1068 lines
36 KiB
Python
Executable File
1068 lines
36 KiB
Python
Executable File
#! /usr/bin/env python
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"""Perform massive transformations on a document tree created from the LaTeX
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of the Python documentation, and dump the ESIS data for the transformed tree.
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"""
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import errno
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import esistools
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import re
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import sys
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import xml.dom
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import xml.dom.minidom
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ELEMENT = xml.dom.Node.ELEMENT_NODE
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ENTITY_REFERENCE = xml.dom.Node.ENTITY_REFERENCE_NODE
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TEXT = xml.dom.Node.TEXT_NODE
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class ConversionError(Exception):
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pass
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ewrite = sys.stderr.write
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try:
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# We can only do this trick on Unix (if tput is on $PATH)!
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if sys.platform != "posix" or not sys.stderr.isatty():
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raise ImportError
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import commands
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except ImportError:
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bwrite = ewrite
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else:
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def bwrite(s, BOLDON=commands.getoutput("tput bold"),
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BOLDOFF=commands.getoutput("tput sgr0")):
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ewrite("%s%s%s" % (BOLDON, s, BOLDOFF))
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PARA_ELEMENT = "para"
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DEBUG_PARA_FIXER = 0
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if DEBUG_PARA_FIXER:
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def para_msg(s):
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ewrite("*** %s\n" % s)
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else:
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def para_msg(s):
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pass
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def get_first_element(doc, gi):
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for n in doc.childNodes:
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if n.nodeName == gi:
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return n
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def extract_first_element(doc, gi):
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node = get_first_element(doc, gi)
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if node is not None:
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doc.removeChild(node)
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return node
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def get_documentElement(node):
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result = None
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for child in node.childNodes:
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if child.nodeType == ELEMENT:
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result = child
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return result
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def set_tagName(elem, gi):
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elem.nodeName = elem.tagName = gi
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def find_all_elements(doc, gi):
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nodes = []
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if doc.nodeName == gi:
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nodes.append(doc)
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for child in doc.childNodes:
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if child.nodeType == ELEMENT:
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if child.tagName == gi:
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nodes.append(child)
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for node in child.getElementsByTagName(gi):
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nodes.append(node)
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return nodes
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def find_all_child_elements(doc, gi):
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nodes = []
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for child in doc.childNodes:
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if child.nodeName == gi:
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nodes.append(child)
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return nodes
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def find_all_elements_from_set(doc, gi_set):
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return __find_all_elements_from_set(doc, gi_set, [])
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def __find_all_elements_from_set(doc, gi_set, nodes):
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if doc.nodeName in gi_set:
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nodes.append(doc)
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for child in doc.childNodes:
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if child.nodeType == ELEMENT:
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__find_all_elements_from_set(child, gi_set, nodes)
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return nodes
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def simplify(doc, fragment):
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# Try to rationalize the document a bit, since these things are simply
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# not valid SGML/XML documents as they stand, and need a little work.
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documentclass = "document"
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inputs = []
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node = extract_first_element(fragment, "documentclass")
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if node is not None:
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documentclass = node.getAttribute("classname")
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node = extract_first_element(fragment, "title")
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if node is not None:
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inputs.append(node)
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# update the name of the root element
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node = get_first_element(fragment, "document")
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if node is not None:
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set_tagName(node, documentclass)
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# Move everything that comes before this node into this node;
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# this will be the document element.
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nodelist = fragment.childNodes
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point = node.firstChild
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while not nodelist[0].isSameNode(node):
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node.insertBefore(nodelist[0], point)
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while 1:
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node = extract_first_element(fragment, "input")
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if node is None:
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break
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inputs.append(node)
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if inputs:
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docelem = get_documentElement(fragment)
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inputs.reverse()
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for node in inputs:
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text = doc.createTextNode("\n")
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docelem.insertBefore(text, docelem.firstChild)
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docelem.insertBefore(node, text)
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docelem.insertBefore(doc.createTextNode("\n"), docelem.firstChild)
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while fragment.firstChild and fragment.firstChild.nodeType == TEXT:
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fragment.removeChild(fragment.firstChild)
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def cleanup_root_text(doc):
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discards = []
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skip = 0
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for n in doc.childNodes:
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prevskip = skip
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skip = 0
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if n.nodeType == TEXT and not prevskip:
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discards.append(n)
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elif n.nodeName == "COMMENT":
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skip = 1
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for node in discards:
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doc.removeChild(node)
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DESCRIPTOR_ELEMENTS = (
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"cfuncdesc", "cvardesc", "ctypedesc",
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"classdesc", "memberdesc", "memberdescni", "methoddesc", "methoddescni",
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"excdesc", "funcdesc", "funcdescni", "opcodedesc",
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"datadesc", "datadescni",
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)
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def fixup_descriptors(doc, fragment):
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sections = find_all_elements(fragment, "section")
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for section in sections:
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find_and_fix_descriptors(doc, section)
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def find_and_fix_descriptors(doc, container):
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children = container.childNodes
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for child in children:
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if child.nodeType == ELEMENT:
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tagName = child.tagName
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if tagName in DESCRIPTOR_ELEMENTS:
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rewrite_descriptor(doc, child)
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elif tagName == "subsection":
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find_and_fix_descriptors(doc, child)
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def rewrite_descriptor(doc, descriptor):
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#
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# Do these things:
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# 1. Add an "index='no'" attribute to the element if the tagName
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# ends in 'ni', removing the 'ni' from the name.
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# 2. Create a <signature> from the name attribute
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# 2a.Create an <args> if it appears to be available.
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# 3. Create additional <signature>s from <*line{,ni}> elements,
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# if found.
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# 4. If a <versionadded> is found, move it to an attribute on the
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# descriptor.
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# 5. Move remaining child nodes to a <description> element.
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# 6. Put it back together.
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#
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# 1.
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descname = descriptor.tagName
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index = descriptor.getAttribute("name") != "no"
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desctype = descname[:-4] # remove 'desc'
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linename = desctype + "line"
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if not index:
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linename = linename + "ni"
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# 2.
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signature = doc.createElement("signature")
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name = doc.createElement("name")
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signature.appendChild(doc.createTextNode("\n "))
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signature.appendChild(name)
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name.appendChild(doc.createTextNode(descriptor.getAttribute("name")))
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descriptor.removeAttribute("name")
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# 2a.
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if descriptor.hasAttribute("var"):
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if descname != "opcodedesc":
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raise RuntimeError, \
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"got 'var' attribute on descriptor other than opcodedesc"
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variable = descriptor.getAttribute("var")
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if variable:
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args = doc.createElement("args")
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args.appendChild(doc.createTextNode(variable))
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signature.appendChild(doc.createTextNode("\n "))
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signature.appendChild(args)
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descriptor.removeAttribute("var")
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newchildren = [signature]
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children = descriptor.childNodes
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pos = skip_leading_nodes(children)
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if pos < len(children):
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child = children[pos]
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if child.nodeName == "args":
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# move <args> to <signature>, or remove if empty:
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child.parentNode.removeChild(child)
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if len(child.childNodes):
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signature.appendChild(doc.createTextNode("\n "))
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signature.appendChild(child)
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signature.appendChild(doc.createTextNode("\n "))
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# 3, 4.
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pos = skip_leading_nodes(children, pos)
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while pos < len(children) \
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and children[pos].nodeName in (linename, "versionadded"):
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if children[pos].tagName == linename:
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# this is really a supplemental signature, create <signature>
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oldchild = children[pos].cloneNode(1)
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try:
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sig = methodline_to_signature(doc, children[pos])
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except KeyError:
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print oldchild.toxml()
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raise
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newchildren.append(sig)
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else:
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# <versionadded added=...>
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descriptor.setAttribute(
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"added", children[pos].getAttribute("version"))
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pos = skip_leading_nodes(children, pos + 1)
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# 5.
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description = doc.createElement("description")
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description.appendChild(doc.createTextNode("\n"))
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newchildren.append(description)
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move_children(descriptor, description, pos)
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last = description.childNodes[-1]
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if last.nodeType == TEXT:
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last.data = last.data.rstrip() + "\n "
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# 6.
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# should have nothing but whitespace and signature lines in <descriptor>;
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# discard them
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while descriptor.childNodes:
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descriptor.removeChild(descriptor.childNodes[0])
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for node in newchildren:
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descriptor.appendChild(doc.createTextNode("\n "))
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descriptor.appendChild(node)
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descriptor.appendChild(doc.createTextNode("\n"))
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def methodline_to_signature(doc, methodline):
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signature = doc.createElement("signature")
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signature.appendChild(doc.createTextNode("\n "))
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name = doc.createElement("name")
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name.appendChild(doc.createTextNode(methodline.getAttribute("name")))
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methodline.removeAttribute("name")
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signature.appendChild(name)
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if len(methodline.childNodes):
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args = doc.createElement("args")
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signature.appendChild(doc.createTextNode("\n "))
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signature.appendChild(args)
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move_children(methodline, args)
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signature.appendChild(doc.createTextNode("\n "))
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return signature
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def move_children(origin, dest, start=0):
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children = origin.childNodes
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while start < len(children):
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node = children[start]
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origin.removeChild(node)
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dest.appendChild(node)
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def handle_appendix(doc, fragment):
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# must be called after simplfy() if document is multi-rooted to begin with
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docelem = get_documentElement(fragment)
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toplevel = docelem.tagName == "manual" and "chapter" or "section"
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appendices = 0
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nodes = []
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for node in docelem.childNodes:
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if appendices:
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nodes.append(node)
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elif node.nodeType == ELEMENT:
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appnodes = node.getElementsByTagName("appendix")
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if appnodes:
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appendices = 1
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parent = appnodes[0].parentNode
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parent.removeChild(appnodes[0])
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parent.normalize()
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if nodes:
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map(docelem.removeChild, nodes)
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docelem.appendChild(doc.createTextNode("\n\n\n"))
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back = doc.createElement("back-matter")
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docelem.appendChild(back)
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back.appendChild(doc.createTextNode("\n"))
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while nodes and nodes[0].nodeType == TEXT \
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and not nodes[0].data.strip():
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del nodes[0]
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map(back.appendChild, nodes)
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docelem.appendChild(doc.createTextNode("\n"))
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def handle_labels(doc, fragment):
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for label in find_all_elements(fragment, "label"):
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id = label.getAttribute("id")
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if not id:
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continue
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parent = label.parentNode
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parentTagName = parent.tagName
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if parentTagName == "title":
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parent.parentNode.setAttribute("id", id)
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else:
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parent.setAttribute("id", id)
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# now, remove <label id="..."/> from parent:
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parent.removeChild(label)
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if parentTagName == "title":
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parent.normalize()
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children = parent.childNodes
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if children[-1].nodeType == TEXT:
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children[-1].data = children[-1].data.rstrip()
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def fixup_trailing_whitespace(doc, fragment, wsmap):
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queue = [fragment]
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fixups = []
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while queue:
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node = queue[0]
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del queue[0]
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if wsmap.has_key(node.nodeName):
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fixups.append(node)
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for child in node.childNodes:
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if child.nodeType == ELEMENT:
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queue.append(child)
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# reverse the list to process from the inside out
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fixups.reverse()
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for node in fixups:
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node.parentNode.normalize()
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lastchild = node.lastChild
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before, after = wsmap[node.tagName]
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if lastchild.nodeType == TEXT:
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data = lastchild.data.rstrip() + before
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lastchild.data = data
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norm = 0
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if wsmap[node.tagName]:
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nextnode = node.nextSibling
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if nextnode and nextnode.nodeType == TEXT:
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nextnode.data = after + nextnode.data.lstrip()
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else:
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wsnode = doc.createTextNode(after)
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node.parentNode.insertBefore(wsnode, nextnode)
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# hack to get the title in place:
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if node.tagName == "title" \
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and node.parentNode.firstChild.nodeType == ELEMENT:
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node.parentNode.insertBefore(doc.createTextNode("\n "),
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node.parentNode.firstChild)
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node.parentNode.normalize()
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def normalize(doc):
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for node in doc.childNodes:
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if node.nodeType == ELEMENT:
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node.normalize()
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def cleanup_trailing_parens(doc, element_names):
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d = {}
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for gi in element_names:
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d[gi] = gi
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rewrite_element = d.has_key
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queue = [node for node in doc.childNodes if node.nodeType == ELEMENT]
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while queue:
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node = queue[0]
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del queue[0]
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if rewrite_element(node.tagName):
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lastchild = node.lastChild
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if lastchild and lastchild.nodeType == TEXT:
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data = lastchild.data
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if data.endswith("()"):
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lastchild.data = data[:-2]
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else:
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for child in node.childNodes:
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if child.nodeType == ELEMENT:
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queue.append(child)
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def contents_match(left, right):
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left_children = left.childNodes
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right_children = right.childNodes
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if len(left_children) != len(right_children):
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return 0
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for l, r in map(None, left_children, right_children):
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nodeType = l.nodeType
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if nodeType != r.nodeType:
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return 0
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if nodeType == ELEMENT:
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if l.tagName != r.tagName:
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return 0
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# should check attributes, but that's not a problem here
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if not contents_match(l, r):
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return 0
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elif nodeType == TEXT:
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if l.data != r.data:
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return 0
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else:
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# not quite right, but good enough
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return 0
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return 1
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def create_module_info(doc, section):
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# Heavy.
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node = extract_first_element(section, "modulesynopsis")
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if node is None:
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return
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set_tagName(node, "synopsis")
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lastchild = node.childNodes[-1]
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if lastchild.nodeType == TEXT \
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and lastchild.data[-1:] == ".":
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lastchild.data = lastchild.data[:-1]
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modauthor = extract_first_element(section, "moduleauthor")
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if modauthor:
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set_tagName(modauthor, "author")
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modauthor.appendChild(doc.createTextNode(
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modauthor.getAttribute("name")))
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modauthor.removeAttribute("name")
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platform = extract_first_element(section, "platform")
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if section.tagName == "section":
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modinfo_pos = 2
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modinfo = doc.createElement("moduleinfo")
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moddecl = extract_first_element(section, "declaremodule")
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name = None
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if moddecl:
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modinfo.appendChild(doc.createTextNode("\n "))
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name = moddecl.attributes["name"].value
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namenode = doc.createElement("name")
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namenode.appendChild(doc.createTextNode(name))
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modinfo.appendChild(namenode)
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type = moddecl.attributes.get("type")
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if type:
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type = type.value
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modinfo.appendChild(doc.createTextNode("\n "))
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typenode = doc.createElement("type")
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typenode.appendChild(doc.createTextNode(type))
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modinfo.appendChild(typenode)
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versionadded = extract_first_element(section, "versionadded")
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if versionadded:
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modinfo.setAttribute("added", versionadded.getAttribute("version"))
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title = get_first_element(section, "title")
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if title:
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children = title.childNodes
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if len(children) >= 2 \
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and children[0].nodeName == "module" \
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and children[0].childNodes[0].data == name:
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# this is it; morph the <title> into <short-synopsis>
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first_data = children[1]
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if first_data.data[:4] == " ---":
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first_data.data = first_data.data[4:].lstrip()
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set_tagName(title, "short-synopsis")
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if children[-1].nodeType == TEXT \
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and children[-1].data[-1:] == ".":
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children[-1].data = children[-1].data[:-1]
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section.removeChild(title)
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section.removeChild(section.childNodes[0])
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title.removeChild(children[0])
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modinfo_pos = 0
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else:
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ewrite("module name in title doesn't match"
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" <declaremodule/>; no <short-synopsis/>\n")
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else:
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ewrite("Unexpected condition: <section/> without <title/>\n")
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modinfo.appendChild(doc.createTextNode("\n "))
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modinfo.appendChild(node)
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if title and not contents_match(title, node):
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# The short synopsis is actually different,
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# and needs to be stored:
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modinfo.appendChild(doc.createTextNode("\n "))
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modinfo.appendChild(title)
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if modauthor:
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modinfo.appendChild(doc.createTextNode("\n "))
|
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modinfo.appendChild(modauthor)
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if platform:
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modinfo.appendChild(doc.createTextNode("\n "))
|
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modinfo.appendChild(platform)
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modinfo.appendChild(doc.createTextNode("\n "))
|
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section.insertBefore(modinfo, section.childNodes[modinfo_pos])
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section.insertBefore(doc.createTextNode("\n "), modinfo)
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#
|
|
# The rest of this removes extra newlines from where we cut out
|
|
# a lot of elements. A lot of code for minimal value, but keeps
|
|
# keeps the generated *ML from being too funny looking.
|
|
#
|
|
section.normalize()
|
|
children = section.childNodes
|
|
for i in range(len(children)):
|
|
node = children[i]
|
|
if node.nodeName == "moduleinfo":
|
|
nextnode = children[i+1]
|
|
if nextnode.nodeType == TEXT:
|
|
data = nextnode.data
|
|
s = data.lstrip()
|
|
if len(s) < (len(data) - 4):
|
|
nextnode.data = "\n\n\n" + s
|
|
|
|
|
|
def cleanup_synopses(doc, fragment):
|
|
for node in find_all_elements(fragment, "section"):
|
|
create_module_info(doc, node)
|
|
|
|
|
|
def fixup_table_structures(doc, fragment):
|
|
for table in find_all_elements(fragment, "table"):
|
|
fixup_table(doc, table)
|
|
|
|
|
|
def fixup_table(doc, table):
|
|
# create the table head
|
|
thead = doc.createElement("thead")
|
|
row = doc.createElement("row")
|
|
move_elements_by_name(doc, table, row, "entry")
|
|
thead.appendChild(doc.createTextNode("\n "))
|
|
thead.appendChild(row)
|
|
thead.appendChild(doc.createTextNode("\n "))
|
|
# create the table body
|
|
tbody = doc.createElement("tbody")
|
|
prev_row = None
|
|
last_was_hline = 0
|
|
children = table.childNodes
|
|
for child in children:
|
|
if child.nodeType == ELEMENT:
|
|
tagName = child.tagName
|
|
if tagName == "hline" and prev_row is not None:
|
|
prev_row.setAttribute("rowsep", "1")
|
|
elif tagName == "row":
|
|
prev_row = child
|
|
# save the rows:
|
|
tbody.appendChild(doc.createTextNode("\n "))
|
|
move_elements_by_name(doc, table, tbody, "row", sep="\n ")
|
|
# and toss the rest:
|
|
while children:
|
|
child = children[0]
|
|
nodeType = child.nodeType
|
|
if nodeType == TEXT:
|
|
if child.data.strip():
|
|
raise ConversionError("unexpected free data in <%s>: %r"
|
|
% (table.tagName, child.data))
|
|
table.removeChild(child)
|
|
continue
|
|
if nodeType == ELEMENT:
|
|
if child.tagName != "hline":
|
|
raise ConversionError(
|
|
"unexpected <%s> in table" % child.tagName)
|
|
table.removeChild(child)
|
|
continue
|
|
raise ConversionError(
|
|
"unexpected %s node in table" % child.__class__.__name__)
|
|
# nothing left in the <table>; add the <thead> and <tbody>
|
|
tgroup = doc.createElement("tgroup")
|
|
tgroup.appendChild(doc.createTextNode("\n "))
|
|
tgroup.appendChild(thead)
|
|
tgroup.appendChild(doc.createTextNode("\n "))
|
|
tgroup.appendChild(tbody)
|
|
tgroup.appendChild(doc.createTextNode("\n "))
|
|
table.appendChild(tgroup)
|
|
# now make the <entry>s look nice:
|
|
for row in table.getElementsByTagName("row"):
|
|
fixup_row(doc, row)
|
|
|
|
|
|
def fixup_row(doc, row):
|
|
entries = []
|
|
map(entries.append, row.childNodes[1:])
|
|
for entry in entries:
|
|
row.insertBefore(doc.createTextNode("\n "), entry)
|
|
# row.appendChild(doc.createTextNode("\n "))
|
|
|
|
|
|
def move_elements_by_name(doc, source, dest, name, sep=None):
|
|
nodes = []
|
|
for child in source.childNodes:
|
|
if child.nodeName == name:
|
|
nodes.append(child)
|
|
for node in nodes:
|
|
source.removeChild(node)
|
|
dest.appendChild(node)
|
|
if sep:
|
|
dest.appendChild(doc.createTextNode(sep))
|
|
|
|
|
|
RECURSE_INTO_PARA_CONTAINERS = (
|
|
"chapter", "abstract", "enumerate",
|
|
"section", "subsection", "subsubsection",
|
|
"paragraph", "subparagraph", "back-matter",
|
|
"howto", "manual",
|
|
"item", "itemize", "fulllineitems", "enumeration", "descriptionlist",
|
|
"definitionlist", "definition",
|
|
)
|
|
|
|
PARA_LEVEL_ELEMENTS = (
|
|
"moduleinfo", "title", "verbatim", "enumerate", "item",
|
|
"interpreter-session", "back-matter", "interactive-session",
|
|
"opcodedesc", "classdesc", "datadesc",
|
|
"cfuncdesc", "ctypedesc", "cvardesc",
|
|
"funcdesc", "methoddesc", "excdesc", "memberdesc", "membderdescni",
|
|
"funcdescni", "methoddescni", "excdescni",
|
|
"tableii", "tableiii", "tableiv", "localmoduletable",
|
|
"sectionauthor", "seealso", "itemize",
|
|
# include <para>, so we can just do it again to get subsequent paras:
|
|
PARA_ELEMENT,
|
|
)
|
|
|
|
PARA_LEVEL_PRECEEDERS = (
|
|
"setindexsubitem", "author",
|
|
"stindex", "obindex", "COMMENT", "label", "xi:include", "title",
|
|
"versionadded", "versionchanged", "declaremodule", "modulesynopsis",
|
|
"moduleauthor", "indexterm", "leader",
|
|
)
|
|
|
|
|
|
def fixup_paras(doc, fragment):
|
|
for child in fragment.childNodes:
|
|
if child.nodeName in RECURSE_INTO_PARA_CONTAINERS:
|
|
fixup_paras_helper(doc, child)
|
|
descriptions = find_all_elements(fragment, "description")
|
|
for description in descriptions:
|
|
fixup_paras_helper(doc, description)
|
|
|
|
|
|
def fixup_paras_helper(doc, container, depth=0):
|
|
# document is already normalized
|
|
children = container.childNodes
|
|
start = skip_leading_nodes(children)
|
|
while len(children) > start:
|
|
if children[start].nodeName in RECURSE_INTO_PARA_CONTAINERS:
|
|
# Something to recurse into:
|
|
fixup_paras_helper(doc, children[start])
|
|
else:
|
|
# Paragraph material:
|
|
build_para(doc, container, start, len(children))
|
|
if DEBUG_PARA_FIXER and depth == 10:
|
|
sys.exit(1)
|
|
start = skip_leading_nodes(children, start + 1)
|
|
|
|
|
|
def build_para(doc, parent, start, i):
|
|
children = parent.childNodes
|
|
after = start + 1
|
|
have_last = 0
|
|
BREAK_ELEMENTS = PARA_LEVEL_ELEMENTS + RECURSE_INTO_PARA_CONTAINERS
|
|
# Collect all children until \n\n+ is found in a text node or a
|
|
# member of BREAK_ELEMENTS is found.
|
|
for j in range(start, i):
|
|
after = j + 1
|
|
child = children[j]
|
|
nodeType = child.nodeType
|
|
if nodeType == ELEMENT:
|
|
if child.tagName in BREAK_ELEMENTS:
|
|
after = j
|
|
break
|
|
elif nodeType == TEXT:
|
|
pos = child.data.find("\n\n")
|
|
if pos == 0:
|
|
after = j
|
|
break
|
|
if pos >= 1:
|
|
child.splitText(pos)
|
|
break
|
|
else:
|
|
have_last = 1
|
|
if (start + 1) > after:
|
|
raise ConversionError(
|
|
"build_para() could not identify content to turn into a paragraph")
|
|
if children[after - 1].nodeType == TEXT:
|
|
# we may need to split off trailing white space:
|
|
child = children[after - 1]
|
|
data = child.data
|
|
if data.rstrip() != data:
|
|
have_last = 0
|
|
child.splitText(len(data.rstrip()))
|
|
para = doc.createElement(PARA_ELEMENT)
|
|
prev = None
|
|
indexes = range(start, after)
|
|
indexes.reverse()
|
|
for j in indexes:
|
|
node = parent.childNodes[j]
|
|
parent.removeChild(node)
|
|
para.insertBefore(node, prev)
|
|
prev = node
|
|
if have_last:
|
|
parent.appendChild(para)
|
|
parent.appendChild(doc.createTextNode("\n\n"))
|
|
return len(parent.childNodes)
|
|
else:
|
|
nextnode = parent.childNodes[start]
|
|
if nextnode.nodeType == TEXT:
|
|
if nextnode.data and nextnode.data[0] != "\n":
|
|
nextnode.data = "\n" + nextnode.data
|
|
else:
|
|
newnode = doc.createTextNode("\n")
|
|
parent.insertBefore(newnode, nextnode)
|
|
nextnode = newnode
|
|
start = start + 1
|
|
parent.insertBefore(para, nextnode)
|
|
return start + 1
|
|
|
|
|
|
def skip_leading_nodes(children, start=0):
|
|
"""Return index into children of a node at which paragraph building should
|
|
begin or a recursive call to fixup_paras_helper() should be made (for
|
|
subsections, etc.).
|
|
|
|
When the return value >= len(children), we've built all the paras we can
|
|
from this list of children.
|
|
"""
|
|
i = len(children)
|
|
while i > start:
|
|
# skip over leading comments and whitespace:
|
|
child = children[start]
|
|
nodeType = child.nodeType
|
|
if nodeType == TEXT:
|
|
data = child.data
|
|
shortened = data.lstrip()
|
|
if shortened:
|
|
if data != shortened:
|
|
# break into two nodes: whitespace and non-whitespace
|
|
child.splitText(len(data) - len(shortened))
|
|
return start + 1
|
|
return start
|
|
# all whitespace, just skip
|
|
elif nodeType == ELEMENT:
|
|
tagName = child.tagName
|
|
if tagName in RECURSE_INTO_PARA_CONTAINERS:
|
|
return start
|
|
if tagName not in PARA_LEVEL_ELEMENTS + PARA_LEVEL_PRECEEDERS:
|
|
return start
|
|
start = start + 1
|
|
return start
|
|
|
|
|
|
def fixup_rfc_references(doc, fragment):
|
|
for rfcnode in find_all_elements_from_set(fragment, ("pep", "rfc")):
|
|
rfcnode.appendChild(doc.createTextNode(
|
|
rfcnode.tagName.upper() + " " + rfcnode.getAttribute("num")))
|
|
|
|
|
|
def fixup_signatures(doc, fragment):
|
|
for child in fragment.childNodes:
|
|
if child.nodeType == ELEMENT:
|
|
args = child.getElementsByTagName("args")
|
|
for arg in args:
|
|
rewrite_args(doc, arg)
|
|
args = child.getElementsByTagName("constructor-args")
|
|
for arg in args:
|
|
rewrite_args(doc, arg)
|
|
|
|
def rewrite_args(doc, arglist):
|
|
fixup_args(doc, arglist)
|
|
arglist.normalize()
|
|
if arglist.childNodes.length == 1 and arglist.firstChild.nodeType == TEXT:
|
|
node = arglist.firstChild
|
|
node.data = ' '.join(node.data.split())
|
|
|
|
def fixup_args(doc, arglist):
|
|
for child in arglist.childNodes:
|
|
if child.nodeName == "optional":
|
|
# found it; fix and return
|
|
arglist.insertBefore(doc.createTextNode("["), child)
|
|
optkids = child.childNodes
|
|
while optkids:
|
|
arglist.insertBefore(child.firstChild, child)
|
|
arglist.insertBefore(doc.createTextNode("]"), child)
|
|
arglist.removeChild(child)
|
|
return fixup_args(doc, arglist)
|
|
|
|
|
|
def fixup_sectionauthors(doc, fragment):
|
|
for sectauth in find_all_elements(fragment, "sectionauthor"):
|
|
section = sectauth.parentNode
|
|
section.removeChild(sectauth)
|
|
set_tagName(sectauth, "author")
|
|
sectauth.appendChild(doc.createTextNode(
|
|
sectauth.getAttribute("name")))
|
|
sectauth.removeAttribute("name")
|
|
after = section.childNodes[2]
|
|
title = section.childNodes[1]
|
|
if title.nodeName != "title":
|
|
after = section.childNodes[0]
|
|
section.insertBefore(doc.createTextNode("\n "), after)
|
|
section.insertBefore(sectauth, after)
|
|
|
|
|
|
def fixup_verbatims(doc):
|
|
for verbatim in find_all_elements(doc, "verbatim"):
|
|
child = verbatim.childNodes[0]
|
|
if child.nodeType == TEXT \
|
|
and child.data.lstrip().startswith(">>>"):
|
|
set_tagName(verbatim, "interactive-session")
|
|
|
|
|
|
def add_node_ids(fragment, counter=0):
|
|
fragment.node_id = counter
|
|
for node in fragment.childNodes:
|
|
counter = counter + 1
|
|
if node.nodeType == ELEMENT:
|
|
counter = add_node_ids(node, counter)
|
|
else:
|
|
node.node_id = counter
|
|
return counter + 1
|
|
|
|
|
|
def fixup_ulink(doc, fragment):
|
|
for ulink in find_all_elements(fragment, "ulink"):
|
|
children = ulink.childNodes
|
|
assert len(children) == 2
|
|
text = children[0]
|
|
href = children[1]
|
|
href.normalize()
|
|
assert len(href.childNodes) == 1
|
|
assert href.childNodes[0].nodeType == TEXT
|
|
url = href.childNodes[0].data
|
|
ulink.setAttribute("href", url)
|
|
ulink.removeChild(href)
|
|
content = text.childNodes
|
|
while len(content):
|
|
ulink.appendChild(content[0])
|
|
ulink.removeChild(text)
|
|
|
|
|
|
REFMODINDEX_ELEMENTS = ('refmodindex', 'refbimodindex',
|
|
'refexmodindex', 'refstmodindex')
|
|
|
|
def fixup_refmodindexes(fragment):
|
|
# Locate <ref*modindex>...</> co-located with <module>...</>, and
|
|
# remove the <ref*modindex>, replacing it with index=index on the
|
|
# <module> element.
|
|
nodes = find_all_elements_from_set(fragment, REFMODINDEX_ELEMENTS)
|
|
d = {}
|
|
for node in nodes:
|
|
parent = node.parentNode
|
|
d[parent.node_id] = parent
|
|
del nodes
|
|
map(fixup_refmodindexes_chunk, d.values())
|
|
|
|
|
|
def fixup_refmodindexes_chunk(container):
|
|
# node is probably a <para>; let's see how often it isn't:
|
|
if container.tagName != PARA_ELEMENT:
|
|
bwrite("--- fixup_refmodindexes_chunk(%s)\n" % container)
|
|
module_entries = find_all_elements(container, "module")
|
|
if not module_entries:
|
|
return
|
|
index_entries = find_all_elements_from_set(container, REFMODINDEX_ELEMENTS)
|
|
removes = []
|
|
for entry in index_entries:
|
|
children = entry.childNodes
|
|
if len(children) != 0:
|
|
bwrite("--- unexpected number of children for %s node:\n"
|
|
% entry.tagName)
|
|
ewrite(entry.toxml() + "\n")
|
|
continue
|
|
found = 0
|
|
module_name = entry.getAttribute("module")
|
|
for node in module_entries:
|
|
if len(node.childNodes) != 1:
|
|
continue
|
|
this_name = node.childNodes[0].data
|
|
if this_name == module_name:
|
|
found = 1
|
|
node.setAttribute("index", "yes")
|
|
if found:
|
|
removes.append(entry)
|
|
for node in removes:
|
|
container.removeChild(node)
|
|
|
|
|
|
def fixup_bifuncindexes(fragment):
|
|
nodes = find_all_elements(fragment, 'bifuncindex')
|
|
d = {}
|
|
# make sure that each parent is only processed once:
|
|
for node in nodes:
|
|
parent = node.parentNode
|
|
d[parent.node_id] = parent
|
|
del nodes
|
|
map(fixup_bifuncindexes_chunk, d.values())
|
|
|
|
|
|
def fixup_bifuncindexes_chunk(container):
|
|
removes = []
|
|
entries = find_all_child_elements(container, "bifuncindex")
|
|
function_entries = find_all_child_elements(container, "function")
|
|
for entry in entries:
|
|
function_name = entry.getAttribute("name")
|
|
found = 0
|
|
for func_entry in function_entries:
|
|
t2 = func_entry.childNodes[0].data
|
|
if t2[-2:] != "()":
|
|
continue
|
|
t2 = t2[:-2]
|
|
if t2 == function_name:
|
|
func_entry.setAttribute("index", "yes")
|
|
func_entry.setAttribute("module", "__builtin__")
|
|
if not found:
|
|
found = 1
|
|
removes.append(entry)
|
|
for entry in removes:
|
|
container.removeChild(entry)
|
|
|
|
|
|
def join_adjacent_elements(container, gi):
|
|
queue = [container]
|
|
while queue:
|
|
parent = queue.pop()
|
|
i = 0
|
|
children = parent.childNodes
|
|
nchildren = len(children)
|
|
while i < (nchildren - 1):
|
|
child = children[i]
|
|
if child.nodeName == gi:
|
|
if children[i+1].nodeName == gi:
|
|
ewrite("--- merging two <%s/> elements\n" % gi)
|
|
child = children[i]
|
|
nextchild = children[i+1]
|
|
nextchildren = nextchild.childNodes
|
|
while len(nextchildren):
|
|
node = nextchildren[0]
|
|
nextchild.removeChild(node)
|
|
child.appendChild(node)
|
|
parent.removeChild(nextchild)
|
|
continue
|
|
if child.nodeType == ELEMENT:
|
|
queue.append(child)
|
|
i = i + 1
|
|
|
|
|
|
_token_rx = re.compile(r"[a-zA-Z][a-zA-Z0-9.-]*$")
|
|
|
|
def write_esis(doc, ofp, knownempty):
|
|
for node in doc.childNodes:
|
|
nodeType = node.nodeType
|
|
if nodeType == ELEMENT:
|
|
gi = node.tagName
|
|
if knownempty(gi):
|
|
if node.hasChildNodes():
|
|
raise ValueError, \
|
|
"declared-empty node <%s> has children" % gi
|
|
ofp.write("e\n")
|
|
for k, value in node.attributes.items():
|
|
if _token_rx.match(value):
|
|
dtype = "TOKEN"
|
|
else:
|
|
dtype = "CDATA"
|
|
ofp.write("A%s %s %s\n" % (k, dtype, esistools.encode(value)))
|
|
ofp.write("(%s\n" % gi)
|
|
write_esis(node, ofp, knownempty)
|
|
ofp.write(")%s\n" % gi)
|
|
elif nodeType == TEXT:
|
|
ofp.write("-%s\n" % esistools.encode(node.data))
|
|
elif nodeType == ENTITY_REFERENCE:
|
|
ofp.write("&%s\n" % node.nodeName)
|
|
else:
|
|
raise RuntimeError, "unsupported node type: %s" % nodeType
|
|
|
|
|
|
def convert(ifp, ofp):
|
|
events = esistools.parse(ifp)
|
|
toktype, doc = events.getEvent()
|
|
fragment = doc.createDocumentFragment()
|
|
events.expandNode(fragment)
|
|
|
|
normalize(fragment)
|
|
simplify(doc, fragment)
|
|
handle_labels(doc, fragment)
|
|
handle_appendix(doc, fragment)
|
|
fixup_trailing_whitespace(doc, fragment, {
|
|
# element -> (before-end-tag, after-end-tag)
|
|
"abstract": ("\n", "\n"),
|
|
"title": ("", "\n"),
|
|
"chapter": ("\n", "\n\n\n"),
|
|
"section": ("\n", "\n\n\n"),
|
|
"subsection": ("\n", "\n\n"),
|
|
"subsubsection": ("\n", "\n\n"),
|
|
"paragraph": ("\n", "\n\n"),
|
|
"subparagraph": ("\n", "\n\n"),
|
|
"enumeration": ("\n", "\n\n"),
|
|
})
|
|
cleanup_root_text(doc)
|
|
cleanup_trailing_parens(fragment, ["function", "method", "cfunction"])
|
|
cleanup_synopses(doc, fragment)
|
|
fixup_descriptors(doc, fragment)
|
|
fixup_verbatims(fragment)
|
|
normalize(fragment)
|
|
fixup_paras(doc, fragment)
|
|
fixup_sectionauthors(doc, fragment)
|
|
fixup_table_structures(doc, fragment)
|
|
fixup_rfc_references(doc, fragment)
|
|
fixup_signatures(doc, fragment)
|
|
fixup_ulink(doc, fragment)
|
|
add_node_ids(fragment)
|
|
fixup_refmodindexes(fragment)
|
|
fixup_bifuncindexes(fragment)
|
|
# Take care of ugly hacks in the LaTeX markup to avoid LaTeX and
|
|
# LaTeX2HTML screwing with GNU-style long options (the '--' problem).
|
|
join_adjacent_elements(fragment, "option")
|
|
#
|
|
d = {}
|
|
for gi in events.parser.get_empties():
|
|
d[gi] = gi
|
|
for key in ("author", "pep", "rfc"):
|
|
if d.has_key(key):
|
|
del d[key]
|
|
knownempty = d.has_key
|
|
#
|
|
try:
|
|
write_esis(fragment, ofp, knownempty)
|
|
except IOError, (err, msg):
|
|
# Ignore EPIPE; it just means that whoever we're writing to stopped
|
|
# reading. The rest of the output would be ignored. All other errors
|
|
# should still be reported,
|
|
if err != errno.EPIPE:
|
|
raise
|
|
|
|
|
|
def main():
|
|
if len(sys.argv) == 1:
|
|
ifp = sys.stdin
|
|
ofp = sys.stdout
|
|
elif len(sys.argv) == 2:
|
|
ifp = open(sys.argv[1])
|
|
ofp = sys.stdout
|
|
elif len(sys.argv) == 3:
|
|
ifp = open(sys.argv[1])
|
|
import StringIO
|
|
ofp = StringIO.StringIO()
|
|
else:
|
|
usage()
|
|
sys.exit(2)
|
|
convert(ifp, ofp)
|
|
if len(sys.argv) == 3:
|
|
fp = open(sys.argv[2], "w")
|
|
fp.write(ofp.getvalue())
|
|
fp.close()
|
|
ofp.close()
|
|
|
|
|
|
if __name__ == "__main__":
|
|
main()
|