gstreamer/codegen/docgen.py

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#!/usr/bin/env python
# -*- Mode: Python; py-indent-offset: 4 -*-
import sys, os, string, re, getopt
import defsparser
import definitions
import override
import docextract
class Node:
def __init__(self, name, interfaces=[]):
self.name = name
self.interfaces = interfaces
self.subclasses = []
def add_child(self, node):
self.subclasses.append(node)
def build_object_tree(parser):
# reorder objects so that parent classes come first ...
objects = parser.objects[:]
pos = 0
while pos < len(objects):
parent = objects[pos].parent
for i in range(pos+1, len(objects)):
if objects[i].c_name == parent:
objects.insert(i+1, objects[pos])
del objects[pos]
break
else:
pos = pos + 1
root = Node(None)
nodes = { None: root }
for obj_def in objects:
print obj_def.name
parent_node = nodes[obj_def.parent]
node = Node(obj_def.c_name, obj_def.implements)
parent_node.add_child(node)
nodes[node.name] = node
if parser.interfaces:
interfaces = Node('gobject.GInterface')
root.add_child(interfaces)
nodes[interfaces.name] = interfaces
for obj_def in parser.interfaces:
node = Node(obj_def.c_name)
interfaces.add_child(node)
nodes[node.name] = node
if parser.boxes:
boxed = Node('gobject.GBoxed')
root.add_child(boxed)
nodes[boxed.name] = boxed
for obj_def in parser.boxes:
node = Node(obj_def.c_name)
boxed.add_child(node)
nodes[node.name] = node
if parser.pointers:
pointers = Node('gobject.GPointer')
root.add_child(pointers)
nodes[pointers.name] = pointers
for obj_def in parser.pointers:
node = Node(obj_def.c_name)
pointers.add_child(node)
nodes[node.name] = node
return root
class DocWriter:
def __init__(self):
# parse the defs file
self.parser = defsparser.DefsParser(())
self.overrides = override.Overrides()
self.classmap = {}
self.docs = {}
def add_sourcedirs(self, source_dirs):
self.docs = docextract.extract(source_dirs, self.docs)
def add_tmpldirs(self, tmpl_dirs):
self.docs = docextract.extract_tmpl(tmpl_dirs, self.docs)
def add_docs(self, defs_file, overrides_file, module_name):
'''parse information about a given defs file'''
self.parser.filename = defs_file
self.parser.startParsing(defs_file)
if overrides_file:
self.overrides.handle_file(overrides_file)
for obj in self.parser.objects:
if not self.classmap.has_key(obj.c_name):
self.classmap[obj.c_name] = '%s.%s' % (module_name, obj.name)
for obj in self.parser.interfaces:
if not self.classmap.has_key(obj.c_name):
self.classmap[obj.c_name] = '%s.%s' % (module_name, obj.name)
for obj in self.parser.boxes:
if not self.classmap.has_key(obj.c_name):
self.classmap[obj.c_name] = '%s.%s' % (module_name, obj.name)
for obj in self.parser.pointers:
if not self.classmap.has_key(obj.c_name):
self.classmap[obj.c_name] = '%s.%s' % (module_name, obj.name)
def pyname(self, name):
return self.classmap.get(name, name)
def __compare(self, obja, objb):
return cmp(self.pyname(obja.c_name), self.pyname(objb.c_name))
def output_docs(self, output_prefix):
files = []
# class hierarchy
hierarchy = build_object_tree(self.parser)
filename = self.create_filename('hierarchy', output_prefix)
fp = open(filename, 'w')
self.write_full_hierarchy(hierarchy, fp)
fp.close()
obj_defs = self.parser.objects + self.parser.interfaces + \
self.parser.boxes + self.parser.pointers
obj_defs.sort(self.__compare)
for obj_def in obj_defs:
filename = self.create_filename(obj_def.c_name, output_prefix)
fp = open(filename, 'w')
if isinstance(obj_def, definitions.ObjectDef):
self.output_object_docs(obj_def, fp)
elif isinstance(obj_def, definitions.InterfaceDef):
self.output_interface_docs(obj_def, fp)
elif isinstance(obj_def, definitions.BoxedDef):
self.output_boxed_docs(obj_def, fp)
elif isinstance(obj_def, definitions.PointerDef):
self.output_boxed_docs(obj_def, fp)
fp.close()
files.append((os.path.basename(filename), obj_def))
if files:
filename = self.create_toc_filename(output_prefix)
fp = open(filename, 'w')
self.output_toc(files, fp)
fp.close()
def output_object_docs(self, obj_def, fp=sys.stdout):
self.write_class_header(obj_def.c_name, fp)
self.write_heading('Synopsis', fp)
self.write_synopsis(obj_def, fp)
self.close_section(fp)
# construct the inheritence hierarchy ...
ancestry = [ (obj_def.c_name, obj_def.implements) ]
try:
parent = obj_def.parent
while parent != None:
if parent == 'GObject':
ancestry.append(('GObject', []))
parent = None
else:
parent_def = self.parser.find_object(parent)
ancestry.append((parent_def.c_name, parent_def.implements))
parent = parent_def.parent
except ValueError:
pass
ancestry.reverse()
self.write_heading('Ancestry', fp)
self.write_hierarchy(obj_def.c_name, ancestry, fp)
self.close_section(fp)
constructor = self.parser.find_constructor(obj_def, self.overrides)
if constructor:
self.write_heading('Constructor', fp)
self.write_constructor(constructor,
self.docs.get(constructor.c_name, None),
fp)
self.close_section(fp)
methods = self.parser.find_methods(obj_def)
methods = filter(lambda meth, self=self:
not self.overrides.is_ignored(meth.c_name), methods)
if methods:
self.write_heading('Methods', fp)
for method in methods:
self.write_method(method, self.docs.get(method.c_name, None), fp)
self.close_section(fp)
self.write_class_footer(obj_def.c_name, fp)
def output_interface_docs(self, int_def, fp=sys.stdout):
self.write_class_header(int_def.c_name, fp)
self.write_heading('Synopsis', fp)
self.write_synopsis(int_def, fp)
self.close_section(fp)
methods = self.parser.find_methods(int_def)
methods = filter(lambda meth, self=self:
not self.overrides.is_ignored(meth.c_name), methods)
if methods:
self.write_heading('Methods', fp)
for method in methods:
self.write_method(method, self.docs.get(method.c_name, None), fp)
self.close_section(fp)
self.write_class_footer(int_def.c_name, fp)
def output_boxed_docs(self, box_def, fp=sys.stdout):
self.write_class_header(box_def.c_name, fp)
self.write_heading('Synopsis', fp)
self.write_synopsis(box_def, fp)
self.close_section(fp)
constructor = self.parser.find_constructor(box_def, self.overrides)
if constructor:
self.write_heading('Constructor', fp)
self.write_constructor(constructor,
self.docs.get(constructor.c_name, None),
fp)
self.close_section(fp)
methods = self.parser.find_methods(box_def)
methods = filter(lambda meth, self=self:
not self.overrides.is_ignored(meth.c_name), methods)
if methods:
self.write_heading('Methods', fp)
for method in methods:
self.write_method(method, self.docs.get(method.c_name, None), fp)
self.close_section(fp)
self.write_class_footer(box_def.c_name, fp)
def output_toc(self, files, fp=sys.stdout):
fp.write('TOC\n\n')
for filename, obj_def in files:
fp.write(obj_def.c_name + ' - ' + filename + '\n')
# override the following to create a more complex output format
def create_filename(self, obj_name, output_prefix):
'''Create output filename for this particular object'''
return output_prefix + '-' + string.lower(obj_name) + '.txt'
def create_toc_filename(self, output_prefix):
return self.create_filename(self, 'docs', output_prefix)
def write_full_hierarchy(self, hierarchy, fp):
def handle_node(node, fp, indent=''):
for child in node.subclasses:
fp.write(indent + node.name)
if node.interfaces:
fp.write(' (implements ')
fp.write(string.join(node.interfaces, ', '))
fp.write(')\n')
else:
fp.write('\n')
handle_node(child, fp, indent + ' ')
handle_node(hierarchy, fp)
# these need to handle default args ...
def create_constructor_prototype(self, func_def):
return func_def.is_constructor_of + '(' + \
string.join(map(lambda x: x[1], func_def.params), ', ') + \
')'
def create_function_prototype(self, func_def):
return func_def.name + '(' + \
string.join(map(lambda x: x[1], func_def.params), ', ') + \
')'
def create_method_prototype(self, meth_def):
return meth_def.of_object + '.' + \
meth_def.name + '(' + \
string.join(map(lambda x: x[1], meth_def.params), ', ') + \
')'
def write_class_header(self, obj_name, fp):
fp.write('Class %s\n' % obj_name)
fp.write('======%s\n\n' % ('=' * len(obj_name)))
def write_class_footer(self, obj_name, fp):
pass
def write_heading(self, text, fp):
fp.write('\n' + text + '\n' + ('-' * len(text)) + '\n')
def close_section(self, fp):
pass
def write_synopsis(self, obj_def, fp):
fp.write('class %s' % obj_def.c_name)
if isinstance(obj_def, definitions.ObjectDef):
bases = []
if obj_def.parent: bases.append(obj_def.parent)
bases = bases = obj_def.implements
if bases:
fp.write('(%s)' % string.join(bases, ', '))
fp.write(':\n')
constructor = self.parser.find_constructor(obj_def, self.overrides)
if constructor:
prototype = self.create_constructor_prototype(constructor)
fp.write(' def %s\n' % prototype)
methods = self.parser.find_methods(obj_def)
methods = filter(lambda meth, self=self:
not self.overrides.is_ignored(meth.c_name), methods)
for meth in methods:
prototype = self.create_method_prototype(meth)
fp.write(' def %s\n' % prototype)
def write_hierarchy(self, obj_name, ancestry, fp):
indent = ''
for name, interfaces in ancestry:
fp.write(indent + '+-- ' + name)
if interfaces:
fp.write(' (implements ')
fp.write(string.join(interfaces, ', '))
fp.write(')\n')
else:
fp.write('\n')
indent = indent + ' '
fp.write('\n')
def write_constructor(self, func_def, func_doc, fp):
prototype = self.create_constructor_prototype(func_def)
fp.write(prototype + '\n\n')
for type, name, dflt, null in func_def.params:
if func_doc:
descr = func_doc.get_param_description(name)
else:
descr = 'a ' + type
fp.write(' ' + name + ': ' + descr + '\n')
if func_def.ret and func_def.ret != 'none':
if func_doc and func_doc.ret:
descr = func_doc.ret
else:
descr = 'a ' + func_def.ret
fp.write(' Returns: ' + descr + '\n')
if func_doc and func_doc.description:
fp.write(func_doc.description)
fp.write('\n\n\n')
def write_method(self, meth_def, func_doc, fp):
prototype = self.create_method_prototype(meth_def)
fp.write(prototype + '\n\n')
for type, name, dflt, null in meth_def.params:
if func_doc:
descr = func_doc.get_param_description(name)
else:
descr = 'a ' + type
fp.write(' ' + name + ': ' + descr + '\n')
if meth_def.ret and meth_def.ret != 'none':
if func_doc and func_doc.ret:
descr = func_doc.ret
else:
descr = 'a ' + meth_def.ret
fp.write(' Returns: ' + descr + '\n')
if func_doc and func_doc.description:
fp.write('\n')
fp.write(func_doc.description)
fp.write('\n\n')
class DocbookDocWriter(DocWriter):
def __init__(self, use_xml=0):
DocWriter.__init__(self)
self.use_xml = use_xml
def create_filename(self, obj_name, output_prefix):
'''Create output filename for this particular object'''
stem = output_prefix + '-' + string.lower(obj_name)
if self.use_xml:
return stem + '.xml'
else:
return stem + '.sgml'
def create_toc_filename(self, output_prefix):
if self.use_xml:
return self.create_filename('classes', output_prefix)
else:
return self.create_filename('docs', output_prefix)
# make string -> reference translation func
__transtable = [ '-' ] * 256
for digit in '0123456789':
__transtable[ord(digit)] = digit
for letter in 'abcdefghijklmnopqrstuvwxyz':
__transtable[ord(letter)] = letter
__transtable[ord(string.upper(letter))] = letter
__transtable = string.join(__transtable, '')
def make_class_ref(self, obj_name):
return 'class-' + string.translate(obj_name, self.__transtable)
def make_method_ref(self, meth_def):
return 'method-' + string.translate(meth_def.of_object,
self.__transtable) + \
'--' + string.translate(meth_def.name, self.__transtable)
__function_pat = re.compile(r'(\w+)\s*\(\)')
def __format_function(self, match):
info = self.parser.c_name.get(match.group(1), None)
if info:
if isinstance(info, defsparser.FunctionDef):
if info.is_constructor_of is not None:
# should have a link here
return '<function>%s()</function>' % \
self.pyname(info.is_constructor_of)
else:
return '<function>' + info.name + '()</function>'
if isinstance(info, defsparser.MethodDef):
return '<link linkend="' + self.make_method_ref(info) + \
'"><function>' + self.pyname(info.of_object) + '.' + \
info.name + '()</function></link>'
# fall through through
return '<function>' + match.group(1) + '()</function>'
__parameter_pat = re.compile(r'\@(\w+)')
def __format_param(self, match):
return '<parameter>' + match.group(1) + '</parameter>'
__constant_pat = re.compile(r'\%(-?\w+)')
def __format_const(self, match):
return '<literal>' + match.group(1) + '</literal>'
__symbol_pat = re.compile(r'#([\w-]+)')
def __format_symbol(self, match):
info = self.parser.c_name.get(match.group(1), None)
if info:
if isinstance(info, defsparser.FunctionDef):
if info.is_constructor_of is not None:
# should have a link here
return '<methodname>' + self.pyname(info.is_constructor_of) + \
'</methodname>'
else:
return '<function>' + info.name + '</function>'
if isinstance(info, defsparser.MethodDef):
return '<link linkend="' + self.make_method_ref(info) + \
'"><methodname>' + self.pyname(info.of_object) + '.' + \
info.name + '</methodname></link>'
if isinstance(info, defsparser.ObjectDef) or \
isinstance(info, defsparser.InterfaceDef) or \
isinstance(info, defsparser.BoxedDef) or \
isinstance(info, defsparser.PointerDef):
return '<link linkend="' + self.make_class_ref(info.c_name) + \
'"><classname>' + self.pyname(info.c_name) + \
'</classname></link>'
# fall through through
return '<literal>' + match.group(1) + '</literal>'
def reformat_text(self, text, singleline=0):
# replace special strings ...
text = self.__function_pat.sub(self.__format_function, text)
text = self.__parameter_pat.sub(self.__format_param, text)
text = self.__constant_pat.sub(self.__format_const, text)
text = self.__symbol_pat.sub(self.__format_symbol, text)
# don't bother with <para> expansion for single line text.
if singleline: return text
lines = string.split(string.strip(text), '\n')
for index in range(len(lines)):
if string.strip(lines[index]) == '':
lines[index] = '</para>\n<para>'
continue
lines.insert(0, '<para>')
lines.append('</para>')
return string.join(lines, '\n')
# write out hierarchy
def write_full_hierarchy(self, hierarchy, fp):
def handle_node(node, fp, indent=''):
if node.name:
fp.write('%s<link linkend="%s">%s</link>' %
(indent, self.make_class_ref(node.name),
self.pyname(node.name)))
if node.interfaces:
fp.write(' (implements ')
for i in range(len(node.interfaces)):
fp.write('<link linkend="%s">%s</link>' %
(self.make_class_ref(node.interfaces[i]),
self.pyname(node.interfaces[i])))
if i != len(node.interfaces) - 1:
fp.write(', ')
fp.write(')\n')
else:
fp.write('\n')
indent = indent + ' '
node.subclasses.sort(lambda a,b:
cmp(self.pyname(a.name), self.pyname(b.name)))
for child in node.subclasses:
handle_node(child, fp, indent)
if self.use_xml:
fp.write('<?xml version="1.0" standalone="no"?>\n')
fp.write('<!DOCTYPE synopsis PUBLIC "-//OASIS//DTD DocBook XML V4.1.2//EN"\n')
fp.write(' "http://www.oasis-open.org/docbook/xml/4.1.2/docbookx.dtd">\n')
fp.write('<synopsis>')
handle_node(hierarchy, fp)
fp.write('</synopsis>\n')
# these need to handle default args ...
def create_constructor_prototype(self, func_def):
sgml = [ '<constructorsynopsis language="python">\n']
sgml.append(' <methodname>__init__</methodname>\n')
for type, name, dflt, null in func_def.params:
sgml.append(' <methodparam><parameter>')
sgml.append(name)
sgml.append('</parameter>')
if dflt:
sgml.append('<initializer>')
sgml.append(dflt)
sgml.append('</initializer>')
sgml.append('</methodparam>\n')
if not func_def.params:
sgml.append(' <methodparam></methodparam>')
sgml.append(' </constructorsynopsis>')
return string.join(sgml, '')
def create_function_prototype(self, func_def):
sgml = [ '<funcsynopsis language="python">\n <funcprototype>\n']
sgml.append(' <funcdef><function>')
sgml.append(func_def.name)
sgml.append('</function></funcdef>\n')
for type, name, dflt, null in func_def.params:
sgml.append(' <paramdef><parameter>')
sgml.append(name)
sgml.append('</parameter>')
if dflt:
sgml.append('<initializer>')
sgml.append(dflt)
sgml.append('</initializer>')
sgml.append('</paramdef>\n')
if not func_def.params:
sgml.append(' <paramdef></paramdef')
sgml.append(' </funcprototype>\n </funcsynopsis>')
return string.join(sgml, '')
def create_method_prototype(self, meth_def, addlink=0):
sgml = [ '<methodsynopsis language="python">\n']
sgml.append(' <methodname>')
if addlink:
sgml.append('<link linkend="%s">' % self.make_method_ref(meth_def))
sgml.append(self.pyname(meth_def.name))
if addlink:
sgml.append('</link>')
sgml.append('</methodname>\n')
for type, name, dflt, null in meth_def.params:
sgml.append(' <methodparam><parameter>')
sgml.append(name)
sgml.append('</parameter>')
if dflt:
sgml.append('<initializer>')
sgml.append(dflt)
sgml.append('</initializer>')
sgml.append('</methodparam>\n')
if not meth_def.params:
sgml.append(' <methodparam></methodparam>')
sgml.append(' </methodsynopsis>')
return string.join(sgml, '')
def write_class_header(self, obj_name, fp):
if self.use_xml:
fp.write('<?xml version="1.0" standalone="no"?>\n')
fp.write('<!DOCTYPE refentry PUBLIC "-//OASIS//DTD DocBook XML V4.1.2//EN"\n')
fp.write(' "http://www.oasis-open.org/docbook/xml/4.1.2/docbookx.dtd">\n')
fp.write('<refentry id="' + self.make_class_ref(obj_name) + '">\n')
fp.write(' <refmeta>\n')
fp.write(' <refentrytitle>%s</refentrytitle>\n'
% self.pyname(obj_name))
fp.write(' <manvolnum>3</manvolnum>\n')
fp.write(' <refmiscinfo>PyGTK Docs</refmiscinfo>\n')
fp.write(' </refmeta>\n\n')
fp.write(' <refnamediv>\n')
fp.write(' <refname>%s</refname><refpurpose></refpurpose>\n'
% self.pyname(obj_name))
fp.write(' </refnamediv>\n\n')
def write_class_footer(self, obj_name, fp):
fp.write('</refentry>\n')
def write_heading(self, text, fp):
fp.write(' <refsect1>\n')
fp.write(' <title>' + text + '</title>\n\n')
def close_section(self, fp):
fp.write(' </refsect1>\n')
def write_synopsis(self, obj_def, fp):
fp.write('<classsynopsis language="python">\n')
fp.write(' <ooclass><classname>%s</classname></ooclass>\n'
% self.pyname(obj_def.c_name))
if isinstance(obj_def, definitions.ObjectDef):
if obj_def.parent:
fp.write(' <ooclass><classname><link linkend="%s">%s'
'</link></classname></ooclass>\n'
% (self.make_class_ref(obj_def.parent),
self.pyname(obj_def.parent)))
for base in obj_def.implements:
fp.write(' <ooclass><classname><link linkend="%s">%s'
'</link></classname></ooclass>\n'
% (self.make_class_ref(base), self.pyname(base)))
elif isinstance(obj_def, definitions.InterfaceDef):
fp.write(' <ooclass><classname>gobject.GInterface'
'</classname></ooclass>\n')
elif isinstance(obj_def, definitions.BoxedDef):
fp.write(' <ooclass><classname>gobject.GBoxed'
'</classname></ooclass>\n')
elif isinstance(obj_def, definitions.PointerDef):
fp.write(' <ooclass><classname>gobject.GPointer'
'</classname></ooclass>\n')
constructor = self.parser.find_constructor(obj_def, self.overrides)
if constructor:
fp.write('%s\n' % self.create_constructor_prototype(constructor))
methods = self.parser.find_methods(obj_def)
methods = filter(lambda meth, self=self:
not self.overrides.is_ignored(meth.c_name), methods)
for meth in methods:
fp.write('%s\n' % self.create_method_prototype(meth, addlink=1))
fp.write('</classsynopsis>\n\n')
def write_hierarchy(self, obj_name, ancestry, fp):
fp.write('<synopsis>')
indent = ''
for name, interfaces in ancestry:
fp.write(indent + '+-- <link linkend="' +
self.make_class_ref(name) + '">'+ self.pyname(name) + '</link>')
if interfaces:
fp.write(' (implements ')
for i in range(len(interfaces)):
fp.write('<link linkend="%s">%s</link>' %
(self.make_class_ref(interfaces[i]),
self.pyname(interfaces[i])))
if i != len(interfaces) - 1:
fp.write(', ')
fp.write(')\n')
else:
fp.write('\n')
indent = indent + ' '
fp.write('</synopsis>\n\n')
def write_params(self, params, ret, func_doc, fp):
if not params and (not ret or ret == 'none'):
return
fp.write(' <variablelist>\n')
for type, name, dflt, null in params:
if func_doc:
descr = string.strip(func_doc.get_param_description(name))
else:
descr = 'a ' + type
fp.write(' <varlistentry>\n')
fp.write(' <term><parameter>%s</parameter>&nbsp;:</term>\n' % name)
fp.write(' <listitem><simpara>%s</simpara></listitem>\n' %
self.reformat_text(descr, singleline=1))
fp.write(' </varlistentry>\n')
if ret and ret != 'none':
if func_doc and func_doc.ret:
descr = string.strip(func_doc.ret)
else:
descr = 'a ' + ret
fp.write(' <varlistentry>\n')
fp.write(' <term><emphasis>Returns</emphasis>&nbsp;:</term>\n')
fp.write(' <listitem><simpara>%s</simpara></listitem>\n' %
self.reformat_text(descr, singleline=1))
fp.write(' </varlistentry>\n')
fp.write(' </variablelist>\n')
def write_constructor(self, func_def, func_doc, fp):
prototype = self.create_constructor_prototype(func_def)
fp.write('<programlisting>%s</programlisting>\n' % prototype)
self.write_params(func_def.params, func_def.ret, func_doc, fp)
if func_doc and func_doc.description:
fp.write(self.reformat_text(func_doc.description))
fp.write('\n\n\n')
def write_method(self, meth_def, func_doc, fp):
fp.write(' <refsect2 id="' + self.make_method_ref(meth_def) + '">\n')
fp.write(' <title>' + self.pyname(meth_def.of_object) + '.' +
meth_def.name + '</title>\n\n')
prototype = self.create_method_prototype(meth_def)
fp.write('<programlisting>%s</programlisting>\n' % prototype)
self.write_params(meth_def.params, meth_def.ret, func_doc, fp)
if func_doc and func_doc.description:
fp.write(self.reformat_text(func_doc.description))
fp.write(' </refsect2>\n\n\n')
def output_toc(self, files, fp=sys.stdout):
if self.use_xml:
fp.write('<?xml version="1.0" standalone="no"?>\n')
fp.write('<!DOCTYPE reference PUBLIC "-//OASIS//DTD DocBook XML V4.1.2//EN"\n')
fp.write(' "http://www.oasis-open.org/docbook/xml/4.1.2/docbookx.dtd">\n')
#for filename, obj_def in files:
# fp.write(' <!ENTITY ' + string.translate(obj_def.c_name,
# self.__transtable) +
# ' SYSTEM "' + filename + '" >\n')
#fp.write(']>\n\n')
#fp.write('<reference id="class-reference">\n')
#fp.write(' <title>Class Documentation</title>\n')
#for filename, obj_def in files:
# fp.write('&' + string.translate(obj_def.c_name,
# self.__transtable) + ';\n')
#fp.write('</reference>\n')
fp.write('<reference id="class-reference" xmlns:xi="http://www.w3.org/2001/XInclude">\n')
fp.write(' <title>Class Reference</title>\n')
for filename, obj_def in files:
fp.write(' <xi:include href="%s"/>\n' % filename)
fp.write('</reference>\n')
else:
fp.write('<!DOCTYPE article PUBLIC "-//OASIS//DTD DocBook V4.1.2//EN" [\n')
for filename, obj_def in files:
fp.write(' <!ENTITY ' + string.translate(obj_def.c_name,
self.__transtable) +
' SYSTEM "' + filename + '" >\n')
fp.write(']>\n\n')
fp.write('<book id="index">\n\n')
fp.write(' <bookinfo>\n')
fp.write(' <title>PyGTK Docs</title>\n')
fp.write(' <authorgroup>\n')
fp.write(' <author>\n')
fp.write(' <firstname>James</firstname>\n')
fp.write(' <surname>Henstridge</surname>\n')
fp.write(' </author>\n')
fp.write(' </authorgroup>\n')
fp.write(' </bookinfo>\n\n')
fp.write(' <chapter id="class-hierarchy">\n')
fp.write(' <title>Class Hierarchy</title>\n')
fp.write(' <para>Not done yet</para>\n')
fp.write(' </chapter>\n\n')
fp.write(' <reference id="class-reference">\n')
fp.write(' <title>Class Documentation</title>\n')
for filename, obj_def in files:
fp.write('&' + string.translate(obj_def.c_name,
self.__transtable) + ';\n')
fp.write(' </reference>\n')
fp.write('</book>\n')
if __name__ == '__main__':
try:
opts, args = getopt.getopt(sys.argv[1:], "d:s:o:",
["defs-file=", "override=", "source-dir=",
"output-prefix="])
except getopt.error, e:
sys.stderr.write('docgen.py: %s\n' % e)
sys.stderr.write(
'usage: docgen.py -d file.defs [-s /src/dir] [-o output-prefix]\n')
sys.exit(1)
defs_file = None
overrides_file = None
source_dirs = []
output_prefix = 'docs'
for opt, arg in opts:
if opt in ('-d', '--defs-file'):
defs_file = arg
if opt in ('--override',):
overrides_file = arg
elif opt in ('-s', '--source-dir'):
source_dirs.append(arg)
elif opt in ('-o', '--output-prefix'):
output_prefix = arg
if len(args) != 0 or not defs_file:
sys.stderr.write(
'usage: docgen.py -d file.defs [-s /src/dir] [-o output-prefix]\n')
sys.exit(1)
d = DocbookDocWriter()
d.add_sourcedirs(source_dirs)
d.add_docs(defs_file, overrides_file, 'gtk')
d.output_docs(output_prefix)