# encoding: ascii-8bit module Parser module Source ## # A buffer with source code. {Buffer} contains the source code itself, # associated location information (name and first line), and takes care # of encoding. # # A source buffer is immutable once populated. # # @!attribute [r] name # Buffer name. If the buffer was created from a file, the name corresponds # to relative path to the file. # @return [String] buffer name # # @!attribute [r] first_line # First line of the buffer, 1 by default. # @return [Integer] first line # # @api public # class Buffer attr_reader :name, :first_line ## # @api private # ENCODING_RE = /\#.*coding\s*[:=]\s* ( # Special-case: there's a UTF8-MAC encoding. (utf8-mac) | # Chew the suffix; it's there for emacs compat. ([A-Za-z0-9_-]+?)(-unix|-dos|-mac) | ([A-Za-z0-9_-]+) ) /x ## # Try to recognize encoding of `string` as Ruby would, i.e. by looking for # magic encoding comment or UTF-8 BOM. `string` can be in any encoding. # # @param [String] string # @return [String|nil] encoding name, if recognized # def self.recognize_encoding(string) return if string.empty? # extract the first two lines in an efficient way string =~ /\A(.*)\n?(.*\n)?/ first_line, second_line = $1, $2 if first_line =~ /\A\xef\xbb\xbf/ # BOM return Encoding::UTF_8 elsif first_line[0, 2] == '#!'.freeze encoding_line = second_line else encoding_line = first_line end if (result = ENCODING_RE.match(encoding_line)) Encoding.find(result[2] || result[3] || result[5]) else nil end end ## # Recognize encoding of `input` and process it so it could be lexed. # # * If `input` does not contain BOM or magic encoding comment, it is # kept in the original encoding. # * If the detected encoding is binary, `input` is kept in binary. # * Otherwise, `input` is re-encoded into UTF-8 and returned as a # new string. # # This method mutates the encoding of `input`, but not its content. # # @param [String] input # @return [String] # @raise [EncodingError] # def self.reencode_string(input) original_encoding = input.encoding detected_encoding = recognize_encoding(input.force_encoding(Encoding::BINARY)) if detected_encoding.nil? input.force_encoding(original_encoding) elsif detected_encoding == Encoding::BINARY input else input. force_encoding(detected_encoding). encode(Encoding::UTF_8) end end def initialize(name, first_line = 1) @name = name @source = nil @first_line = first_line @lines = nil @line_begins = nil # UTF-32-reencoded source for O(1) slicing @slice_source = nil # Cache for fast lookup @line_for_position = {} @column_for_position = {} end ## # Populate this buffer from correspondingly named file. # # @example # Parser::Source::Buffer.new('foo/bar.rb').read # # @return [Buffer] self # @raise [ArgumentError] if already populated # def read File.open(@name, 'rb') do |io| self.source = io.read end self end ## # Source code contained in this buffer. # # @return [String] source code # @raise [RuntimeError] if buffer is not populated yet # def source if @source.nil? raise RuntimeError, 'Cannot extract source from uninitialized Source::Buffer' end @source end ## # Populate this buffer from a string with encoding autodetection. # `input` is mutated if not frozen. # # @param [String] input # @raise [ArgumentError] if already populated # @raise [EncodingError] if `input` includes invalid byte sequence for the encoding # @return [String] # def source=(input) if defined?(Encoding) input = input.dup if input.frozen? input = self.class.reencode_string(input) unless input.valid_encoding? raise EncodingError, "invalid byte sequence in #{input.encoding.name}" end end self.raw_source = input end ## # Populate this buffer from a string without encoding autodetection. # # @param [String] input # @raise [ArgumentError] if already populated # @return [String] # def raw_source=(input) if @source raise ArgumentError, 'Source::Buffer is immutable' end @source = input.gsub("\r\n".freeze, "\n".freeze).freeze if defined?(Encoding) && !@source.ascii_only? && @source.encoding != Encoding::UTF_32LE && @source.encoding != Encoding::BINARY @slice_source = @source.encode(Encoding::UTF_32LE) end end def slice(range) if @slice_source.nil? @source[range] else @slice_source[range].encode(@source.encoding) end end ## # Convert a character index into the source to a `[line, column]` tuple. # # @param [Integer] position # @return [[Integer, Integer]] `[line, column]` # def decompose_position(position) line_no, line_begin = line_for(position) [ @first_line + line_no, position - line_begin ] end ## # Convert a character index into the source to a line number. # # @param [Integer] position # @return [Integer] line # @api private # def line_for_position(position) @line_for_position[position] ||= begin line_no, _ = line_for(position) @first_line + line_no end end ## # Convert a character index into the source to a column number. # # @param [Integer] position # @return [Integer] column # @api private # def column_for_position(position) @column_for_position[position] ||= begin _, line_begin = line_for(position) position - line_begin end end ## # Return an `Array` of source code lines. # # @return [Array] # def source_lines @lines ||= begin lines = @source.lines.to_a lines << '' if @source.end_with?("\n".freeze) lines.each do |line| line.chomp!("\n".freeze) line.freeze end lines.freeze end end ## # Extract line `lineno` from source, taking `first_line` into account. # # @param [Integer] lineno # @return [String] # @raise [IndexError] if `lineno` is out of bounds # def source_line(lineno) source_lines.fetch(lineno - @first_line).dup end ## # Extract line `lineno` as a new `Range`, taking `first_line` into account. # # @param [Integer] lineno # @return [Range] # @raise [IndexError] if `lineno` is out of bounds # def line_range(lineno) index = lineno - @first_line + 1 if index <= 0 || index > line_begins.size raise IndexError, 'Parser::Source::Buffer: range for line ' \ "#{lineno} requested, valid line numbers are #{@first_line}.." \ "#{@first_line + line_begins.size - 1}" elsif index == line_begins.size Range.new(self, line_begins[-index][1], @source.size) else Range.new(self, line_begins[-index][1], line_begins[-index - 1][1] - 1) end end ## # Number of last line in the buffer # # @return [Integer] # def last_line line_begins.size + @first_line - 1 end private def line_begins unless @line_begins @line_begins, index = [ [ 0, 0 ] ], 0 while index = @source.index("\n".freeze, index) index += 1 @line_begins.unshift [ @line_begins.length, index ] end end @line_begins end if [].respond_to?(:bsearch) def line_for(position) # Fast O(log n) variant for Ruby >=2.0. line_begins.bsearch do |line, line_begin| line_begin <= position end end else def line_for(position) # Slower O(n) variant for Ruby <2.0. line_begins.find do |line, line_begin| line_begin <= position end end end end end end