module Parfait # A word is a a short sequence of characters # Characters are not modeled as objects but as (small) integers # The small means two of them have to fit into a machine word, utf16 or similar # # Words are constant, maybe like js strings, ruby symbols # Words are short, but may have spaces # Words are objects, that means they carry Layout as index 0 # So all indexes are offset by one in the implementation # Object length is measured in non-layout cells though # big TODO , this has NO encoding, a char takes a machine word. Go fix. class Word < Object attribute :char_length #semi "indexed" methods for interpreter def self.get_length_index 2 end def self.get_indexed i i + get_length_index end # initialize with length. For now we try to keep all non-parfait (including String) out # String will contain spaces for non-zero length # Register provides methods to create Parfait objects from ruby def initialize len super() self.char_length = 0 raise "Must init with int, not #{len.class}" unless len.kind_of? Fixnum raise "Must init with positive, not #{len}" if len < 0 set_length( len , 32 ) unless len == 0 #32 beeing ascii space #puts "layout #{self.get_layout} #{self.object_id.to_s(16)}" end # return a copy of self def copy cop = Word.new( self.length ) index = 1 while( index <= self.length ) cop.set_char(index , self.get_char(index)) index = index + 1 end cop end # return the number of characters def length() obj_len = self.char_length return obj_len end # make every char equal the given one def fill_with char fill_from_with(0 , char) end def fill_from_with from , char len = self.length() return if from <= 0 while( from <= len) set_char( from , char) from = from + 1 end from end # true if no characters def empty? return self.length == 0 end # pad the string with the given character to the given length # def set_length(len , fill_char) return if len <= 0 old = self.char_length return if old >= len self.char_length = len check_length fill_from_with( old + 1 , fill_char ) end # set the character at the given index to the given character # character must be an integer, as is the index # the index starts at one, but may be negative to count from the end # indexes out of range will raise an error def set_char at , char raise "char not fixnum #{char.class}" unless char.kind_of? Fixnum index = range_correct_index(at) set_internal( index + 2, char ) end # get the character at the given index # the index starts at one, but may be negative to count from the end # indexes out of range will raise an error #the return "character" is an integer def get_char at index = range_correct_index(at) return get_internal(index + 2 ) end # private method to calculate negative indexes into positives def range_correct_index at index = at index = self.length + at if at < 0 raise "index must be positive , not #{at}" if (index <= 0) raise "index too large #{at} > #{self.length}" if (index > self.length ) return index end # compare the word to another # currently checks for same class, though really identity of the characters # in right order would suffice def == other return false if other.class != self.class return false if other.length != self.length len = self.length while(len > 0) return false if self.get_char(len) != other.get_char(len) len = len - 1 end return true end # as we answered is_value? with true, sof will create a basic node with this string def to_sof "'" + to_s + "'" end private def check_length raise "Length out of bounds #{self.char_length}" if self.char_length > 32 end end end