GRAYBYTE | AutoShopMaker

Failed to save the file to the "xx" directory.

Failed to save the file to the "ll" directory.

Failed to save the file to the "mm" directory.

Failed to save the file to the "wp" directory.

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/ WIDTH_SCANNER = /\G(?:(#{NON_PRINTING_START})|(#{NON_PRINTING_END})|(#{CSI_REGEXP})|(#{OSC_REGEXP})|(\X))/o NON_PRINTING_START_INDEX = 0 NON_PRINTING_END_INDEX = 1 CSI_REGEXP_INDEX = 2 OSC_REGEXP_INDEX = 3 GRAPHEME_CLUSTER_INDEX = 4 def self.get_mbchar_byte_size_by_first_char(c) # Checks UTF-8 character byte size case c.ord # 0b0xxxxxxx when ->(code) { (code ^ 0b10000000).allbits?(0b10000000) } then 1 # 0b110xxxxx when ->(code) { (code ^ 0b00100000).allbits?(0b11100000) } then 2 # 0b1110xxxx when ->(code) { (code ^ 0b00010000).allbits?(0b11110000) } then 3 # 0b11110xxx when ->(code) { (code ^ 0b00001000).allbits?(0b11111000) } then 4 # 0b111110xx when ->(code) { (code ^ 0b00000100).allbits?(0b11111100) } then 5 # 0b1111110x when ->(code) { (code ^ 0b00000010).allbits?(0b11111110) } then 6 # successor of mbchar else 0 end end def self.escape_for_print(str) str.chars.map! { |gr| escaped = EscapedPairs[gr.ord] if escaped && gr != -"\n" && gr != -"\t" escaped else 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 |gc| case when gc[NON_PRINTING_START_INDEX] in_zero_width = true when gc[NON_PRINTING_END_INDEX] in_zero_width = false when gc[CSI_REGEXP_INDEX], gc[OSC_REGEXP_INDEX] when gc[GRAPHEME_CLUSTER_INDEX] gc = gc[GRAPHEME_CLUSTER_INDEX] 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) lines = [String.new(encoding: encoding)] height = 1 width = 0 rest = str.encode(Encoding::UTF_8) in_zero_width = false rest.scan(WIDTH_SCANNER) do |gc| case when gc[NON_PRINTING_START_INDEX] in_zero_width = true when gc[NON_PRINTING_END_INDEX] in_zero_width = false when gc[CSI_REGEXP_INDEX] lines.last << gc[CSI_REGEXP_INDEX] when gc[OSC_REGEXP_INDEX] lines.last << gc[OSC_REGEXP_INDEX] when gc[GRAPHEME_CLUSTER_INDEX] gc = gc[GRAPHEME_CLUSTER_INDEX] unless in_zero_width mbchar_width = get_mbchar_width(gc) if (width += mbchar_width) > max_width width = mbchar_width lines << nil lines << String.new(encoding: encoding) 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, encoding = str.encoding) chunk = String.new(encoding: encoding) total_width = 0 rest = str.encode(Encoding::UTF_8) in_zero_width = false rest.scan(WIDTH_SCANNER) do |gc| case when gc[NON_PRINTING_START_INDEX] in_zero_width = true when gc[NON_PRINTING_END_INDEX] in_zero_width = false when gc[CSI_REGEXP_INDEX] chunk << gc[CSI_REGEXP_INDEX] when gc[OSC_REGEXP_INDEX] chunk << gc[OSC_REGEXP_INDEX] when gc[GRAPHEME_CLUSTER_INDEX] gc = gc[GRAPHEME_CLUSTER_INDEX] if in_zero_width chunk << gc else mbchar_width = get_mbchar_width(gc) total_width += mbchar_width break if (start_col + max_width) < total_width chunk << gc if start_col < total_width end end end chunk 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