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#! /usr/bin/python2.7 # Convert GNU texinfo files into HTML, one file per node. # Based on Texinfo 2.14. # Usage: texi2html [-d] [-d] [-c] inputfile outputdirectory # The input file must be a complete texinfo file, e.g. emacs.texi. # This creates many files (one per info node) in the output directory, # overwriting existing files of the same name. All files created have # ".html" as their extension. # XXX To do: # - handle @comment*** correctly # - handle @xref {some words} correctly # - handle @ftable correctly (items aren't indexed?) # - handle @itemx properly # - handle @exdent properly # - add links directly to the proper line from indices # - check against the definitive list of @-cmds; we still miss (among others): # - @defindex (hard) # - @c(omment) in the middle of a line (rarely used) # - @this* (not really needed, only used in headers anyway) # - @today{} (ever used outside title page?) # More consistent handling of chapters/sections/etc. # Lots of documentation # Many more options: # -top designate top node # -links customize which types of links are included # -split split at chapters or sections instead of nodes # -name Allow different types of filename handling. Non unix systems # will have problems with long node names # ... # Support the most recent texinfo version and take a good look at HTML 3.0 # More debugging output (customizable) and more flexible error handling # How about icons ? # rpyron 2002-05-07 # Robert Pyron <rpyron@alum.mit.edu> # 1. BUGFIX: In function makefile(), strip blanks from the nodename. # This is necessary to match the behavior of parser.makeref() and # parser.do_node(). # 2. BUGFIX fixed KeyError in end_ifset (well, I may have just made # it go away, rather than fix it) # 3. BUGFIX allow @menu and menu items inside @ifset or @ifclear # 4. Support added for: # @uref URL reference # @image image file reference (see note below) # @multitable output an HTML table # @vtable # 5. Partial support for accents, to match MAKEINFO output # 6. I added a new command-line option, '-H basename', to specify # HTML Help output. This will cause three files to be created # in the current directory: # `basename`.hhp HTML Help Workshop project file # `basename`.hhc Contents file for the project # `basename`.hhk Index file for the project # When fed into HTML Help Workshop, the resulting file will be # named `basename`.chm. # 7. A new class, HTMLHelp, to accomplish item 6. # 8. Various calls to HTMLHelp functions. # A NOTE ON IMAGES: Just as 'outputdirectory' must exist before # running this program, all referenced images must already exist # in outputdirectory. import os import sys import string import re MAGIC = '\\input texinfo' cmprog = re.compile('^@([a-z]+)([ \t]|$)') # Command (line-oriented) blprog = re.compile('^[ \t]*$') # Blank line kwprog = re.compile('@[a-z]+') # Keyword (embedded, usually # with {} args) spprog = re.compile('[\n@{}&<>]') # Special characters in # running text # # menu item (Yuck!) miprog = re.compile('^\* ([^:]*):(:|[ \t]*([^\t,\n.]+)([^ \t\n]*))[ \t\n]*') # 0 1 1 2 3 34 42 0 # ----- ---------- --------- # -|----------------------------- # ----------------------------------------------------- class HTMLNode: """Some of the parser's functionality is separated into this class. A Node accumulates its contents, takes care of links to other Nodes and saves itself when it is finished and all links are resolved. """ DOCTYPE = '<!DOCTYPE HTML PUBLIC "-//IETF//DTD HTML 2.0//EN">' type = 0 cont = '' epilogue = '</BODY></HTML>\n' def __init__(self, dir, name, topname, title, next, prev, up): self.dirname = dir self.name = name if topname: self.topname = topname else: self.topname = name self.title = title self.next = next self.prev = prev self.up = up self.lines = [] def write(self, *lines): map(self.lines.append, lines) def flush(self): fp = open(self.dirname + '/' + makefile(self.name), 'w') fp.write(self.prologue) fp.write(self.text) fp.write(self.epilogue) fp.close() def link(self, label, nodename, rel=None, rev=None): if nodename: if nodename.lower() == '(dir)': addr = '../dir.html' title = '' else: addr = makefile(nodename) title = ' TITLE="%s"' % nodename self.write(label, ': <A HREF="', addr, '"', \ rel and (' REL=' + rel) or "", \ rev and (' REV=' + rev) or "", \ title, '>', nodename, '</A> \n') def finalize(self): length = len(self.lines) self.text = ''.join(self.lines) self.lines = [] self.open_links() self.output_links() self.close_links() links = ''.join(self.lines) self.lines = [] self.prologue = ( self.DOCTYPE + '\n<HTML><HEAD>\n' ' <!-- Converted with texi2html and Python -->\n' ' <TITLE>' + self.title + '</TITLE>\n' ' <LINK REL=Next HREF="' + makefile(self.next) + '" TITLE="' + self.next + '">\n' ' <LINK REL=Previous HREF="' + makefile(self.prev) + '" TITLE="' + self.prev + '">\n' ' <LINK REL=Up HREF="' + makefile(self.up) + '" TITLE="' + self.up + '">\n' '</HEAD><BODY>\n' + links) if length > 20: self.epilogue = '<P>\n%s</BODY></HTML>\n' % links def open_links(self): self.write('<HR>\n') def close_links(self): self.write('<HR>\n') def output_links(self): if self.cont != self.next: self.link(' Cont', self.cont) self.link(' Next', self.next, rel='Next') self.link(' Prev', self.prev, rel='Previous') self.link(' Up', self.up, rel='Up') if self.name <> self.topname: self.link(' Top', self.topname) class HTML3Node(HTMLNode): DOCTYPE = '<!DOCTYPE HTML PUBLIC "-//IETF//DTD HTML Level 3//EN//3.0">' def open_links(self): self.write('<DIV CLASS=Navigation>\n <HR>\n') def close_links(self): self.write(' <HR>\n</DIV>\n') class TexinfoParser: COPYRIGHT_SYMBOL = "©" FN_ID_PATTERN = "(%(id)s)" FN_SOURCE_PATTERN = '<A NAME=footnoteref%(id)s' \ ' HREF="#footnotetext%(id)s">' \ + FN_ID_PATTERN + '</A>' FN_TARGET_PATTERN = '<A NAME=footnotetext%(id)s' \ ' HREF="#footnoteref%(id)s">' \ + FN_ID_PATTERN + '</A>\n%(text)s<P>\n' FN_HEADER = '\n<P>\n<HR NOSHADE SIZE=1 WIDTH=200>\n' \ '<STRONG><EM>Footnotes</EM></STRONG>\n<P>' Node = HTMLNode # Initialize an instance def __init__(self): self.unknown = {} # statistics about unknown @-commands self.filenames = {} # Check for identical filenames self.debugging = 0 # larger values produce more output self.print_headers = 0 # always print headers? self.nodefp = None # open file we're writing to self.nodelineno = 0 # Linenumber relative to node self.links = None # Links from current node self.savetext = None # If not None, save text head instead self.savestack = [] # If not None, save text head instead self.htmlhelp = None # html help data self.dirname = 'tmp' # directory where files are created self.includedir = '.' # directory to search @include files self.nodename = '' # name of current node self.topname = '' # name of top node (first node seen) self.title = '' # title of this whole Texinfo tree self.resetindex() # Reset all indices self.contents = [] # Reset table of contents self.numbering = [] # Reset section numbering counters self.nofill = 0 # Normal operation: fill paragraphs self.values={'html': 1} # Names that should be parsed in ifset self.stackinfo={} # Keep track of state in the stack # XXX The following should be reset per node?! self.footnotes = [] # Reset list of footnotes self.itemarg = None # Reset command used by @item self.itemnumber = None # Reset number for @item in @enumerate self.itemindex = None # Reset item index name self.node = None self.nodestack = [] self.cont = 0 self.includedepth = 0 # Set htmlhelp helper class def sethtmlhelp(self, htmlhelp): self.htmlhelp = htmlhelp # Set (output) directory name def setdirname(self, dirname): self.dirname = dirname # Set include directory name def setincludedir(self, includedir): self.includedir = includedir # Parse the contents of an entire file def parse(self, fp): line = fp.readline() lineno = 1 while line and (line[0] == '%' or blprog.match(line)): line = fp.readline() lineno = lineno + 1 if line[:len(MAGIC)] <> MAGIC: raise SyntaxError, 'file does not begin with %r' % (MAGIC,) self.parserest(fp, lineno) # Parse the contents of a file, not expecting a MAGIC header def parserest(self, fp, initial_lineno): lineno = initial_lineno self.done = 0 self.skip = 0 self.stack = [] accu = [] while not self.done: line = fp.readline() self.nodelineno = self.nodelineno + 1 if not line: if accu: if not self.skip: self.process(accu) accu = [] if initial_lineno > 0: print '*** EOF before @bye' break lineno = lineno + 1 mo = cmprog.match(line) if mo: a, b = mo.span(1) cmd = line[a:b] if cmd in ('noindent', 'refill'): accu.append(line) else: if accu: if not self.skip: self.process(accu) accu = [] self.command(line, mo) elif blprog.match(line) and \ 'format' not in self.stack and \ 'example' not in self.stack: if accu: if not self.skip: self.process(accu) if self.nofill: self.write('\n') else: self.write('<P>\n') accu = [] else: # Append the line including trailing \n! accu.append(line) # if self.skip: print '*** Still skipping at the end' if self.stack: print '*** Stack not empty at the end' print '***', self.stack if self.includedepth == 0: while self.nodestack: self.nodestack[-1].finalize() self.nodestack[-1].flush() del self.nodestack[-1] # Start saving text in a buffer instead of writing it to a file def startsaving(self): if self.savetext <> None: self.savestack.append(self.savetext) # print '*** Recursively saving text, expect trouble' self.savetext = '' # Return the text saved so far and start writing to file again def collectsavings(self): savetext = self.savetext if len(self.savestack) > 0: self.savetext = self.savestack[-1] del self.savestack[-1] else: self.savetext = None return savetext or '' # Write text to file, or save it in a buffer, or ignore it def write(self, *args): try: text = ''.join(args) except: print args raise TypeError if self.savetext <> None: self.savetext = self.savetext + text elif self.nodefp: self.nodefp.write(text) elif self.node: self.node.write(text) # Complete the current node -- write footnotes and close file def endnode(self): if self.savetext <> None: print '*** Still saving text at end of node' dummy = self.collectsavings() if self.footnotes: self.writefootnotes() if self.nodefp: if self.nodelineno > 20: self.write('<HR>\n') [name, next, prev, up] = self.nodelinks[:4] self.link('Next', next) self.link('Prev', prev) self.link('Up', up) if self.nodename <> self.topname: self.link('Top', self.topname) self.write('<HR>\n') self.write('</BODY>\n') self.nodefp.close() self.nodefp = None elif self.node: if not self.cont and \ (not self.node.type or \ (self.node.next and self.node.prev and self.node.up)): self.node.finalize() self.node.flush() else: self.nodestack.append(self.node) self.node = None self.nodename = '' # Process a list of lines, expanding embedded @-commands # This mostly distinguishes between menus and normal text def process(self, accu): if self.debugging > 1: print '!'*self.debugging, 'process:', self.skip, self.stack, if accu: print accu[0][:30], if accu[0][30:] or accu[1:]: print '...', print if self.inmenu(): # XXX should be done differently for line in accu: mo = miprog.match(line) if not mo: line = line.strip() + '\n' self.expand(line) continue bgn, end = mo.span(0) a, b = mo.span(1) c, d = mo.span(2) e, f = mo.span(3) g, h = mo.span(4) label = line[a:b] nodename = line[c:d] if nodename[0] == ':': nodename = label else: nodename = line[e:f] punct = line[g:h] self.write(' <LI><A HREF="', makefile(nodename), '">', nodename, '</A>', punct, '\n') self.htmlhelp.menuitem(nodename) self.expand(line[end:]) else: text = ''.join(accu) self.expand(text) # find 'menu' (we might be inside 'ifset' or 'ifclear') def inmenu(self): #if 'menu' in self.stack: # print 'inmenu :', self.skip, self.stack, self.stackinfo stack = self.stack while stack and stack[-1] in ('ifset','ifclear'): try: if self.stackinfo[len(stack)]: return 0 except KeyError: pass stack = stack[:-1] return (stack and stack[-1] == 'menu') # Write a string, expanding embedded @-commands def expand(self, text): stack = [] i = 0 n = len(text) while i < n: start = i mo = spprog.search(text, i) if mo: i = mo.start() else: self.write(text[start:]) break self.write(text[start:i]) c = text[i] i = i+1 if c == '\n': self.write('\n') continue if c == '<': self.write('<') continue if c == '>': self.write('>') continue if c == '&': self.write('&') continue if c == '{': stack.append('') continue if c == '}': if not stack: print '*** Unmatched }' self.write('}') continue cmd = stack[-1] del stack[-1] try: method = getattr(self, 'close_' + cmd) except AttributeError: self.unknown_close(cmd) continue method() continue if c <> '@': # Cannot happen unless spprog is changed raise RuntimeError, 'unexpected funny %r' % c start = i while i < n and text[i] in string.ascii_letters: i = i+1 if i == start: # @ plus non-letter: literal next character i = i+1 c = text[start:i] if c == ':': # `@:' means no extra space after # preceding `.', `?', `!' or `:' pass else: # `@.' means a sentence-ending period; # `@@', `@{', `@}' quote `@', `{', `}' self.write(c) continue cmd = text[start:i] if i < n and text[i] == '{': i = i+1 stack.append(cmd) try: method = getattr(self, 'open_' + cmd) except AttributeError: self.unknown_open(cmd) continue method() continue try: method = getattr(self, 'handle_' + cmd) except AttributeError: self.unknown_handle(cmd) continue method() if stack: print '*** Stack not empty at para:', stack # --- Handle unknown embedded @-commands --- def unknown_open(self, cmd): print '*** No open func for @' + cmd + '{...}' cmd = cmd + '{' self.write('@', cmd) if not self.unknown.has_key(cmd): self.unknown[cmd] = 1 else: self.unknown[cmd] = self.unknown[cmd] + 1 def unknown_close(self, cmd): print '*** No close func for @' + cmd + '{...}' cmd = '}' + cmd self.write('}') if not self.unknown.has_key(cmd): self.unknown[cmd] = 1 else: self.unknown[cmd] = self.unknown[cmd] + 1 def unknown_handle(self, cmd): print '*** No handler for @' + cmd self.write('@', cmd) if not self.unknown.has_key(cmd): self.unknown[cmd] = 1 else: self.unknown[cmd] = self.unknown[cmd] + 1 # XXX The following sections should be ordered as the texinfo docs # --- Embedded @-commands without {} argument list -- def handle_noindent(self): pass def handle_refill(self): pass # --- Include file handling --- def do_include(self, args): file = args file = os.path.join(self.includedir, file) try: fp = open(file, 'r') except IOError, msg: print '*** Can\'t open include file', repr(file) return print '!'*self.debugging, '--> file', repr(file) save_done = self.done save_skip = self.skip save_stack = self.stack self.includedepth = self.includedepth + 1 self.parserest(fp, 0) self.includedepth = self.includedepth - 1 fp.close() self.done = save_done self.skip = save_skip self.stack = save_stack print '!'*self.debugging, '<-- file', repr(file) # --- Special Insertions --- def open_dmn(self): pass def close_dmn(self): pass def open_dots(self): self.write('...') def close_dots(self): pass def open_bullet(self): pass def close_bullet(self): pass def open_TeX(self): self.write('TeX') def close_TeX(self): pass def handle_copyright(self): self.write(self.COPYRIGHT_SYMBOL) def open_copyright(self): self.write(self.COPYRIGHT_SYMBOL) def close_copyright(self): pass def open_minus(self): self.write('-') def close_minus(self): pass # --- Accents --- # rpyron 2002-05-07 # I would like to do at least as well as makeinfo when # it is producing HTML output: # # input output # @"o @"o umlaut accent # @'o 'o acute accent # @,{c} @,{c} cedilla accent # @=o @=o macron/overbar accent # @^o @^o circumflex accent # @`o `o grave accent # @~o @~o tilde accent # @dotaccent{o} @dotaccent{o} overdot accent # @H{o} @H{o} long Hungarian umlaut # @ringaccent{o} @ringaccent{o} ring accent # @tieaccent{oo} @tieaccent{oo} tie-after accent # @u{o} @u{o} breve accent # @ubaraccent{o} @ubaraccent{o} underbar accent # @udotaccent{o} @udotaccent{o} underdot accent # @v{o} @v{o} hacek or check accent # @exclamdown{} ¡ upside-down ! # @questiondown{} ¿ upside-down ? # @aa{},@AA{} å,Å a,A with circle # @ae{},@AE{} æ,Æ ae,AE ligatures # @dotless{i} @dotless{i} dotless i # @dotless{j} @dotless{j} dotless j # @l{},@L{} l/,L/ suppressed-L,l # @o{},@O{} ø,Ø O,o with slash # @oe{},@OE{} oe,OE oe,OE ligatures # @ss{} ß es-zet or sharp S # # The following character codes and approximations have been # copied from makeinfo's HTML output. def open_exclamdown(self): self.write('¡') # upside-down ! def close_exclamdown(self): pass def open_questiondown(self): self.write('¿') # upside-down ? def close_questiondown(self): pass def open_aa(self): self.write('å') # a with circle def close_aa(self): pass def open_AA(self): self.write('Å') # A with circle def close_AA(self): pass def open_ae(self): self.write('æ') # ae ligatures def close_ae(self): pass def open_AE(self): self.write('Æ') # AE ligatures def close_AE(self): pass def open_o(self): self.write('ø') # o with slash def close_o(self): pass def open_O(self): self.write('Ø') # O with slash def close_O(self): pass def open_ss(self): self.write('ß') # es-zet or sharp S def close_ss(self): pass def open_oe(self): self.write('oe') # oe ligatures def close_oe(self): pass def open_OE(self): self.write('OE') # OE ligatures def close_OE(self): pass def open_l(self): self.write('l/') # suppressed-l def close_l(self): pass def open_L(self): self.write('L/') # suppressed-L def close_L(self): pass # --- Special Glyphs for Examples --- def open_result(self): self.write('=>') def close_result(self): pass def open_expansion(self): self.write('==>') def close_expansion(self): pass def open_print(self): self.write('-|') def close_print(self): pass def open_error(self): self.write('error-->') def close_error(self): pass def open_equiv(self): self.write('==') def close_equiv(self): pass def open_point(self): self.write('-!-') def close_point(self): pass # --- Cross References --- def open_pxref(self): self.write('see ') self.startsaving() def close_pxref(self): self.makeref() def open_xref(self): self.write('See ') self.startsaving() def close_xref(self): self.makeref() def open_ref(self): self.startsaving() def close_ref(self): self.makeref() def open_inforef(self): self.write('See info file ') self.startsaving() def close_inforef(self): text = self.collectsavings() args = [s.strip() for s in text.split(',')] while len(args) < 3: args.append('') node = args[0] file = args[2] self.write('`', file, '\', node `', node, '\'') def makeref(self): text = self.collectsavings() args = [s.strip() for s in text.split(',')] while len(args) < 5: args.append('') nodename = label = args[0] if args[2]: label = args[2] file = args[3] title = args[4] href = makefile(nodename) if file: href = '../' + file + '/' + href self.write('<A HREF="', href, '">', label, '</A>') # rpyron 2002-05-07 uref support def open_uref(self): self.startsaving() def close_uref(self): text = self.collectsavings() args = [s.strip() for s in text.split(',')] while len(args) < 2: args.append('') href = args[0] label = args[1] if not label: label = href self.write('<A HREF="', href, '">', label, '</A>') # rpyron 2002-05-07 image support # GNU makeinfo producing HTML output tries `filename.png'; if # that does not exist, it tries `filename.jpg'. If that does # not exist either, it complains. GNU makeinfo does not handle # GIF files; however, I include GIF support here because # MySQL documentation uses GIF files. def open_image(self): self.startsaving() def close_image(self): self.makeimage() def makeimage(self): text = self.collectsavings() args = [s.strip() for s in text.split(',')] while len(args) < 5: args.append('') filename = args[0] width = args[1] height = args[2] alt = args[3] ext = args[4] # The HTML output will have a reference to the image # that is relative to the HTML output directory, # which is what 'filename' gives us. However, we need # to find it relative to our own current directory, # so we construct 'imagename'. imagelocation = self.dirname + '/' + filename if os.path.exists(imagelocation+'.png'): filename += '.png' elif os.path.exists(imagelocation+'.jpg'): filename += '.jpg' elif os.path.exists(imagelocation+'.gif'): # MySQL uses GIF files filename += '.gif' else: print "*** Cannot find image " + imagelocation #TODO: what is 'ext'? self.write('<IMG SRC="', filename, '"', \ width and (' WIDTH="' + width + '"') or "", \ height and (' HEIGHT="' + height + '"') or "", \ alt and (' ALT="' + alt + '"') or "", \ '/>' ) self.htmlhelp.addimage(imagelocation) # --- Marking Words and Phrases --- # --- Other @xxx{...} commands --- def open_(self): pass # Used by {text enclosed in braces} def close_(self): pass open_asis = open_ close_asis = close_ def open_cite(self): self.write('<CITE>') def close_cite(self): self.write('</CITE>') def open_code(self): self.write('<CODE>') def close_code(self): self.write('</CODE>') def open_t(self): self.write('<TT>') def close_t(self): self.write('</TT>') def open_dfn(self): self.write('<DFN>') def close_dfn(self): self.write('</DFN>') def open_emph(self): self.write('<EM>') def close_emph(self): self.write('</EM>') def open_i(self): self.write('<I>') def close_i(self): self.write('</I>') def open_footnote(self): # if self.savetext <> None: # print '*** Recursive footnote -- expect weirdness' id = len(self.footnotes) + 1 self.write(self.FN_SOURCE_PATTERN % {'id': repr(id)}) self.startsaving() def close_footnote(self): id = len(self.footnotes) + 1 self.footnotes.append((id, self.collectsavings())) def writefootnotes(self): self.write(self.FN_HEADER) for id, text in self.footnotes: self.write(self.FN_TARGET_PATTERN % {'id': repr(id), 'text': text}) self.footnotes = [] def open_file(self): self.write('<CODE>') def close_file(self): self.write('</CODE>') def open_kbd(self): self.write('<KBD>') def close_kbd(self): self.write('</KBD>') def open_key(self): self.write('<KEY>') def close_key(self): self.write('</KEY>') def open_r(self): self.write('<R>') def close_r(self): self.write('</R>') def open_samp(self): self.write('`<SAMP>') def close_samp(self): self.write('</SAMP>\'') def open_sc(self): self.write('<SMALLCAPS>') def close_sc(self): self.write('</SMALLCAPS>') def open_strong(self): self.write('<STRONG>') def close_strong(self): self.write('</STRONG>') def open_b(self): self.write('<B>') def close_b(self): self.write('</B>') def open_var(self): self.write('<VAR>') def close_var(self): self.write('</VAR>') def open_w(self): self.write('<NOBREAK>') def close_w(self): self.write('</NOBREAK>') def open_url(self): self.startsaving() def close_url(self): text = self.collectsavings() self.write('<A HREF="', text, '">', text, '</A>') def open_email(self): self.startsaving() def close_email(self): text = self.collectsavings() self.write('<A HREF="mailto:', text, '">', text, '</A>') open_titlefont = open_ close_titlefont = close_ def open_small(self): pass def close_small(self): pass def command(self, line, mo): a, b = mo.span(1) cmd = line[a:b] args = line[b:].strip() if self.debugging > 1: print '!'*self.debugging, 'command:', self.skip, self.stack, \ '@' + cmd, args try: func = getattr(self, 'do_' + cmd) except AttributeError: try: func = getattr(self, 'bgn_' + cmd) except AttributeError: # don't complain if we are skipping anyway if not self.skip: self.unknown_cmd(cmd, args) return self.stack.append(cmd) func(args) return if not self.skip or cmd == 'end': func(args) def unknown_cmd(self, cmd, args): print '*** unknown', '@' + cmd, args if not self.unknown.has_key(cmd): self.unknown[cmd] = 1 else: self.unknown[cmd] = self.unknown[cmd] + 1 def do_end(self, args): words = args.split() if not words: print '*** @end w/o args' else: cmd = words[0] if not self.stack or self.stack[-1] <> cmd: print '*** @end', cmd, 'unexpected' else: del self.stack[-1] try: func = getattr(self, 'end_' + cmd) except AttributeError: self.unknown_end(cmd) return func() def unknown_end(self, cmd): cmd = 'end ' + cmd print '*** unknown', '@' + cmd if not self.unknown.has_key(cmd): self.unknown[cmd] = 1 else: self.unknown[cmd] = self.unknown[cmd] + 1 # --- Comments --- def do_comment(self, args): pass do_c = do_comment # --- Conditional processing --- def bgn_ifinfo(self, args): pass def end_ifinfo(self): pass def bgn_iftex(self, args): self.skip = self.skip + 1 def end_iftex(self): self.skip = self.skip - 1 def bgn_ignore(self, args): self.skip = self.skip + 1 def end_ignore(self): self.skip = self.skip - 1 def bgn_tex(self, args): self.skip = self.skip + 1 def end_tex(self): self.skip = self.skip - 1 def do_set(self, args): fields = args.split(' ') key = fields[0] if len(fields) == 1: value = 1 else: value = ' '.join(fields[1:]) self.values[key] = value def do_clear(self, args): self.values[args] = None def bgn_ifset(self, args): if args not in self.values.keys() \ or self.values[args] is None: self.skip = self.skip + 1 self.stackinfo[len(self.stack)] = 1 else: self.stackinfo[len(self.stack)] = 0 def end_ifset(self): try: if self.stackinfo[len(self.stack) + 1]: self.skip = self.skip - 1 del self.stackinfo[len(self.stack) + 1] except KeyError: print '*** end_ifset: KeyError :', len(self.stack) + 1 def bgn_ifclear(self, args): if args in self.values.keys() \ and self.values[args] is not None: self.skip = self.skip + 1 self.stackinfo[len(self.stack)] = 1 else: self.stackinfo[len(self.stack)] = 0 def end_ifclear(self): try: if self.stackinfo[len(self.stack) + 1]: self.skip = self.skip - 1 del self.stackinfo[len(self.stack) + 1] except KeyError: print '*** end_ifclear: KeyError :', len(self.stack) + 1 def open_value(self): self.startsaving() def close_value(self): key = self.collectsavings() if key in self.values.keys(): self.write(self.values[key]) else: print '*** Undefined value: ', key # --- Beginning a file --- do_finalout = do_comment do_setchapternewpage = do_comment do_setfilename = do_comment def do_settitle(self, args): self.startsaving() self.expand(args) self.title = self.collectsavings() def do_parskip(self, args): pass # --- Ending a file --- def do_bye(self, args): self.endnode() self.done = 1 # --- Title page --- def bgn_titlepage(self, args): self.skip = self.skip + 1 def end_titlepage(self): self.skip = self.skip - 1 def do_shorttitlepage(self, args): pass def do_center(self, args): # Actually not used outside title page... self.write('<H1>') self.expand(args) self.write('</H1>\n') do_title = do_center do_subtitle = do_center do_author = do_center do_vskip = do_comment do_vfill = do_comment do_smallbook = do_comment do_paragraphindent = do_comment do_setchapternewpage = do_comment do_headings = do_comment do_footnotestyle = do_comment do_evenheading = do_comment do_evenfooting = do_comment do_oddheading = do_comment do_oddfooting = do_comment do_everyheading = do_comment do_everyfooting = do_comment # --- Nodes --- def do_node(self, args): self.endnode() self.nodelineno = 0 parts = [s.strip() for s in args.split(',')] while len(parts) < 4: parts.append('') self.nodelinks = parts [name, next, prev, up] = parts[:4] file = self.dirname + '/' + makefile(name) if self.filenames.has_key(file): print '*** Filename already in use: ', file else: if self.debugging: print '!'*self.debugging, '--- writing', file self.filenames[file] = 1 # self.nodefp = open(file, 'w') self.nodename = name if self.cont and self.nodestack: self.nodestack[-1].cont = self.nodename if not self.topname: self.topname = name title = name if self.title: title = title + ' -- ' + self.title self.node = self.Node(self.dirname, self.nodename, self.topname, title, next, prev, up) self.htmlhelp.addnode(self.nodename,next,prev,up,file) def link(self, label, nodename): if nodename: if nodename.lower() == '(dir)': addr = '../dir.html' else: addr = makefile(nodename) self.write(label, ': <A HREF="', addr, '" TYPE="', label, '">', nodename, '</A> \n') # --- Sectioning commands --- def popstack(self, type): if (self.node): self.node.type = type while self.nodestack: if self.nodestack[-1].type > type: self.nodestack[-1].finalize() self.nodestack[-1].flush() del self.nodestack[-1] elif self.nodestack[-1].type == type: if not self.nodestack[-1].next: self.nodestack[-1].next = self.node.name if not self.node.prev: self.node.prev = self.nodestack[-1].name self.nodestack[-1].finalize() self.nodestack[-1].flush() del self.nodestack[-1] else: if type > 1 and not self.node.up: self.node.up = self.nodestack[-1].name break def do_chapter(self, args): self.heading('H1', args, 0) self.popstack(1) def do_unnumbered(self, args): self.heading('H1', args, -1) self.popstack(1) def do_appendix(self, args): self.heading('H1', args, -1) self.popstack(1) def do_top(self, args): self.heading('H1', args, -1) def do_chapheading(self, args): self.heading('H1', args, -1) def do_majorheading(self, args): self.heading('H1', args, -1) def do_section(self, args): self.heading('H1', args, 1) self.popstack(2) def do_unnumberedsec(self, args): self.heading('H1', args, -1) self.popstack(2) def do_appendixsec(self, args): self.heading('H1', args, -1) self.popstack(2) do_appendixsection = do_appendixsec def do_heading(self, args): self.heading('H1', args, -1) def do_subsection(self, args): self.heading('H2', args, 2) self.popstack(3) def do_unnumberedsubsec(self, args): self.heading('H2', args, -1) self.popstack(3) def do_appendixsubsec(self, args): self.heading('H2', args, -1) self.popstack(3) def do_subheading(self, args): self.heading('H2', args, -1) def do_subsubsection(self, args): self.heading('H3', args, 3) self.popstack(4) def do_unnumberedsubsubsec(self, args): self.heading('H3', args, -1) self.popstack(4) def do_appendixsubsubsec(self, args): self.heading('H3', args, -1) self.popstack(4) def do_subsubheading(self, args): self.heading('H3', args, -1) def heading(self, type, args, level): if level >= 0: while len(self.numbering) <= level: self.numbering.append(0) del self.numbering[level+1:] self.numbering[level] = self.numbering[level] + 1 x = '' for i in self.numbering: x = x + repr(i) + '.' args = x + ' ' + args self.contents.append((level, args, self.nodename)) self.write('<', type, '>') self.expand(args) self.write('</', type, '>\n') if self.debugging or self.print_headers: print '---', args def do_contents(self, args): # pass self.listcontents('Table of Contents', 999) def do_shortcontents(self, args): pass # self.listcontents('Short Contents', 0) do_summarycontents = do_shortcontents def listcontents(self, title, maxlevel): self.write('<H1>', title, '</H1>\n<UL COMPACT PLAIN>\n') prevlevels = [0] for level, title, node in self.contents: if level > maxlevel: continue if level > prevlevels[-1]: # can only advance one level at a time self.write(' '*prevlevels[-1], '<UL PLAIN>\n') prevlevels.append(level) elif level < prevlevels[-1]: # might drop back multiple levels while level < prevlevels[-1]: del prevlevels[-1] self.write(' '*prevlevels[-1], '</UL>\n') self.write(' '*level, '<LI> <A HREF="', makefile(node), '">') self.expand(title) self.write('</A>\n') self.write('</UL>\n' * len(prevlevels)) # --- Page lay-out --- # These commands are only meaningful in printed text def do_page(self, args): pass def do_need(self, args): pass def bgn_group(self, args): pass def end_group(self): pass # --- Line lay-out --- def do_sp(self, args): if self.nofill: self.write('\n') else: self.write('<P>\n') def do_hline(self, args): self.write('<HR>') # --- Function and variable definitions --- def bgn_deffn(self, args): self.write('<DL>') self.do_deffnx(args) def end_deffn(self): self.write('</DL>\n') def do_deffnx(self, args): self.write('<DT>') words = splitwords(args, 2) [category, name], rest = words[:2], words[2:] self.expand('@b{%s}' % name) for word in rest: self.expand(' ' + makevar(word)) #self.expand(' -- ' + category) self.write('\n<DD>') self.index('fn', name) def bgn_defun(self, args): self.bgn_deffn('Function ' + args) end_defun = end_deffn def do_defunx(self, args): self.do_deffnx('Function ' + args) def bgn_defmac(self, args): self.bgn_deffn('Macro ' + args) end_defmac = end_deffn def do_defmacx(self, args): self.do_deffnx('Macro ' + args) def bgn_defspec(self, args): self.bgn_deffn('{Special Form} ' + args) end_defspec = end_deffn def do_defspecx(self, args): self.do_deffnx('{Special Form} ' + args) def bgn_defvr(self, args): self.write('<DL>') self.do_defvrx(args) end_defvr = end_deffn def do_defvrx(self, args): self.write('<DT>') words = splitwords(args, 2) [category, name], rest = words[:2], words[2:] self.expand('@code{%s}' % name) # If there are too many arguments, show them for word in rest: self.expand(' ' + word) #self.expand(' -- ' + category) self.write('\n<DD>') self.index('vr', name) def bgn_defvar(self, args): self.bgn_defvr('Variable ' + args) end_defvar = end_defvr def do_defvarx(self, args): self.do_defvrx('Variable ' + args) def bgn_defopt(self, args): self.bgn_defvr('{User Option} ' + args) end_defopt = end_defvr def do_defoptx(self, args): self.do_defvrx('{User Option} ' + args) # --- Ditto for typed languages --- def bgn_deftypefn(self, args): self.write('<DL>') self.do_deftypefnx(args) end_deftypefn = end_deffn def do_deftypefnx(self, args): self.write('<DT>') words = splitwords(args, 3) [category, datatype, name], rest = words[:3], words[3:] self.expand('@code{%s} @b{%s}' % (datatype, name)) for word in rest: self.expand(' ' + makevar(word)) #self.expand(' -- ' + category) self.write('\n<DD>') self.index('fn', name) def bgn_deftypefun(self, args): self.bgn_deftypefn('Function ' + args) end_deftypefun = end_deftypefn def do_deftypefunx(self, args): self.do_deftypefnx('Function ' + args) def bgn_deftypevr(self, args): self.write('<DL>') self.do_deftypevrx(args) end_deftypevr = end_deftypefn def do_deftypevrx(self, args): self.write('<DT>') words = splitwords(args, 3) [category, datatype, name], rest = words[:3], words[3:] self.expand('@code{%s} @b{%s}' % (datatype, name)) # If there are too many arguments, show them for word in rest: self.expand(' ' + word) #self.expand(' -- ' + category) self.write('\n<DD>') self.index('fn', name) def bgn_deftypevar(self, args): self.bgn_deftypevr('Variable ' + args) end_deftypevar = end_deftypevr def do_deftypevarx(self, args): self.do_deftypevrx('Variable ' + args) # --- Ditto for object-oriented languages --- def bgn_defcv(self, args): self.write('<DL>') self.do_defcvx(args) end_defcv = end_deftypevr def do_defcvx(self, args): self.write('<DT>') words = splitwords(args, 3) [category, classname, name], rest = words[:3], words[3:] self.expand('@b{%s}' % name) # If there are too many arguments, show them for word in rest: self.expand(' ' + word) #self.expand(' -- %s of @code{%s}' % (category, classname)) self.write('\n<DD>') self.index('vr', '%s @r{on %s}' % (name, classname)) def bgn_defivar(self, args): self.bgn_defcv('{Instance Variable} ' + args) end_defivar = end_defcv def do_defivarx(self, args): self.do_defcvx('{Instance Variable} ' + args) def bgn_defop(self, args): self.write('<DL>') self.do_defopx(args) end_defop = end_defcv def do_defopx(self, args): self.write('<DT>') words = splitwords(args, 3) [category, classname, name], rest = words[:3], words[3:] self.expand('@b{%s}' % name) for word in rest: self.expand(' ' + makevar(word)) #self.expand(' -- %s of @code{%s}' % (category, classname)) self.write('\n<DD>') self.index('fn', '%s @r{on %s}' % (name, classname)) def bgn_defmethod(self, args): self.bgn_defop('Method ' + args) end_defmethod = end_defop def do_defmethodx(self, args): self.do_defopx('Method ' + args) # --- Ditto for data types --- def bgn_deftp(self, args): self.write('<DL>') self.do_deftpx(args) end_deftp = end_defcv def do_deftpx(self, args): self.write('<DT>') words = splitwords(args, 2) [category, name], rest = words[:2], words[2:] self.expand('@b{%s}' % name) for word in rest: self.expand(' ' + word) #self.expand(' -- ' + category) self.write('\n<DD>') self.index('tp', name) # --- Making Lists and Tables def bgn_enumerate(self, args): if not args: self.write('<OL>\n') self.stackinfo[len(self.stack)] = '</OL>\n' else: self.itemnumber = args self.write('<UL>\n') self.stackinfo[len(self.stack)] = '</UL>\n' def end_enumerate(self): self.itemnumber = None self.write(self.stackinfo[len(self.stack) + 1]) del self.stackinfo[len(self.stack) + 1] def bgn_itemize(self, args): self.itemarg = args self.write('<UL>\n') def end_itemize(self): self.itemarg = None self.write('</UL>\n') def bgn_table(self, args): self.itemarg = args self.write('<DL>\n') def end_table(self): self.itemarg = None self.write('</DL>\n') def bgn_ftable(self, args): self.itemindex = 'fn' self.bgn_table(args) def end_ftable(self): self.itemindex = None self.end_table() def bgn_vtable(self, args): self.itemindex = 'vr' self.bgn_table(args) def end_vtable(self): self.itemindex = None self.end_table() def do_item(self, args): if self.itemindex: self.index(self.itemindex, args) if self.itemarg: if self.itemarg[0] == '@' and self.itemarg[1] and \ self.itemarg[1] in string.ascii_letters: args = self.itemarg + '{' + args + '}' else: # some other character, e.g. '-' args = self.itemarg + ' ' + args if self.itemnumber <> None: args = self.itemnumber + '. ' + args self.itemnumber = increment(self.itemnumber) if self.stack and self.stack[-1] == 'table': self.write('<DT>') self.expand(args) self.write('\n<DD>') elif self.stack and self.stack[-1] == 'multitable': self.write('<TR><TD>') self.expand(args) self.write('</TD>\n</TR>\n') else: self.write('<LI>') self.expand(args) self.write(' ') do_itemx = do_item # XXX Should suppress leading blank line # rpyron 2002-05-07 multitable support def bgn_multitable(self, args): self.itemarg = None # should be handled by columnfractions self.write('<TABLE BORDER="">\n') def end_multitable(self): self.itemarg = None self.write('</TABLE>\n<BR>\n') def handle_columnfractions(self): # It would be better to handle this, but for now it's in the way... self.itemarg = None def handle_tab(self): self.write('</TD>\n <TD>') # --- Enumerations, displays, quotations --- # XXX Most of these should increase the indentation somehow def bgn_quotation(self, args): self.write('<BLOCKQUOTE>') def end_quotation(self): self.write('</BLOCKQUOTE>\n') def bgn_example(self, args): self.nofill = self.nofill + 1 self.write('<PRE>') def end_example(self): self.write('</PRE>\n') self.nofill = self.nofill - 1 bgn_lisp = bgn_example # Synonym when contents are executable lisp code end_lisp = end_example bgn_smallexample = bgn_example # XXX Should use smaller font end_smallexample = end_example bgn_smalllisp = bgn_lisp # Ditto end_smalllisp = end_lisp bgn_display = bgn_example end_display = end_example bgn_format = bgn_display end_format = end_display def do_exdent(self, args): self.expand(args + '\n') # XXX Should really mess with indentation def bgn_flushleft(self, args): self.nofill = self.nofill + 1 self.write('<PRE>\n') def end_flushleft(self): self.write('</PRE>\n') self.nofill = self.nofill - 1 def bgn_flushright(self, args): self.nofill = self.nofill + 1 self.write('<ADDRESS COMPACT>\n') def end_flushright(self): self.write('</ADDRESS>\n') self.nofill = self.nofill - 1 def bgn_menu(self, args): self.write('<DIR>\n') self.write(' <STRONG><EM>Menu</EM></STRONG><P>\n') self.htmlhelp.beginmenu() def end_menu(self): self.write('</DIR>\n') self.htmlhelp.endmenu() def bgn_cartouche(self, args): pass def end_cartouche(self): pass # --- Indices --- def resetindex(self): self.noncodeindices = ['cp'] self.indextitle = {} self.indextitle['cp'] = 'Concept' self.indextitle['fn'] = 'Function' self.indextitle['ky'] = 'Keyword' self.indextitle['pg'] = 'Program' self.indextitle['tp'] = 'Type' self.indextitle['vr'] = 'Variable' # self.whichindex = {} for name in self.indextitle.keys(): self.whichindex[name] = [] def user_index(self, name, args): if self.whichindex.has_key(name): self.index(name, args) else: print '*** No index named', repr(name) def do_cindex(self, args): self.index('cp', args) def do_findex(self, args): self.index('fn', args) def do_kindex(self, args): self.index('ky', args) def do_pindex(self, args): self.index('pg', args) def do_tindex(self, args): self.index('tp', args) def do_vindex(self, args): self.index('vr', args) def index(self, name, args): self.whichindex[name].append((args, self.nodename)) self.htmlhelp.index(args, self.nodename) def do_synindex(self, args): words = args.split() if len(words) <> 2: print '*** bad @synindex', args return [old, new] = words if not self.whichindex.has_key(old) or \ not self.whichindex.has_key(new): print '*** bad key(s) in @synindex', args return if old <> new and \ self.whichindex[old] is not self.whichindex[new]: inew = self.whichindex[new] inew[len(inew):] = self.whichindex[old] self.whichindex[old] = inew do_syncodeindex = do_synindex # XXX Should use code font def do_printindex(self, args): words = args.split() for name in words: if self.whichindex.has_key(name): self.prindex(name) else: print '*** No index named', repr(name) def prindex(self, name): iscodeindex = (name not in self.noncodeindices) index = self.whichindex[name] if not index: return if self.debugging: print '!'*self.debugging, '--- Generating', \ self.indextitle[name], 'index' # The node already provides a title index1 = [] junkprog = re.compile('^(@[a-z]+)?{') for key, node in index: sortkey = key.lower() # Remove leading `@cmd{' from sort key # -- don't bother about the matching `}' oldsortkey = sortkey while 1: mo = junkprog.match(sortkey) if not mo: break i = mo.end() sortkey = sortkey[i:] index1.append((sortkey, key, node)) del index[:] index1.sort() self.write('<DL COMPACT>\n') prevkey = prevnode = None for sortkey, key, node in index1: if (key, node) == (prevkey, prevnode): continue if self.debugging > 1: print '!'*self.debugging, key, ':', node self.write('<DT>') if iscodeindex: key = '@code{' + key + '}' if key != prevkey: self.expand(key) self.write('\n<DD><A HREF="%s">%s</A>\n' % (makefile(node), node)) prevkey, prevnode = key, node self.write('</DL>\n') # --- Final error reports --- def report(self): if self.unknown: print '--- Unrecognized commands ---' cmds = self.unknown.keys() cmds.sort() for cmd in cmds: print cmd.ljust(20), self.unknown[cmd] class TexinfoParserHTML3(TexinfoParser): COPYRIGHT_SYMBOL = "©" FN_ID_PATTERN = "[%(id)s]" FN_SOURCE_PATTERN = '<A ID=footnoteref%(id)s ' \ 'HREF="#footnotetext%(id)s">' + FN_ID_PATTERN + '</A>' FN_TARGET_PATTERN = '<FN ID=footnotetext%(id)s>\n' \ '<P><A HREF="#footnoteref%(id)s">' + FN_ID_PATTERN \ + '</A>\n%(text)s</P></FN>\n' FN_HEADER = '<DIV CLASS=footnotes>\n <HR NOSHADE WIDTH=200>\n' \ ' <STRONG><EM>Footnotes</EM></STRONG>\n <P>\n' Node = HTML3Node def bgn_quotation(self, args): self.write('<BQ>') def end_quotation(self): self.write('</BQ>\n') def bgn_example(self, args): # this use of <CODE> would not be legal in HTML 2.0, # but is in more recent DTDs. self.nofill = self.nofill + 1 self.write('<PRE CLASS=example><CODE>') def end_example(self): self.write("</CODE></PRE>\n") self.nofill = self.nofill - 1 def bgn_flushleft(self, args): self.nofill = self.nofill + 1 self.write('<PRE CLASS=flushleft>\n') def bgn_flushright(self, args): self.nofill = self.nofill + 1 self.write('<DIV ALIGN=right CLASS=flushright><ADDRESS COMPACT>\n') def end_flushright(self): self.write('</ADDRESS></DIV>\n') self.nofill = self.nofill - 1 def bgn_menu(self, args): self.write('<UL PLAIN CLASS=menu>\n') self.write(' <LH>Menu</LH>\n') def end_menu(self): self.write('</UL>\n') # rpyron 2002-05-07 class HTMLHelp: """ This class encapsulates support for HTML Help. Node names, file names, menu items, index items, and image file names are accumulated until a call to finalize(). At that time, three output files are created in the current directory: `helpbase`.hhp is a HTML Help Workshop project file. It contains various information, some of which I do not understand; I just copied the default project info from a fresh installation. `helpbase`.hhc is the Contents file for the project. `helpbase`.hhk is the Index file for the project. When these files are used as input to HTML Help Workshop, the resulting file will be named: `helpbase`.chm If none of the defaults in `helpbase`.hhp are changed, the .CHM file will have Contents, Index, Search, and Favorites tabs. """ codeprog = re.compile('@code{(.*?)}') def __init__(self,helpbase,dirname): self.helpbase = helpbase self.dirname = dirname self.projectfile = None self.contentfile = None self.indexfile = None self.nodelist = [] self.nodenames = {} # nodename : index self.nodeindex = {} self.filenames = {} # filename : filename self.indexlist = [] # (args,nodename) == (key,location) self.current = '' self.menudict = {} self.dumped = {} def addnode(self,name,next,prev,up,filename): node = (name,next,prev,up,filename) # add this file to dict # retrieve list with self.filenames.values() self.filenames[filename] = filename # add this node to nodelist self.nodeindex[name] = len(self.nodelist) self.nodelist.append(node) # set 'current' for menu items self.current = name self.menudict[self.current] = [] def menuitem(self,nodename): menu = self.menudict[self.current] menu.append(nodename) def addimage(self,imagename): self.filenames[imagename] = imagename def index(self, args, nodename): self.indexlist.append((args,nodename)) def beginmenu(self): pass def endmenu(self): pass def finalize(self): if not self.helpbase: return # generate interesting filenames resultfile = self.helpbase + '.chm' projectfile = self.helpbase + '.hhp' contentfile = self.helpbase + '.hhc' indexfile = self.helpbase + '.hhk' # generate a reasonable title title = self.helpbase # get the default topic file (topname,topnext,topprev,topup,topfile) = self.nodelist[0] defaulttopic = topfile # PROJECT FILE try: fp = open(projectfile,'w') print>>fp, '[OPTIONS]' print>>fp, 'Auto Index=Yes' print>>fp, 'Binary TOC=No' print>>fp, 'Binary Index=Yes' print>>fp, 'Compatibility=1.1' print>>fp, 'Compiled file=' + resultfile + '' print>>fp, 'Contents file=' + contentfile + '' print>>fp, 'Default topic=' + defaulttopic + '' print>>fp, 'Error log file=ErrorLog.log' print>>fp, 'Index file=' + indexfile + '' print>>fp, 'Title=' + title + '' print>>fp, 'Display compile progress=Yes' print>>fp, 'Full-text search=Yes' print>>fp, 'Default window=main' print>>fp, '' print>>fp, '[WINDOWS]' print>>fp, ('main=,"' + contentfile + '","' + indexfile + '","","",,,,,0x23520,222,0x1046,[10,10,780,560],' '0xB0000,,,,,,0') print>>fp, '' print>>fp, '[FILES]' print>>fp, '' self.dumpfiles(fp) fp.close() except IOError, msg: print projectfile, ':', msg sys.exit(1) # CONTENT FILE try: fp = open(contentfile,'w') print>>fp, '<!DOCTYPE HTML PUBLIC "-//IETF//DTD HTML//EN">' print>>fp, '<!-- This file defines the table of contents -->' print>>fp, '<HTML>' print>>fp, '<HEAD>' print>>fp, ('<meta name="GENERATOR" ' 'content="Microsoft® HTML Help Workshop 4.1">') print>>fp, '<!-- Sitemap 1.0 -->' print>>fp, '</HEAD>' print>>fp, '<BODY>' print>>fp, ' <OBJECT type="text/site properties">' print>>fp, ' <param name="Window Styles" value="0x800025">' print>>fp, ' <param name="comment" value="title:">' print>>fp, ' <param name="comment" value="base:">' print>>fp, ' </OBJECT>' self.dumpnodes(fp) print>>fp, '</BODY>' print>>fp, '</HTML>' fp.close() except IOError, msg: print contentfile, ':', msg sys.exit(1) # INDEX FILE try: fp = open(indexfile ,'w') print>>fp, '<!DOCTYPE HTML PUBLIC "-//IETF//DTD HTML//EN">' print>>fp, '<!-- This file defines the index -->' print>>fp, '<HTML>' print>>fp, '<HEAD>' print>>fp, ('<meta name="GENERATOR" ' 'content="Microsoft® HTML Help Workshop 4.1">') print>>fp, '<!-- Sitemap 1.0 -->' print>>fp, '</HEAD>' print>>fp, '<BODY>' print>>fp, '<OBJECT type="text/site properties">' print>>fp, '</OBJECT>' self.dumpindex(fp) print>>fp, '</BODY>' print>>fp, '</HTML>' fp.close() except IOError, msg: print indexfile , ':', msg sys.exit(1) def dumpfiles(self, outfile=sys.stdout): filelist = self.filenames.values() filelist.sort() for filename in filelist: print>>outfile, filename def dumpnodes(self, outfile=sys.stdout): self.dumped = {} if self.nodelist: nodename, dummy, dummy, dummy, dummy = self.nodelist[0] self.topnode = nodename print>>outfile, '<UL>' for node in self.nodelist: self.dumpnode(node,0,outfile) print>>outfile, '</UL>' def dumpnode(self, node, indent=0, outfile=sys.stdout): if node: # Retrieve info for this node (nodename,next,prev,up,filename) = node self.current = nodename # Have we been dumped already? if self.dumped.has_key(nodename): return self.dumped[nodename] = 1 # Print info for this node print>>outfile, ' '*indent, print>>outfile, '<LI><OBJECT type="text/sitemap">', print>>outfile, '<param name="Name" value="' + nodename +'">', print>>outfile, '<param name="Local" value="'+ filename +'">', print>>outfile, '</OBJECT>' # Does this node have menu items? try: menu = self.menudict[nodename] self.dumpmenu(menu,indent+2,outfile) except KeyError: pass def dumpmenu(self, menu, indent=0, outfile=sys.stdout): if menu: currentnode = self.current if currentnode != self.topnode: # XXX this is a hack print>>outfile, ' '*indent + '<UL>' indent += 2 for item in menu: menunode = self.getnode(item) self.dumpnode(menunode,indent,outfile) if currentnode != self.topnode: # XXX this is a hack print>>outfile, ' '*indent + '</UL>' indent -= 2 def getnode(self, nodename): try: index = self.nodeindex[nodename] return self.nodelist[index] except KeyError: return None except IndexError: return None # (args,nodename) == (key,location) def dumpindex(self, outfile=sys.stdout): print>>outfile, '<UL>' for (key,location) in self.indexlist: key = self.codeexpand(key) location = makefile(location) location = self.dirname + '/' + location print>>outfile, '<LI><OBJECT type="text/sitemap">', print>>outfile, '<param name="Name" value="' + key + '">', print>>outfile, '<param name="Local" value="' + location + '">', print>>outfile, '</OBJECT>' print>>outfile, '</UL>' def codeexpand(self, line): co = self.codeprog.match(line) if not co: return line bgn, end = co.span(0) a, b = co.span(1) line = line[:bgn] + line[a:b] + line[end:] return line # Put @var{} around alphabetic substrings def makevar(str): return '@var{'+str+'}' # Split a string in "words" according to findwordend def splitwords(str, minlength): words = [] i = 0 n = len(str) while i < n: while i < n and str[i] in ' \t\n': i = i+1 if i >= n: break start = i i = findwordend(str, i, n) words.append(str[start:i]) while len(words) < minlength: words.append('') return words # Find the end of a "word", matching braces and interpreting @@ @{ @} fwprog = re.compile('[@{} ]') def findwordend(str, i, n): level = 0 while i < n: mo = fwprog.search(str, i) if not mo: break i = mo.start() c = str[i]; i = i+1 if c == '@': i = i+1 # Next character is not special elif c == '{': level = level+1 elif c == '}': level = level-1 elif c == ' ' and level <= 0: return i-1 return n # Convert a node name into a file name def makefile(nodename): nodename = nodename.strip() return fixfunnychars(nodename) + '.html' # Characters that are perfectly safe in filenames and hyperlinks goodchars = string.ascii_letters + string.digits + '!@-=+.' # Replace characters that aren't perfectly safe by dashes # Underscores are bad since Cern HTTPD treats them as delimiters for # encoding times, so you get mismatches if you compress your files: # a.html.gz will map to a_b.html.gz def fixfunnychars(addr): i = 0 while i < len(addr): c = addr[i] if c not in goodchars: c = '-' addr = addr[:i] + c + addr[i+1:] i = i + len(c) return addr # Increment a string used as an enumeration def increment(s): if not s: return '1' for sequence in string.digits, string.lowercase, string.uppercase: lastc = s[-1] if lastc in sequence: i = sequence.index(lastc) + 1 if i >= len(sequence): if len(s) == 1: s = sequence[0]*2 if s == '00': s = '10' else: s = increment(s[:-1]) + sequence[0] else: s = s[:-1] + sequence[i] return s return s # Don't increment def test(): import sys debugging = 0 print_headers = 0 cont = 0 html3 = 0 htmlhelp = '' while sys.argv[1] == ['-d']: debugging = debugging + 1 del sys.argv[1] if sys.argv[1] == '-p': print_headers = 1 del sys.argv[1] if sys.argv[1] == '-c': cont = 1 del sys.argv[1] if sys.argv[1] == '-3': html3 = 1 del sys.argv[1] if sys.argv[1] == '-H': helpbase = sys.argv[2] del sys.argv[1:3] if len(sys.argv) <> 3: print 'usage: texi2hh [-d [-d]] [-p] [-c] [-3] [-H htmlhelp]', \ 'inputfile outputdirectory' sys.exit(2) if html3: parser = TexinfoParserHTML3() else: parser = TexinfoParser() parser.cont = cont parser.debugging = debugging parser.print_headers = print_headers file = sys.argv[1] dirname = sys.argv[2] parser.setdirname(dirname) parser.setincludedir(os.path.dirname(file)) htmlhelp = HTMLHelp(helpbase, dirname) parser.sethtmlhelp(htmlhelp) try: fp = open(file, 'r') except IOError, msg: print file, ':', msg sys.exit(1) parser.parse(fp) fp.close() parser.report() htmlhelp.finalize() if __name__ == "__main__": test()