# frozen_string_literal: true module ValidatesCpf class Cpf def initialize(number) number =~ /^(\d{3}\.?\d{3}\.?\d{3})-?(\d{2})$/ @number = number @pure_number = Regexp.last_match(1) @result = Regexp.last_match(2) @cleaned_number = @pure_number.nil? ? nil : @number.gsub(/[\.-]/, '') format_number! if @pure_number end def valid? return true if @number.blank? return false unless @pure_number check_cpf end attr_reader :number private def check_cpf return false if @cleaned_number.length != 11 || @cleaned_number.scan(/\d/).uniq.length == 1 @result == first_digit_verifier + second_digit_verifier end def first_digit_verifier sum = multiply_and_sum([10, 9, 8, 7, 6, 5, 4, 3, 2], @pure_number) digit_verifier(sum % 11).to_s end def second_digit_verifier sum = multiply_and_sum([11, 10, 9, 8, 7, 6, 5, 4, 3, 2], @pure_number + first_digit_verifier) digit_verifier(sum % 11).to_s end def multiply_and_sum(array, number) multiplied = [] number.scan(/\d{1}/).each_with_index { |e, i| multiplied[i] = e.to_i * array[i] } multiplied.inject { |s, e| s + e } end def digit_verifier(rest) rest < 2 ? 0 : 11 - rest end def format_number! @cleaned_number =~ /(\d{3})(\d{3})(\d{3})(\d{2})/ @number = "#{Regexp.last_match(1)}.#{Regexp.last_match(2)}.#{Regexp.last_match(3)}-#{Regexp.last_match(4)}" end end end