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ruby--ruby/lib/reline/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)
CSI_REGEXP = /\e\[[\d;]*[ABCDEFGHJKSTfminsuhl]/
OSC_REGEXP = /\e\]\d+(?:;[^;]+)*\a/
NON_PRINTING_START = "\1"
NON_PRINTING_END = "\2"
WIDTH_SCANNER = /\G(?:#{NON_PRINTING_START}|#{NON_PRINTING_END}|#{CSI_REGEXP}|#{OSC_REGEXP}|\X)/
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'
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 }
)
| (?<ambiguous_width>
#{EastAsianWidth::TYPE_A}
)
/x
def self.get_mbchar_width(mbchar)
[ruby/reline] Optimize ASCII character width calculation The rendering time in IRB has been reduced as follows: start = Time.now [{"_id"=>"5f9072a4589a06d2d74b6028", "index"=>0, "guid"=>"6b3051e2-dbc7-4537-bdb9-6cd7bb5358a7", "isActive"=>true, "balance"=>"$1,442.84", "picture"=>"http://placehold.it/32x32", "age"=>34, "eyeColor"=>"blue", "name"=>{"first"=>"Ward", "last"=>"Levy"}, "company"=>"HYPLEX", "email"=>"ward.levy@hyplex.us", "phone"=>"+1 (867) 568-3319", "address"=>"867 Cobek Court, Clara, Maryland, 3254", "about"=> "Exercitation eu ex aliqua sit. Pariatur aliquip incididunt sint id non consectetur ullamco Lorem ea mollit duis amet sint labore. Commodo laborum labore commodo officia in cillum adipisicing esse excepteur cupidatat adipisicing ut. Non esse incididunt voluptate aliquip cillum eu aute duis laboris sit et. Amet enim quis tempor occaecat excepteur exercitation excepteur deserunt amet cillum adipisicing.", "registered"=>"Monday, May 25, 2015 6:51 AM", "latitude"=>"16.001127", "longitude"=>"-72.377848", "tags"=>["dolore", "nostrud", "occaecat", "cillum", "nisi"], "range"=>[0, 1, 2, 3, 4, 5, 6, 7, 8, 9], "friends"=> [{"id"=>0, "name"=>"Alison Bryant"}, {"id"=>1, "name"=>"Ester Espinoza"}, {"id"=>2, "name"=>"Sullivan Kane"}], "greeting"=>"Hello, Ward! You have 7 unread messages.", "favoriteFruit"=>"apple"}] puts "Duration: #{Time.now - start} seconds" 0.73sec -> 0.43sec start = Time.now "Exercitation eu ex aliqua sit. Pariatur aliquip incididunt sint id non consectetur ullamco Lorem ea mollit duis amet sint labore. Commodo laborum labore commodo officia in cillum adipisicing esse excepteur cupidatat adipisicing ut. Non esse incididunt voluptate aliquip cillum eu aute duis laboris sit et. Amet enim quis tempor occaecat excepteur exercitation excepteur deserunt amet cillum adipisicing." puts "Duration: #{Time.now - start} seconds" 0.15sec -> 0.10sec start = Time.now def each_top_level_statement initialize_input catch(:TERM_INPUT) do loop do begin prompt unless l = lex throw :TERM_INPUT if @line == '' else @line_no += l.count("\n") next if l == "\n" @line.concat l if @code_block_open or @ltype or @continue or @indent > 0 next end end if @line != "\n" @line.force_encoding(@io.encoding) yield @line, @exp_line_no end break if @io.eof? @line = '' @exp_line_no = @line_no @indent = 0 rescue TerminateLineInput initialize_input prompt end end end end puts "Duration: #{Time.now - start} seconds" 0.59sec -> 0.38sec Co-authored-by: NARUSE, Yui <naruse@airemix.jp> https://github.com/ruby/reline/commit/36bc9e3abb
2020-11-16 21:55:52 -05:00
ord = mbchar.ord
if (0x00 <= ord and ord <= 0x1F)
return 2
elsif (0x20 <= ord and ord <= 0x7E)
return 1
end
m = mbchar.encode(Encoding::UTF_8).match(MBCharWidthRE)
case
when m[:width_2_1], m[:width_2_2] 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 gc
when NON_PRINTING_START
in_zero_width = true
when NON_PRINTING_END
in_zero_width = false
when CSI_REGEXP, OSC_REGEXP
else
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 gc
when NON_PRINTING_START
in_zero_width = true
when NON_PRINTING_END
in_zero_width = false
when CSI_REGEXP, OSC_REGEXP
lines.last << gc
else
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
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
2019-06-03 17:39:02 -04:00
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)
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
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)
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
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_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