digit_sum = sample[0..12].chars.each_with_index.inject(0) do |acc, (digit, i)|
factor = 2 + (4 - i) % 8
acc + digit.to_i * factor
end
remainder = digit_sum % 11
second_digit = remainder < 2 ? '0' : (11 - remainder).to_s
assert_equal sample[13], second_digit
end
def test_brazilian_company_number_formatted
sample = @tester.brazilian_company_number(formatted: true)
assert_match(/^\d{2}\.\d{3}\.\d{3}\/\d{4}-\d{2}$/, sample)
end
def test_russian_tax_number_default
assert @tester.russian_tax_number.match(/\d{10}/)
end
def test_russian_tax_number_individual
assert @tester.russian_tax_number(type: :individual).match(/\d{12}/)
end
def test_russian_tax_number_region
assert @tester.russian_tax_number(region: '77').match(/^77/)
end
def test_russian_tax_number_checksum
base_number = @tester.russian_tax_number
number = base_number[0..-2]
checksum = base_number.split('').last.to_i
assert((inn_checksum(number) - checksum).zero?)
end
def test_sic_code
assert @tester.sic_code.match(/\d\d\d\d/)
end
def test_spanish_cif_control_digit
assert @tester.send(:spanish_cif_control_digit, 'A', '2217680') == 4
assert @tester.send(:spanish_cif_control_digit, 'B', '4031315') == 7
assert @tester.send(:spanish_cif_control_digit, 'C', '7191088') == 9
assert @tester.send(:spanish_cif_control_digit, 'D', '3178686') == 6
assert @tester.send(:spanish_cif_control_digit, 'E', '4484441') == 3
assert @tester.send(:spanish_cif_control_digit, 'F', '4830511') == 4
assert @tester.send(:spanish_cif_control_digit, 'G', '7676903') == 3
assert @tester.send(:spanish_cif_control_digit, 'H', '8888075') == 2
assert @tester.send(:spanish_cif_control_digit, 'J', '6840041') == 5
assert @tester.send(:spanish_cif_control_digit, 'N', '5350867') == 'G'
assert @tester.send(:spanish_cif_control_digit, 'P', '5669582') == 'H'
assert @tester.send(:spanish_cif_control_digit, 'Q', '5182823') == 'D'
assert @tester.send(:spanish_cif_control_digit, 'R', '1099088') == 'E'
assert @tester.send(:spanish_cif_control_digit, 'S', '2210399') == 'H'
assert @tester.send(:spanish_cif_control_digit, 'U', '3957325') == 8
assert @tester.send(:spanish_cif_control_digit, 'V', '7536342') == 4
assert @tester.send(:spanish_cif_control_digit, 'W', '6793772') == 'B'
end
def test_spanish_b_algorithm
assert @tester.send(:spanish_b_algorithm, 2) == 4
assert @tester.send(:spanish_b_algorithm, 6) == 3
end
private
def czech_o_n_checksum(org_no)
weights = [8, 7, 6, 5, 4, 3, 2]
sum = 0
digits = org_no.split('').map(&:to_i)
weights.each_with_index.map do |w, i|
sum += (w * digits[i])
end
(11 - (sum % 11)) % 10
end
def abn_checksum(abn)
abn_weights = [10, 1, 3, 5, 7, 9, 11, 13, 15, 17, 19]
abn.split('').map(&:to_i).each_with_index.map do |n, i|
(i.zero? ? n - 1 : n) * abn_weights[i]
end.inject(:+)
end
def luhn_checksum(luhn)
luhn_split = luhn.each_char.map(&:to_i).reverse.each_with_index.map do |n, i|
x = i.odd? ? n * 2 : n
x > 9 ? x - 9 : x
end
luhn_split.compact.inject(0) { |sum, x| sum + x }
end
def inn_checksum(number)
[2, 4, 10, 3, 5, 9, 4, 6, 8].map.with_index.reduce(0) do |v, i|
v + i[0] * number[i[1]].to_i
end % 11 % 10
end
def cif_valid?(cif)
letters_cif = %w[A B C D E F G H J N P Q R S U V W]
letter_cif_number = %w[P Q S W]
letters_cif_control = %w[J A B C D E F G H I]
regex_cif = /^(#{letters_cif.join('|')})-?(\d{7})-?(\d|#{letters_cif_control.join('|')})$/
if cif =~ regex_cif
number = Regexp.last_match(2)
first_letter = Regexp.last_match(1)
province_code = number[0..1]
actual_control = Regexp.last_match(3)
total = number.split('').each_with_index.inject(0) do |acc, (element, index)|
acc + if index.even?
(element.to_i * 2).digits.inject(:+)
else
element.to_i
end
end
decimal = total.digits.first
expected_control = decimal != 0 ? 10 - decimal : decimal
# Control code must be a letter
return letters_cif_control[expected_control] if letter_cif_number.include?(first_letter) ||
province_code == '00'
# Control code will be a number or a letter
return [expected_control.to_s,
letters_cif_control[expected_control]].include?(actual_control)
end
false
end
end