class Reline::KeyStroke ESC_BYTE = 27 CSI_PARAMETER_BYTES_RANGE = 0x30..0x3f CSI_INTERMEDIATE_BYTES_RANGE = (0x20..0x2f) def initialize(config) @config = config end def compress_meta_key(ary) return ary unless @config.convert_meta ary.inject([]) { |result, key| if result.size > 0 and result.last == "\e".ord result[result.size - 1] = Reline::Key.new(key, key | 0b10000000, true) else result << key end result } end def start_with?(me, other) compressed_me = compress_meta_key(me) compressed_other = compress_meta_key(other) i = 0 loop do my_c = compressed_me[i] other_c = compressed_other[i] other_is_last = (i + 1) == compressed_other.size me_is_last = (i + 1) == compressed_me.size if my_c != other_c if other_c == "\e".ord and other_is_last and my_c.is_a?(Reline::Key) and my_c.with_meta return true else return false end elsif other_is_last return true elsif me_is_last return false end i += 1 end end def equal?(me, other) case me when Array compressed_me = compress_meta_key(me) compressed_other = compress_meta_key(other) compressed_me.size == compressed_other.size and [compressed_me, compressed_other].transpose.all?{ |i| equal?(i[0], i[1]) } when Integer if other.is_a?(Reline::Key) if other.combined_char == "\e".ord false else other.combined_char == me end else me == other end when Reline::Key if other.is_a?(Integer) me.combined_char == other else me == other end end end def match_status(input) key_mapping.keys.select { |lhs| start_with?(lhs, input) }.tap { |it| return :matched if it.size == 1 && equal?(it[0], input) return :matching if it.size == 1 && !equal?(it[0], input) return :matched if it.max_by(&:size)&.size&.< input.size return :matching if it.size > 1 } if key_mapping.keys.any? { |lhs| start_with?(input, lhs) } :matched else match_unknown_escape_sequence(input).first end end def expand(input) lhs = key_mapping.keys.select { |item| start_with?(input, item) }.sort_by(&:size).last unless lhs status, size = match_unknown_escape_sequence(input) case status when :matched return [:ed_unassigned] + expand(input.drop(size)) when :matching return [:ed_unassigned] else return input end end rhs = key_mapping[lhs] case rhs when String rhs_bytes = rhs.bytes expand(expand(rhs_bytes) + expand(input.drop(lhs.size))) when Symbol [rhs] + expand(input.drop(lhs.size)) when Array rhs end end private # returns match status of CSI/SS3 sequence and matched length def match_unknown_escape_sequence(input) idx = 0 return [:unmatched, nil] unless input[idx] == ESC_BYTE idx += 1 idx += 1 if input[idx] == ESC_BYTE case input[idx] when nil return [:matching, nil] when 91 # == '['.ord # CSI sequence idx += 1 idx += 1 while idx < input.size && CSI_PARAMETER_BYTES_RANGE.cover?(input[idx]) idx += 1 while idx < input.size && CSI_INTERMEDIATE_BYTES_RANGE.cover?(input[idx]) input[idx] ? [:matched, idx + 1] : [:matching, nil] when 79 # == 'O'.ord # SS3 sequence input[idx + 1] ? [:matched, idx + 2] : [:matching, nil] else if idx == 1 # `ESC char`, make it :unmatched so that it will be handled correctly in `read_2nd_character_of_key_sequence` [:unmatched, nil] else # `ESC ESC char` [:matched, idx + 1] end end end def key_mapping @config.key_bindings end end