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ruby--ruby/lib/reline/config.rb
Mark Delk a049dfd10a [ruby/reline] ensure reline's encoding is used when reading inputrc character values
This change ensures we use `Reline::IOGate`'s `encoding` when converting
characters from their integer values.

This fixes an issue that may occur if you have UTF characters in your
`.inputrc`, but your default encoding isn't set.

For example:

```
> 127864.ord.chr
RangeError: 127864 out of char range
from (pry):1:in `chr'
> Reline::IOGate.encoding
=> #<Encoding:UTF-8>
> 127864.ord.chr(Reline::IOGate.encoding)
=> "🍸"
```

https://github.com/ruby/reline/commit/cf372fc0fc
2021-06-21 17:58:48 +09:00

354 lines
9.1 KiB
Ruby

class Reline::Config
attr_reader :test_mode
KEYSEQ_PATTERN = /\\(?:C|Control)-[A-Za-z_]|\\(?:M|Meta)-[0-9A-Za-z_]|\\(?:C|Control)-(?:M|Meta)-[A-Za-z_]|\\(?:M|Meta)-(?:C|Control)-[A-Za-z_]|\\e|\\[\\\"\'abdfnrtv]|\\\d{1,3}|\\x\h{1,2}|./
class InvalidInputrc < RuntimeError
attr_accessor :file, :lineno
end
VARIABLE_NAMES = %w{
bind-tty-special-chars
blink-matching-paren
byte-oriented
completion-ignore-case
convert-meta
disable-completion
enable-keypad
expand-tilde
history-preserve-point
history-size
horizontal-scroll-mode
input-meta
keyseq-timeout
mark-directories
mark-modified-lines
mark-symlinked-directories
match-hidden-files
meta-flag
output-meta
page-completions
prefer-visible-bell
print-completions-horizontally
show-all-if-ambiguous
show-all-if-unmodified
visible-stats
show-mode-in-prompt
vi-cmd-mode-string
vi-ins-mode-string
emacs-mode-string
enable-bracketed-paste
isearch-terminators
}
VARIABLE_NAME_SYMBOLS = VARIABLE_NAMES.map { |v| :"#{v.tr(?-, ?_)}" }
VARIABLE_NAME_SYMBOLS.each do |v|
attr_accessor v
end
def initialize
@additional_key_bindings = {} # from inputrc
@additional_key_bindings[:emacs] = {}
@additional_key_bindings[:vi_insert] = {}
@additional_key_bindings[:vi_command] = {}
@skip_section = nil
@if_stack = nil
@editing_mode_label = :emacs
@keymap_label = :emacs
@key_actors = {}
@key_actors[:emacs] = Reline::KeyActor::Emacs.new
@key_actors[:vi_insert] = Reline::KeyActor::ViInsert.new
@key_actors[:vi_command] = Reline::KeyActor::ViCommand.new
@vi_cmd_mode_string = '(cmd)'
@vi_ins_mode_string = '(ins)'
@emacs_mode_string = '@'
# https://tiswww.case.edu/php/chet/readline/readline.html#IDX25
@history_size = -1 # unlimited
@keyseq_timeout = 500
@test_mode = false
end
def reset
if editing_mode_is?(:vi_command)
@editing_mode_label = :vi_insert
end
@additional_key_bindings.keys.each do |key|
@additional_key_bindings[key].clear
end
reset_default_key_bindings
end
def editing_mode
@key_actors[@editing_mode_label]
end
def editing_mode=(val)
@editing_mode_label = val
end
def editing_mode_is?(*val)
(val.respond_to?(:any?) ? val : [val]).any?(@editing_mode_label)
end
def keymap
@key_actors[@keymap_label]
end
def inputrc_path
case ENV['INPUTRC']
when nil, ''
else
return File.expand_path(ENV['INPUTRC'])
end
# In the XDG Specification, if ~/.config/readline/inputrc exists, then
# ~/.inputrc should not be read, but for compatibility with GNU Readline,
# if ~/.inputrc exists, then it is given priority.
home_rc_path = File.expand_path('~/.inputrc')
return home_rc_path if File.exist?(home_rc_path)
case path = ENV['XDG_CONFIG_HOME']
when nil, ''
else
path = File.join(path, 'readline/inputrc')
return path if File.exist?(path) and path == File.expand_path(path)
end
path = File.expand_path('~/.config/readline/inputrc')
return path if File.exist?(path)
return home_rc_path
end
def read(file = nil)
file ||= inputrc_path
begin
if file.respond_to?(:readlines)
lines = file.readlines
else
lines = File.readlines(file)
end
rescue Errno::ENOENT
return nil
end
read_lines(lines, file)
self
rescue InvalidInputrc => e
warn e.message
nil
end
def key_bindings
# override @key_actors[@editing_mode_label].default_key_bindings with @additional_key_bindings[@editing_mode_label]
@key_actors[@editing_mode_label].default_key_bindings.merge(@additional_key_bindings[@editing_mode_label])
end
def add_default_key_binding_by_keymap(keymap, keystroke, target)
@key_actors[keymap].default_key_bindings[keystroke] = target
end
def add_default_key_binding(keystroke, target)
@key_actors[@keymap_label].default_key_bindings[keystroke] = target
end
def reset_default_key_bindings
@key_actors.values.each do |ka|
ka.reset_default_key_bindings
end
end
def read_lines(lines, file = nil)
conditions = [@skip_section, @if_stack]
@skip_section = nil
@if_stack = []
lines.each_with_index do |line, no|
next if line.match(/\A\s*#/)
no += 1
line = line.chomp.lstrip
if line.start_with?('$')
handle_directive(line[1..-1], file, no)
next
end
next if @skip_section
case line
when /^set +([^ ]+) +([^ ]+)/i
var, value = $1.downcase, $2
bind_variable(var, value)
next
when /\s*("#{KEYSEQ_PATTERN}+")\s*:\s*(.*)\s*$/o
key, func_name = $1, $2
keystroke, func = bind_key(key, func_name)
next unless keystroke
@additional_key_bindings[@keymap_label][keystroke] = func
end
end
unless @if_stack.empty?
raise InvalidInputrc, "#{file}:#{@if_stack.last[1]}: unclosed if"
end
ensure
@skip_section, @if_stack = conditions
end
def handle_directive(directive, file, no)
directive, args = directive.split(' ')
case directive
when 'if'
condition = false
case args
when 'mode'
when 'term'
when 'version'
else # application name
condition = true if args == 'Ruby'
condition = true if args == 'Reline'
end
@if_stack << [file, no, @skip_section]
@skip_section = !condition
when 'else'
if @if_stack.empty?
raise InvalidInputrc, "#{file}:#{no}: unmatched else"
end
@skip_section = !@skip_section
when 'endif'
if @if_stack.empty?
raise InvalidInputrc, "#{file}:#{no}: unmatched endif"
end
@skip_section = @if_stack.pop
when 'include'
read(args)
end
end
def bind_variable(name, value)
case name
when 'history-size'
begin
@history_size = Integer(value)
rescue ArgumentError
@history_size = 500
end
when 'bell-style'
@bell_style =
case value
when 'none', 'off'
:none
when 'audible', 'on'
:audible
when 'visible'
:visible
else
:audible
end
when 'comment-begin'
@comment_begin = value.dup
when 'completion-query-items'
@completion_query_items = value.to_i
when 'isearch-terminators'
@isearch_terminators = retrieve_string(value)
when 'editing-mode'
case value
when 'emacs'
@editing_mode_label = :emacs
@keymap_label = :emacs
when 'vi'
@editing_mode_label = :vi_insert
@keymap_label = :vi_insert
end
when 'keymap'
case value
when 'emacs', 'emacs-standard', 'emacs-meta', 'emacs-ctlx'
@keymap_label = :emacs
when 'vi', 'vi-move', 'vi-command'
@keymap_label = :vi_command
when 'vi-insert'
@keymap_label = :vi_insert
end
when 'keyseq-timeout'
@keyseq_timeout = value.to_i
when 'show-mode-in-prompt'
case value
when 'off'
@show_mode_in_prompt = false
when 'on'
@show_mode_in_prompt = true
else
@show_mode_in_prompt = false
end
when 'vi-cmd-mode-string'
@vi_cmd_mode_string = retrieve_string(value)
when 'vi-ins-mode-string'
@vi_ins_mode_string = retrieve_string(value)
when 'emacs-mode-string'
@emacs_mode_string = retrieve_string(value)
when *VARIABLE_NAMES then
variable_name = :"@#{name.tr(?-, ?_)}"
instance_variable_set(variable_name, value.nil? || value == '1' || value == 'on')
end
end
def retrieve_string(str)
str = $1 if str =~ /\A"(.*)"\z/
parse_keyseq(str).map { |c| c.chr(Reline::IOGate.encoding) }.join
end
def bind_key(key, func_name)
if key =~ /\A"(.*)"\z/
keyseq = parse_keyseq($1)
else
keyseq = nil
end
if func_name =~ /"(.*)"/
func = parse_keyseq($1)
else
func = func_name.tr(?-, ?_).to_sym # It must be macro.
end
[keyseq, func]
end
def key_notation_to_code(notation)
case notation
when /\\(?:C|Control)-([A-Za-z_])/
(1 + $1.downcase.ord - ?a.ord)
when /\\(?:M|Meta)-([0-9A-Za-z_])/
modified_key = $1
case $1
when /[0-9]/
?\M-0.bytes.first + (modified_key.ord - ?0.ord)
when /[A-Z]/
?\M-A.bytes.first + (modified_key.ord - ?A.ord)
when /[a-z]/
?\M-a.bytes.first + (modified_key.ord - ?a.ord)
end
when /\\(?:C|Control)-(?:M|Meta)-[A-Za-z_]/, /\\(?:M|Meta)-(?:C|Control)-[A-Za-z_]/
# 129 M-^A
when /\\(\d{1,3})/ then $1.to_i(8) # octal
when /\\x(\h{1,2})/ then $1.to_i(16) # hexadecimal
when "\\e" then ?\e.ord
when "\\\\" then ?\\.ord
when "\\\"" then ?".ord
when "\\'" then ?'.ord
when "\\a" then ?\a.ord
when "\\b" then ?\b.ord
when "\\d" then ?\d.ord
when "\\f" then ?\f.ord
when "\\n" then ?\n.ord
when "\\r" then ?\r.ord
when "\\t" then ?\t.ord
when "\\v" then ?\v.ord
else notation.ord
end
end
def parse_keyseq(str)
ret = []
str.scan(KEYSEQ_PATTERN) do
ret << key_notation_to_code($&)
end
ret
end
end