# frozen_string_literal: true require_relative 'array' class Packer # Format: ESDDDDDD EDDDDDDD EDD... Extended, Data, Sign def self.pack_int(num) # the first byte can fit 6 bits # because the first two bits are extended and sign # so if you have a number bigger than 63 # it needs two bytes # which are also least significant byte first etc # so we do not support that YET # # the first too big number 64 is represented as those bits # 10000000 00000001 # ^^^ ^ ^^ ^ # ||\ / | \ / # || \ / not \ / # || \ extended # || \ / # || \ / # || \ / # || \/ # || /\ # || / \ # || / \ # || 0000001 000000 # || | # || v # || 64 # || # |positive # extended sign = '0' if num.negative? sign = '1' num += 1 end num = num.abs return pack_big_int(sign, num) if num > 63 || num < -63 ext = '0' bits = ext + sign + num.to_s(2).rjust(6, '0') [bits.to_i(2)] end def self.pack_big_int(sign, num) num_bits = num.to_s(2) first = "1#{sign}#{num_bits[-6..]}" num_bits = num_bits[0..-7] bytes = [] num_bits.chars.groups_of(7).each do |seven_bits| # mark all as extended bytes << "1#{seven_bits.join.rjust(7, '0')}" end # least significant first bytes = bytes.reverse # mark last byte as unextended bytes[-1][0] = '0' ([first] + bytes).map { |b| b.to_i(2) } end def self.pack_str(str) str.chars.map(&:ord) + [0x00] end end class Unpacker def initialize(data) @data = data if data.instance_of?(String) @data = data.unpack('C*') elsif data.instance_of?(Array) @data = data else raise 'Error: Unpacker expects array of integers or byte string' end end def get_string return nil if @data.nil? str = '' @data.each_with_index do |byte, index| if byte.zero? @data = index == @data.length - 1 ? nil : @data[(index + 1)..] return str end str += byte.chr end # raise "get_string() failed to find null terminator" # return empty string in case of error '' end def get_int return nil if @data.nil? # TODO: make this more performant # it should not read in ALL bytes # of the WHOLE packed data # it should be max 4 bytes # because bigger ints are not sent anyways bytes = @data.map { |byte| byte.to_s(2).rjust(8, '0') } first = bytes[0] sign = first[1] bits = [] # extended if first[0] == '1' bits << first[2..] bytes = bytes[1..] consumed = 1 bytes.each do |eigth_bits| bits << eigth_bits[1..] consumed += 1 break if eigth_bits[0] == '0' end bits = bits.reverse @data = @data[consumed..] else # single byte bits = [first[2..]] @data = @data[1..] end num = bits.join.to_i(2) sign == '1' ? -(num + 1) : num end end u = Unpacker.new(['01000000'.to_i(2)]) # expect -1 p u.get_int