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reline
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unicode.rb
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class Reline::Unicode EscapedPairs = { 0x00 => '^@', 0x01 => '^A', # C-a 0x02 => '^B', 0x03 => '^C', 0x04 => '^D', 0x05 => '^E', 0x06 => '^F', 0x07 => '^G', 0x08 => '^H', # Backspace 0x09 => '^I', 0x0A => '^J', 0x0B => '^K', 0x0C => '^L', 0x0D => '^M', # Enter 0x0E => '^N', 0x0F => '^O', 0x10 => '^P', 0x11 => '^Q', 0x12 => '^R', 0x13 => '^S', 0x14 => '^T', 0x15 => '^U', 0x16 => '^V', 0x17 => '^W', 0x18 => '^X', 0x19 => '^Y', 0x1A => '^Z', # C-z 0x1B => '^[', # C-[ C-3 0x1D => '^]', # C-] 0x1E => '^^', # C-~ C-6 0x1F => '^_', # C-_ C-7 0x7F => '^?', # C-? C-8 } EscapedChars = EscapedPairs.keys.map(&:chr) NON_PRINTING_START = "\1" NON_PRINTING_END = "\2" CSI_REGEXP = /\e\[[\d;]*[ABCDEFGHJKSTfminsuhl]/ OSC_REGEXP = /\e\]\d+(?:;[^;\a\e]+)*(?:\a|\e\\)/ WIDTH_SCANNER = /\G(?:(#{NON_PRINTING_START})|(#{NON_PRINTING_END})|(#{CSI_REGEXP})|(#{OSC_REGEXP})|(\X))/o def self.escape_for_print(str) str.chars.map! { |gr| case gr when -"\n" gr when -"\t" -' ' else EscapedPairs[gr.ord] || gr end }.join end require 'reline/unicode/east_asian_width' HalfwidthDakutenHandakuten = /[\u{FF9E}\u{FF9F}]/ MBCharWidthRE = / (?<width_2_1> [#{ EscapedChars.map {|c| "\\x%02x" % c.ord }.join }] (?# ^ + char, such as ^M, ^H, ^[, ...) ) | (?<width_3>^\u{2E3B}) (?# THREE-EM DASH) | (?<width_0>^\p{M}) | (?<width_2_2> #{ EastAsianWidth::TYPE_F } | #{ EastAsianWidth::TYPE_W } ) | (?<width_1> #{ EastAsianWidth::TYPE_H } | #{ EastAsianWidth::TYPE_NA } | #{ EastAsianWidth::TYPE_N } )(?!#{ HalfwidthDakutenHandakuten }) | (?<width_2_3> (?: #{ EastAsianWidth::TYPE_H } | #{ EastAsianWidth::TYPE_NA } | #{ EastAsianWidth::TYPE_N }) #{ HalfwidthDakutenHandakuten } ) | (?<ambiguous_width> #{EastAsianWidth::TYPE_A} ) /x def self.get_mbchar_width(mbchar) ord = mbchar.ord if (0x00 <= ord and ord <= 0x1F) # in EscapedPairs return 2 elsif (0x20 <= ord and ord <= 0x7E) # printable ASCII chars return 1 end m = mbchar.encode(Encoding::UTF_8).match(MBCharWidthRE) case when m.nil? then 1 # TODO should be U+FFFD � REPLACEMENT CHARACTER when m[:width_2_1], m[:width_2_2], m[:width_2_3] then 2 when m[:width_3] then 3 when m[:width_0] then 0 when m[:width_1] then 1 when m[:ambiguous_width] then Reline.ambiguous_width else nil end end def self.calculate_width(str, allow_escape_code = false) if allow_escape_code width = 0 rest = str.encode(Encoding::UTF_8) in_zero_width = false rest.scan(WIDTH_SCANNER) do |non_printing_start, non_printing_end, csi, osc, gc| case when non_printing_start in_zero_width = true when non_printing_end in_zero_width = false when csi, osc when gc unless in_zero_width width += get_mbchar_width(gc) end end end width else str.encode(Encoding::UTF_8).grapheme_clusters.inject(0) { |w, gc| w + get_mbchar_width(gc) } end end def self.split_by_width(str, max_width, encoding = str.encoding, offset: 0) lines = [String.new(encoding: encoding)] height = 1 width = offset rest = str.encode(Encoding::UTF_8) in_zero_width = false seq = String.new(encoding: encoding) rest.scan(WIDTH_SCANNER) do |non_printing_start, non_printing_end, csi, osc, gc| case when non_printing_start in_zero_width = true lines.last << NON_PRINTING_START when non_printing_end in_zero_width = false lines.last << NON_PRINTING_END when csi lines.last << csi unless in_zero_width if csi == -"\e[m" || csi == -"\e[0m" seq.clear else seq << csi end end when osc lines.last << osc seq << osc when gc unless in_zero_width mbchar_width = get_mbchar_width(gc) if (width += mbchar_width) > max_width width = mbchar_width lines << nil lines << seq.dup height += 1 end end lines.last << gc end end # The cursor moves to next line in first if width == max_width lines << nil lines << String.new(encoding: encoding) height += 1 end [lines, height] end # Take a chunk of a String cut by width with escape sequences. def self.take_range(str, start_col, max_width) take_mbchar_range(str, start_col, max_width).first end def self.take_mbchar_range(str, start_col, width, cover_begin: false, cover_end: false, padding: false) chunk = String.new(encoding: str.encoding) end_col = start_col + width total_width = 0 rest = str.encode(Encoding::UTF_8) in_zero_width = false chunk_start_col = nil chunk_end_col = nil has_csi = false rest.scan(WIDTH_SCANNER) do |non_printing_start, non_printing_end, csi, osc, gc| case when non_printing_start in_zero_width = true chunk << NON_PRINTING_START when non_printing_end in_zero_width = false chunk << NON_PRINTING_END when csi has_csi = true chunk << csi when osc chunk << osc when gc if in_zero_width chunk << gc next end mbchar_width = get_mbchar_width(gc) prev_width = total_width total_width += mbchar_width if (cover_begin || padding ? total_width <= start_col : prev_width < start_col) # Current character haven't reached start_col yet next elsif padding && !cover_begin && prev_width < start_col && start_col < total_width # Add preceding padding. This padding might have background color. chunk << ' ' chunk_start_col ||= start_col chunk_end_col = total_width next elsif (cover_end ? prev_width < end_col : total_width <= end_col) # Current character is in the range chunk << gc chunk_start_col ||= prev_width chunk_end_col = total_width break if total_width >= end_col else # Current character exceeds end_col if padding && end_col < total_width # Add succeeding padding. This padding might have background color. chunk << ' ' chunk_start_col ||= prev_width chunk_end_col = end_col end break end end end chunk_start_col ||= start_col chunk_end_col ||= start_col if padding && chunk_end_col < end_col # Append padding. This padding should not include background color. chunk << "\e[0m" if has_csi chunk << ' ' * (end_col - chunk_end_col) chunk_end_col = end_col end [chunk, chunk_start_col, chunk_end_col - chunk_start_col] end def self.get_next_mbchar_size(line, byte_pointer) grapheme = line.byteslice(byte_pointer..-1).grapheme_clusters.first grapheme ? grapheme.bytesize : 0 end def self.get_prev_mbchar_size(line, byte_pointer) if byte_pointer.zero? 0 else grapheme = line.byteslice(0..(byte_pointer - 1)).grapheme_clusters.last grapheme ? grapheme.bytesize : 0 end end def self.em_forward_word(line, byte_pointer) width = 0 byte_size = 0 while line.bytesize > (byte_pointer + byte_size) size = get_next_mbchar_size(line, byte_pointer + byte_size) mbchar = line.byteslice(byte_pointer + byte_size, size) break if mbchar.encode(Encoding::UTF_8) =~ /\p{Word}/ width += get_mbchar_width(mbchar) byte_size += size end while line.bytesize > (byte_pointer + byte_size) size = get_next_mbchar_size(line, byte_pointer + byte_size) mbchar = line.byteslice(byte_pointer + byte_size, size) break if mbchar.encode(Encoding::UTF_8) =~ /\P{Word}/ width += get_mbchar_width(mbchar) byte_size += size end [byte_size, width] end def self.em_forward_word_with_capitalization(line, byte_pointer) width = 0 byte_size = 0 new_str = String.new while line.bytesize > (byte_pointer + byte_size) size = get_next_mbchar_size(line, byte_pointer + byte_size) mbchar = line.byteslice(byte_pointer + byte_size, size) break if mbchar.encode(Encoding::UTF_8) =~ /\p{Word}/ new_str += mbchar width += get_mbchar_width(mbchar) byte_size += size end first = true while line.bytesize > (byte_pointer + byte_size) size = get_next_mbchar_size(line, byte_pointer + byte_size) mbchar = line.byteslice(byte_pointer + byte_size, size) break if mbchar.encode(Encoding::UTF_8) =~ /\P{Word}/ if first new_str += mbchar.upcase first = false else new_str += mbchar.downcase end width += get_mbchar_width(mbchar) byte_size += size end [byte_size, width, new_str] end def self.em_backward_word(line, byte_pointer) width = 0 byte_size = 0 while 0 < (byte_pointer - byte_size) size = get_prev_mbchar_size(line, byte_pointer - byte_size) mbchar = line.byteslice(byte_pointer - byte_size - size, size) break if mbchar.encode(Encoding::UTF_8) =~ /\p{Word}/ width += get_mbchar_width(mbchar) byte_size += size end while 0 < (byte_pointer - byte_size) size = get_prev_mbchar_size(line, byte_pointer - byte_size) mbchar = line.byteslice(byte_pointer - byte_size - size, size) break if mbchar.encode(Encoding::UTF_8) =~ /\P{Word}/ width += get_mbchar_width(mbchar) byte_size += size end [byte_size, width] end def self.em_big_backward_word(line, byte_pointer) width = 0 byte_size = 0 while 0 < (byte_pointer - byte_size) size = get_prev_mbchar_size(line, byte_pointer - byte_size) mbchar = line.byteslice(byte_pointer - byte_size - size, size) break if mbchar =~ /\S/ width += get_mbchar_width(mbchar) byte_size += size end while 0 < (byte_pointer - byte_size) size = get_prev_mbchar_size(line, byte_pointer - byte_size) mbchar = line.byteslice(byte_pointer - byte_size - size, size) break if mbchar =~ /\s/ width += get_mbchar_width(mbchar) byte_size += size end [byte_size, width] end def self.ed_transpose_words(line, byte_pointer) right_word_start = nil size = get_next_mbchar_size(line, byte_pointer) mbchar = line.byteslice(byte_pointer, size) if size.zero? # ' aaa bbb [cursor]' byte_size = 0 while 0 < (byte_pointer + byte_size) size = get_prev_mbchar_size(line, byte_pointer + byte_size) mbchar = line.byteslice(byte_pointer + byte_size - size, size) break if mbchar.encode(Encoding::UTF_8) =~ /\p{Word}/ byte_size -= size end while 0 < (byte_pointer + byte_size) size = get_prev_mbchar_size(line, byte_pointer + byte_size) mbchar = line.byteslice(byte_pointer + byte_size - size, size) break if mbchar.encode(Encoding::UTF_8) =~ /\P{Word}/ byte_size -= size end right_word_start = byte_pointer + byte_size byte_size = 0 while line.bytesize > (byte_pointer + byte_size) size = get_next_mbchar_size(line, byte_pointer + byte_size) mbchar = line.byteslice(byte_pointer + byte_size, size) break if mbchar.encode(Encoding::UTF_8) =~ /\P{Word}/ byte_size += size end after_start = byte_pointer + byte_size elsif mbchar.encode(Encoding::UTF_8) =~ /\p{Word}/ # ' aaa bb[cursor]b' byte_size = 0 while 0 < (byte_pointer + byte_size) size = get_prev_mbchar_size(line, byte_pointer + byte_size) mbchar = line.byteslice(byte_pointer + byte_size - size, size) break if mbchar.encode(Encoding::UTF_8) =~ /\P{Word}/ byte_size -= size end right_word_start = byte_pointer + byte_size byte_size = 0 while line.bytesize > (byte_pointer + byte_size) size = get_next_mbchar_size(line, byte_pointer + byte_size) mbchar = line.byteslice(byte_pointer + byte_size, size) break if mbchar.encode(Encoding::UTF_8) =~ /\P{Word}/ byte_size += size end after_start = byte_pointer + byte_size else byte_size = 0 while (line.bytesize - 1) > (byte_pointer + byte_size) size = get_next_mbchar_size(line, byte_pointer + byte_size) mbchar = line.byteslice(byte_pointer + byte_size, size) break if mbchar.encode(Encoding::UTF_8) =~ /\p{Word}/ byte_size += size end if (byte_pointer + byte_size) == (line.bytesize - 1) # ' aaa bbb [cursor] ' after_start = line.bytesize while 0 < (byte_pointer + byte_size) size = get_prev_mbchar_size(line, byte_pointer + byte_size) mbchar = line.byteslice(byte_pointer + byte_size - size, size) break if mbchar.encode(Encoding::UTF_8) =~ /\p{Word}/ byte_size -= size end while 0 < (byte_pointer + byte_size) size = get_prev_mbchar_size(line, byte_pointer + byte_size) mbchar = line.byteslice(byte_pointer + byte_size - size, size) break if mbchar.encode(Encoding::UTF_8) =~ /\P{Word}/ byte_size -= size end right_word_start = byte_pointer + byte_size else # ' aaa [cursor] bbb ' right_word_start = byte_pointer + byte_size while line.bytesize > (byte_pointer + byte_size) size = get_next_mbchar_size(line, byte_pointer + byte_size) mbchar = line.byteslice(byte_pointer + byte_size, size) break if mbchar.encode(Encoding::UTF_8) =~ /\P{Word}/ byte_size += size end after_start = byte_pointer + byte_size end end byte_size = right_word_start - byte_pointer while 0 < (byte_pointer + byte_size) size = get_prev_mbchar_size(line, byte_pointer + byte_size) mbchar = line.byteslice(byte_pointer + byte_size - size, size) break if mbchar.encode(Encoding::UTF_8) =~ /\p{Word}/ byte_size -= size end middle_start = byte_pointer + byte_size byte_size = middle_start - byte_pointer while 0 < (byte_pointer + byte_size) size = get_prev_mbchar_size(line, byte_pointer + byte_size) mbchar = line.byteslice(byte_pointer + byte_size - size, size) break if mbchar.encode(Encoding::UTF_8) =~ /\P{Word}/ byte_size -= size end left_word_start = byte_pointer + byte_size [left_word_start, middle_start, right_word_start, after_start] end def self.vi_big_forward_word(line, byte_pointer) width = 0 byte_size = 0 while (line.bytesize - 1) > (byte_pointer + byte_size) size = get_next_mbchar_size(line, byte_pointer + byte_size) mbchar = line.byteslice(byte_pointer + byte_size, size) break if mbchar =~ /\s/ width += get_mbchar_width(mbchar) byte_size += size end while (line.bytesize - 1) > (byte_pointer + byte_size) size = get_next_mbchar_size(line, byte_pointer + byte_size) mbchar = line.byteslice(byte_pointer + byte_size, size) break if mbchar =~ /\S/ width += get_mbchar_width(mbchar) byte_size += size end [byte_size, width] end def self.vi_big_forward_end_word(line, byte_pointer) if (line.bytesize - 1) > byte_pointer size = get_next_mbchar_size(line, byte_pointer) mbchar = line.byteslice(byte_pointer, size) width = get_mbchar_width(mbchar) byte_size = size else return [0, 0] end while (line.bytesize - 1) > (byte_pointer + byte_size) size = get_next_mbchar_size(line, byte_pointer + byte_size) mbchar = line.byteslice(byte_pointer + byte_size, size) break if mbchar =~ /\S/ width += get_mbchar_width(mbchar) byte_size += size end prev_width = width prev_byte_size = byte_size while line.bytesize > (byte_pointer + byte_size) size = get_next_mbchar_size(line, byte_pointer + byte_size) mbchar = line.byteslice(byte_pointer + byte_size, size) break if mbchar =~ /\s/ prev_width = width prev_byte_size = byte_size width += get_mbchar_width(mbchar) byte_size += size end [prev_byte_size, prev_width] end def self.vi_big_backward_word(line, byte_pointer) width = 0 byte_size = 0 while 0 < (byte_pointer - byte_size) size = get_prev_mbchar_size(line, byte_pointer - byte_size) mbchar = line.byteslice(byte_pointer - byte_size - size, size) break if mbchar =~ /\S/ width += get_mbchar_width(mbchar) byte_size += size end while 0 < (byte_pointer - byte_size) size = get_prev_mbchar_size(line, byte_pointer - byte_size) mbchar = line.byteslice(byte_pointer - byte_size - size, size) break if mbchar =~ /\s/ width += get_mbchar_width(mbchar) byte_size += size end [byte_size, width] end def self.vi_forward_word(line, byte_pointer, drop_terminate_spaces = false) if line.bytesize > byte_pointer size = get_next_mbchar_size(line, byte_pointer) mbchar = line.byteslice(byte_pointer, size) if mbchar =~ /\w/ started_by = :word elsif mbchar =~ /\s/ started_by = :space else started_by = :non_word_printable end width = get_mbchar_width(mbchar) byte_size = size else return [0, 0] end while line.bytesize > (byte_pointer + byte_size) size = get_next_mbchar_size(line, byte_pointer + byte_size) mbchar = line.byteslice(byte_pointer + byte_size, size) case started_by when :word break if mbchar =~ /\W/ when :space break if mbchar =~ /\S/ when :non_word_printable break if mbchar =~ /\w|\s/ end width += get_mbchar_width(mbchar) byte_size += size end return [byte_size, width] if drop_terminate_spaces while line.bytesize > (byte_pointer + byte_size) size = get_next_mbchar_size(line, byte_pointer + byte_size) mbchar = line.byteslice(byte_pointer + byte_size, size) break if mbchar =~ /\S/ width += get_mbchar_width(mbchar) byte_size += size end [byte_size, width] end def self.vi_forward_end_word(line, byte_pointer) if (line.bytesize - 1) > byte_pointer size = get_next_mbchar_size(line, byte_pointer) mbchar = line.byteslice(byte_pointer, size) if mbchar =~ /\w/ started_by = :word elsif mbchar =~ /\s/ started_by = :space else started_by = :non_word_printable end width = get_mbchar_width(mbchar) byte_size = size else return [0, 0] end if (line.bytesize - 1) > (byte_pointer + byte_size) size = get_next_mbchar_size(line, byte_pointer + byte_size) mbchar = line.byteslice(byte_pointer + byte_size, size) if mbchar =~ /\w/ second = :word elsif mbchar =~ /\s/ second = :space else second = :non_word_printable end second_width = get_mbchar_width(mbchar) second_byte_size = size else return [byte_size, width] end if second == :space width += second_width byte_size += second_byte_size while (line.bytesize - 1) > (byte_pointer + byte_size) size = get_next_mbchar_size(line, byte_pointer + byte_size) mbchar = line.byteslice(byte_pointer + byte_size, size) if mbchar =~ /\S/ if mbchar =~ /\w/ started_by = :word else started_by = :non_word_printable end break end width += get_mbchar_width(mbchar) byte_size += size end else case [started_by, second] when [:word, :non_word_printable], [:non_word_printable, :word] started_by = second else width += second_width byte_size += second_byte_size started_by = second end end prev_width = width prev_byte_size = byte_size while line.bytesize > (byte_pointer + byte_size) size = get_next_mbchar_size(line, byte_pointer + byte_size) mbchar = line.byteslice(byte_pointer + byte_size, size) case started_by when :word break if mbchar =~ /\W/ when :non_word_printable break if mbchar =~ /[\w\s]/ end prev_width = width prev_byte_size = byte_size width += get_mbchar_width(mbchar) byte_size += size end [prev_byte_size, prev_width] end def self.vi_backward_word(line, byte_pointer) width = 0 byte_size = 0 while 0 < (byte_pointer - byte_size) size = get_prev_mbchar_size(line, byte_pointer - byte_size) mbchar = line.byteslice(byte_pointer - byte_size - size, size) if mbchar =~ /\S/ if mbchar =~ /\w/ started_by = :word else started_by = :non_word_printable end break end width += get_mbchar_width(mbchar) byte_size += size end while 0 < (byte_pointer - byte_size) size = get_prev_mbchar_size(line, byte_pointer - byte_size) mbchar = line.byteslice(byte_pointer - byte_size - size, size) case started_by when :word break if mbchar =~ /\W/ when :non_word_printable break if mbchar =~ /[\w\s]/ end width += get_mbchar_width(mbchar) byte_size += size end [byte_size, width] end def self.vi_first_print(line) width = 0 byte_size = 0 while (line.bytesize - 1) > byte_size size = get_next_mbchar_size(line, byte_size) mbchar = line.byteslice(byte_size, size) if mbchar =~ /\S/ break end width += get_mbchar_width(mbchar) byte_size += size end [byte_size, width] end end