[Zope3-checkins] CVS: zopeproducts/zwiki/StructuredText - ClassicDocumentClass.py:1.1 ClassicDocumentClass.pyc:1.1 ClassicStructuredText.py:1.1 ClassicStructuredText.pyc:1.1 DocBookClass.py:1.1 DocBookClass.pyc:1.1 DocumentClass.py:1.1 DocumentClass.pyc:1.1 DocumentWithImages.py:1.1 DocumentWithImages.pyc:1.1 HTMLClass.py:1.1 HTMLClass.pyc:1.1 HTMLWithImages.py:1.1 HTMLWithImages.pyc:1.1 ST.py:1.1 ST.pyc:1.1 STDOM.py:1.1 STDOM.pyc:1.1 STNG.txt:1.1 STletters.py:1.1 STletters.pyc:1.1 StructuredText.py:1.1 StructuredText.pyc:1.1 __init__.py:1.1 __init__.pyc:1.1

Stephan Richter srichter@cbu.edu
Tue, 8 Apr 2003 00:11:32 -0400


Update of /cvs-repository/zopeproducts/zwiki/StructuredText
In directory cvs.zope.org:/tmp/cvs-serv5333/StructuredText

Added Files:
	ClassicDocumentClass.py ClassicDocumentClass.pyc 
	ClassicStructuredText.py ClassicStructuredText.pyc 
	DocBookClass.py DocBookClass.pyc DocumentClass.py 
	DocumentClass.pyc DocumentWithImages.py DocumentWithImages.pyc 
	HTMLClass.py HTMLClass.pyc HTMLWithImages.py 
	HTMLWithImages.pyc ST.py ST.pyc STDOM.py STDOM.pyc STNG.txt 
	STletters.py STletters.pyc StructuredText.py 
	StructuredText.pyc __init__.py __init__.pyc 
Log Message:
Add structured text until Zope 3 decides what it wants to do.


=== Added File zopeproducts/zwiki/StructuredText/ClassicDocumentClass.py === (520/620 lines abridged)
##############################################################################
#
# Copyright (c) 2001 Zope Corporation and Contributors. All Rights Reserved.
#
# This software is subject to the provisions of the Zope Public License,
# Version 2.0 (ZPL).  A copy of the ZPL should accompany this distribution.
# THIS SOFTWARE IS PROVIDED "AS IS" AND ANY AND ALL EXPRESS OR IMPLIED
# WARRANTIES ARE DISCLAIMED, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED
# WARRANTIES OF TITLE, MERCHANTABILITY, AGAINST INFRINGEMENT, AND FITNESS
# FOR A PARTICULAR PURPOSE
#
##############################################################################

import re, ST, STDOM
from STletters import letters

StringType=type('')
ListType=type([])

class StructuredTextExample(ST.StructuredTextParagraph):
    """Represents a section of document with literal text, as for examples"""

    def __init__(self, subs, **kw):
       t=[]; a=t.append
       for s in subs: a(s.getNodeValue())
       apply(ST.StructuredTextParagraph.__init__,
             (self, '\n\n'.join(t), ()),
             kw)

    def getColorizableTexts(self): return ()
    def setColorizableTexts(self, src): pass # never color examples

class StructuredTextBullet(ST.StructuredTextParagraph):
    """Represents a section of a document with a title and a body"""

class StructuredTextNumbered(ST.StructuredTextParagraph):
    """Represents a section of a document with a title and a body"""

class StructuredTextDescriptionTitle(ST.StructuredTextParagraph):
    """Represents a section of a document with a title and a body"""

class StructuredTextDescriptionBody(ST.StructuredTextParagraph):
    """Represents a section of a document with a title and a body"""

class StructuredTextDescription(ST.StructuredTextParagraph):
    """Represents a section of a document with a title and a body"""
    
    def __init__(self, title, src, subs, **kw):
       apply(ST.StructuredTextParagraph.__init__, (self, src, subs), kw)
       self._title=title

[-=- -=- -=- 520 lines omitted -=- -=- -=-]

                   s,
        expr = re.compile('\s*\*\*([ \n%s0-9.:/;\-,!\?\'\"]+)\*\*' % letters).search
        ):

        r=expr(s)
        if r:
           start, end = r.span(1)
           return (StructuredTextStrong(s[start:end]), start-2, end+2)
        else:
           return None


      
    def doc_href1(self, s,
        expr=re.compile("(\"[ %s0-9\n\-\.\,\;\(\)\/\:\/\*\']+\")(:)([a-zA-Z0-9\@\.\,\?\!\/\:\;\-\#\~]+)([,]*\s*)" % letters).search
        ):
        return self.doc_href(s, expr)

    def  doc_href2(self, s,
        expr=re.compile('(\"[ %s0-9\n\-\.\:\;\(\)\/\*\']+\")([,]+\s+)([a-zA-Z0-9\@\.\,\?\!\/\:\;\-\#\~]+)(\s*)' % letters).search
        ):
        return self.doc_href(s, expr)

    def doc_href(self, s, expr, punctuation = re.compile("[\,\.\?\!\;]+").match):

        r=expr(s)
          
        if r:
            # need to grab the href part and the
            # beginning part
                        
            start,e = r.span(1)
            name    = s[start:e]
            name    = name.replace('"','',2)
            #start   = start + 1
            st,end   = r.span(3)
            if punctuation(s[end-1:end]):
                end = end -1
            link    = s[st:end]
            #end     = end - 1                        
            
            # name is the href title, link is the target
            # of the href
            return (StructuredTextLink(name, href=link),
                    start, end)
            
            #return (StructuredTextLink(s[start:end], href=s[start:end]),
            #        start, end)
        else:
            return None


=== Added File zopeproducts/zwiki/StructuredText/ClassicDocumentClass.pyc ===
  <Binary-ish file>

=== Added File zopeproducts/zwiki/StructuredText/ClassicStructuredText.py === (451/551 lines abridged)
#! /usr/bin/env python -- # -*- python -*-
##############################################################################
#
# Copyright (c) 2001 Zope Corporation and Contributors. All Rights Reserved.
# 
# This software is subject to the provisions of the Zope Public License,
# Version 2.0 (ZPL).  A copy of the ZPL should accompany this distribution.
# THIS SOFTWARE IS PROVIDED "AS IS" AND ANY AND ALL EXPRESS OR IMPLIED
# WARRANTIES ARE DISCLAIMED, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED
# WARRANTIES OF TITLE, MERCHANTABILITY, AGAINST INFRINGEMENT, AND FITNESS
# FOR A PARTICULAR PURPOSE
# 
##############################################################################
'''Structured Text Manipulation

Parse a structured text string into a form that can be used with 
structured formats, like html.

Structured text is text that uses indentation and simple
symbology to indicate the structure of a document.  

A structured string consists of a sequence of paragraphs separated by
one or more blank lines.  Each paragraph has a level which is defined
as the minimum indentation of the paragraph.  A paragraph is a
sub-paragraph of another paragraph if the other paragraph is the last
preceding paragraph that has a lower level.

Special symbology is used to indicate special constructs:

- A single-line paragraph whose immediately succeeding paragraphs are lower
  level is treated as a header.

- A paragraph that begins with a '-', '*', or 'o' is treated as an
  unordered list (bullet) element.

- A paragraph that begins with a sequence of digits followed by a
  white-space character is treated as an ordered list element.

- A paragraph that begins with a sequence of sequences, where each
  sequence is a sequence of digits or a sequence of letters followed
  by a period, is treated as an ordered list element.

- A paragraph with a first line that contains some text, followed by
  some white-space and '--' is treated as
  a descriptive list element. The leading text is treated as the
  element title.

- Sub-paragraphs of a paragraph that ends in the word 'example' or the
  word 'examples', or '::' is treated as example code and is output as is.


[-=- -=- -=- 451 lines omitted -=- -=- -=-]

        text)
    
    text = re.sub(
        r'([\0- ,])\[([^]]+)\.html\]([\0- ,.:])',
        r'\1<a href="\2.html">[\2]</a>\3',
        text)

    return HTML(text,level=level)
    

def main():
    import sys, getopt

    opts,args=getopt.getopt(sys.argv[1:],'twl')

    if args:
        [infile]=args
        s=open(infile,'r').read()
    else:
        s=sys.stdin.read()

    if opts:

        if filter(lambda o: o[0]=='-w', opts):
            print 'Content-Type: text/html\n'

        if filter(lambda o: o[0]=='-l', opts):
            import locale
            locale.setlocale(locale.LC_ALL,"")

        if s[:2]=='#!':
            s=re.sub('^#![^\n]+','',s)

        mo = re.compile('([\0-\n]*\n)').match(s)
        if mo is not None:
            s = s[len(mo.group(0)) :]
            
        s=str(html_with_references(s))
        if s[:4]=='<h1>':
            t=s[4: s.find('</h1>')]
            s='''<html><head><title>%s</title>
            </head><body>
            %s
            </body></html>
            ''' % (t,s)
        print s
    else:
        print html_with_references(s)

if __name__=="__main__": main()


=== Added File zopeproducts/zwiki/StructuredText/ClassicStructuredText.pyc ===
  <Binary-ish file>

=== Added File zopeproducts/zwiki/StructuredText/DocBookClass.py ===
##############################################################################
#
# Copyright (c) 2001 Zope Corporation and Contributors. All Rights Reserved.
# 
# This software is subject to the provisions of the Zope Public License,
# Version 2.0 (ZPL).  A copy of the ZPL should accompany this distribution.
# THIS SOFTWARE IS PROVIDED "AS IS" AND ANY AND ALL EXPRESS OR IMPLIED
# WARRANTIES ARE DISCLAIMED, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED
# WARRANTIES OF TITLE, MERCHANTABILITY, AGAINST INFRINGEMENT, AND FITNESS
# FOR A PARTICULAR PURPOSE
# 
##############################################################################


class DocBookClass:

   element_types={
      '#text': '_text',
      'StructuredTextDocument': 'document',
      'StructuredTextParagraph': 'paragraph',
      'StructuredTextExample': 'example',
      'StructuredTextBullet': 'bullet',
      'StructuredTextNumbered': 'numbered',
      'StructuredTextDescription': 'description',
      'StructuredTextDescriptionTitle': 'descriptionTitle',
      'StructuredTextDescriptionBody': 'descriptionBody',
      'StructuredTextSection': 'section',
      'StructuredTextSectionTitle': 'sectionTitle',
      'StructuredTextLiteral': 'literal',
      'StructuredTextEmphasis': 'emphasis',
      'StructuredTextStrong': 'strong',
      'StructuredTextLink': 'link',
      'StructuredTextXref': 'xref',
      'StructuredTextSGML': 'sgml',
      }      

   def dispatch(self, doc, level, output):
      getattr(self, self.element_types[doc.getNodeName()])(doc, level, output)
      
   def __call__(self, doc, level=1):
      r=[]
      self.dispatch(doc, level-1, r.append)
      return ''.join(r)

   def _text(self, doc, level, output):
      if doc.getNodeName() == 'StructuredTextLiteral':
         output(doc.getNodeValue())
      else:
         output(doc.getNodeValue().lstrip())         

   def document(self, doc, level, output):
      output('<!DOCTYPE book PUBLIC "-//OASIS//DTD DocBook V4.1//EN">\n')
      output('<book>\n')
      children=doc.getChildNodes()
      if (children and
          children[0].getNodeName() == 'StructuredTextSection'):
         output('<title>%s</title>' % children[0].getChildNodes()[0].getNodeValue())
      for c in children:
         getattr(self, self.element_types[c.getNodeName()])(c, level, output)
      output('</book>\n')

   def section(self, doc, level, output):
      output('\n<section>\n')
      children=doc.getChildNodes()
      for c in children:
         getattr(self, self.element_types[c.getNodeName()])(c, level+1, output)
      output('\n</section>\n')
      
   def sectionTitle(self, doc, level, output):
      output('<title>')
      for c in doc.getChildNodes():
         try:
            getattr(self, self.element_types[c.getNodeName()])(c, level, output)
         except:
            print "failed", c.getNodeName(), c
      output('</title>\n')

   def description(self, doc, level, output):
      p=doc.getPreviousSibling()
      if p is None or  p.getNodeName() is not doc.getNodeName():         
         output('<variablelist>\n')
      for c in doc.getChildNodes():
         getattr(self, self.element_types[c.getNodeName()])(c, level, output)
      n=doc.getNextSibling()
      if n is None or n.getNodeName() is not doc.getNodeName():         
         output('</variablelist>\n')
      
   def descriptionTitle(self, doc, level, output):
      output('<varlistentry><term>\n')
      for c in doc.getChildNodes():
         getattr(self, self.element_types[c.getNodeName()])(c, level, output)
      output('</term>\n')
      
   def descriptionBody(self, doc, level, output):
      output('<listitem><para>\n')
      for c in doc.getChildNodes():
         getattr(self, self.element_types[c.getNodeName()])(c, level, output)
      output('</para></listitem>\n')
      output('</varlistentry>\n')

   def bullet(self, doc, level, output):
      p=doc.getPreviousSibling()
      if p is None or p.getNodeName() is not doc.getNodeName():         
         output('<itemizedlist>\n')
      output('<listitem><para>\n')

      for c in doc.getChildNodes():
         getattr(self, self.element_types[c.getNodeName()])(c, level, output)
      n=doc.getNextSibling()
      output('</para></listitem>\n')
      if n is None or n.getNodeName() is not doc.getNodeName():         
         output('</itemizedlist>\n')

   def numbered(self, doc, level, output):
      p=doc.getPreviousSibling()
      if p is None or p.getNodeName() is not doc.getNodeName():         
         output('<orderedlist>\n')
      output('<listitem><para>\n')
      for c in doc.getChildNodes():
         getattr(self, self.element_types[c.getNodeName()])(c, level, output)
      n=doc.getNextSibling()
      output('</para></listitem>\n')
      if n is None or n.getNodeName() is not doc.getNodeName():         
         output('</orderedlist>\n')

   def example(self, doc, level, output):
      i=0
      for c in doc.getChildNodes():
         if i==0:
            output('<programlisting>\n<![CDATA[\n')
            ##
            ## eek.  A ']]>' in your body will break this...
            ##
            output(prestrip(c.getNodeValue()))
            output('\n]]></programlisting>\n')
         else:
            getattr(self, self.element_types[c.getNodeName()])(
               c, level, output)

   def paragraph(self, doc, level, output):
      output('<para>\n\n')      
      for c in doc.getChildNodes():
         getattr(self, self.element_types[c.getNodeName()])(
            c, level, output)
      output('</para>\n\n')
            
   def link(self, doc, level, output):
      output('<ulink url="%s">' % doc.href)
      for c in doc.getChildNodes():
         getattr(self, self.element_types[c.getNodeName()])(c, level, output)
      output('</ulink>')

   def emphasis(self, doc, level, output):
      output('<emphasis>')
      for c in doc.getChildNodes():
         getattr(self, self.element_types[c.getNodeName()])(c, level, output)
      output('</emphasis> ')

   def literal(self, doc, level, output):
      output('<literal>')
      for c in doc.getChildNodes():
         output(c.getNodeValue())
      output('</literal>')

   def strong(self, doc, level, output):
      output('<emphasis>')
      for c in doc.getChildNodes():
         getattr(self, self.element_types[c.getNodeName()])(c, level, output)
      output('</emphasis>')

   def xref(self, doc, level, output):
      output('<xref linkend="%s"/>' % doc.getNodeValue())

   def sgml(self, doc, level, output):
      output(doc.getNodeValue())


def prestrip(v):
   v=v.replace( '\r\n', '\n')
   v=v.replace( '\r', '\n')
   v=v.replace( '\t', '        ')
   lines=v.split('\n')
   indent=len(lines[0])
   for line in lines:
      if not len(line): continue
      i=len(line)-len(line.lstrip())
      if i < indent:
         indent=i
   nlines=[]
   for line in lines:
      nlines.append(line[indent:])
   return '\n'.join(nlines, '\n')


class DocBookChapter(DocBookClass):

   def document(self, doc, level, output):
      output('<chapter>\n')
      children=doc.getChildNodes()
      if (children and
          children[0].getNodeName() == 'StructuredTextSection'):
         output('<title>%s</title>' % children[0].getChildNodes()[0].getNodeValue())
      for c in children[0].getChildNodes()[1:]:
         getattr(self, self.element_types[c.getNodeName()])(c, level, output)
      output('</chapter>\n')

ets = DocBookClass.element_types
ets.update({'StructuredTextImage': 'image'})      

class DocBookChapterWithFigures(DocBookChapter):

    element_types = ets

    def image(self, doc, level, output):
       if hasattr(doc, 'key'):
          output('<figure id="%s"><title>%s</title>\n' % (doc.key, doc.getNodeValue()) )
       else:
          output('<figure><title>%s</title>\n' % doc.getNodeValue())
##        for c in doc.getChildNodes():
##            getattr(self, self.element_types[c.getNodeName()])(c, level, output)
       output('<graphic fileref="%s"></graphic>\n</figure>\n' % doc.href)    

class DocBookArticle(DocBookClass):

   def document(self, doc, level, output):
      output('<!DOCTYPE article PUBLIC "-//OASIS//DTD DocBook V4.1//EN">\n')
      output('<article>\n')
      children=doc.getChildNodes()
      if (children and
          children[0].getNodeName() == 'StructuredTextSection'):
         output('<articleinfo>\n<title>%s</title>\n</articleinfo>\n' %
                children[0].getChildNodes()[0].getNodeValue())
      for c in children:
         getattr(self, self.element_types[c.getNodeName()])(c, level, output)
      output('</article>\n')


class DocBookBook:

   def __init__(self, title=''):
      self.title = title
      self.chapters = []

   def addChapter(self, chapter):
      self.chapters.append(chapter)

   def read(self):
      out = '<!DOCTYPE book PUBLIC "-//OASIS//DTD DocBook V4.1//EN">\n<book>\n'
      out = out + '<title>%s</title>\n' % self.title
      for chapter in self.chapters:
         out = out + chapter + '\n</book>\n'

      return out

   def __str__(self):
      return self.read()
         



=== Added File zopeproducts/zwiki/StructuredText/DocBookClass.pyc ===
  <Binary-ish file>

=== Added File zopeproducts/zwiki/StructuredText/DocumentClass.py === (848/948 lines abridged)
##############################################################################
#
# Copyright (c) 2001 Zope Corporation and Contributors. All Rights Reserved.
# 
# This software is subject to the provisions of the Zope Public License,
# Version 2.0 (ZPL).  A copy of the ZPL should accompany this distribution.
# THIS SOFTWARE IS PROVIDED "AS IS" AND ANY AND ALL EXPRESS OR IMPLIED
# WARRANTIES ARE DISCLAIMED, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED
# WARRANTIES OF TITLE, MERCHANTABILITY, AGAINST INFRINGEMENT, AND FITNESS
# FOR A PARTICULAR PURPOSE
#
##############################################################################

import re, ST, STDOM
from STletters import letters, digits, literal_punc, under_punc,\
     strongem_punc, phrase_delimiters,dbl_quoted_punc

StringType=type('')
ListType=type([])

def flatten(obj, append):
   if obj.getNodeType()==STDOM.TEXT_NODE:
      append(obj.getNodeValue())
   else:
      for child in obj.getChildNodes():
         flatten(child, append)


class StructuredTextExample(ST.StructuredTextParagraph):
    """Represents a section of document with literal text, as for examples"""

    def __init__(self, subs, **kw):
        t=[]
        a=t.append
        for s in subs:
            flatten(s, a)
        apply(ST.StructuredTextParagraph.__init__,
              (self, '\n\n'.join(t), ()),
              kw)

    def getColorizableTexts(self): return ()
    def setColorizableTexts(self, src): pass # never color examples

class StructuredTextBullet(ST.StructuredTextParagraph):
    """Represents a section of a document with a title and a body"""

class StructuredTextNumbered(ST.StructuredTextParagraph):
    """Represents a section of a document with a title and a body"""

class StructuredTextDescriptionTitle(ST.StructuredTextParagraph):

[-=- -=- -=- 848 lines omitted -=- -=- -=-]


    def doc_href(self, s, expr, punctuation=re.compile(r"[\,\.\?\!\;]+").match):

        r=expr(s)

        if r:
            # need to grab the href part and the
            # beginning part
                        
            start,e = r.span(1)
            name    = s[start:e]
            name    = name.replace('"','',2)
            #start   = start + 1
            st,end   = r.span(3)
            if punctuation(s[end-1:end]):
                end = end -1
            link    = s[st:end]
            #end     = end - 1                        
            
            # name is the href title, link is the target
            # of the href
            return (StructuredTextLink(name, href=link),
                    start, end)
            
            #return (StructuredTextLink(s[start:end], href=s[start:end]),
            #        start, end)
        else:
            return None
    
    def doc_sgml(self,s,expr=re.compile(r"\<[%s0-9\.\=\'\"\:\/\-\#\+\s\*]+\>" % letters).search):
        """
        SGML text is ignored and outputed as-is
        """
        r = expr(s)
        if r:
            start,end = r.span()
            text = s[start:end]
            return (StructuredTextSGML(text),start,end)


    def doc_xref(self, s,
        expr = re.compile('\[([%s0-9\-.:/;,\n\r\~]+)\]' % letters).search
        ):
        r = expr(s)
        if r:
            start, end = r.span(1)
            return (StructuredTextXref(s[start:end]), start-1, end+1)
        else:
            return None



=== Added File zopeproducts/zwiki/StructuredText/DocumentClass.pyc ===
  <Binary-ish file>

=== Added File zopeproducts/zwiki/StructuredText/DocumentWithImages.py ===
##############################################################################
#
# Copyright (c) 2001 Zope Corporation and Contributors. All Rights Reserved.
# 
# This software is subject to the provisions of the Zope Public License,
# Version 2.0 (ZPL).  A copy of the ZPL should accompany this distribution.
# THIS SOFTWARE IS PROVIDED "AS IS" AND ANY AND ALL EXPRESS OR IMPLIED
# WARRANTIES ARE DISCLAIMED, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED
# WARRANTIES OF TITLE, MERCHANTABILITY, AGAINST INFRINGEMENT, AND FITNESS
# FOR A PARTICULAR PURPOSE
# 
##############################################################################

import re
from DocumentClass import *

class StructuredTextImage(StructuredTextMarkup):
    "A simple embedded image"

class DocumentWithImages(DocumentClass):   
    """

    """


    text_types = [
       'doc_img',
       ] + DocumentClass.text_types


    def doc_img(
        self, s,
        expr1=re.compile('\"([ _a-zA-Z0-9*.:/;,\-\n\~]+)\":img:([a-zA-Z0-9\_\-.:/;,\n\~]+)').search,
        expr2=re.compile('\"([ _a-zA-Z0-9*.:/;,\-\n\~]+)\":img:([a-zA-Z0-9\_\-.:/;,\n\~]+):([a-zA-Z0-9_\-.:/;,\n\~]+)').search
        ):

        r = expr2(s)
        if r:

            # Warning: the regex are getting confused when the string after :img:
            # is an URL containing ":" (Collector #2276)
            # Ugly workaround: check if have an absolute URL here. Not a cool solution,
            # but it works !

            if not r.group(2) in ['http','file','ftp']:

                 startt, endt = r.span(1)
                 startk, endk = r.span(2)
                 starth, endh = r.span(3)
                 start, end = r.span()
    
                 key = s[startk:endk]
            
                 return (StructuredTextImage(s[startt:endt], href=s[starth:endh], key=s[startk:endk]), 
                      start, end)

            
        r=expr1(s)
        if r:
            startt, endt = r.span(1)
            starth, endh = r.span(2)
            start, end = r.span()
            return (StructuredTextImage(s[startt:endt], href=s[starth:endh]),
                    start, end)

        return None



=== Added File zopeproducts/zwiki/StructuredText/DocumentWithImages.pyc ===
  <Binary-ish file>

=== Added File zopeproducts/zwiki/StructuredText/HTMLClass.py ===
##############################################################################
#
# Copyright (c) 2001 Zope Corporation and Contributors. All Rights Reserved.
#
# This software is subject to the provisions of the Zope Public License,
# Version 2.0 (ZPL).  A copy of the ZPL should accompany this distribution.
# THIS SOFTWARE IS PROVIDED "AS IS" AND ANY AND ALL EXPRESS OR IMPLIED
# WARRANTIES ARE DISCLAIMED, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED
# WARRANTIES OF TITLE, MERCHANTABILITY, AGAINST INFRINGEMENT, AND FITNESS
# FOR A PARTICULAR PURPOSE
#
##############################################################################

from cgi import escape
import re, sys, ST

class HTMLClass:

    element_types={
        '#text': '_text',
        'StructuredTextDocument': 'document',
        'StructuredTextParagraph': 'paragraph',
        'StructuredTextExample': 'example',
        'StructuredTextBullet': 'bullet',
        'StructuredTextNumbered': 'numbered',
        'StructuredTextDescription': 'description',
        'StructuredTextDescriptionTitle': 'descriptionTitle',
        'StructuredTextDescriptionBody': 'descriptionBody',
        'StructuredTextSection': 'section',
        'StructuredTextSectionTitle': 'sectionTitle',
        'StructuredTextLiteral': 'literal',
        'StructuredTextEmphasis': 'emphasis',
        'StructuredTextStrong': 'strong',
        'StructuredTextLink': 'link',
        'StructuredTextXref': 'xref',
        'StructuredTextInnerLink':'innerLink',
        'StructuredTextNamedLink':'namedLink',
        'StructuredTextUnderline':'underline',
        'StructuredTextTable':'table',
        'StructuredTextSGML':'sgml',
        }


    def dispatch(self, doc, level, output):
        getattr(self, self.element_types[doc.getNodeName()])(doc, level, output)
        
    def __call__(self, doc, level=1, header=1):
        r=[]
        self.header = header
        self.dispatch(doc, level-1, r.append)
        return ''.join(r)

    def _text(self, doc, level, output):
        output(doc.getNodeValue())

    def document(self, doc, level, output):
        children=doc.getChildNodes()

        if self.header:
            output('<html>\n')
            if (children and
                 children[0].getNodeName() == 'StructuredTextSection'):
                output('<head>\n<title>%s</title>\n</head>\n' %
                         children[0].getChildNodes()[0].getNodeValue())
            output('<body>\n')

        for c in children:
            getattr(self, self.element_types[c.getNodeName()])(c, level, output)

        if self.header:
            output('</body>\n')
            output('</html>\n')

    def section(self, doc, level, output):
        children=doc.getChildNodes()
        for c in children:
            getattr(self, self.element_types[c.getNodeName()])(c, level+1, output)
        
    def sectionTitle(self, doc, level, output):
        output('<h%d>' % (level))
        for c in doc.getChildNodes():
            getattr(self, self.element_types[c.getNodeName()])(c, level, output)
        output('</h%d>\n' % (level))

    def description(self, doc, level, output):
        p=doc.getPreviousSibling()
        if p is None or  p.getNodeName() is not doc.getNodeName():            
            output('<dl>\n')
        for c in doc.getChildNodes():
            getattr(self, self.element_types[c.getNodeName()])(c, level, output)
        n=doc.getNextSibling()
        if n is None or n.getNodeName() is not doc.getNodeName():            
            output('</dl>\n')
        
    def descriptionTitle(self, doc, level, output):
        output('<dt>')
        for c in doc.getChildNodes():
            getattr(self, self.element_types[c.getNodeName()])(c, level, output)
        output('</dt>\n')
        
    def descriptionBody(self, doc, level, output):
        output('<dd>')
        for c in doc.getChildNodes():
            getattr(self, self.element_types[c.getNodeName()])(c, level, output)
        output('</dd>\n')

    def bullet(self, doc, level, output):
        p=doc.getPreviousSibling()
        if p is None or p.getNodeName() is not doc.getNodeName():
            output('\n<ul>\n')
        output('<li>')
        for c in doc.getChildNodes():
            getattr(self, self.element_types[c.getNodeName()])(c, level, output)
        n=doc.getNextSibling()
        output('</li>\n')
        if n is None or n.getNodeName() is not doc.getNodeName():            
            output('\n</ul>\n')

    def numbered(self, doc, level, output):
        p=doc.getPreviousSibling()
        if p is None or p.getNodeName() is not doc.getNodeName():            
            output('\n<ol>\n')
        output('<li>')
        for c in doc.getChildNodes():
            getattr(self, self.element_types[c.getNodeName()])(c, level, output)
        n=doc.getNextSibling()
        output('</li>\n')
        if n is None or n.getNodeName() is not doc.getNodeName():
            output('\n</ol>\n')

    def example(self, doc, level, output):
        i=0
        for c in doc.getChildNodes():
            if i==0:
                output('\n<pre>\n')
                output(escape(c.getNodeValue()))
                output('\n</pre>\n')
            else:
                getattr(self, self.element_types[c.getNodeName()])(
                    c, level, output)

    def paragraph(self, doc, level, output):

        output('<p>')
        for c in doc.getChildNodes():
            if c.getNodeName() in ['StructuredTextParagraph']:
                getattr(self, self.element_types[c.getNodeName()])(
                    c, level, output)
            else:
                getattr(self, self.element_types[c.getNodeName()])(
                    c, level, output)
        output('</p>\n')

    def link(self, doc, level, output):
        output('<a href="%s">' % doc.href)
        for c in doc.getChildNodes():
            getattr(self, self.element_types[c.getNodeName()])(c, level, output)
        output('</a>')

    def emphasis(self, doc, level, output):
        output('<em>')
        for c in doc.getChildNodes():
            getattr(self, self.element_types[c.getNodeName()])(c, level, output)
        output('</em>')

    def literal(self, doc, level, output):
        output('<code>')
        for c in doc.getChildNodes():
            output(escape(c.getNodeValue()))
        output('</code>')

    def strong(self, doc, level, output):
        output('<strong>')
        for c in doc.getChildNodes():
            getattr(self, self.element_types[c.getNodeName()])(c, level, output)
        output('</strong>')
     
    def underline(self, doc, level, output):
        output("<u>")
        for c in doc.getChildNodes():
            getattr(self, self.element_types[c.getNodeName()])(c, level, output)
        output("</u>")
          
    def innerLink(self, doc, level, output):
        output('<a href="#ref');
        for c in doc.getChildNodes():
            getattr(self, self.element_types[c.getNodeName()])(c, level, output)
        output('">[')
        for c in doc.getChildNodes():
            getattr(self, self.element_types[c.getNodeName()])(c, level, output)
        output(']</a>')
    
    def namedLink(self, doc, level, output):
        output('<a name="ref')
        for c in doc.getChildNodes():
            getattr(self, self.element_types[c.getNodeName()])(c, level, output)
        output('">[')
        for c in doc.getChildNodes():
            getattr(self, self.element_types[c.getNodeName()])(c, level, output)
        output(']</a>')
    
    def sgml(self,doc,level,output):
        for c in doc.getChildNodes():
            getattr(self, self.element_types[c.getNodeName()])(c, level, output)

    def xref(self, doc, level, output):
        val = doc.getNodeValue()
        output('<a href="#ref%s">[%s]</a>' % (val, val) )
    
    def table(self,doc,level,output):
        """
        A StructuredTextTable holds StructuredTextRow(s) which
        holds StructuredTextColumn(s). A StructuredTextColumn
        is a type of StructuredTextParagraph and thus holds
        the actual data.
        """
        output('<table border="1" cellpadding="2">\n')
        for row in doc.getRows()[0]:
            output("<tr>\n")
            for column in row.getColumns()[0]:
                if hasattr(column,"getAlign"):
                    str = '<%s colspan="%s" align="%s" valign="%s">' % (column.getType(),
                                                                  column.getSpan(),
                                                                  column.getAlign(),
                                                                  column.getValign())
                else:
                    str = '<td colspan="%s">' % column.getSpan()
                output(str)
                for c in column.getChildNodes():
                    getattr(self, self.element_types[c.getNodeName()])(c, level, output)
                if hasattr(column,"getType"):
                    output("</"+column.getType()+">\n")
                else:
                    output("</td>\n")
            output("</tr>\n")
        output("</table>\n")


=== Added File zopeproducts/zwiki/StructuredText/HTMLClass.pyc ===
  <Binary-ish file>

=== Added File zopeproducts/zwiki/StructuredText/HTMLWithImages.py ===
##############################################################################
#
# Copyright (c) 2001 Zope Corporation and Contributors. All Rights Reserved.
# 
# This software is subject to the provisions of the Zope Public License,
# Version 2.0 (ZPL).  A copy of the ZPL should accompany this distribution.
# THIS SOFTWARE IS PROVIDED "AS IS" AND ANY AND ALL EXPRESS OR IMPLIED
# WARRANTIES ARE DISCLAIMED, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED
# WARRANTIES OF TITLE, MERCHANTABILITY, AGAINST INFRINGEMENT, AND FITNESS
# FOR A PARTICULAR PURPOSE
# 
##############################################################################


from HTMLClass import HTMLClass

ets = HTMLClass.element_types
ets.update({'StructuredTextImage': 'image'})      

class HTMLWithImages(HTMLClass):

    element_types = ets


    def image(self, doc, level, output):
       if hasattr(doc, 'key'):
          output('<a name="%s"></a>\n' % doc.key)
       output('<img src="%s" alt="%s">\n' % (doc.href, doc.getNodeValue()))
       if doc.getNodeValue() and hasattr(doc, 'key'):
           output('<p><b>Figure %s</b> %s</p>\n' % (doc.key, doc.getNodeValue()))



=== Added File zopeproducts/zwiki/StructuredText/HTMLWithImages.pyc ===
  <Binary-ish file>

=== Added File zopeproducts/zwiki/StructuredText/ST.py ===
##############################################################################
#
# Copyright (c) 2001 Zope Corporation and Contributors. All Rights Reserved.
# 
# This software is subject to the provisions of the Zope Public License,
# Version 2.0 (ZPL).  A copy of the ZPL should accompany this distribution.
# THIS SOFTWARE IS PROVIDED "AS IS" AND ANY AND ALL EXPRESS OR IMPLIED
# WARRANTIES ARE DISCLAIMED, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED
# WARRANTIES OF TITLE, MERCHANTABILITY, AGAINST INFRINGEMENT, AND FITNESS
# FOR A PARTICULAR PURPOSE
# 
##############################################################################

import re, STDOM

#####################################################################
#                              Updated functions                    #
#####################################################################

def indention(str,front = re.compile("^\s+").match):
    """ 
    Find the number of leading spaces. If none, return 0.
    """
    
    result = front(str)
    if result is not None:
        start, end = result.span()
        return end-start
    else:
        return 0     # no leading spaces

def insert(struct, top, level):
    """
    find what will be the parant paragraph of
    a sentence and return that paragraph's
    sub-paragraphs. The new paragraph will be
    appended to those sub-paragraphs
    """
    #print "struct", struct, top-1
    if not top-1 in range(len(struct)):
        if struct:
            return struct[len(struct)-1].getSubparagraphs()
        return struct
    run = struct[top-1]
    i    = 0
    while i+1 < level:
        run = run.getSubparagraphs()[len(run.getSubparagraphs())-1]
        i = i + 1
    #print "parent for level ", level, " was => ", run.getColorizableTexts()
    return run.getSubparagraphs()
        
def display(struct):
    """
    runs through the structure and prints out
    the paragraphs. If the insertion works
    correctly, display's results should mimic
    the orignal paragraphs.
    """
    
    if struct.getColorizableTexts():
        print join(struct.getColorizableTexts()),"\n"
    if struct.getSubparagraphs():
        for x in struct.getSubparagraphs():
            display(x)
    
def display2(struct):
    """
    runs through the structure and prints out
    the paragraphs. If the insertion works
    correctly, display's results should mimic
    the orignal paragraphs.    
    """
    
    if struct.getNodeValue():
        print struct.getNodeValue(),"\n"
    if struct.getSubparagraphs():
        for x in struct.getSubparagraphs():
            display(x)
            
def findlevel(levels,indent):
    """
    remove all level information of levels
    with a greater level of indentation.
    Then return which level should insert this
    paragraph
    """
    
    keys = levels.keys()
    for key in keys:
        if levels[key] > indent:
            del(levels[key])
    keys = levels.keys()
    if not(keys):
        return 0
    else:
        for key in keys:
            if levels[key] == indent:
                return key
    highest = 0
    for key in keys:
        if key > highest:
            highest = key
    return highest-1

para_delim = r'(\n\s*\n|\r\n\s*\r\n)' # UNIX or DOS line endings, respectively

#####################################################################

# Golly, the capitalization of this function always makes me think it's a class
def StructuredText(paragraphs, delimiter=re.compile(para_delim)):
    """
    StructuredText accepts paragraphs, which is a list of 
    lines to be parsed. StructuredText creates a structure
    which mimics the structure of the paragraphs.
    Structure => [paragraph,[sub-paragraphs]]
    """

    currentlevel    = 0
    currentindent  = 0
    levels            = {0:0}
    level             = 0        # which header are we under
    struct            = []      # the structure to be returned
    run                = struct

    paragraphs = paragraphs.expandtabs()
    paragraphs = '%s%s%s' % ('\n\n', paragraphs, '\n\n')
    paragraphs = delimiter.split(paragraphs)
    paragraphs = [ x for x in  paragraphs if x.strip() ] 

    if not paragraphs: return StructuredTextDocument()
    
    ind = []     # structure based on indention levels
    for paragraph in paragraphs:
        ind.append([indention(paragraph), paragraph])
    
    currentindent = indention(paragraphs[0])
    levels[0]        = currentindent
    
    #############################################################
    #                                  updated                  #
    #############################################################
    
    for indent,paragraph in ind :
        if indent == 0:
            level          = level + 1
            currentlevel   = 0
            currentindent  = 0
            levels         = {0:0}
            struct.append(StructuredTextParagraph(paragraph, indent=indent, level=currentlevel))
        elif indent > currentindent:
            currentlevel            = currentlevel + 1
            currentindent           = indent
            levels[currentlevel]    = indent
            run = insert(struct,level,currentlevel)
            run.append(StructuredTextParagraph(paragraph, indent=indent, level=currentlevel))
        elif indent < currentindent:
            result   = findlevel(levels,indent)
            if result > 0:
                currentlevel = result
            currentindent  = indent
            if not level:
                struct.append(StructuredTextParagraph(paragraph, indent=indent, level=currentlevel))
            else:
                run = insert(struct,level,currentlevel)
                run.append(StructuredTextParagraph(paragraph, indent=indent, level=currentlevel))
        else:
            if insert(struct,level,currentlevel):
                run = insert(struct,level,currentlevel)
            else:
                run = struct
                currentindent = indent
            run.append(StructuredTextParagraph(paragraph, indent=indent, level=currentlevel))
    
    return StructuredTextDocument(struct)

Basic = StructuredText

class StructuredTextParagraph(STDOM.Element):

    indent=0

    def __init__(self, src, subs=None, **kw):
        if subs is None: subs=[]
        self._src=src
        self._subs=list(subs)
        
        self._attributes=kw.keys()
        for k, v in kw.items(): setattr(self, k, v)

    def getChildren(self, type=type, lt=type([])):
        src=self._src
        if type(src) is not lt: src=[src]
        return src+self._subs

    def getAttribute(self, name):
        return getattr(self, name, None)
        
    def getAttributeNode(self, name):
        if hasattr(self, name):
            return STDOM.Attr(name, getattr(self, name))

    def getAttributes(self):
        d={}
        for a in self._attributes:
            d[a]=getattr(self, a, '')
        return STDOM.NamedNodeMap(d)

    def getSubparagraphs(self):
        return self._subs

    def setSubparagraphs(self, subs):
        self._subs=subs

    def getColorizableTexts(self):
        return (self._src,)

    def setColorizableTexts(self, src):
        self._src=src[0]

    def __repr__(self):
        r=[]; a=r.append
        a((' '*(self.indent or 0))+
          ('%s(' % self.__class__.__name__)
          +str(self._src)+', ['
          )
        for p in self._subs: a(`p`)
        a((' '*(self.indent or 0))+'])')
        return '\n'.join(r)

    """
    create aliases for all above functions in the pythony way.
    """

    def _get_Children(self, type=type, lt=type([])):
        return self.getChildren(type,lt)
        
    def _get_Attribute(self, name):
        return self.getAttribute(name)
        
    def _get_AttributeNode(self, name):
        return self.getAttributeNode(name)

    def _get_Attributes(self):
        return self.getAttributes()

    def _get_Subparagraphs(self):
        return self.getSubparagraphs()

    def _set_Subparagraphs(self, subs):
        return self.setSubparagraphs(subs)

    def _get_ColorizableTexts(self):
        return self.getColorizableTexts()

    def _set_ColorizableTexts(self, src):
        return self.setColorizableTexts(src)

class StructuredTextDocument(StructuredTextParagraph):
    """
    A StructuredTextDocument holds StructuredTextParagraphs
    as its subparagraphs.
    """
    _attributes=()
    
    def __init__(self, subs=None, **kw):
        apply(StructuredTextParagraph.__init__,
                (self, '', subs),
                kw)

    def getChildren(self):
        return self._subs
        
    def getColorizableTexts(self):
        return ()
        
    def setColorizableTexts(self, src):
        pass

    def __repr__(self):
        r=[]; a=r.append
        a('%s([' % self.__class__.__name__)
        for p in self._subs: a(`p`+',')
        a('])')
        return '\n'.join(r)
    
    """
    create aliases for all above functions in the pythony way.
    """
    
    def _get_Children(self):
        return self.getChildren()
        
    def _get_ColorizableTexts(self):
        return self.getColorizableTexts()
        
    def _set_ColorizableTexts(self, src):
        return self.setColorizableTexts(src)


=== Added File zopeproducts/zwiki/StructuredText/ST.pyc ===
  <Binary-ish file>

=== Added File zopeproducts/zwiki/StructuredText/STDOM.py === (559/659 lines abridged)
##############################################################################
#
# Copyright (c) 2001 Zope Corporation and Contributors. All Rights Reserved.
# 
# This software is subject to the provisions of the Zope Public License,
# Version 2.0 (ZPL).  A copy of the ZPL should accompany this distribution.
# THIS SOFTWARE IS PROVIDED "AS IS" AND ANY AND ALL EXPRESS OR IMPLIED
# WARRANTIES ARE DISCLAIMED, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED
# WARRANTIES OF TITLE, MERCHANTABILITY, AGAINST INFRINGEMENT, AND FITNESS
# FOR A PARTICULAR PURPOSE
# 
##############################################################################
"""
DOM implementation in StructuredText : Read-Only methods

All standard Zope objects support DOM to a limited extent.
"""

# Node type codes
# ---------------

ELEMENT_NODE                  = 1
ATTRIBUTE_NODE                = 2
TEXT_NODE                     = 3
CDATA_SECTION_NODE            = 4
ENTITY_REFERENCE_NODE         = 5
ENTITY_NODE                   = 6
PROCESSING_INSTRUCTION_NODE   = 7
COMMENT_NODE                  = 8
DOCUMENT_NODE                 = 9
DOCUMENT_TYPE_NODE            = 10
DOCUMENT_FRAGMENT_NODE        = 11
NOTATION_NODE                 = 12

# Exception codes
# ---------------

INDEX_SIZE_ERR                = 1
DOMSTRING_SIZE_ERR            = 2
HIERARCHY_REQUEST_ERR         = 3
WRONG_DOCUMENT_ERR            = 4
INVALID_CHARACTER_ERR         = 5
NO_DATA_ALLOWED_ERR           = 6
NO_MODIFICATION_ALLOWED_ERR   = 7
NOT_FOUND_ERR                 = 8
NOT_SUPPORTED_ERR             = 9
INUSE_ATTRIBUTE_ERR           = 10

# Exceptions
# ----------

[-=- -=- -=- 559 lines omitted -=- -=- -=-]

        
   def getNodeName(self):
      """
      The name of this node, depending on its type
      """
      return self.name

   def getName(self):
      """
      Returns the name of this attribute.
      """
      return self.name
    
   def getNodeValue(self):
      """
      The value of this node, depending on its type
      """
      return self.value

   def getNodeType(self):
      """
      A code representing the type of the node.
      """
      return ATTRIBUTE_NODE

   def getSpecified(self):
      """
      If this attribute was explicitly given a value in the
      original document, this is true; otherwise, it is false.
      """
      return self.specified
        
   """
   create aliases for all above functions in the pythony way.
   """
   
   def _get_NodeName(self):
      return self.getNodeName()

   def _get_Name(self):
      return self.getName()
    
   def _get_NodeValue(self):
      return self.getNodeValue()

   def _get_NodeType(self):
      return self.getNodeType()

   def _get_Specified(self):
      return self.getSpecified()


=== Added File zopeproducts/zwiki/StructuredText/STDOM.pyc ===
  <Binary-ish file>

=== Added File zopeproducts/zwiki/StructuredText/STNG.txt ===
Using Structured Text

  The goal of StructuredText is to make it possible to express
  structured text using a relatively simple plain text format. Simple
  structures, like bullets or headings are indicated through
  conventions that are natural, for some definition of
  "natural". Hierarchical structures are indicated through
  indentation. The use of indentation to express hierarchical
  structure is inspired by the Python programming language.

  Use of StructuredText consists of one to three logical steps. In the
  first step, a text string is converted to a network of objects using
  the 'StructuredText.Basic' facility, as in the following
  example::

    raw=open("mydocument.txt").read()
    import StructuredText
    st=StructuredText.Basic(raw)

  The output of 'StructuredText.Basic' is simply a
  StructuredTextDocument object containing StructuredTextParagraph
  objects arranged in a hierarchy. Paragraphs are delimited by strings
  of two or more whitespace characters beginning and ending with
  newline characters. Hierarchy is indicated by indentation. The
  indentation of a paragraph is the minimum number of leading spaces
  in a line containing non-white-space characters after converting tab
  characters to spaces (assuming a tab stop every eight characters).

  StructuredTextNode objects support the read-only subset of the
  Document Object Model (DOM) API. It should be possible to process
  'StructuredTextNode' hierarchies using XML tools such as XSLT.

  The second step in using StructuredText is to apply additional
  structuring rules based on text content. A variety of differentText
  rules can be used. Typically, these are used to implement a
  structured text language for producing documents, but any sort of
  structured text language could be implemented in the second
  step. For example, it is possible to use StructuredText to implement
  structured text formats for representing structured data. The second
  step, which could consist of multiple processing steps, is
  performed by processing, or "coloring", the hierarchy of generic
  StructuredTextParagraph objects into a network of more specialized
  objects. Typically, the objects produced should also implement the DOM
  API to allow processing with XML tools.

  A document processor is provided to convert a StructuredTextDocument
  object containing only StructuredStructuredTextParagraph objects
  into a StructuredTextDocument object containing a richer collection
  of objects such as bullets, headings, emphasis, and so on using
  hints in the text. Hints are selected based on conventions of the
  sort typically seen in electronic mail or news-group postings. It
  should be noted, however, that these conventions are somewhat
  culturally dependent, fortunately, the document processor is easily
  customized to implement alternative rules. Here's an example of
  using the DOC processor to convert the output of the previous example::

    doc=StructuredText.Document(st)

  The final step is to process the colored networks produced from the
  second step to produce additional outputs. The final step could be
  performed by Python programs, or by XML tools. A Python outputter is
  provided for the document processor output that produces Hypertext Markup
  Language (HTML) text::

    html=StructuredText.HTML(doc)

Customizing the document processor

  The document processor is driven by two tables. The first table,
  named 'paragraph_types', is a sequence of callable objects or method
  names for coloring paragraphs. If a table entry is a string, then it
  is the name of a method of the document processor to be used. For
  each input paragraph, the objects in the table are called until one
  returns a value (not 'None'). The value returned replaces the
  original input paragraph in the output. If none of the objects in
  the paragraph types table return a value, then a copy of the
  original paragraph is used.  The new object returned by calling a
  paragraph type should implement the ReadOnlyDOM,
  StructuredTextColorizable, and StructuredTextSubparagraphContainer
  interfaces. See the 'Document.py' source file for examples.

  A paragraph type may return a list or tuple of replacement
  paragraphs, this allowing a paragraph to be split into multiple
  paragraphs. 

  The second table, 'text_types', is a sequence of callable objects or
  method names for coloring text. The callable objects in this table
  are used in sequence to transform the input text into new text or
  objects.  The callable objects are passed a string and return
  nothing ('None') or a three-element tuple consisting of:

    - a replacement object,

    - a starting position, and

    - an ending position

  The text from the starting position is (logically) replaced with the
  replacement object. The replacement object is typically an object
  that implements that implements the ReadOnlyDOM, and
  StructuredTextColorizable interfaces. The replacement object can
  also be a string or a list of strings or objects. Replacement is
  done from beginning to end and text after the replacement ending
  position will be passed to the character type objects for processing.

Example: adding wiki links

  We want to add support for Wiki links. A Wiki link is a string of
  text containing mixed-case letters, such that at least two of the
  letters are upper case and such that the first letter is upper case.

  

     

     


=== Added File zopeproducts/zwiki/StructuredText/STletters.py ===
import string

def punc_func(exclude):
    punc = r''
    for char in string.punctuation:
        if char not in exclude:
            punc = punc + r'\%s' % char
    return punc

digits      = string.digits
letters     = string.letters
literal_punc = punc_func("'")
dbl_quoted_punc = punc_func("\"")
strongem_punc = punc_func('*')
under_punc = punc_func('_<>')
phrase_delimiters = r'\s\.\,\?\/\!\&\(\)'



=== Added File zopeproducts/zwiki/StructuredText/STletters.pyc ===
  <Binary-ish file>

=== Added File zopeproducts/zwiki/StructuredText/StructuredText.py ===
##############################################################################
#
# Copyright (c) 2001 Zope Corporation and Contributors. All Rights Reserved.
# 
# This software is subject to the provisions of the Zope Public License,
# Version 2.0 (ZPL).  A copy of the ZPL should accompany this distribution.
# THIS SOFTWARE IS PROVIDED "AS IS" AND ANY AND ALL EXPRESS OR IMPLIED
# WARRANTIES ARE DISCLAIMED, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED
# WARRANTIES OF TITLE, MERCHANTABILITY, AGAINST INFRINGEMENT, AND FITNESS
# FOR A PARTICULAR PURPOSE
# 
##############################################################################

""" Alias module for StructuredTextClassic compatibility which makes
use of StructuredTextNG """


import HTMLClass, DocumentClass, ClassicDocumentClass
import DocumentWithImages, HTMLWithImages
from ST import Basic

import re, sys
from STletters import letters

Document = DocumentClass.DocumentClass()
HTMLNG = HTMLClass.HTMLClass()

DocumentImages = DocumentWithImages.DocumentWithImages()
HTMLNGImages = HTMLWithImages.HTMLWithImages()

def HTML(aStructuredString, level=1, header=1):
    st = Basic(aStructuredString)
    doc = DocumentImages(st)
    return HTMLNGImages(doc,header=header,level=level)

def StructuredText(aStructuredString, level=1):
    return HTML(aStructuredString,level)

def html_with_references(text, level=1, header=1):
    text = re.sub(
        r'[\000\n]\.\. \[([0-9_%s-]+)\]' % letters,
        r'\n  <a name="\1">[\1]</a>',
        text)

    text = re.sub(
        r'([\000- ,])\[(?P<ref>[0-9_%s-]+)\]([\000- ,.:])'   % letters,
        r'\1<a href="#\2">[\2]</a>\3',
        text)
    
    text = re.sub(
        r'([\000- ,])\[([^]]+)\.html\]([\000- ,.:])',
        r'\1<a href="\2.html">[\2]</a>\3',
        text)

    return HTML(text,level=level,header=header)

def html_quote(v,
               character_entities=(
                       (re.compile('&'), '&amp;'),
                       (re.compile("<"), '&lt;' ),
                       (re.compile(">"), '&gt;' ),
                       (re.compile('"'), '&quot;')
                       )): #"
        text=str(v)
        for re,name in character_entities:
            text=re.sub(name,text)
        return text


if __name__=='__main__':
    import getopt

    opts,args = getopt.getopt(sys.argv[1:],'',[])

    for k,v in opts:
        pass


    for f in args:
        print HTML(open(f).read())



=== Added File zopeproducts/zwiki/StructuredText/StructuredText.pyc ===
  <Binary-ish file>

=== Added File zopeproducts/zwiki/StructuredText/__init__.py ===
##############################################################################
#
# Copyright (c) 2001 Zope Corporation and Contributors. All Rights Reserved.
# 
# This software is subject to the provisions of the Zope Public License,
# Version 2.0 (ZPL).  A copy of the ZPL should accompany this distribution.
# THIS SOFTWARE IS PROVIDED "AS IS" AND ANY AND ALL EXPRESS OR IMPLIED
# WARRANTIES ARE DISCLAIMED, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED
# WARRANTIES OF TITLE, MERCHANTABILITY, AGAINST INFRINGEMENT, AND FITNESS
# FOR A PARTICULAR PURPOSE
# 
##############################################################################

import HTMLClass, DocumentClass
import ClassicDocumentClass
from StructuredText import html_with_references, HTML, html_quote
from ST import Basic
import DocBookClass
import HTMLWithImages
from types import StringType
import DocumentWithImages

ClassicHTML=HTML
HTMLNG=HTMLClass.HTMLClass()

def HTML(src, level=1): 
    if isinstance(src, StringType):
        return ClassicHTML(src, level)
    return HTMLNG(src, level)

Classic=ClassicDocumentClass.DocumentClass()
Document=DocumentClass.DocumentClass()
DocumentWithImages=DocumentWithImages.DocumentWithImages()
HTMLWithImages=HTMLWithImages.HTMLWithImages()

DocBookBook=DocBookClass.DocBookBook()
DocBookChapter=DocBookClass.DocBookChapter()
DocBookChapterWithFigures=DocBookClass.DocBookChapterWithFigures()
DocBookArticle=DocBookClass.DocBookArticle()




=== Added File zopeproducts/zwiki/StructuredText/__init__.pyc ===
  <Binary-ish file>