freetype-2.6/src/tools/docmaker/content.py - nest-learning-thermostat/5.1.7/freetype - Git at Google

 #
 #  content.py
 #
 #    Parse comment blocks to build content blocks (library file).
 #
 #  Copyright 2002-2015 by
 #  David Turner.
 #
 #  This file is part of the FreeType project, and may only be used,
 #  modified, and distributed under the terms of the FreeType project
 #  license, LICENSE.TXT.  By continuing to use, modify, or distribute
 #  this file you indicate that you have read the license and
 #  understand and accept it fully.

 #
 # This file contains routines to parse documentation comment blocks,
 # building more structured objects out of them.
 #


 from sources import *
 from utils   import *

 import string, re


 #
 # Regular expressions to detect code sequences.  `Code sequences' are simply
 # code fragments embedded in '{' and '}', as demonstrated in the following
 # example.
 #
 #   {
 #     x = y + z;
 #     if ( zookoo == 2 )
 #     {
 #       foobar();
 #     }
 #   }
 #
 # Note that the indentation of the first opening brace and the last closing
 # brace must be exactly the same.  The code sequence itself should have a
 # larger indentation than the surrounding braces.
 #
 re_code_start = re.compile( r"(\s*){\s*$" )
 re_code_end   = re.compile( r"(\s*)}\s*$" )


 #
 # A regular expression to isolate identifiers from other text.
 #
 re_identifier = re.compile( r'((?:\w|-)*)' )


 #
 # We collect macro names ending in `_H' (group 1), as defined in
 # `config/ftheader.h'.  While outputting the object data, we use this info
 # together with the object's file location (group 2) to emit the appropriate
 # header file macro and its associated file name before the object itself.
 #
 # Example:
 #
 #   #define FT_FREETYPE_H <freetype.h>
 #
 re_header_macro = re.compile( r'^#define\s{1,}(\w{1,}_H)\s{1,}<(.*)>' )


 ################################################################
 ##
 ##  DOC CODE CLASS
 ##
 ##  The `DocCode' class is used to store source code lines.
 ##
 ##  `self.lines' contains a set of source code lines that will be dumped as
 ##  HTML in a <PRE> tag.
 ##
 ##  The object is filled line by line by the parser; it strips the leading
 ##  `margin' space from each input line before storing it in `self.lines'.
 ##
 class  DocCode:

     def  __init__( self, margin, lines ):
         self.lines = []
         self.words = None

         # remove margin spaces
         for l in lines:
             if string.strip( l[:margin] ) == "":
                 l = l[margin:]
             self.lines.append( l )

     def  dump( self, prefix = "", width = 60 ):
         lines = self.dump_lines( 0, width )
         for l in lines:
             print prefix + l

     def  dump_lines( self, margin = 0, width = 60 ):
         result = []
         for l in self.lines:
             result.append( " " * margin + l )
         return result


 ################################################################
 ##
 ##  DOC PARA CLASS
 ##
 ##  `Normal' text paragraphs are stored in the `DocPara' class.
 ##
 ##  `self.words' contains the list of words that make up the paragraph.
 ##
 class  DocPara:

     def  __init__( self, lines ):
         self.lines = None
         self.words = []
         for l in lines:
             l = string.strip( l )
             self.words.extend( string.split( l ) )

     def  dump( self, prefix = "", width = 60 ):
         lines = self.dump_lines( 0, width )
         for l in lines:
             print prefix + l

     def  dump_lines( self, margin = 0, width = 60 ):
         cur    = ""  # current line
         col    = 0   # current width
         result = []

         for word in self.words:
             ln = len( word )
             if col > 0:
                 ln = ln + 1

             if col + ln > width:
                 result.append( " " * margin + cur )
                 cur = word
                 col = len( word )
             else:
                 if col > 0:
                     cur = cur + " "
                 cur = cur + word
                 col = col + ln

         if col > 0:
             result.append( " " * margin + cur )

         return result


 ################################################################
 ##
 ##  DOC FIELD CLASS
 ##
 ##  The `DocField' class stores a list containing either `DocPara' or
 ##  `DocCode' objects.  Each DocField object also has an optional `name'
 ##  that is used when the object corresponds to a field or value definition.
 ##
 class  DocField:

     def  __init__( self, name, lines ):
         self.name  = name  # can be `None' for normal paragraphs/sources
         self.items = []    # list of items

         mode_none  = 0     # start parsing mode
         mode_code  = 1     # parsing code sequences
         mode_para  = 3     # parsing normal paragraph

         margin     = -1    # current code sequence indentation
         cur_lines  = []

         # analyze the markup lines to check whether they contain paragraphs,
         # code sequences, or fields definitions
         #
         start = 0
         mode  = mode_none

         for l in lines:
             # are we parsing a code sequence?
             if mode == mode_code:
                 m = re_code_end.match( l )
                 if m and len( m.group( 1 ) ) <= margin:
                     # that's it, we finished the code sequence
                     code = DocCode( 0, cur_lines )
                     self.items.append( code )
                     margin    = -1
                     cur_lines = []
                     mode      = mode_none
                 else:
                     # otherwise continue the code sequence
                     cur_lines.append( l[margin:] )
             else:
                 # start of code sequence?
                 m = re_code_start.match( l )
                 if m:
                     # save current lines
                     if cur_lines:
                         para = DocPara( cur_lines )
                         self.items.append( para )
                         cur_lines = []

                     # switch to code extraction mode
                     margin = len( m.group( 1 ) )
                     mode   = mode_code
                 else:
                     if not string.split( l ) and cur_lines:
                         # if the line is empty, we end the current paragraph,
                         # if any
                         para = DocPara( cur_lines )
                         self.items.append( para )
                         cur_lines = []
                     else:
                         # otherwise, simply add the line to the current
                         # paragraph
                         cur_lines.append( l )

         if mode == mode_code:
             # unexpected end of code sequence
             code = DocCode( margin, cur_lines )
             self.items.append( code )
         elif cur_lines:
             para = DocPara( cur_lines )
             self.items.append( para )

     def  dump( self, prefix = "" ):
         if self.field:
             print prefix + self.field + " ::"
             prefix = prefix + "----"

         first = 1
         for p in self.items:
             if not first:
                 print ""
             p.dump( prefix )
             first = 0

     def  dump_lines( self, margin = 0, width = 60 ):
         result = []
         nl     = None

         for p in self.items:
             if nl:
                 result.append( "" )

             result.extend( p.dump_lines( margin, width ) )
             nl = 1

         return result


 #
 # A regular expression to detect field definitions.
 #
 # Examples:
 #
 #   foo     ::
 #   foo.bar ::
 #
 re_field = re.compile( r"""
                          \s*
                            (
                              \w*
                            |
                              \w (\w | \.)* \w
                            )
                          \s* ::
                        """, re.VERBOSE )


 ################################################################
 ##
 ##  DOC MARKUP CLASS
 ##
 class  DocMarkup:

     def  __init__( self, tag, lines ):
         self.tag    = string.lower( tag )
         self.fields = []

         cur_lines = []
         field     = None
         mode      = 0

         for l in lines:
             m = re_field.match( l )
             if m:
                 # We detected the start of a new field definition.

                 # first, save the current one
                 if cur_lines:
                     f = DocField( field, cur_lines )
                     self.fields.append( f )
                     cur_lines = []
                     field     = None

                 field     = m.group( 1 )   # record field name
                 ln        = len( m.group( 0 ) )
                 l         = " " * ln + l[ln:]
                 cur_lines = [l]
             else:
                 cur_lines.append( l )

         if field or cur_lines:
             f = DocField( field, cur_lines )
             self.fields.append( f )

     def  get_name( self ):
         try:
             return self.fields[0].items[0].words[0]
         except:
             return None

     def  dump( self, margin ):
         print " " * margin + "<" + self.tag + ">"
         for f in self.fields:
             f.dump( "  " )
         print " " * margin + "</" + self.tag + ">"


 ################################################################
 ##
 ##  DOC CHAPTER CLASS
 ##
 class  DocChapter:

     def  __init__( self, block ):
         self.block    = block
         self.sections = []
         if block:
             self.name  = block.name
             self.title = block.get_markup_words( "title" )
             self.order = block.get_markup_words( "sections" )
         else:
             self.name  = "Other"
             self.title = string.split( "Miscellaneous" )
             self.order = []


 ################################################################
 ##
 ##  DOC SECTION CLASS
 ##
 class  DocSection:

     def  __init__( self, name = "Other" ):
         self.name        = name
         self.blocks      = {}
         self.block_names = []  # ordered block names in section
         self.defs        = []
         self.abstract    = ""
         self.description = ""
         self.order       = []
         self.title       = "ERROR"
         self.chapter     = None

     def  add_def( self, block ):
         self.defs.append( block )

     def  add_block( self, block ):
         self.block_names.append( block.name )
         self.blocks[block.name] = block

     def  process( self ):
         # look up one block that contains a valid section description
         for block in self.defs:
             title = block.get_markup_text( "title" )
             if title:
                 self.title       = title
                 self.abstract    = block.get_markup_words( "abstract" )
                 self.description = block.get_markup_items( "description" )
                 self.order       = block.get_markup_words_all( "order" )
                 return

     def  reorder( self ):
         self.block_names = sort_order_list( self.block_names, self.order )


 ################################################################
 ##
 ##  CONTENT PROCESSOR CLASS
 ##
 class  ContentProcessor:

     def  __init__( self ):
         """Initialize a block content processor."""
         self.reset()

         self.sections = {}    # dictionary of documentation sections
         self.section  = None  # current documentation section

         self.chapters = []    # list of chapters

         self.headers  = {}    # dictionary of header macros

     def  set_section( self, section_name ):
         """Set current section during parsing."""
         if not section_name in self.sections:
             section = DocSection( section_name )
             self.sections[section_name] = section
             self.section                = section
         else:
             self.section = self.sections[section_name]

     def  add_chapter( self, block ):
         chapter = DocChapter( block )
         self.chapters.append( chapter )

     def  reset( self ):
         """Reset the content processor for a new block."""
         self.markups      = []
         self.markup       = None
         self.markup_lines = []

     def  add_markup( self ):
         """Add a new markup section."""
         if self.markup and self.markup_lines:

             # get rid of last line of markup if it's empty
             marks = self.markup_lines
             if len( marks ) > 0 and not string.strip( marks[-1] ):
                 self.markup_lines = marks[:-1]

             m = DocMarkup( self.markup, self.markup_lines )

             self.markups.append( m )

             self.markup       = None
             self.markup_lines = []

     def  process_content( self, content ):
         """Process a block content and return a list of DocMarkup objects
            corresponding to it."""
         markup       = None
         markup_lines = []
         first        = 1

         for line in content:
             found = None
             for t in re_markup_tags:
                 m = t.match( line )
                 if m:
                     found  = string.lower( m.group( 1 ) )
                     prefix = len( m.group( 0 ) )
                     line   = " " * prefix + line[prefix:]   # remove markup from line
                     break

             # is it the start of a new markup section ?
             if found:
                 first = 0
                 self.add_markup()  # add current markup content
                 self.markup = found
                 if len( string.strip( line ) ) > 0:
                     self.markup_lines.append( line )
             elif first == 0:
                 self.markup_lines.append( line )

         self.add_markup()

         return self.markups

     def  parse_sources( self, source_processor ):
         blocks = source_processor.blocks
         count  = len( blocks )

         for n in range( count ):
             source = blocks[n]
             if source.content:
                 # this is a documentation comment, we need to catch
                 # all following normal blocks in the "follow" list
                 #
                 follow = []
                 m = n + 1
                 while m < count and not blocks[m].content:
                     follow.append( blocks[m] )
                     m = m + 1

                 doc_block = DocBlock( source, follow, self )

     def  finish( self ):
         # process all sections to extract their abstract, description
         # and ordered list of items
         #
         for sec in self.sections.values():
             sec.process()

         # process chapters to check that all sections are correctly
         # listed there
         for chap in self.chapters:
             for sec in chap.order:
                 if sec in self.sections:
                     section = self.sections[sec]
                     section.chapter = chap
                     section.reorder()
                     chap.sections.append( section )
                 else:
                     sys.stderr.write( "WARNING: chapter '" +          \
                         chap.name + "' in " + chap.block.location() + \
                         " lists unknown section '" + sec + "'\n" )

         # check that all sections are in a chapter
         #
         others = []
         for sec in self.sections.values():
             if not sec.chapter:
                 sec.reorder()
                 others.append( sec )

         # create a new special chapter for all remaining sections
         # when necessary
         #
         if others:
             chap = DocChapter( None )
             chap.sections = others
             self.chapters.append( chap )


 ################################################################
 ##
 ##  DOC BLOCK CLASS
 ##
 class  DocBlock:

     def  __init__( self, source, follow, processor ):
         processor.reset()

         self.source  = source
         self.code    = []
         self.type    = "ERRTYPE"
         self.name    = "ERRNAME"
         self.section = processor.section
         self.markups = processor.process_content( source.content )

         # compute block type from first markup tag
         try:
             self.type = self.markups[0].tag
         except:
             pass

         # compute block name from first markup paragraph
         try:
             markup = self.markups[0]
             para   = markup.fields[0].items[0]
             name   = para.words[0]
             m = re_identifier.match( name )
             if m:
                 name = m.group( 1 )
             self.name = name
         except:
             pass

         if self.type == "section":
             # detect new section starts
             processor.set_section( self.name )
             processor.section.add_def( self )
         elif self.type == "chapter":
             # detect new chapter
             processor.add_chapter( self )
         else:
             processor.section.add_block( self )

         # now, compute the source lines relevant to this documentation
         # block. We keep normal comments in for obvious reasons (??)
         source = []
         for b in follow:
             if b.format:
                 break
             for l in b.lines:
                 # collect header macro definitions
                 m = re_header_macro.match( l )
                 if m:
                     processor.headers[m.group( 2 )] = m.group( 1 );

                 # we use "/* */" as a separator
                 if re_source_sep.match( l ):
                     break
                 source.append( l )

         # now strip the leading and trailing empty lines from the sources
         start = 0
         end   = len( source ) - 1

         while start < end and not string.strip( source[start] ):
             start = start + 1

         while start < end and not string.strip( source[end] ):
             end = end - 1

         if start == end and not string.strip( source[start] ):
             self.code = []
         else:
             self.code = source[start:end + 1]

     def  location( self ):
         return self.source.location()

     def  get_markup( self, tag_name ):
         """Return the DocMarkup corresponding to a given tag in a block."""
         for m in self.markups:
             if m.tag == string.lower( tag_name ):
                 return m
         return None

     def  get_markup_words( self, tag_name ):
         try:
             m = self.get_markup( tag_name )
             return m.fields[0].items[0].words
         except:
             return []

     def  get_markup_words_all( self, tag_name ):
         try:
             m = self.get_markup( tag_name )
             words = []
             for item in m.fields[0].items:
                 # We honour empty lines in an `<Order>' section element by
                 # adding the sentinel `/empty/'.  The formatter should then
                 # convert it to an appropriate representation in the
                 # `section_enter' function.
                 words += item.words
                 words.append( "/empty/" )
             return words
         except:
             return []

     def  get_markup_text( self, tag_name ):
         result = self.get_markup_words( tag_name )
         return string.join( result )

     def  get_markup_items( self, tag_name ):
         try:
             m = self.get_markup( tag_name )
             return m.fields[0].items
         except:
             return None

 # eof
	#
	# content.py
	#
	# Parse comment blocks to build content blocks (library file).
	#
	# Copyright 2002-2015 by
	# David Turner.
	#
	# This file is part of the FreeType project, and may only be used,
	# modified, and distributed under the terms of the FreeType project
	# license, LICENSE.TXT. By continuing to use, modify, or distribute
	# this file you indicate that you have read the license and
	# understand and accept it fully.

	#
	# This file contains routines to parse documentation comment blocks,
	# building more structured objects out of them.
	#


	from sources import *
	from utils import *

	import string, re


	#
	# Regular expressions to detect code sequences. `Code sequences' are simply
	# code fragments embedded in '{' and '}', as demonstrated in the following
	# example.
	#
	# {
	# x = y + z;
	# if ( zookoo == 2 )
	# {
	# foobar();
	# }
	# }
	#
	# Note that the indentation of the first opening brace and the last closing
	# brace must be exactly the same. The code sequence itself should have a
	# larger indentation than the surrounding braces.
	#
	re_code_start = re.compile( r"(\s){\s$" )
	re_code_end = re.compile( r"(\s)}\s$" )


	#
	# A regular expression to isolate identifiers from other text.
	#
	re_identifier = re.compile( r'((?:\w\|-)*)' )


	#
	# We collect macro names ending in `_H' (group 1), as defined in
	# `config/ftheader.h'. While outputting the object data, we use this info
	# together with the object's file location (group 2) to emit the appropriate
	# header file macro and its associated file name before the object itself.
	#
	# Example:
	#
	# #define FT_FREETYPE_H <freetype.h>
	#
	re_header_macro = re.compile( r'^#define\s{1,}(\w{1,}_H)\s{1,}<(.*)>' )


	################################################################
	##
	## DOC CODE CLASS
	##
	## The `DocCode' class is used to store source code lines.
	##
	## `self.lines' contains a set of source code lines that will be dumped as
	## HTML in a <PRE> tag.
	##
	## The object is filled line by line by the parser; it strips the leading
	## `margin' space from each input line before storing it in `self.lines'.
	##
	class DocCode:

	def __init__( self, margin, lines ):
	self.lines = []
	self.words = None

	# remove margin spaces
	for l in lines:
	if string.strip( l[:margin] ) == "":
	l = l[margin:]
	self.lines.append( l )

	def dump( self, prefix = "", width = 60 ):
	lines = self.dump_lines( 0, width )
	for l in lines:
	print prefix + l

	def dump_lines( self, margin = 0, width = 60 ):
	result = []
	for l in self.lines:
	result.append( " " * margin + l )
	return result



	################################################################
	##
	## DOC PARA CLASS
	##
	## `Normal' text paragraphs are stored in the `DocPara' class.
	##
	## `self.words' contains the list of words that make up the paragraph.
	##
	class DocPara:

	def __init__( self, lines ):
	self.lines = None
	self.words = []
	for l in lines:
	l = string.strip( l )
	self.words.extend( string.split( l ) )

	def dump( self, prefix = "", width = 60 ):
	lines = self.dump_lines( 0, width )
	for l in lines:
	print prefix + l

	def dump_lines( self, margin = 0, width = 60 ):
	cur = "" # current line
	col = 0 # current width
	result = []

	for word in self.words:
	ln = len( word )
	if col > 0:
	ln = ln + 1

	if col + ln > width:
	result.append( " " * margin + cur )
	cur = word
	col = len( word )
	else:
	if col > 0:
	cur = cur + " "
	cur = cur + word
	col = col + ln

	if col > 0:
	result.append( " " * margin + cur )

	return result


	################################################################
	##
	## DOC FIELD CLASS
	##
	## The `DocField' class stores a list containing either `DocPara' or
	## `DocCode' objects. Each DocField object also has an optional `name'
	## that is used when the object corresponds to a field or value definition.
	##
	class DocField:

	def __init__( self, name, lines ):
	self.name = name # can be `None' for normal paragraphs/sources
	self.items = [] # list of items

	mode_none = 0 # start parsing mode
	mode_code = 1 # parsing code sequences
	mode_para = 3 # parsing normal paragraph

	margin = -1 # current code sequence indentation
	cur_lines = []

	# analyze the markup lines to check whether they contain paragraphs,
	# code sequences, or fields definitions
	#
	start = 0
	mode = mode_none

	for l in lines:
	# are we parsing a code sequence?
	if mode == mode_code:
	m = re_code_end.match( l )
	if m and len( m.group( 1 ) ) <= margin:
	# that's it, we finished the code sequence
	code = DocCode( 0, cur_lines )
	self.items.append( code )
	margin = -1
	cur_lines = []
	mode = mode_none
	else:
	# otherwise continue the code sequence
	cur_lines.append( l[margin:] )
	else:
	# start of code sequence?
	m = re_code_start.match( l )
	if m:
	# save current lines
	if cur_lines:
	para = DocPara( cur_lines )
	self.items.append( para )
	cur_lines = []

	# switch to code extraction mode
	margin = len( m.group( 1 ) )
	mode = mode_code
	else:
	if not string.split( l ) and cur_lines:
	# if the line is empty, we end the current paragraph,
	# if any
	para = DocPara( cur_lines )
	self.items.append( para )
	cur_lines = []
	else:
	# otherwise, simply add the line to the current
	# paragraph
	cur_lines.append( l )

	if mode == mode_code:
	# unexpected end of code sequence
	code = DocCode( margin, cur_lines )
	self.items.append( code )
	elif cur_lines:
	para = DocPara( cur_lines )
	self.items.append( para )

	def dump( self, prefix = "" ):
	if self.field:
	print prefix + self.field + " ::"
	prefix = prefix + "----"

	first = 1
	for p in self.items:
	if not first:
	print ""
	p.dump( prefix )
	first = 0

	def dump_lines( self, margin = 0, width = 60 ):
	result = []
	nl = None

	for p in self.items:
	if nl:
	result.append( "" )

	result.extend( p.dump_lines( margin, width ) )
	nl = 1

	return result


	#
	# A regular expression to detect field definitions.
	#
	# Examples:
	#
	# foo ::
	# foo.bar ::
	#
	re_field = re.compile( r"""
	\s*
	(
	\w*
	\|
	\w (\w \| \.)* \w
	)
	\s* ::
	""", re.VERBOSE )


	################################################################
	##
	## DOC MARKUP CLASS
	##
	class DocMarkup:

	def __init__( self, tag, lines ):
	self.tag = string.lower( tag )
	self.fields = []

	cur_lines = []
	field = None
	mode = 0

	for l in lines:
	m = re_field.match( l )
	if m:
	# We detected the start of a new field definition.

	# first, save the current one
	if cur_lines:
	f = DocField( field, cur_lines )
	self.fields.append( f )
	cur_lines = []
	field = None

	field = m.group( 1 ) # record field name
	ln = len( m.group( 0 ) )
	l = " " * ln + l[ln:]
	cur_lines = [l]
	else:
	cur_lines.append( l )

	if field or cur_lines:
	f = DocField( field, cur_lines )
	self.fields.append( f )

	def get_name( self ):
	try:
	return self.fields[0].items[0].words[0]
	except:
	return None

	def dump( self, margin ):
	print " " * margin + "<" + self.tag + ">"
	for f in self.fields:
	f.dump( " " )
	print " " * margin + "</" + self.tag + ">"


	################################################################
	##
	## DOC CHAPTER CLASS
	##
	class DocChapter:

	def __init__( self, block ):
	self.block = block
	self.sections = []
	if block:
	self.name = block.name
	self.title = block.get_markup_words( "title" )
	self.order = block.get_markup_words( "sections" )
	else:
	self.name = "Other"
	self.title = string.split( "Miscellaneous" )
	self.order = []


	################################################################
	##
	## DOC SECTION CLASS
	##
	class DocSection:

	def __init__( self, name = "Other" ):
	self.name = name
	self.blocks = {}
	self.block_names = [] # ordered block names in section
	self.defs = []
	self.abstract = ""
	self.description = ""
	self.order = []
	self.title = "ERROR"
	self.chapter = None

	def add_def( self, block ):
	self.defs.append( block )

	def add_block( self, block ):
	self.block_names.append( block.name )
	self.blocks[block.name] = block

	def process( self ):
	# look up one block that contains a valid section description
	for block in self.defs:
	title = block.get_markup_text( "title" )
	if title:
	self.title = title
	self.abstract = block.get_markup_words( "abstract" )
	self.description = block.get_markup_items( "description" )
	self.order = block.get_markup_words_all( "order" )
	return

	def reorder( self ):
	self.block_names = sort_order_list( self.block_names, self.order )


	################################################################
	##
	## CONTENT PROCESSOR CLASS
	##
	class ContentProcessor:

	def __init__( self ):
	"""Initialize a block content processor."""
	self.reset()

	self.sections = {} # dictionary of documentation sections
	self.section = None # current documentation section

	self.chapters = [] # list of chapters

	self.headers = {} # dictionary of header macros

	def set_section( self, section_name ):
	"""Set current section during parsing."""
	if not section_name in self.sections:
	section = DocSection( section_name )
	self.sections[section_name] = section
	self.section = section
	else:
	self.section = self.sections[section_name]

	def add_chapter( self, block ):
	chapter = DocChapter( block )
	self.chapters.append( chapter )

	def reset( self ):
	"""Reset the content processor for a new block."""
	self.markups = []
	self.markup = None
	self.markup_lines = []

	def add_markup( self ):
	"""Add a new markup section."""
	if self.markup and self.markup_lines:

	# get rid of last line of markup if it's empty
	marks = self.markup_lines
	if len( marks ) > 0 and not string.strip( marks[-1] ):
	self.markup_lines = marks[:-1]

	m = DocMarkup( self.markup, self.markup_lines )

	self.markups.append( m )

	self.markup = None
	self.markup_lines = []

	def process_content( self, content ):
	"""Process a block content and return a list of DocMarkup objects
	corresponding to it."""
	markup = None
	markup_lines = []
	first = 1

	for line in content:
	found = None
	for t in re_markup_tags:
	m = t.match( line )
	if m:
	found = string.lower( m.group( 1 ) )
	prefix = len( m.group( 0 ) )
	line = " " * prefix + line[prefix:] # remove markup from line
	break

	# is it the start of a new markup section ?
	if found:
	first = 0
	self.add_markup() # add current markup content
	self.markup = found
	if len( string.strip( line ) ) > 0:
	self.markup_lines.append( line )
	elif first == 0:
	self.markup_lines.append( line )

	self.add_markup()

	return self.markups

	def parse_sources( self, source_processor ):
	blocks = source_processor.blocks
	count = len( blocks )

	for n in range( count ):
	source = blocks[n]
	if source.content:
	# this is a documentation comment, we need to catch
	# all following normal blocks in the "follow" list
	#
	follow = []
	m = n + 1
	while m < count and not blocks[m].content:
	follow.append( blocks[m] )
	m = m + 1

	doc_block = DocBlock( source, follow, self )

	def finish( self ):
	# process all sections to extract their abstract, description
	# and ordered list of items
	#
	for sec in self.sections.values():
	sec.process()

	# process chapters to check that all sections are correctly
	# listed there
	for chap in self.chapters:
	for sec in chap.order:
	if sec in self.sections:
	section = self.sections[sec]
	section.chapter = chap
	section.reorder()
	chap.sections.append( section )
	else:
	sys.stderr.write( "WARNING: chapter '" + \
	chap.name + "' in " + chap.block.location() + \
	" lists unknown section '" + sec + "'\n" )

	# check that all sections are in a chapter
	#
	others = []
	for sec in self.sections.values():
	if not sec.chapter:
	sec.reorder()
	others.append( sec )

	# create a new special chapter for all remaining sections
	# when necessary
	#
	if others:
	chap = DocChapter( None )
	chap.sections = others
	self.chapters.append( chap )


	################################################################
	##
	## DOC BLOCK CLASS
	##
	class DocBlock:

	def __init__( self, source, follow, processor ):
	processor.reset()

	self.source = source
	self.code = []
	self.type = "ERRTYPE"
	self.name = "ERRNAME"
	self.section = processor.section
	self.markups = processor.process_content( source.content )

	# compute block type from first markup tag
	try:
	self.type = self.markups[0].tag
	except:
	pass

	# compute block name from first markup paragraph
	try:
	markup = self.markups[0]
	para = markup.fields[0].items[0]
	name = para.words[0]
	m = re_identifier.match( name )
	if m:
	name = m.group( 1 )
	self.name = name
	except:
	pass

	if self.type == "section":
	# detect new section starts
	processor.set_section( self.name )
	processor.section.add_def( self )
	elif self.type == "chapter":
	# detect new chapter
	processor.add_chapter( self )
	else:
	processor.section.add_block( self )

	# now, compute the source lines relevant to this documentation
	# block. We keep normal comments in for obvious reasons (??)
	source = []
	for b in follow:
	if b.format:
	break
	for l in b.lines:
	# collect header macro definitions
	m = re_header_macro.match( l )
	if m:
	processor.headers[m.group( 2 )] = m.group( 1 );

	# we use "/* */" as a separator
	if re_source_sep.match( l ):
	break
	source.append( l )

	# now strip the leading and trailing empty lines from the sources
	start = 0
	end = len( source ) - 1

	while start < end and not string.strip( source[start] ):
	start = start + 1

	while start < end and not string.strip( source[end] ):
	end = end - 1

	if start == end and not string.strip( source[start] ):
	self.code = []
	else:
	self.code = source[start:end + 1]

	def location( self ):
	return self.source.location()

	def get_markup( self, tag_name ):
	"""Return the DocMarkup corresponding to a given tag in a block."""
	for m in self.markups:
	if m.tag == string.lower( tag_name ):
	return m
	return None

	def get_markup_words( self, tag_name ):
	try:
	m = self.get_markup( tag_name )
	return m.fields[0].items[0].words
	except:
	return []

	def get_markup_words_all( self, tag_name ):
	try:
	m = self.get_markup( tag_name )
	words = []
	for item in m.fields[0].items:
	# We honour empty lines in an `<Order>' section element by
	# adding the sentinel `/empty/'. The formatter should then
	# convert it to an appropriate representation in the
	# `section_enter' function.
	words += item.words
	words.append( "/empty/" )
	return words
	except:
	return []

	def get_markup_text( self, tag_name ):
	result = self.get_markup_words( tag_name )
	return string.join( result )

	def get_markup_items( self, tag_name ):
	try:
	m = self.get_markup( tag_name )
	return m.fields[0].items
	except:
	return None

	# eof