AlkantarClanX12
Current Path : /opt/alt/ruby18/lib64/ruby/1.8/rexml/ |
Current File : //opt/alt/ruby18/lib64/ruby/1.8/rexml/source.rb |
require 'rexml/encoding' module REXML # Generates Source-s. USE THIS CLASS. class SourceFactory # Generates a Source object # @param arg Either a String, or an IO # @return a Source, or nil if a bad argument was given def SourceFactory::create_from(arg) if arg.kind_of? String Source.new(arg) elsif arg.respond_to? :read and arg.respond_to? :readline and arg.respond_to? :nil? and arg.respond_to? :eof? IOSource.new(arg) elsif arg.kind_of? Source arg else raise "#{arg.class} is not a valid input stream. It must walk \n"+ "like either a String, an IO, or a Source." end end end # A Source can be searched for patterns, and wraps buffers and other # objects and provides consumption of text class Source include Encoding # The current buffer (what we're going to read next) attr_reader :buffer # The line number of the last consumed text attr_reader :line attr_reader :encoding # Constructor # @param arg must be a String, and should be a valid XML document # @param encoding if non-null, sets the encoding of the source to this # value, overriding all encoding detection def initialize(arg, encoding=nil) @orig = @buffer = arg if encoding self.encoding = encoding else self.encoding = check_encoding( @buffer ) end @line = 0 end # Inherited from Encoding # Overridden to support optimized en/decoding def encoding=(enc) return unless super @line_break = encode( '>' ) if enc != UTF_8 @buffer = decode(@buffer) @to_utf = true else @to_utf = false end end # Scans the source for a given pattern. Note, that this is not your # usual scan() method. For one thing, the pattern argument has some # requirements; for another, the source can be consumed. You can easily # confuse this method. Originally, the patterns were easier # to construct and this method more robust, because this method # generated search regexes on the fly; however, this was # computationally expensive and slowed down the entire REXML package # considerably, since this is by far the most commonly called method. # @param pattern must be a Regexp, and must be in the form of # /^\s*(#{your pattern, with no groups})(.*)/. The first group # will be returned; the second group is used if the consume flag is # set. # @param consume if true, the pattern returned will be consumed, leaving # everything after it in the Source. # @return the pattern, if found, or nil if the Source is empty or the # pattern is not found. def scan(pattern, cons=false) return nil if @buffer.nil? rv = @buffer.scan(pattern) @buffer = $' if cons and rv.size>0 rv end def read end def consume( pattern ) @buffer = $' if pattern.match( @buffer ) end def match_to( char, pattern ) return pattern.match(@buffer) end def match_to_consume( char, pattern ) md = pattern.match(@buffer) @buffer = $' return md end def match(pattern, cons=false) md = pattern.match(@buffer) @buffer = $' if cons and md return md end # @return true if the Source is exhausted def empty? @buffer == "" end def position @orig.index( @buffer ) end # @return the current line in the source def current_line lines = @orig.split res = lines.grep @buffer[0..30] res = res[-1] if res.kind_of? Array lines.index( res ) if res end end # A Source that wraps an IO. See the Source class for method # documentation class IOSource < Source #attr_reader :block_size # block_size has been deprecated def initialize(arg, block_size=500, encoding=nil) @er_source = @source = arg @to_utf = false # Determining the encoding is a deceptively difficult issue to resolve. # First, we check the first two bytes for UTF-16. Then we # assume that the encoding is at least ASCII enough for the '>', and # we read until we get one of those. This gives us the XML declaration, # if there is one. If there isn't one, the file MUST be UTF-8, as per # the XML spec. If there is one, we can determine the encoding from # it. @buffer = "" str = @source.read( 2 ) if encoding self.encoding = encoding elsif 0xfe == str[0] && 0xff == str[1] @line_break = "\000>" elsif 0xff == str[0] && 0xfe == str[1] @line_break = ">\000" elsif 0xef == str[0] && 0xbb == str[1] str += @source.read(1) str = '' if (0xbf == str[2]) @line_break = ">" else @line_break = ">" end super str+@source.readline( @line_break ) end def scan(pattern, cons=false) rv = super # You'll notice that this next section is very similar to the same # section in match(), but just a liiittle different. This is # because it is a touch faster to do it this way with scan() # than the way match() does it; enough faster to warrent duplicating # some code if rv.size == 0 until @buffer =~ pattern or @source.nil? begin # READLINE OPT #str = @source.read(@block_size) str = @source.readline(@line_break) str = decode(str) if @to_utf and str @buffer << str rescue Iconv::IllegalSequence raise rescue @source = nil end end rv = super end rv.taint rv end def read begin str = @source.readline(@line_break) str = decode(str) if @to_utf and str @buffer << str rescue Exception, NameError @source = nil end end def consume( pattern ) match( pattern, true ) end def match( pattern, cons=false ) rv = pattern.match(@buffer) @buffer = $' if cons and rv while !rv and @source begin str = @source.readline(@line_break) str = decode(str) if @to_utf and str @buffer << str rv = pattern.match(@buffer) @buffer = $' if cons and rv rescue @source = nil end end rv.taint rv end def empty? super and ( @source.nil? || @source.eof? ) end def position @er_source.stat.pipe? ? 0 : @er_source.pos end # @return the current line in the source def current_line begin pos = @er_source.pos # The byte position in the source lineno = @er_source.lineno # The XML < position in the source @er_source.rewind line = 0 # The \r\n position in the source begin while @er_source.pos < pos @er_source.readline line += 1 end rescue end rescue IOError pos = -1 line = -1 end [pos, lineno, line] end end end