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Doc: Drop unmainted converters for html, textile, dokuwiki

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This commit is contained in:
Rémi Verschelde 2017-05-06 23:42:52 +02:00
parent 091b30d4cb
commit 5d10b8fabd
7 changed files with 0 additions and 1844 deletions
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19
doc/Makefile
View file

@ -8,25 +8,11 @@ TOOLSDIR = $(BASEDIR)/tools
clean:
rm -rf $(OUTPUTDIR)
doku:
rm -rf $(OUTPUTDIR)/doku
mkdir -p $(OUTPUTDIR)/doku
pushd $(OUTPUTDIR)/doku
python2 $(TOOLSDIR)/makedoku.py $(CLASSES)
popd
doxygen:
rm -rf $(OUTPUTDIR)/doxygen
mkdir -p $(OUTPUTDIR)/doxygen
doxygen Doxyfile
html:
rm -rf $(OUTPUTDIR)/html
mkdir -p $(OUTPUTDIR)/html
pushd $(OUTPUTDIR)/html
python2 $(TOOLSDIR)/makehtml.py -multipage $(CLASSES)
popd
markdown:
rm -rf $(OUTPUTDIR)/markdown
mkdir -p $(OUTPUTDIR)/markdown
@ -40,8 +26,3 @@ rst:
pushd $(OUTPUTDIR)/rst
python2 $(TOOLSDIR)/makerst.py $(CLASSES)
popd
textile:
rm -rf $(OUTPUTDIR)/textile
mkdir -p $(OUTPUTDIR)/textile
python3 $(TOOLSDIR)/makedocs.py --input $(CLASSES) --output $(OUTPUTDIR)/textile

0
doc/tools/doc_status.py Executable file → Normal file
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146
doc/tools/main.css
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@ -1,146 +0,0 @@
BODY,H1,H2,H3,H4,H5,H6,P,CENTER,TD,TH,UL,DL,DIV, SPAN {
font-family: Arial, Geneva, Helvetica, sans-serif;
}
a {
text-decoration: none;
}
a:hover {
text-decoration: underline;
}
td.top_table {
padding: 5px;
}
div.method_doc {
padding-bottom: 30px;
}
div.method_description {
margin-left: 30px;
}
list.inh_class_list {
margin-left: 30px;
}
div.inh_class_list {
margin-left: 30px;
}
div.method_doc div.method {
font-size: 12pt;
font-weight: bold;
}
span.funcdecl {
color: #202060;
}
span.funcdef {
color: #202060;
}
span.qualifier {
font-weight: bold;
}
span.symbol {
/*font-weight: bold;*/
color: #471870;
}
span.datatype {
color: #6a1533;
}
tr.category_title {
background-color: #333333;
}
a.category_title {
font-weight: bold;
color: #FFFFFF;
}
div.method_list {
margin-left: 30px;
}
div.constant_list {
margin-left: 30px;
}
div.member_list {
margin-left: 30px;
}
div.description {
margin-left: 30px;
}
div.class_description {
margin-left: 30px;
}
div.method_list li div {
display: inline;
}
div.member_list li div.member {
display: inline;
}
div.constant_list li div.constant {
display: inline;
}
span.member_description {
font-style: italic;
color: grey;
}
span.constant_description {
font-style: italic;
color: grey;
}
span.identifier {
font-weight: bold;
}
table.class_table td {
vertical-align: top;
}

108
doc/tools/makedocs.pot
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@ -1,108 +0,0 @@
# Translations template for PROJECT.
# Copyright (C) 2015 ORGANIZATION
# This file is distributed under the same license as the PROJECT project.
# FIRST AUTHOR <EMAIL@ADDRESS>, 2015.
#
#, fuzzy
msgid ""
msgstr ""
"Project-Id-Version: makedocs 0.1\n"
"Report-Msgid-Bugs-To: EMAIL@ADDRESS\n"
"POT-Creation-Date: 2015-10-07 11:47-0600\n"
"PO-Revision-Date: YEAR-MO-DA HO:MI+ZONE\n"
"Last-Translator: FULL NAME <EMAIL@ADDRESS>\n"
"Language-Team: \n"
"MIME-Version: 1.0\n"
"Content-Type: text/plain; charset=UTF-8\n"
"Content-Transfer-Encoding: 8bit\n"
"Generated-By: Babel 2.0\n"
"X-Generator: Poedit 1.8.4\n"
#: makedocs.py:74
msgid "\"<code>{gclass}</code>(Go to page of class {gclass})\":/class_{lkclass}"
msgstr ""
#: makedocs.py:76
msgid "\"<code>{gclass}.{method}</code>(Go to page {gclass}, section {method})\":/class_{lkclass}#{lkmethod}"
msgstr ""
#: makedocs.py:79
msgid "\"<code>{method}</code>(Jump to method {method})\":#{lkmethod}"
msgstr ""
#: makedocs.py:81
msgid " \"{rtype}(Go to page of class {rtype})\":/class_{link} "
msgstr ""
#: makedocs.py:82
msgid "\"*{funcname}*(Jump to description for node {funcname})\":#{link} <b>(</b> "
msgstr ""
#: makedocs.py:87
msgid "h4. Inherits: "
msgstr ""
#: makedocs.py:232
msgid "<doc>'s version attribute missing"
msgstr ""
#: makedocs.py:246
msgid "|_. Index symbol |_. Class name |_. Index symbol |_. Class name |\n"
msgstr ""
#: makedocs.py:305
msgid ""
"h4. Category: {}\n"
"\n"
msgstr ""
#: makedocs.py:310
msgid ""
"h2. Brief Description\n"
"\n"
msgstr ""
#: makedocs.py:312
msgid ""
"\"read more\":#more\n"
"\n"
msgstr ""
#: makedocs.py:317
msgid ""
"\n"
"h3. Member Functions\n"
"\n"
msgstr ""
#: makedocs.py:323
msgid ""
"\n"
"h3. Signals\n"
"\n"
msgstr ""
#: makedocs.py:331
msgid ""
"\n"
"h3. Numeric Constants\n"
"\n"
msgstr ""
#: makedocs.py:347
msgid ""
"\n"
"h3(#more). Description\n"
"\n"
msgstr ""
#: makedocs.py:351
msgid "_Nothing here, yet..._\n"
msgstr ""
#: makedocs.py:355
msgid ""
"\n"
"h3. Member Function Description\n"
"\n"
msgstr ""

383
doc/tools/makedocs.py
View file

@ -1,383 +0,0 @@
#!/usr/bin/env python3
# -*- coding: utf-8 -*-
#
# makedocs.py: Generate documentation for Open Project Wiki
# Copyright (c) 2007-2017 Juan Linietsky, Ariel Manzur.
# Copyright (c) 2014-2017 Godot Engine contributors (cf. AUTHORS.md)
# Contributor: Jorge Araya Navarro <elcorreo@deshackra.com>
#
# IMPORTANT NOTICE:
# If you are going to modify anything from this file, please be sure to follow
# the Style Guide for Python Code or often called "PEP8". To do this
# automagically just install autopep8:
#
# $ sudo pip3 install autopep8
#
# and run:
#
# $ autopep8 makedocs.py
#
# Before committing your changes. Also be sure to delete any trailing
# whitespace you may left.
#
# TODO:
# * Refactor code.
# * Adapt this script for generating content in other markup formats like
# reStructuredText, Markdown, DokuWiki, etc.
#
# Also check other TODO entries in this script for more information on what is
# left to do.
import argparse
import gettext
import logging
import re
from itertools import zip_longest
from os import path, listdir
from xml.etree import ElementTree
# add an option to change the verbosity
logging.basicConfig(level=logging.INFO)
def getxmlfloc():
""" Returns the supposed location of the XML file
"""
filepath = path.dirname(path.abspath(__file__))
return path.join(filepath, "class_list.xml")
def langavailable():
""" Return a list of languages available for translation
"""
filepath = path.join(
path.dirname(path.abspath(__file__)), "locales")
files = listdir(filepath)
choices = [x for x in files]
choices.insert(0, "none")
return choices
desc = "Generates documentation from a XML file to different markup languages"
parser = argparse.ArgumentParser(description=desc)
parser.add_argument("--input", dest="xmlfp", default=getxmlfloc(),
help="Input XML file, default: {}".format(getxmlfloc()))
parser.add_argument("--output-dir", dest="outputdir", required=True,
help="Output directory for generated files")
parser.add_argument("--language", choices=langavailable(), default="none",
help=("Choose the language of translation"
" for the output files. Default is English (none). "
"Note: This is NOT for the documentation itself!"))
# TODO: add an option for outputting different markup formats
args = parser.parse_args()
# Let's check if the file and output directory exists
if not path.isfile(args.xmlfp):
logging.critical("File not found: {}".format(args.xmlfp))
exit(1)
elif not path.isdir(args.outputdir):
logging.critical("Path does not exist: {}".format(args.outputdir))
exit(1)
_ = gettext.gettext
if args.language != "none":
lang = gettext.translation(domain="makedocs",
localedir="locales",
languages=[args.language])
lang.install()
_ = lang.gettext
# Strings
C_LINK = _("\"<code>{gclass}</code>(Go to page of class"
" {gclass})\":/class_{lkclass}")
MC_LINK = _("\"<code>{gclass}.{method}</code>(Go "
"to page {gclass}, section {method})\""
":/class_{lkclass}#{lkmethod}")
TM_JUMP = _("\"<code>{method}</code>(Jump to method"
" {method})\":#{lkmethod}")
GTC_LINK = _(" \"{rtype}(Go to page of class {rtype})\":/class_{link} ")
DFN_JUMP = _("\"*{funcname}*(Jump to description for"
" node {funcname})\":#{link} <b>(</b> ")
M_ARG_DEFAULT = C_LINK + " {name}={default}"
M_ARG = C_LINK + " {name}"
OPENPROJ_INH = _("h4. Inherits: ") + C_LINK + "\n\n"
def tb(string):
""" Return a byte representation of a string
"""
return bytes(string, "UTF-8")
def sortkey(c):
""" Symbols are first, letters second
"""
if "_" == c.attrib["name"][0]:
return "A"
else:
return c.attrib["name"]
def toOP(text):
""" Convert commands in text to Open Project commands
"""
# TODO: Make this capture content between [command] ... [/command]
groups = re.finditer((r'\[html (?P<command>/?\w+/?)(\]| |=)?(\]| |=)?(?P<a'
'rg>\w+)?(\]| |=)?(?P<value>"[^"]+")?/?\]'), text)
alignstr = ""
for group in groups:
gd = group.groupdict()
if gd["command"] == "br/":
text = text.replace(group.group(0), "\n\n", 1)
elif gd["command"] == "div":
if gd["value"] == '"center"':
alignstr = ("{display:block; margin-left:auto;"
" margin-right:auto;}")
elif gd["value"] == '"left"':
alignstr = "<"
elif gd["value"] == '"right"':
alignstr = ">"
text = text.replace(group.group(0), "\n\n", 1)
elif gd["command"] == "/div":
alignstr = ""
text = text.replace(group.group(0), "\n\n", 1)
elif gd["command"] == "img":
text = text.replace(group.group(0), "!{align}{src}!".format(
align=alignstr, src=gd["value"].strip('"')), 1)
elif gd["command"] == "b" or gd["command"] == "/b":
text = text.replace(group.group(0), "*", 1)
elif gd["command"] == "i" or gd["command"] == "/i":
text = text.replace(group.group(0), "_", 1)
elif gd["command"] == "u" or gd["command"] == "/u":
text = text.replace(group.group(0), "+", 1)
# Process other non-html commands
groups = re.finditer((r'\[method ((?P<class>[aA0-zZ9_]+)(?:\.))'
r'?(?P<method>[aA0-zZ9_]+)\]'), text)
for group in groups:
gd = group.groupdict()
if gd["class"]:
replacewith = (MC_LINK.format(gclass=gd["class"],
method=gd["method"],
lkclass=gd["class"].lower(),
lkmethod=gd["method"].lower()))
else:
# The method is located in the same wiki page
replacewith = (TM_JUMP.format(method=gd["method"],
lkmethod=gd["method"].lower()))
text = text.replace(group.group(0), replacewith, 1)
# Finally, [Classes] are around brackets, make them direct links
groups = re.finditer(r'\[(?P<class>[az0-AZ0_]+)\]', text)
for group in groups:
gd = group.groupdict()
replacewith = (C_LINK.
format(gclass=gd["class"],
lkclass=gd["class"].lower()))
text = text.replace(group.group(0), replacewith, 1)
return text + "\n\n"
def mkfn(node, is_signal=False):
""" Return a string containing a unsorted item for a function
"""
finalstr = ""
name = node.attrib["name"]
rtype = node.find("return")
if rtype:
rtype = rtype.attrib["type"]
else:
rtype = "void"
# write the return type and the function name first
finalstr += "* "
# return type
if not is_signal:
if rtype != "void":
finalstr += GTC_LINK.format(
rtype=rtype,
link=rtype.lower())
else:
finalstr += " void "
# function name
if not is_signal:
finalstr += DFN_JUMP.format(
funcname=name,
link=name.lower())
else:
# Signals have no description
finalstr += "*{funcname}* <b>(</b>".format(funcname=name)
# loop for the arguments of the function, if any
args = []
for arg in sorted(
node.iter(tag="argument"),
key=lambda a: int(a.attrib["index"])):
ntype = arg.attrib["type"]
nname = arg.attrib["name"]
if "default" in arg.attrib:
args.insert(-1, M_ARG_DEFAULT.format(
gclass=ntype,
lkclass=ntype.lower(),
name=nname,
default=arg.attrib["default"]))
else:
# No default value present
args.insert(-1, M_ARG.format(gclass=ntype,
lkclass=ntype.lower(), name=nname))
# join the arguments together
finalstr += ", ".join(args)
# and, close the function with a )
finalstr += " <b>)</b>"
# write the qualifier, if any
if "qualifiers" in node.attrib:
qualifier = node.attrib["qualifiers"]
finalstr += " " + qualifier
finalstr += "\n"
return finalstr
# Let's begin
tree = ElementTree.parse(args.xmlfp)
root = tree.getroot()
# Check version attribute exists in <doc>
if "version" not in root.attrib:
logging.critical(_("<doc>'s version attribute missing"))
exit(1)
version = root.attrib["version"]
classes = sorted(root, key=sortkey)
# first column is always longer, second column of classes should be shorter
zclasses = zip_longest(classes[:int(len(classes) / 2 + 1)],
classes[int(len(classes) / 2 + 1):],
fillvalue="")
# We write the class_list file and also each class file at once
with open(path.join(args.outputdir, "class_list.txt"), "wb") as fcl:
# Write header of table
fcl.write(tb("|^.\n"))
fcl.write(tb(_("|_. Index symbol |_. Class name "
"|_. Index symbol |_. Class name |\n")))
fcl.write(tb("|-.\n"))
indexletterl = ""
indexletterr = ""
for gdclassl, gdclassr in zclasses:
# write a row #
# write the index symbol column, left
if indexletterl != gdclassl.attrib["name"][0]:
indexletterl = gdclassl.attrib["name"][0]
fcl.write(tb("| *{}* |".format(indexletterl.upper())))
else:
# empty cell
fcl.write(tb("| |"))
# write the class name column, left
fcl.write(tb(C_LINK.format(
gclass=gdclassl.attrib["name"],
lkclass=gdclassl.attrib["name"].lower())))
# write the index symbol column, right
if isinstance(gdclassr, ElementTree.Element):
if indexletterr != gdclassr.attrib["name"][0]:
indexletterr = gdclassr.attrib["name"][0]
fcl.write(tb("| *{}* |".format(indexletterr.upper())))
else:
# empty cell
fcl.write(tb("| |"))
# We are dealing with an empty string
else:
# two empty cell
fcl.write(tb("| | |\n"))
# We won't get the name of the class since there is no ElementTree
# object for the right side of the tuple, so we iterate the next
# tuple instead
continue
# write the class name column (if any), right
fcl.write(tb(C_LINK.format(
gclass=gdclassl.attrib["name"],
lkclass=gdclassl.attrib["name"].lower()) + "|\n"))
# row written #
# now, let's write each class page for each class
for gdclass in [gdclassl, gdclassr]:
if not isinstance(gdclass, ElementTree.Element):
continue
classname = gdclass.attrib["name"]
with open(path.join(args.outputdir, "{}.txt".format(
classname.lower())), "wb") as clsf:
# First level header with the name of the class
clsf.write(tb("h1. {}\n\n".format(classname)))
# lay the attributes
if "inherits" in gdclass.attrib:
inh = gdclass.attrib["inherits"].strip()
clsf.write(tb(OPENPROJ_INH.format(gclass=inh,
lkclass=inh.lower())))
if "category" in gdclass.attrib:
clsf.write(tb(_("h4. Category: {}\n\n").
format(gdclass.attrib["category"].strip())))
# lay child nodes
briefd = gdclass.find("brief_description")
if briefd.text.strip():
clsf.write(tb(_("h2. Brief Description\n\n")))
clsf.write(tb(toOP(briefd.text.strip()) +
_("\"read more\":#more\n\n")))
# Write the list of member functions of this class
methods = gdclass.find("methods")
if methods and len(methods) > 0:
clsf.write(tb(_("\nh3. Member Functions\n\n")))
for method in methods.iter(tag='method'):
clsf.write(tb(mkfn(method)))
signals = gdclass.find("signals")
if signals and len(signals) > 0:
clsf.write(tb(_("\nh3. Signals\n\n")))
for signal in signals.iter(tag='signal'):
clsf.write(tb(mkfn(signal, True)))
# TODO: <members> tag is necessary to process? it does not
# exists in class_list.xml file.
consts = gdclass.find("constants")
if consts and len(consts) > 0:
clsf.write(tb(_("\nh3. Numeric Constants\n\n")))
for const in sorted(consts, key=lambda k:
k.attrib["name"]):
if const.text.strip():
clsf.write(tb("* *{name}* = *{value}* - {desc}\n".
format(
name=const.attrib["name"],
value=const.attrib["value"],
desc=const.text.strip())))
else:
# Constant have no description
clsf.write(tb("* *{name}* = *{value}*\n".
format(
name=const.attrib["name"],
value=const.attrib["value"])))
descrip = gdclass.find("description")
clsf.write(tb(_("\nh3(#more). Description\n\n")))
if descrip.text:
clsf.write(tb(descrip.text.strip() + "\n"))
else:
clsf.write(tb(_("_Nothing here, yet..._\n")))
# and finally, the description for each method
if methods and len(methods) > 0:
clsf.write(tb(_("\nh3. Member Function Description\n\n")))
for method in methods.iter(tag='method'):
clsf.write(tb("h4(#{n}). {name}\n\n".format(
n=method.attrib["name"].lower(),
name=method.attrib["name"])))
clsf.write(tb(mkfn(method) + "\n"))
clsf.write(tb(toOP(method.find(
"description").text.strip())))

499
doc/tools/makedoku.py
View file

@ -1,499 +0,0 @@
#!/usr/bin/env python
# -*- coding: utf-8 -*-
import sys
import xml.etree.ElementTree as ET
input_list = []
for arg in sys.argv[1:]:
input_list.append(arg)
if len(input_list) < 1:
print("usage: makedoku.py <classes.xml>")
sys.exit(0)
def validate_tag(elem, tag):
if (elem.tag != tag):
print("Tag mismatch, expected '" + tag + "', got " + elem.tag)
sys.exit(255)
class_names = []
classes = {}
def make_class_list(class_list, columns):
f = open("class_list.txt", "wb")
prev = 0
col_max = len(class_list) / columns + 1
print("col max is ", col_max)
col_count = 0
row_count = 0
last_initial = ""
fit_columns = []
for n in range(0, columns):
fit_columns += [[]]
indexers = []
last_initial = ""
idx = 0
for n in class_list:
col = idx / col_max
if (col >= columns):
col = columns - 1
fit_columns[col] += [n]
idx += 1
if (n[:1] != last_initial):
indexers += [n]
last_initial = n[:1]
row_max = 0
for n in range(0, columns):
if (len(fit_columns[n]) > row_max):
row_max = len(fit_columns[n])
for r in range(0, row_max):
s = "|"
for c in range(0, columns):
if (r >= len(fit_columns[c])):
continue
classname = fit_columns[c][r]
initial = classname[0]
if (classname in indexers):
s += "**" + initial + "**|"
else:
s += " |"
s += "[[" + classname.lower() + "|" + classname + "]]|"
s += "\n"
f.write(s)
def dokuize_text(txt):
return txt
def dokuize_text(text):
pos = 0
while(True):
pos = text.find("[", pos)
if (pos == -1):
break
endq_pos = text.find("]", pos + 1)
if (endq_pos == -1):
break
pre_text = text[:pos]
post_text = text[endq_pos + 1:]
tag_text = text[pos + 1:endq_pos]
if (tag_text in class_names):
tag_text = "[[" + tag_text.lower() + "|" + tag_text + "]]"
else: # command
cmd = tag_text
space_pos = tag_text.find(" ")
if (cmd.find("html") == 0):
cmd = tag_text[:space_pos]
param = tag_text[space_pos + 1:]
tag_text = "<" + param + ">"
elif(cmd.find("method") == 0):
cmd = tag_text[:space_pos]
param = tag_text[space_pos + 1:]
if (param.find(".") != -1):
class_param, method_param = param.split(".")
tag_text = "[[" + class_param.lower() + "#" + method_param + "|" + class_param + '.' + method_param + "]]"
else:
tag_text = "[[#" + param + "|" + param + "]]"
elif (cmd.find("image=") == 0):
tag_text = "{{" + cmd[6:] + "}}"
elif (cmd.find("url=") == 0):
tag_text = "[[" + cmd[4:] + "|"
elif (cmd == "/url"):
tag_text = "]]>"
elif (cmd == "center"):
tag_text = ""
elif (cmd == "/center"):
tag_text = ""
elif (cmd == "br"):
tag_text = "\\\\\n"
elif (cmd == "i" or cmd == "/i"):
tag_text = "//"
elif (cmd == "b" or cmd == "/b"):
tag_text = "**"
elif (cmd == "u" or cmd == "/u"):
tag_text = "__"
else:
tag_text = "[" + tag_text + "]"
text = pre_text + tag_text + post_text
pos = len(pre_text) + len(tag_text)
#tnode = ET.SubElement(parent,"div")
# tnode.text=text
return text
def make_type(t):
global class_names
if (t in class_names):
return "[[" + t.lower() + "|" + t + "]]"
return t
def make_method(f, name, m, declare, event=False):
s = " * "
ret_type = "void"
args = list(m)
mdata = {}
mdata["argidx"] = []
for a in args:
if (a.tag == "return"):
idx = -1
elif (a.tag == "argument"):
idx = int(a.attrib["index"])
else:
continue
mdata["argidx"].append(idx)
mdata[idx] = a
if (not event):
if (-1 in mdata["argidx"]):
s += make_type(mdata[-1].attrib["type"])
else:
s += "void"
s += " "
if (declare):
# span.attrib["class"]="funcdecl"
# a=ET.SubElement(span,"a")
# a.attrib["name"]=name+"_"+m.attrib["name"]
# a.text=name+"::"+m.attrib["name"]
s += "**" + m.attrib["name"] + "**"
else:
s += "[[#" + m.attrib["name"] + "|" + m.attrib["name"] + "]]"
s += "**(**"
argfound = False
for a in mdata["argidx"]:
arg = mdata[a]
if (a < 0):
continue
if (a > 0):
s += ", "
else:
s += " "
s += make_type(arg.attrib["type"])
if ("name" in arg.attrib):
s += " " + arg.attrib["name"]
else:
s += " arg" + str(a)
if ("default" in arg.attrib):
s += "=" + arg.attrib["default"]
argfound = True
if (argfound):
s += " "
s += "**)**"
if ("qualifiers" in m.attrib):
s += " " + m.attrib["qualifiers"]
f.write(s + "\n")
def make_doku_class(node):
name = node.attrib["name"]
f = open(name.lower() + ".txt", "wb")
f.write("====== " + name + " ======\n")
if ("inherits" in node.attrib):
inh = node.attrib["inherits"].strip()
f.write("**Inherits:** [[" + inh.lower() + "|" + inh + "]]\\\\\n")
if ("category" in node.attrib):
f.write("**Category:** " + node.attrib["category"].strip() + "\\\\\n")
briefd = node.find("brief_description")
if (briefd != None):
f.write("===== Brief Description ======\n")
f.write(dokuize_text(briefd.text.strip()) + "\n")
methods = node.find("methods")
if(methods != None and len(list(methods)) > 0):
f.write("===== Member Functions ======\n")
for m in list(methods):
make_method(f, node.attrib["name"], m, False)
events = node.find("signals")
if(events != None and len(list(events)) > 0):
f.write("===== Signals ======\n")
for m in list(events):
make_method(f, node.attrib["name"], m, True, True)
members = node.find("members")
if(members != None and len(list(members)) > 0):
f.write("===== Member Variables ======\n")
for c in list(members):
s = " * "
s += make_type(c.attrib["type"]) + " "
s += "**" + c.attrib["name"] + "**"
if (c.text.strip() != ""):
s += " - " + c.text.strip()
f.write(s + "\n")
constants = node.find("constants")
if(constants != None and len(list(constants)) > 0):
f.write("===== Numeric Constants ======\n")
for c in list(constants):
s = " * "
s += "**" + c.attrib["name"] + "**"
if ("value" in c.attrib):
s += " = **" + c.attrib["value"] + "**"
if (c.text.strip() != ""):
s += " - " + c.text.strip()
f.write(s + "\n")
descr = node.find("description")
if (descr != None and descr.text.strip() != ""):
f.write("===== Description ======\n")
f.write(dokuize_text(descr.text.strip()) + "\n")
methods = node.find("methods")
if(methods != None and len(list(methods)) > 0):
f.write("===== Member Function Description ======\n")
for m in list(methods):
d = m.find("description")
if (d == None or d.text.strip() == ""):
continue
f.write("== " + m.attrib["name"] + " ==\n")
make_method(f, node.attrib["name"], m, False)
f.write("\\\\\n")
f.write(dokuize_text(d.text.strip()))
f.write("\n")
"""
div=ET.Element("div")
div.attrib["class"]="class";
a=ET.SubElement(div,"a")
a.attrib["name"]=node.attrib["name"]
h3=ET.SubElement(a,"h3")
h3.attrib["class"]="title class_title"
h3.text=node.attrib["name"]
briefd = node.find("brief_description")
if (briefd!=None):
div2=ET.SubElement(div,"div")
div2.attrib["class"]="description class_description"
div2.text=briefd.text
if ("inherits" in node.attrib):
ET.SubElement(div,"br")
div2=ET.SubElement(div,"div")
div2.attrib["class"]="inheritance";
span=ET.SubElement(div2,"span")
span.text="Inherits: "
make_type(node.attrib["inherits"],div2)
if ("category" in node.attrib):
ET.SubElement(div,"br")
div3=ET.SubElement(div,"div")
div3.attrib["class"]="category";
span=ET.SubElement(div3,"span")
span.attrib["class"]="category"
span.text="Category: "
a = ET.SubElement(div3,"a")
a.attrib["class"]="category_ref"
a.text=node.attrib["category"]
catname=a.text
if (catname.rfind("/")!=-1):
catname=catname[catname.rfind("/"):]
catname="CATEGORY_"+catname
if (single_page):
a.attrib["href"]="#"+catname
else:
a.attrib["href"]="category.html#"+catname
methods = node.find("methods")
if(methods!=None and len(list(methods))>0):
h4=ET.SubElement(div,"h4")
h4.text="Public Methods:"
method_table=ET.SubElement(div,"table")
method_table.attrib["class"]="method_list";
for m in list(methods):
# li = ET.SubElement(div2, "li")
method_table.append( make_method_def(node.attrib["name"],m,False) )
events = node.find("signals")
if(events!=None and len(list(events))>0):
h4=ET.SubElement(div,"h4")
h4.text="Events:"
event_table=ET.SubElement(div,"table")
event_table.attrib["class"]="method_list";
for m in list(events):
# li = ET.SubElement(div2, "li")
event_table.append( make_method_def(node.attrib["name"],m,False,True) )
members = node.find("members")
if(members!=None and len(list(members))>0):
h4=ET.SubElement(div,"h4")
h4.text="Public Variables:"
div2=ET.SubElement(div,"div")
div2.attrib["class"]="member_list";
for c in list(members):
li = ET.SubElement(div2, "li")
div3=ET.SubElement(li,"div")
div3.attrib["class"]="member";
make_type(c.attrib["type"],div3)
span=ET.SubElement(div3,"span")
span.attrib["class"]="identifier member_name"
span.text=" "+c.attrib["name"]+" "
span=ET.SubElement(div3,"span")
span.attrib["class"]="member_description"
span.text=c.text
constants = node.find("constants")
if(constants!=None and len(list(constants))>0):
h4=ET.SubElement(div,"h4")
h4.text="Constants:"
div2=ET.SubElement(div,"div")
div2.attrib["class"]="constant_list";
for c in list(constants):
li = ET.SubElement(div2, "li")
div3=ET.SubElement(li,"div")
div3.attrib["class"]="constant";
span=ET.SubElement(div3,"span")
span.attrib["class"]="identifier constant_name"
span.text=c.attrib["name"]+" "
if ("value" in c.attrib):
span=ET.SubElement(div3,"span")
span.attrib["class"]="symbol"
span.text="= "
span=ET.SubElement(div3,"span")
span.attrib["class"]="constant_value"
span.text=c.attrib["value"]+" "
span=ET.SubElement(div3,"span")
span.attrib["class"]="constant_description"
span.text=c.text
# ET.SubElement(div,"br")
descr=node.find("description")
if (descr!=None and descr.text.strip()!=""):
h4=ET.SubElement(div,"h4")
h4.text="Description:"
make_text_def(node.attrib["name"],div,descr.text)
# div2=ET.SubElement(div,"div")
# div2.attrib["class"]="description";
# div2.text=descr.text
if(methods!=None or events!=None):
h4=ET.SubElement(div,"h4")
h4.text="Method Documentation:"
iter_list = []
if (methods!=None):
iter_list+=list(methods)
if (events!=None):
iter_list+=list(events)
for m in iter_list:
descr=m.find("description")
if (descr==None or descr.text.strip()==""):
continue;
div2=ET.SubElement(div,"div")
div2.attrib["class"]="method_doc";
div2.append( make_method_def(node.attrib["name"],m,True) )
#anchor = ET.SubElement(div2, "a")
#anchor.attrib["name"] =
make_text_def(node.attrib["name"],div2,descr.text)
#div3=ET.SubElement(div2,"div")
#div3.attrib["class"]="description";
#div3.text=descr.text
return div
"""
for file in input_list:
tree = ET.parse(file)
doc = tree.getroot()
if ("version" not in doc.attrib):
print("Version missing from 'doc'")
sys.exit(255)
version = doc.attrib["version"]
for c in list(doc):
if (c.attrib["name"] in class_names):
continue
class_names.append(c.attrib["name"])
classes[c.attrib["name"]] = c
class_names.sort()
make_class_list(class_names, 4)
for cn in class_names:
c = classes[cn]
make_doku_class(c)

689
doc/tools/makehtml.py
View file

@ -1,689 +0,0 @@
#!/usr/bin/env python
# -*- coding: utf-8 -*-
import sys
import xml.etree.ElementTree as ET
from xml.sax.saxutils import escape, unescape
html_escape_table = {
'"': "&quot;",
"'": "&apos;"
}
html_unescape_table = {v: k for k, v in html_escape_table.items()}
def html_escape(text):
return escape(text, html_escape_table)
def html_unescape(text):
return unescape(text, html_unescape_table)
input_list = []
single_page = True
for arg in sys.argv[1:]:
if arg[:1] == "-":
if arg[1:] == "multipage":
single_page = False
if arg[1:] == "singlepage":
single_page = True
else:
input_list.append(arg)
if len(input_list) < 1:
print("usage: makehtml.py <classes.xml>")
sys.exit(0)
def validate_tag(elem, tag):
if (elem.tag != tag):
print("Tag mismatch, expected '" + tag + "', got " + elem.tag)
sys.exit(255)
def make_html_bottom(body):
# make_html_top(body,True)
ET.SubElement(body, "hr")
copyright = ET.SubElement(body, "span")
copyright.text = "Copyright 2008-2010 Codenix SRL"
def make_html_top(body, bottom=False):
if (bottom):
ET.SubElement(body, "hr")
table = ET.SubElement(body, "table")
table.attrib["class"] = "top_table"
tr = ET.SubElement(table, "tr")
td = ET.SubElement(tr, "td")
td.attrib["class"] = "top_table"
img = ET.SubElement(td, "image")
img.attrib["src"] = "images/logo.png"
td = ET.SubElement(tr, "td")
td.attrib["class"] = "top_table"
a = ET.SubElement(td, "a")
a.attrib["href"] = "index.html"
a.text = "Index"
td = ET.SubElement(tr, "td")
td.attrib["class"] = "top_table"
a = ET.SubElement(td, "a")
a.attrib["href"] = "alphabetical.html"
a.text = "Classes"
td = ET.SubElement(tr, "td")
td.attrib["class"] = "top_table"
a = ET.SubElement(td, "a")
a.attrib["href"] = "category.html"
a.text = "Categories"
td = ET.SubElement(tr, "td")
a = ET.SubElement(td, "a")
a.attrib["href"] = "inheritance.html"
a.text = "Inheritance"
if (not bottom):
ET.SubElement(body, "hr")
def make_html_class_list(class_list, columns):
div = ET.Element("div")
div.attrib["class"] = "ClassList"
h1 = ET.SubElement(div, "h2")
h1.text = "Alphabetical Class List"
table = ET.SubElement(div, "table")
table.attrib["class"] = "class_table"
table.attrib["width"] = "100%"
prev = 0
col_max = len(class_list) / columns + 1
print("col max is ", col_max)
col_count = 0
row_count = 0
last_initial = ""
fit_columns = []
for n in range(0, columns):
fit_columns += [[]]
indexers = []
last_initial = ""
idx = 0
for n in class_list:
col = int(idx / col_max)
if (col >= columns):
col = columns - 1
fit_columns[col] += [n]
idx += 1
if (n[:1] != last_initial):
indexers += [n]
last_initial = n[:1]
row_max = 0
for n in range(0, columns):
if (len(fit_columns[n]) > row_max):
row_max = len(fit_columns[n])
for r in range(0, row_max):
tr = ET.SubElement(table, "tr")
for c in range(0, columns):
tdi = ET.SubElement(tr, "td")
tdi.attrib["align"] = "right"
td = ET.SubElement(tr, "td")
if (r >= len(fit_columns[c])):
continue
classname = fit_columns[c][r]
print(classname)
if (classname in indexers):
span = ET.SubElement(tdi, "span")
span.attrib["class"] = "class_index_letter"
span.text = classname[:1].upper()
if (single_page):
link = "#" + classname
else:
link = classname + ".html"
a = ET.SubElement(td, "a")
a.attrib["href"] = link
a.text = classname
if (not single_page):
cat_class_list = ET.Element("html")
csscc = ET.SubElement(cat_class_list, "link")
csscc.attrib["href"] = "main.css"
csscc.attrib["rel"] = "stylesheet"
csscc.attrib["type"] = "text/css"
bodycc = ET.SubElement(cat_class_list, "body")
make_html_top(bodycc)
cat_class_parent = bodycc
else:
cat_class_parent = div
h1 = ET.SubElement(cat_class_parent, "h2")
h1.text = "Class List By Category"
class_cat_table = {}
class_cat_list = []
for c in class_list:
clss = classes[c]
if ("category" in clss.attrib):
class_cat = clss.attrib["category"]
else:
class_cat = "Core"
if (class_cat.find("/") != -1):
class_cat = class_cat[class_cat.rfind("/") + 1:]
if (not class_cat in class_cat_list):
class_cat_list.append(class_cat)
class_cat_table[class_cat] = []
class_cat_table[class_cat].append(c)
class_cat_list.sort()
ct = ET.SubElement(cat_class_parent, "table")
for cl in class_cat_list:
l = class_cat_table[cl]
l.sort()
tr = ET.SubElement(ct, "tr")
tr.attrib["class"] = "category_title"
td = ET.SubElement(ct, "td")
td.attrib["class"] = "category_title"
a = ET.SubElement(td, "a")
a.attrib["class"] = "category_title"
a.text = cl
a.attrib["name"] = "CATEGORY_" + cl
td = ET.SubElement(ct, "td")
td.attrib["class"] = "category_title"
for clt in l:
tr = ET.SubElement(ct, "tr")
td = ET.SubElement(ct, "td")
make_type(clt, td)
clss = classes[clt]
bd = clss.find("brief_description")
bdtext = ""
if (bd != None):
bdtext = bd.text
td = ET.SubElement(ct, "td")
td.text = bdtext
if (not single_page):
make_html_bottom(bodycc)
catet_out = ET.ElementTree(cat_class_list)
catet_out.write("category.html")
if (not single_page):
inh_class_list = ET.Element("html")
cssic = ET.SubElement(inh_class_list, "link")
cssic.attrib["href"] = "main.css"
cssic.attrib["rel"] = "stylesheet"
cssic.attrib["type"] = "text/css"
bodyic = ET.SubElement(inh_class_list, "body")
make_html_top(bodyic)
inh_class_parent = bodyic
else:
inh_class_parent = div
h1 = ET.SubElement(inh_class_parent, "h2")
h1.text = "Class List By Inheritance"
itemlist = ET.SubElement(inh_class_parent, "list")
class_inh_table = {}
def add_class(clss):
if (clss.attrib["name"] in class_inh_table):
return # already added
parent_list = None
if ("inherits" in clss.attrib):
inhc = clss.attrib["inherits"]
if (not (inhc in class_inh_table)):
add_class(classes[inhc])
parent_list = class_inh_table[inhc].find("div")
if (parent_list == None):
parent_div = ET.SubElement(class_inh_table[inhc], "div")
parent_list = ET.SubElement(parent_div, "list")
parent_div.attrib["class"] = "inh_class_list"
else:
parent_list = parent_list.find("list")
else:
parent_list = itemlist
item = ET.SubElement(parent_list, "li")
# item.attrib["class"]="inh_class_list"
class_inh_table[clss.attrib["name"]] = item
make_type(clss.attrib["name"], item)
for c in class_list:
add_class(classes[c])
if (not single_page):
make_html_bottom(bodyic)
catet_out = ET.ElementTree(inh_class_list)
catet_out.write("inheritance.html")
# h1=ET.SubElement(div,"h2")
#h1.text="Class List By Inheritance"
return div
def make_type(p_type, p_parent):
if (p_type == "RefPtr"):
p_type = "Resource"
if (p_type in class_names):
a = ET.SubElement(p_parent, "a")
a.attrib["class"] = "datatype_existing"
a.text = p_type + " "
if (single_page):
a.attrib["href"] = "#" + p_type
else:
a.attrib["href"] = p_type + ".html"
else:
span = ET.SubElement(p_parent, "span")
span.attrib["class"] = "datatype"
span.text = p_type + " "
def make_text_def(class_name, parent, text):
text = html_escape(text)
pos = 0
while(True):
pos = text.find("[", pos)
if (pos == -1):
break
endq_pos = text.find("]", pos + 1)
if (endq_pos == -1):
break
pre_text = text[:pos]
post_text = text[endq_pos + 1:]
tag_text = text[pos + 1:endq_pos]
if (tag_text in class_names):
if (single_page):
tag_text = '<a href="#' + tag_text + '">' + tag_text + '</a>'
else:
tag_text = '<a href="' + tag_text + '.html">' + tag_text + '</a>'
else: # command
cmd = tag_text
space_pos = tag_text.find(" ")
if (cmd.find("html") == 0):
cmd = tag_text[:space_pos]
param = tag_text[space_pos + 1:]
tag_text = "<" + param + ">"
elif(cmd.find("method") == 0):
cmd = tag_text[:space_pos]
param = tag_text[space_pos + 1:]
if (not single_page and param.find(".") != -1):
class_param, method_param = param.split(".")
tag_text = tag_text = '<a href="' + class_param + '.html#' + class_param + "_" + method_param + '">' + class_param + '.' + method_param + '()</a>'
else:
tag_text = tag_text = '<a href="#' + class_name + "_" + param + '">' + class_name + '.' + param + '()</a>'
elif (cmd.find("image=") == 0):
print("found image: " + cmd)
tag_text = "<img src=" + cmd[6:] + "/>"
elif (cmd.find("url=") == 0):
tag_text = "<a href=" + cmd[4:] + ">"
elif (cmd == "/url"):
tag_text = "</a>"
elif (cmd == "center"):
tag_text = "<div align=\"center\">"
elif (cmd == "/center"):
tag_text = "</div>"
elif (cmd == "br"):
tag_text = "<br/>"
elif (cmd == "i" or cmd == "/i" or cmd == "b" or cmd == "/b" or cmd == "u" or cmd == "/u"):
tag_text = "<" + tag_text + ">" # html direct mapping
else:
tag_text = "[" + tag_text + "]"
text = pre_text + tag_text + post_text
pos = len(pre_text) + len(tag_text)
#tnode = ET.SubElement(parent,"div")
# tnode.text=text
text = "<div class=\"description\">" + text + "</div>"
try:
tnode = ET.XML(text)
parent.append(tnode)
except:
print("Error parsing description text: '" + text + "'")
sys.exit(255)
return tnode
def make_method_def(name, m, declare, event=False):
mdata = {}
if (not declare):
div = ET.Element("tr")
div.attrib["class"] = "method"
ret_parent = ET.SubElement(div, "td")
ret_parent.attrib["align"] = "right"
func_parent = ET.SubElement(div, "td")
else:
div = ET.Element("div")
div.attrib["class"] = "method"
ret_parent = div
func_parent = div
mdata["argidx"] = []
mdata["name"] = m.attrib["name"]
qualifiers = ""
if ("qualifiers" in m.attrib):
qualifiers = m.attrib["qualifiers"]
args = list(m)
for a in args:
if (a.tag == "return"):
idx = -1
elif (a.tag == "argument"):
idx = int(a.attrib["index"])
else:
continue
mdata["argidx"].append(idx)
mdata[idx] = a
if (not event):
if (-1 in mdata["argidx"]):
make_type(mdata[-1].attrib["type"], ret_parent)
mdata["argidx"].remove(-1)
else:
make_type("void", ret_parent)
span = ET.SubElement(func_parent, "span")
if (declare):
span.attrib["class"] = "funcdecl"
a = ET.SubElement(span, "a")
a.attrib["name"] = name + "_" + m.attrib["name"]
a.text = name + "::" + m.attrib["name"]
else:
span.attrib["class"] = "identifier funcdef"
a = ET.SubElement(span, "a")
a.attrib["href"] = "#" + name + "_" + m.attrib["name"]
a.text = m.attrib["name"]
span = ET.SubElement(func_parent, "span")
span.attrib["class"] = "symbol"
span.text = " ("
for a in mdata["argidx"]:
arg = mdata[a]
if (a > 0):
span = ET.SubElement(func_parent, "span")
span.text = ", "
else:
span = ET.SubElement(func_parent, "span")
span.text = " "
make_type(arg.attrib["type"], func_parent)
span = ET.SubElement(func_parent, "span")
span.text = arg.attrib["name"]
if ("default" in arg.attrib):
span.text = span.text + "=" + arg.attrib["default"]
span = ET.SubElement(func_parent, "span")
span.attrib["class"] = "symbol"
if (len(mdata["argidx"])):
span.text = " )"
else:
span.text = ")"
if (qualifiers):
span = ET.SubElement(func_parent, "span")
span.attrib["class"] = "qualifier"
span.text = " " + qualifiers
return div
def make_html_class(node):
div = ET.Element("div")
div.attrib["class"] = "class"
a = ET.SubElement(div, "a")
a.attrib["name"] = node.attrib["name"]
h3 = ET.SubElement(a, "h3")
h3.attrib["class"] = "title class_title"
h3.text = node.attrib["name"]
briefd = node.find("brief_description")
if (briefd != None):
div2 = ET.SubElement(div, "div")
div2.attrib["class"] = "description class_description"
div2.text = briefd.text
if ("inherits" in node.attrib):
ET.SubElement(div, "br")
div2 = ET.SubElement(div, "div")
div2.attrib["class"] = "inheritance"
span = ET.SubElement(div2, "span")
span.text = "Inherits: "
make_type(node.attrib["inherits"], div2)
if ("category" in node.attrib):
ET.SubElement(div, "br")
div3 = ET.SubElement(div, "div")
div3.attrib["class"] = "category"
span = ET.SubElement(div3, "span")
span.attrib["class"] = "category"
span.text = "Category: "
a = ET.SubElement(div3, "a")
a.attrib["class"] = "category_ref"
a.text = node.attrib["category"]
catname = a.text
if (catname.rfind("/") != -1):
catname = catname[catname.rfind("/"):]
catname = "CATEGORY_" + catname
if (single_page):
a.attrib["href"] = "#" + catname
else:
a.attrib["href"] = "category.html#" + catname
methods = node.find("methods")
if(methods != None and len(list(methods)) > 0):
h4 = ET.SubElement(div, "h4")
h4.text = "Public Methods:"
method_table = ET.SubElement(div, "table")
method_table.attrib["class"] = "method_list"
for m in list(methods):
#li = ET.SubElement(div2, "li")
method_table.append(make_method_def(node.attrib["name"], m, False))
events = node.find("signals")
if(events != None and len(list(events)) > 0):
h4 = ET.SubElement(div, "h4")
h4.text = "Events:"
event_table = ET.SubElement(div, "table")
event_table.attrib["class"] = "method_list"
for m in list(events):
#li = ET.SubElement(div2, "li")
event_table.append(make_method_def(node.attrib["name"], m, False, True))
members = node.find("members")
if(members != None and len(list(members)) > 0):
h4 = ET.SubElement(div, "h4")
h4.text = "Public Variables:"
div2 = ET.SubElement(div, "div")
div2.attrib["class"] = "member_list"
for c in list(members):
li = ET.SubElement(div2, "li")
div3 = ET.SubElement(li, "div")
div3.attrib["class"] = "member"
make_type(c.attrib["type"], div3)
span = ET.SubElement(div3, "span")
span.attrib["class"] = "identifier member_name"
span.text = " " + c.attrib["name"] + " "
span = ET.SubElement(div3, "span")
span.attrib["class"] = "member_description"
span.text = c.text
constants = node.find("constants")
if(constants != None and len(list(constants)) > 0):
h4 = ET.SubElement(div, "h4")
h4.text = "Constants:"
div2 = ET.SubElement(div, "div")
div2.attrib["class"] = "constant_list"
for c in list(constants):
li = ET.SubElement(div2, "li")
div3 = ET.SubElement(li, "div")
div3.attrib["class"] = "constant"
span = ET.SubElement(div3, "span")
span.attrib["class"] = "identifier constant_name"
span.text = c.attrib["name"] + " "
if ("value" in c.attrib):
span = ET.SubElement(div3, "span")
span.attrib["class"] = "symbol"
span.text = "= "
span = ET.SubElement(div3, "span")
span.attrib["class"] = "constant_value"
span.text = c.attrib["value"] + " "
span = ET.SubElement(div3, "span")
span.attrib["class"] = "constant_description"
span.text = c.text
# ET.SubElement(div,"br")
descr = node.find("description")
if (descr != None and descr.text.strip() != ""):
h4 = ET.SubElement(div, "h4")
h4.text = "Description:"
make_text_def(node.attrib["name"], div, descr.text)
# div2=ET.SubElement(div,"div")
# div2.attrib["class"]="description";
# div2.text=descr.text
if(methods != None or events != None):
h4 = ET.SubElement(div, "h4")
h4.text = "Method Documentation:"
iter_list = []
if (methods != None):
iter_list += list(methods)
if (events != None):
iter_list += list(events)
for m in iter_list:
descr = m.find("description")
if (descr == None or descr.text.strip() == ""):
continue
div2 = ET.SubElement(div, "div")
div2.attrib["class"] = "method_doc"
div2.append(make_method_def(node.attrib["name"], m, True))
#anchor = ET.SubElement(div2, "a")
# anchor.attrib["name"] =
make_text_def(node.attrib["name"], div2, descr.text)
# div3=ET.SubElement(div2,"div")
# div3.attrib["class"]="description";
# div3.text=descr.text
return div
class_names = []
classes = {}
for file in input_list:
tree = ET.parse(file)
doc = tree.getroot()
if ("version" not in doc.attrib):
print("Version missing from 'doc'")
sys.exit(255)
version = doc.attrib["version"]
for c in list(doc):
if (c.attrib["name"] in class_names):
continue
class_names.append(c.attrib["name"])
classes[c.attrib["name"]] = c
html = ET.Element("html")
css = ET.SubElement(html, "link")
css.attrib["href"] = "main.css"
css.attrib["rel"] = "stylesheet"
css.attrib["type"] = "text/css"
body = ET.SubElement(html, "body")
if (not single_page):
make_html_top(body)
class_names.sort()
body.append(make_html_class_list(class_names, 5))
for cn in class_names:
c = classes[cn]
if (single_page):
body.append(make_html_class(c))
else:
html2 = ET.Element("html")
css = ET.SubElement(html2, "link")
css.attrib["href"] = "main.css"
css.attrib["rel"] = "stylesheet"
css.attrib["type"] = "text/css"
body2 = ET.SubElement(html2, "body")
make_html_top(body2)
body2.append(make_html_class(c))
make_html_bottom(body2)
et_out = ET.ElementTree(html2)
et_out.write(c.attrib["name"] + ".html")
et_out = ET.ElementTree(html)
if (single_page):
et_out.write("singlepage.html")
else:
make_html_bottom(body)
et_out.write("alphabetical.html")