Hacked By AnonymousFox
require 'strscan'
##
# A recursive-descent parser for RDoc markup.
#
# The parser tokenizes an input string then parses the tokens into a Document.
# Documents can be converted into output formats by writing a visitor like
# RDoc::Markup::ToHTML.
#
# The parser only handles the block-level constructs Paragraph, List,
# ListItem, Heading, Verbatim, BlankLine and Rule. Inline markup such as
# <tt>\+blah\+</tt> is handled separately by RDoc::Markup::AttributeManager.
#
# To see what markup the Parser implements read RDoc. To see how to use
# RDoc markup to format text in your program read RDoc::Markup.
class RDoc::Markup::Parser
include RDoc::Text
##
# List token types
LIST_TOKENS = [
:BULLET,
:LABEL,
:LALPHA,
:NOTE,
:NUMBER,
:UALPHA,
]
##
# Parser error subclass
class Error < RuntimeError; end
##
# Raised when the parser is unable to handle the given markup
class ParseError < Error; end
##
# Enables display of debugging information
attr_accessor :debug
##
# Token accessor
attr_reader :tokens
##
# Parses +str+ into a Document.
#
# Use RDoc::Markup#parse instead of this method.
def self.parse str
parser = new
parser.tokenize str
doc = RDoc::Markup::Document.new
parser.parse doc
end
##
# Returns a token stream for +str+, for testing
def self.tokenize str
parser = new
parser.tokenize str
parser.tokens
end
##
# Creates a new Parser. See also ::parse
def initialize
@binary_input = nil
@current_token = nil
@debug = false
@have_encoding = Object.const_defined? :Encoding
@have_byteslice = ''.respond_to? :byteslice
@input = nil
@input_encoding = nil
@line = 0
@line_pos = 0
@s = nil
@tokens = []
end
##
# Builds a Heading of +level+
def build_heading level
type, text, = get
text = case type
when :TEXT then
skip :NEWLINE
text
else
unget
''
end
RDoc::Markup::Heading.new level, text
end
##
# Builds a List flush to +margin+
def build_list margin
p :list_start => margin if @debug
list = RDoc::Markup::List.new
label = nil
until @tokens.empty? do
type, data, column, = get
case type
when *LIST_TOKENS then
if column < margin || (list.type && list.type != type) then
unget
break
end
list.type = type
peek_type, _, column, = peek_token
case type
when :NOTE, :LABEL then
label = [] unless label
if peek_type == :NEWLINE then
# description not on the same line as LABEL/NOTE
# skip the trailing newline & any blank lines below
while peek_type == :NEWLINE
get
peek_type, _, column, = peek_token
end
# we may be:
# - at end of stream
# - at a column < margin:
# [text]
# blah blah blah
# - at the same column, but with a different type of list item
# [text]
# * blah blah
# - at the same column, with the same type of list item
# [one]
# [two]
# In all cases, we have an empty description.
# In the last case only, we continue.
if peek_type.nil? || column < margin then
empty = true
elsif column == margin then
case peek_type
when type
empty = :continue
when *LIST_TOKENS
empty = true
else
empty = false
end
else
empty = false
end
if empty then
label << data
next if empty == :continue
break
end
end
else
data = nil
end
if label then
data = label << data
label = nil
end
list_item = RDoc::Markup::ListItem.new data
parse list_item, column
list << list_item
else
unget
break
end
end
p :list_end => margin if @debug
if list.empty? then
return nil unless label
return nil unless [:LABEL, :NOTE].include? list.type
list_item = RDoc::Markup::ListItem.new label, RDoc::Markup::BlankLine.new
list << list_item
end
list
end
##
# Builds a Paragraph that is flush to +margin+
def build_paragraph margin
p :paragraph_start => margin if @debug
paragraph = RDoc::Markup::Paragraph.new
until @tokens.empty? do
type, data, column, = get
if type == :TEXT and column == margin then
paragraph << data
break if peek_token.first == :BREAK
data << ' ' if skip :NEWLINE
else
unget
break
end
end
paragraph.parts.last.sub!(/ \z/, '') # cleanup
p :paragraph_end => margin if @debug
paragraph
end
##
# Builds a Verbatim that is indented from +margin+.
#
# The verbatim block is shifted left (the least indented lines start in
# column 0). Each part of the verbatim is one line of text, always
# terminated by a newline. Blank lines always consist of a single newline
# character, and there is never a single newline at the end of the verbatim.
def build_verbatim margin
p :verbatim_begin => margin if @debug
verbatim = RDoc::Markup::Verbatim.new
min_indent = nil
generate_leading_spaces = true
line = ''
until @tokens.empty? do
type, data, column, = get
if type == :NEWLINE then
line << data
verbatim << line
line = ''
generate_leading_spaces = true
next
end
if column <= margin
unget
break
end
if generate_leading_spaces then
indent = column - margin
line << ' ' * indent
min_indent = indent if min_indent.nil? || indent < min_indent
generate_leading_spaces = false
end
case type
when :HEADER then
line << '=' * data
_, _, peek_column, = peek_token
peek_column ||= column + data
indent = peek_column - column - data
line << ' ' * indent
when :RULE then
width = 2 + data
line << '-' * width
_, _, peek_column, = peek_token
peek_column ||= column + width
indent = peek_column - column - width
line << ' ' * indent
when :BREAK, :TEXT then
line << data
else # *LIST_TOKENS
list_marker = case type
when :BULLET then data
when :LABEL then "[#{data}]"
when :NOTE then "#{data}::"
else # :LALPHA, :NUMBER, :UALPHA
"#{data}."
end
line << list_marker
peek_type, _, peek_column = peek_token
unless peek_type == :NEWLINE then
peek_column ||= column + list_marker.length
indent = peek_column - column - list_marker.length
line << ' ' * indent
end
end
end
verbatim << line << "\n" unless line.empty?
verbatim.parts.each { |p| p.slice!(0, min_indent) unless p == "\n" } if min_indent > 0
verbatim.normalize
p :verbatim_end => margin if @debug
verbatim
end
##
# The character offset for the input string at the given +byte_offset+
def char_pos byte_offset
if @have_byteslice then
@input.byteslice(0, byte_offset).length
elsif @have_encoding then
matched = @binary_input[0, byte_offset]
matched.force_encoding @input_encoding
matched.length
else
byte_offset
end
end
##
# Pulls the next token from the stream.
def get
@current_token = @tokens.shift
p :get => @current_token if @debug
@current_token
end
##
# Parses the tokens into an array of RDoc::Markup::XXX objects,
# and appends them to the passed +parent+ RDoc::Markup::YYY object.
#
# Exits at the end of the token stream, or when it encounters a token
# in a column less than +indent+ (unless it is a NEWLINE).
#
# Returns +parent+.
def parse parent, indent = 0
p :parse_start => indent if @debug
until @tokens.empty? do
type, data, column, = get
case type
when :BREAK then
parent << RDoc::Markup::BlankLine.new
skip :NEWLINE, false
next
when :NEWLINE then
# trailing newlines are skipped below, so this is a blank line
parent << RDoc::Markup::BlankLine.new
skip :NEWLINE, false
next
end
# indentation change: break or verbatim
if column < indent then
unget
break
elsif column > indent then
unget
parent << build_verbatim(indent)
next
end
# indentation is the same
case type
when :HEADER then
parent << build_heading(data)
when :RULE then
parent << RDoc::Markup::Rule.new(data)
skip :NEWLINE
when :TEXT then
unget
parent << build_paragraph(indent)
when *LIST_TOKENS then
unget
parent << build_list(indent)
else
type, data, column, line = @current_token
raise ParseError, "Unhandled token #{type} (#{data.inspect}) at #{line}:#{column}"
end
end
p :parse_end => indent if @debug
parent
end
##
# Returns the next token on the stream without modifying the stream
def peek_token
token = @tokens.first || []
p :peek => token if @debug
token
end
##
# Creates the StringScanner
def setup_scanner input
@line = 0
@line_pos = 0
@input = input.dup
if @have_encoding and not @have_byteslice then
@input_encoding = @input.encoding
@binary_input = @input.force_encoding Encoding::BINARY
end
@s = StringScanner.new input
end
##
# Skips the next token if its type is +token_type+.
#
# Optionally raises an error if the next token is not of the expected type.
def skip token_type, error = true
type, = get
return unless type # end of stream
return @current_token if token_type == type
unget
raise ParseError, "expected #{token_type} got #{@current_token.inspect}" if error
end
##
# Turns text +input+ into a stream of tokens
def tokenize input
setup_scanner input
until @s.eos? do
pos = @s.pos
# leading spaces will be reflected by the column of the next token
# the only thing we loose are trailing spaces at the end of the file
next if @s.scan(/ +/)
# note: after BULLET, LABEL, etc.,
# indent will be the column of the next non-newline token
@tokens << case
# [CR]LF => :NEWLINE
when @s.scan(/\r?\n/) then
token = [:NEWLINE, @s.matched, *token_pos(pos)]
@line_pos = char_pos @s.pos
@line += 1
token
# === text => :HEADER then :TEXT
when @s.scan(/(=+)(\s*)/) then
level = @s[1].length
header = [:HEADER, level, *token_pos(pos)]
if @s[2] =~ /^\r?\n/ then
@s.pos -= @s[2].length
header
else
pos = @s.pos
@s.scan(/.*/)
@tokens << header
[:TEXT, @s.matched.sub(/\r$/, ''), *token_pos(pos)]
end
# --- (at least 3) and nothing else on the line => :RULE
when @s.scan(/(-{3,}) *\r?$/) then
[:RULE, @s[1].length - 2, *token_pos(pos)]
# * or - followed by white space and text => :BULLET
when @s.scan(/([*-]) +(\S)/) then
@s.pos -= @s[2].bytesize # unget \S
[:BULLET, @s[1], *token_pos(pos)]
# A. text, a. text, 12. text => :UALPHA, :LALPHA, :NUMBER
when @s.scan(/([a-z]|\d+)\. +(\S)/i) then
# FIXME if tab(s), the column will be wrong
# either support tabs everywhere by first expanding them to
# spaces, or assume that they will have been replaced
# before (and provide a check for that at least in debug
# mode)
list_label = @s[1]
@s.pos -= @s[2].bytesize # unget \S
list_type =
case list_label
when /[a-z]/ then :LALPHA
when /[A-Z]/ then :UALPHA
when /\d/ then :NUMBER
else
raise ParseError, "BUG token #{list_label}"
end
[list_type, list_label, *token_pos(pos)]
# [text] followed by spaces or end of line => :LABEL
when @s.scan(/\[(.*?)\]( +|\r?$)/) then
[:LABEL, @s[1], *token_pos(pos)]
# text:: followed by spaces or end of line => :NOTE
when @s.scan(/(.*?)::( +|\r?$)/) then
[:NOTE, @s[1], *token_pos(pos)]
# anything else: :TEXT
else @s.scan(/(.*?)( )?\r?$/)
token = [:TEXT, @s[1], *token_pos(pos)]
if @s[2] then
@tokens << token
[:BREAK, @s[2], *token_pos(pos + @s[1].length)]
else
token
end
end
end
self
end
##
# Calculates the column (by character) and line of the current token from
# +scanner+ based on +byte_offset+.
def token_pos byte_offset
offset = char_pos byte_offset
[offset - @line_pos, @line]
end
##
# Returns the current token to the token stream
def unget
token = @current_token
p :unget => token if @debug
raise Error, 'too many #ungets' if token == @tokens.first
@tokens.unshift token if token
end
end
Hacked By AnonymousFox1.0, Coded By AnonymousFox