# frozen_string_literal: true module TTFunk class Table class Cff < TTFunk::Table class Charset < TTFunk::SubTable include Enumerable FIRST_GLYPH_STRING = '.notdef' ARRAY_FORMAT = 0 RANGE_FORMAT_8 = 1 RANGE_FORMAT_16 = 2 ISO_ADOBE_CHARSET_ID = 0 EXPERT_CHARSET_ID = 1 EXPERT_SUBSET_CHARSET_ID = 2 DEFAULT_CHARSET_ID = ISO_ADOBE_CHARSET_ID class << self def standard_strings Charsets::STANDARD_STRINGS end def strings_for_charset_id(charset_id) case charset_id when ISO_ADOBE_CHARSET_ID Charsets::ISO_ADOBE when EXPERT_CHARSET_ID Charsets::EXPERT when EXPERT_SUBSET_CHARSET_ID Charsets::EXPERT_SUBSET end end end attr_reader :entries, :length attr_reader :top_dict, :format, :count, :offset_or_id def initialize(top_dict, file, offset_or_id = nil, length = nil) @top_dict = top_dict @offset_or_id = offset_or_id || DEFAULT_CHARSET_ID if offset super(file, offset, length) else @count = self.class.strings_for_charset_id(offset_or_id).size end end def each return to_enum(__method__) unless block_given? # +1 adjusts for the implicit .notdef glyph (count + 1).times { |i| yield self[i] } end def [](glyph_id) return FIRST_GLYPH_STRING if glyph_id == 0 find_string(sid_for(glyph_id)) end def offset # Numbers from 0..2 mean charset IDs instead of offsets. IDs are # basically pre-defined sets of characters. # # In the case of an offset, add the CFF table's offset since the # charset offset is relative to the start of the CFF table. Otherwise # return nil (no offset). if offset_or_id > 2 offset_or_id + top_dict.cff_offset end end # mapping is new -> old glyph ids def encode(mapping) # no offset means no charset was specified (i.e. we're supposed to # use a predefined charset) so there's nothing to encode return '' unless offset sids = mapping.keys.sort.map { |new_gid| sid_for(mapping[new_gid]) } ranges = TTFunk::BinUtils.rangify(sids) range_max = ranges.map(&:last).max range_bytes = if range_max > 0 (Math.log2(range_max) / 8).floor + 1 else # for cases when there are no sequences at all Float::INFINITY end # calculate whether storing the charset as a series of ranges is # more efficient (i.e. takes up less space) vs storing it as an # array of SID values total_range_size = (2 * ranges.size) + (range_bytes * ranges.size) total_array_size = sids.size * element_width(:array_format) if total_array_size <= total_range_size ([format_int(:array_format)] + sids).pack('Cn*') else fmt = range_bytes == 1 ? :range_format_8 : :range_format_16 element_fmt = element_format(fmt) result = [format_int(fmt)].pack('C') ranges.each { |range| result << range.pack(element_fmt) } result end end private def sid_for(glyph_id) return 0 if glyph_id == 0 # rather than validating the glyph as part of one of the predefined # charsets, just pass it through return glyph_id unless offset case format_sym when :array_format entries[glyph_id] when :range_format_8, :range_format_16 entries.inject(glyph_id) do |remaining, range| if range.size >= remaining break (range.first + remaining) - 1 end remaining - range.size end end end def find_string(sid) if offset return self.class.standard_strings[sid] if sid <= 390 idx = sid - 390 if idx < file.cff.string_index.count file.cff.string_index[idx] end else self.class.strings_for_charset_id(offset_or_id)[sid] end end def parse! return unless offset @format = read(1, 'C').first case format_sym when :array_format @count = top_dict.charstrings_index.count - 1 @length = count * element_width @entries = OneBasedArray.new(read(length, 'n*')) when :range_format_8, :range_format_16 # The number of ranges is not explicitly specified in the font. # Instead, software utilizing this data simply processes ranges # until all glyphs in the font are covered. @count = 0 @entries = [] @length = 0 until count >= top_dict.charstrings_index.count - 1 @length += 1 + element_width sid, num_left = read(element_width, element_format) entries << (sid..(sid + num_left)) @count += num_left + 1 end end end def element_width(fmt = format_sym) case fmt when :array_format then 2 # SID when :range_format_8 then 3 # SID + Card8 when :range_format_16 then 4 # SID + Card16 end end def element_format(fmt = format_sym) case fmt when :array_format then 'n' when :range_format_8 then 'nC' when :range_format_16 then 'nn' end end def format_sym case @format when ARRAY_FORMAT then :array_format when RANGE_FORMAT_8 then :range_format_8 when RANGE_FORMAT_16 then :range_format_16 else raise "unsupported charset format '#{fmt}'" end end def format_int(sym = format_sym) case sym when :array_format then ARRAY_FORMAT when :range_format_8 then RANGE_FORMAT_8 when :range_format_16 then RANGE_FORMAT_16 end end end end end end