mercurial: support loading modules from zipimporter
The previous refactor to module importing broke module loading when
mercurial.* modules were loaded from a zipfile (using a zipimporter).
This scenario is likely encountered when using py2exe.
Supporting zipimporter and the traditional importer side-by-side
turns out to be quite a pain. In Python 2.x, the standard, file-based
import mechanism is partially implemented in C. The sys.meta_path
and sys.path_hooks hook points exist to allow custom importers in
Python/userland. zipimport.zipimporter and our "hgimporter" class
from earlier in this patch series are 2 of these.
In a standard Python installation (no matter if running in py2exe
or similar or not), zipimport.zipimporter appears to be registered
in sys.path_hooks. This means that as each sys.path entry is
consulted, it will ask zipimporter if it supports that path and
zipimporter will be used if that entry is a zip file. In a
py2exe environment, sys.path contains an entry with the path to
the zip file containing the Python standard library along with
Mercurial's Python files.
The way the importer mechanism works is the first importer that
declares knowledge of a module (via find_module() returning an
object) gets to load it. Since our "hgimporter" is registered
in sys.meta_path and returns an interest in specific mercurial.*
modules, the zipimporter registered on sys.path_hooks never comes
into play for these modules. So, we need to be zipimporter aware
and call into zipimporter to load modules.
This patch teaches "hgimporter" how to call out into zipimporter
when necessary. We detect the necessity of zipimporter by looking
at the loader for the "mercurial" module. If it is a zipimporter
instance, we load via zipimporter.
The behavior of zipimporter is a bit wonky.
You appear to need separate zipimporter instances for each directory
in the zip file. I'm not sure why this is. I suspect it has
something to do with the low-level importing mechanism (implemented
in C) operating on a per-directory basis. PEP-302 makes some
references to this. I was not able to get a zipimporter to
import modules outside of its immediate directory no matter how
I specified the module name. This is why we use separate
zipimporter instances for the ".zip/mercurial" and
".zip/mercurial/pure" locations.
The zipimporter documentation for Python 2.7 explicitly states that
zipimporter does not import dynamic modules (C extensions). Yet from
a py2exe distribution on Windows - where the .pyd files are *not*
in the zip archive - zipimporter imported these dynamic modules
just fine! I'm not sure if dynamic modules can't be imported from
*inside* the zip archive or whether zipimporter looks for dynamic
modules outside the zip archive. All I know is zipimporter does
manage to import the .pyd files on Windows and this patch makes
our new importer compatible with py2exe.
In the ideal world, We'd probably reimplement or fall back to parts
of the built-in import mechanism instead of handling zipimporter
specially. After all, if we're loading Mercurial modules via
something that isn't the built-in file-based importer or zipimporter,
our custom importer will likely fail because it doesn't know how to
call into it. I'd like to think that we'll never encounter this
in the wild, but you never know. If we do encounter it, we can
come up with another solution.
It's worth nothing that Python 3 has moved a lot of the importing
code from C to Python. Python 3 gives you near total control over
the import mechanism. So in the very distant future when Mercurial
drops Python 2 support, it's likely that our custom importer code
can be refactored to something a bit saner.
# -*- coding: utf-8 -*-
# $Id: manpage.py 6110 2009-08-31 14:40:33Z grubert $
# Author: Engelbert Gruber <grubert@users.sourceforge.net>
# Copyright: This module is put into the public domain.
"""
Simple man page writer for reStructuredText.
Man pages (short for "manual pages") contain system documentation on unix-like
systems. The pages are grouped in numbered sections:
1 executable programs and shell commands
2 system calls
3 library functions
4 special files
5 file formats
6 games
7 miscellaneous
8 system administration
Man pages are written in *troff*, a text file formatting system.
See http://www.tldp.org/HOWTO/Man-Page for a start.
Man pages have no subsections only parts.
Standard parts
NAME ,
SYNOPSIS ,
DESCRIPTION ,
OPTIONS ,
FILES ,
SEE ALSO ,
BUGS ,
and
AUTHOR .
A unix-like system keeps an index of the DESCRIPTIONs, which is accesable
by the command whatis or apropos.
"""
__docformat__ = 'reStructuredText'
import re
from docutils import nodes, writers, languages
try:
import roman
except ImportError:
from docutils.utils import roman
import inspect
FIELD_LIST_INDENT = 7
DEFINITION_LIST_INDENT = 7
OPTION_LIST_INDENT = 7
BLOCKQOUTE_INDENT = 3.5
# Define two macros so man/roff can calculate the
# indent/unindent margins by itself
MACRO_DEF = (r""".
.nr rst2man-indent-level 0
.
.de1 rstReportMargin
\\$1 \\n[an-margin]
level \\n[rst2man-indent-level]
level margin: \\n[rst2man-indent\\n[rst2man-indent-level]]
-
\\n[rst2man-indent0]
\\n[rst2man-indent1]
\\n[rst2man-indent2]
..
.de1 INDENT
.\" .rstReportMargin pre:
. RS \\$1
. nr rst2man-indent\\n[rst2man-indent-level] \\n[an-margin]
. nr rst2man-indent-level +1
.\" .rstReportMargin post:
..
.de UNINDENT
. RE
.\" indent \\n[an-margin]
.\" old: \\n[rst2man-indent\\n[rst2man-indent-level]]
.nr rst2man-indent-level -1
.\" new: \\n[rst2man-indent\\n[rst2man-indent-level]]
.in \\n[rst2man-indent\\n[rst2man-indent-level]]u
..
""")
class Writer(writers.Writer):
supported = ('manpage')
"""Formats this writer supports."""
output = None
"""Final translated form of `document`."""
def __init__(self):
writers.Writer.__init__(self)
self.translator_class = Translator
def translate(self):
visitor = self.translator_class(self.document)
self.document.walkabout(visitor)
self.output = visitor.astext()
class Table(object):
def __init__(self):
self._rows = []
self._options = ['center']
self._tab_char = '\t'
self._coldefs = []
def new_row(self):
self._rows.append([])
def append_separator(self, separator):
"""Append the separator for table head."""
self._rows.append([separator])
def append_cell(self, cell_lines):
"""cell_lines is an array of lines"""
start = 0
if len(cell_lines) > 0 and cell_lines[0] == '.sp\n':
start = 1
self._rows[-1].append(cell_lines[start:])
if len(self._coldefs) < len(self._rows[-1]):
self._coldefs.append('l')
def _minimize_cell(self, cell_lines):
"""Remove leading and trailing blank and ``.sp`` lines"""
while (cell_lines and cell_lines[0] in ('\n', '.sp\n')):
del cell_lines[0]
while (cell_lines and cell_lines[-1] in ('\n', '.sp\n')):
del cell_lines[-1]
def as_list(self):
text = ['.TS\n']
text.append(' '.join(self._options) + ';\n')
text.append('|%s|.\n' % ('|'.join(self._coldefs)))
for row in self._rows:
# row = array of cells. cell = array of lines.
text.append('_\n') # line above
text.append('T{\n')
for i in range(len(row)):
cell = row[i]
self._minimize_cell(cell)
text.extend(cell)
if not text[-1].endswith('\n'):
text[-1] += '\n'
if i < len(row) - 1:
text.append('T}'+self._tab_char+'T{\n')
else:
text.append('T}\n')
text.append('_\n')
text.append('.TE\n')
return text
class Translator(nodes.NodeVisitor):
""""""
words_and_spaces = re.compile(r'\S+| +|\n')
document_start = """Man page generated from reStructuredText."""
def __init__(self, document):
nodes.NodeVisitor.__init__(self, document)
self.settings = settings = document.settings
lcode = settings.language_code
arglen = len(inspect.getargspec(languages.get_language)[0])
if arglen == 2:
self.language = languages.get_language(lcode,
self.document.reporter)
else:
self.language = languages.get_language(lcode)
self.head = []
self.body = []
self.foot = []
self.section_level = 0
self.context = []
self.topic_class = ''
self.colspecs = []
self.compact_p = 1
self.compact_simple = None
# the list style "*" bullet or "#" numbered
self._list_char = []
# writing the header .TH and .SH NAME is postboned after
# docinfo.
self._docinfo = {
"title" : "", "title_upper": "",
"subtitle" : "",
"manual_section" : "", "manual_group" : "",
"author" : [],
"date" : "",
"copyright" : "",
"version" : "",
}
self._docinfo_keys = [] # a list to keep the sequence as in source.
self._docinfo_names = {} # to get name from text not normalized.
self._in_docinfo = None
self._active_table = None
self._in_literal = False
self.header_written = 0
self._line_block = 0
self.authors = []
self.section_level = 0
self._indent = [0]
# central definition of simple processing rules
# what to output on : visit, depart
# Do not use paragraph requests ``.PP`` because these set indentation.
# use ``.sp``. Remove superfluous ``.sp`` in ``astext``.
#
# Fonts are put on a stack, the top one is used.
# ``.ft P`` or ``\\fP`` pop from stack.
# ``B`` bold, ``I`` italic, ``R`` roman should be available.
# Hopefully ``C`` courier too.
self.defs = {
'indent' : ('.INDENT %.1f\n', '.UNINDENT\n'),
'definition_list_item' : ('.TP', ''),
'field_name' : ('.TP\n.B ', '\n'),
'literal' : ('\\fB', '\\fP'),
'literal_block' : ('.sp\n.nf\n.ft C\n', '\n.ft P\n.fi\n'),
'option_list_item' : ('.TP\n', ''),
'reference' : (r'\%', r'\:'),
'emphasis': ('\\fI', '\\fP'),
'strong' : ('\\fB', '\\fP'),
'term' : ('\n.B ', '\n'),
'title_reference' : ('\\fI', '\\fP'),
'topic-title' : ('.SS ',),
'sidebar-title' : ('.SS ',),
'problematic' : ('\n.nf\n', '\n.fi\n'),
}
# NOTE don't specify the newline before a dot-command, but ensure
# it is there.
def comment_begin(self, text):
"""Return commented version of the passed text WITHOUT end of
line/comment."""
prefix = '.\\" '
out_text = ''.join(
[(prefix + in_line + '\n')
for in_line in text.split('\n')])
return out_text
def comment(self, text):
"""Return commented version of the passed text."""
return self.comment_begin(text)+'.\n'
def ensure_eol(self):
"""Ensure the last line in body is terminated by new line."""
if self.body[-1][-1] != '\n':
self.body.append('\n')
def astext(self):
"""Return the final formatted document as a string."""
if not self.header_written:
# ensure we get a ".TH" as viewers require it.
self.head.append(self.header())
# filter body
for i in xrange(len(self.body) - 1, 0, -1):
# remove superfluous vertical gaps.
if self.body[i] == '.sp\n':
if self.body[i - 1][:4] in ('.BI ','.IP '):
self.body[i] = '.\n'
elif (self.body[i - 1][:3] == '.B ' and
self.body[i - 2][:4] == '.TP\n'):
self.body[i] = '.\n'
elif (self.body[i - 1] == '\n' and
self.body[i - 2][0] != '.' and
(self.body[i - 3][:7] == '.TP\n.B '
or self.body[i - 3][:4] == '\n.B ')
):
self.body[i] = '.\n'
return ''.join(self.head + self.body + self.foot)
def deunicode(self, text):
text = text.replace(u'\xa0', '\\ ')
text = text.replace(u'\u2020', '\\(dg')
return text
def visit_Text(self, node):
text = node.astext()
text = text.replace('\\','\\e')
replace_pairs = [
(u'-', ur'\-'),
(u'\'', ur'\(aq'),
(u'ยด', ur'\''),
(u'`', ur'\(ga'),
]
for (in_char, out_markup) in replace_pairs:
text = text.replace(in_char, out_markup)
# unicode
text = self.deunicode(text)
if self._in_literal:
# prevent interpretation of "." at line start
if text[0] == '.':
text = '\\&' + text
text = text.replace('\n.', '\n\\&.')
self.body.append(text)
def depart_Text(self, node):
pass
def list_start(self, node):
class enum_char(object):
enum_style = {
'bullet' : '\\(bu',
'emdash' : '\\(em',
}
def __init__(self, style):
self._style = style
if 'start' in node:
self._cnt = node['start'] - 1
else:
self._cnt = 0
self._indent = 2
if style == 'arabic':
# indentation depends on number of children
# and start value.
self._indent = len(str(len(node.children)))
self._indent += len(str(self._cnt)) + 1
elif style == 'loweralpha':
self._cnt += ord('a') - 1
self._indent = 3
elif style == 'upperalpha':
self._cnt += ord('A') - 1
self._indent = 3
elif style.endswith('roman'):
self._indent = 5
def next(self):
if self._style == 'bullet':
return self.enum_style[self._style]
elif self._style == 'emdash':
return self.enum_style[self._style]
self._cnt += 1
# TODO add prefix postfix
if self._style == 'arabic':
return "%d." % self._cnt
elif self._style in ('loweralpha', 'upperalpha'):
return "%c." % self._cnt
elif self._style.endswith('roman'):
res = roman.toRoman(self._cnt) + '.'
if self._style.startswith('upper'):
return res.upper()
return res.lower()
else:
return "%d." % self._cnt
def get_width(self):
return self._indent
def __repr__(self):
return 'enum_style-%s' % list(self._style)
if 'enumtype' in node:
self._list_char.append(enum_char(node['enumtype']))
else:
self._list_char.append(enum_char('bullet'))
if len(self._list_char) > 1:
# indent nested lists
self.indent(self._list_char[-2].get_width())
else:
self.indent(self._list_char[-1].get_width())
def list_end(self):
self.dedent()
self._list_char.pop()
def header(self):
tmpl = (".TH %(title_upper)s %(manual_section)s"
" \"%(date)s\" \"%(version)s\" \"%(manual_group)s\"\n"
".SH NAME\n"
"%(title)s \- %(subtitle)s\n")
return tmpl % self._docinfo
def append_header(self):
"""append header with .TH and .SH NAME"""
# NOTE before everything
# .TH title_upper section date source manual
if self.header_written:
return
self.body.append(self.header())
self.body.append(MACRO_DEF)
self.header_written = 1
def visit_address(self, node):
self.visit_docinfo_item(node, 'address')
def depart_address(self, node):
pass
def visit_admonition(self, node, name=None):
if name:
self.body.append('.IP %s\n' %
self.language.labels.get(name, name))
def depart_admonition(self, node):
self.body.append('.RE\n')
def visit_attention(self, node):
self.visit_admonition(node, 'attention')
depart_attention = depart_admonition
def visit_docinfo_item(self, node, name):
if name == 'author':
self._docinfo[name].append(node.astext())
else:
self._docinfo[name] = node.astext()
self._docinfo_keys.append(name)
raise nodes.SkipNode
def depart_docinfo_item(self, node):
pass
def visit_author(self, node):
self.visit_docinfo_item(node, 'author')
depart_author = depart_docinfo_item
def visit_authors(self, node):
# _author is called anyway.
pass
def depart_authors(self, node):
pass
def visit_block_quote(self, node):
# BUG/HACK: indent always uses the _last_ indentation,
# thus we need two of them.
self.indent(BLOCKQOUTE_INDENT)
self.indent(0)
def depart_block_quote(self, node):
self.dedent()
self.dedent()
def visit_bullet_list(self, node):
self.list_start(node)
def depart_bullet_list(self, node):
self.list_end()
def visit_caption(self, node):
pass
def depart_caption(self, node):
pass
def visit_caution(self, node):
self.visit_admonition(node, 'caution')
depart_caution = depart_admonition
def visit_citation(self, node):
num, text = node.astext().split(None, 1)
num = num.strip()
self.body.append('.IP [%s] 5\n' % num)
def depart_citation(self, node):
pass
def visit_citation_reference(self, node):
self.body.append('['+node.astext()+']')
raise nodes.SkipNode
def visit_classifier(self, node):
pass
def depart_classifier(self, node):
pass
def visit_colspec(self, node):
self.colspecs.append(node)
def depart_colspec(self, node):
pass
def write_colspecs(self):
self.body.append("%s.\n" % ('L '*len(self.colspecs)))
def visit_comment(self, node,
sub=re.compile('-(?=-)').sub):
self.body.append(self.comment(node.astext()))
raise nodes.SkipNode
def visit_contact(self, node):
self.visit_docinfo_item(node, 'contact')
depart_contact = depart_docinfo_item
def visit_container(self, node):
pass
def depart_container(self, node):
pass
def visit_compound(self, node):
pass
def depart_compound(self, node):
pass
def visit_copyright(self, node):
self.visit_docinfo_item(node, 'copyright')
def visit_danger(self, node):
self.visit_admonition(node, 'danger')
depart_danger = depart_admonition
def visit_date(self, node):
self.visit_docinfo_item(node, 'date')
def visit_decoration(self, node):
pass
def depart_decoration(self, node):
pass
def visit_definition(self, node):
pass
def depart_definition(self, node):
pass
def visit_definition_list(self, node):
self.indent(DEFINITION_LIST_INDENT)
def depart_definition_list(self, node):
self.dedent()
def visit_definition_list_item(self, node):
self.body.append(self.defs['definition_list_item'][0])
def depart_definition_list_item(self, node):
self.body.append(self.defs['definition_list_item'][1])
def visit_description(self, node):
pass
def depart_description(self, node):
pass
def visit_docinfo(self, node):
self._in_docinfo = 1
def depart_docinfo(self, node):
self._in_docinfo = None
# NOTE nothing should be written before this
self.append_header()
def visit_doctest_block(self, node):
self.body.append(self.defs['literal_block'][0])
self._in_literal = True
def depart_doctest_block(self, node):
self._in_literal = False
self.body.append(self.defs['literal_block'][1])
def visit_document(self, node):
# no blank line between comment and header.
self.body.append(self.comment(self.document_start).rstrip()+'\n')
# writing header is postboned
self.header_written = 0
def depart_document(self, node):
if self._docinfo['author']:
self.body.append('.SH AUTHOR\n%s\n'
% ', '.join(self._docinfo['author']))
skip = ('author', 'copyright', 'date',
'manual_group', 'manual_section',
'subtitle',
'title', 'title_upper', 'version')
for name in self._docinfo_keys:
if name == 'address':
self.body.append("\n%s:\n%s%s.nf\n%s\n.fi\n%s%s" % (
self.language.labels.get(name, name),
self.defs['indent'][0] % 0,
self.defs['indent'][0] % BLOCKQOUTE_INDENT,
self._docinfo[name],
self.defs['indent'][1],
self.defs['indent'][1]))
elif name not in skip:
if name in self._docinfo_names:
label = self._docinfo_names[name]
else:
label = self.language.labels.get(name, name)
self.body.append("\n%s: %s\n" % (label, self._docinfo[name]))
if self._docinfo['copyright']:
self.body.append('.SH COPYRIGHT\n%s\n'
% self._docinfo['copyright'])
self.body.append(self.comment(
'Generated by docutils manpage writer.\n'))
def visit_emphasis(self, node):
self.body.append(self.defs['emphasis'][0])
def depart_emphasis(self, node):
self.body.append(self.defs['emphasis'][1])
def visit_entry(self, node):
# a cell in a table row
if 'morerows' in node:
self.document.reporter.warning('"table row spanning" not supported',
base_node=node)
if 'morecols' in node:
self.document.reporter.warning(
'"table cell spanning" not supported', base_node=node)
self.context.append(len(self.body))
def depart_entry(self, node):
start = self.context.pop()
self._active_table.append_cell(self.body[start:])
del self.body[start:]
def visit_enumerated_list(self, node):
self.list_start(node)
def depart_enumerated_list(self, node):
self.list_end()
def visit_error(self, node):
self.visit_admonition(node, 'error')
depart_error = depart_admonition
def visit_field(self, node):
pass
def depart_field(self, node):
pass
def visit_field_body(self, node):
if self._in_docinfo:
name_normalized = self._field_name.lower().replace(" ","_")
self._docinfo_names[name_normalized] = self._field_name
self.visit_docinfo_item(node, name_normalized)
raise nodes.SkipNode
def depart_field_body(self, node):
pass
def visit_field_list(self, node):
self.indent(FIELD_LIST_INDENT)
def depart_field_list(self, node):
self.dedent()
def visit_field_name(self, node):
if self._in_docinfo:
self._field_name = node.astext()
raise nodes.SkipNode
else:
self.body.append(self.defs['field_name'][0])
def depart_field_name(self, node):
self.body.append(self.defs['field_name'][1])
def visit_figure(self, node):
self.indent(2.5)
self.indent(0)
def depart_figure(self, node):
self.dedent()
self.dedent()
def visit_footer(self, node):
self.document.reporter.warning('"footer" not supported',
base_node=node)
def depart_footer(self, node):
pass
def visit_footnote(self, node):
num, text = node.astext().split(None, 1)
num = num.strip()
self.body.append('.IP [%s] 5\n' % self.deunicode(num))
def depart_footnote(self, node):
pass
def footnote_backrefs(self, node):
self.document.reporter.warning('"footnote_backrefs" not supported',
base_node=node)
def visit_footnote_reference(self, node):
self.body.append('['+self.deunicode(node.astext())+']')
raise nodes.SkipNode
def depart_footnote_reference(self, node):
pass
def visit_generated(self, node):
pass
def depart_generated(self, node):
pass
def visit_header(self, node):
raise NotImplementedError, node.astext()
def depart_header(self, node):
pass
def visit_hint(self, node):
self.visit_admonition(node, 'hint')
depart_hint = depart_admonition
def visit_subscript(self, node):
self.body.append('\\s-2\\d')
def depart_subscript(self, node):
self.body.append('\\u\\s0')
def visit_superscript(self, node):
self.body.append('\\s-2\\u')
def depart_superscript(self, node):
self.body.append('\\d\\s0')
def visit_attribution(self, node):
self.body.append('\\(em ')
def depart_attribution(self, node):
self.body.append('\n')
def visit_image(self, node):
self.document.reporter.warning('"image" not supported',
base_node=node)
text = []
if 'alt' in node.attributes:
text.append(node.attributes['alt'])
if 'uri' in node.attributes:
text.append(node.attributes['uri'])
self.body.append('[image: %s]\n' % ('/'.join(text)))
raise nodes.SkipNode
def visit_important(self, node):
self.visit_admonition(node, 'important')
depart_important = depart_admonition
def visit_label(self, node):
# footnote and citation
if (isinstance(node.parent, nodes.footnote)
or isinstance(node.parent, nodes.citation)):
raise nodes.SkipNode
self.document.reporter.warning('"unsupported "label"',
base_node=node)
self.body.append('[')
def depart_label(self, node):
self.body.append(']\n')
def visit_legend(self, node):
pass
def depart_legend(self, node):
pass
# WHAT should we use .INDENT, .UNINDENT ?
def visit_line_block(self, node):
self._line_block += 1
if self._line_block == 1:
self.body.append('.sp\n')
self.body.append('.nf\n')
else:
self.body.append('.in +2\n')
def depart_line_block(self, node):
self._line_block -= 1
if self._line_block == 0:
self.body.append('.fi\n')
self.body.append('.sp\n')
else:
self.body.append('.in -2\n')
def visit_line(self, node):
pass
def depart_line(self, node):
self.body.append('\n')
def visit_list_item(self, node):
# man 7 man argues to use ".IP" instead of ".TP"
self.body.append('.IP %s %d\n' % (
self._list_char[-1].next(),
self._list_char[-1].get_width(),))
def depart_list_item(self, node):
pass
def visit_literal(self, node):
self.body.append(self.defs['literal'][0])
def depart_literal(self, node):
self.body.append(self.defs['literal'][1])
def visit_literal_block(self, node):
self.body.append(self.defs['literal_block'][0])
self._in_literal = True
def depart_literal_block(self, node):
self._in_literal = False
self.body.append(self.defs['literal_block'][1])
def visit_meta(self, node):
raise NotImplementedError, node.astext()
def depart_meta(self, node):
pass
def visit_note(self, node):
self.visit_admonition(node, 'note')
depart_note = depart_admonition
def indent(self, by=0.5):
# if we are in a section ".SH" there already is a .RS
step = self._indent[-1]
self._indent.append(by)
self.body.append(self.defs['indent'][0] % step)
def dedent(self):
self._indent.pop()
self.body.append(self.defs['indent'][1])
def visit_option_list(self, node):
self.indent(OPTION_LIST_INDENT)
def depart_option_list(self, node):
self.dedent()
def visit_option_list_item(self, node):
# one item of the list
self.body.append(self.defs['option_list_item'][0])
def depart_option_list_item(self, node):
self.body.append(self.defs['option_list_item'][1])
def visit_option_group(self, node):
# as one option could have several forms it is a group
# options without parameter bold only, .B, -v
# options with parameter bold italic, .BI, -f file
#
# we do not know if .B or .BI
self.context.append('.B') # blind guess
self.context.append(len(self.body)) # to be able to insert later
self.context.append(0) # option counter
def depart_option_group(self, node):
self.context.pop() # the counter
start_position = self.context.pop()
text = self.body[start_position:]
del self.body[start_position:]
self.body.append('%s%s\n' % (self.context.pop(), ''.join(text)))
def visit_option(self, node):
# each form of the option will be presented separately
if self.context[-1] > 0:
self.body.append(', ')
if self.context[-3] == '.BI':
self.body.append('\\')
self.body.append(' ')
def depart_option(self, node):
self.context[-1] += 1
def visit_option_string(self, node):
# do not know if .B or .BI
pass
def depart_option_string(self, node):
pass
def visit_option_argument(self, node):
self.context[-3] = '.BI' # bold/italic alternate
if node['delimiter'] != ' ':
self.body.append('\\fB%s ' % node['delimiter'])
elif self.body[len(self.body) - 1].endswith('='):
# a blank only means no blank in output, just changing font
self.body.append(' ')
else:
# blank backslash blank, switch font then a blank
self.body.append(' \\ ')
def depart_option_argument(self, node):
pass
def visit_organization(self, node):
self.visit_docinfo_item(node, 'organization')
def depart_organization(self, node):
pass
def visit_paragraph(self, node):
# ``.PP`` : Start standard indented paragraph.
# ``.LP`` : Start block paragraph, all except the first.
# ``.P [type]`` : Start paragraph type.
# NOTE don't use paragraph starts because they reset indentation.
# ``.sp`` is only vertical space
self.ensure_eol()
self.body.append('.sp\n')
def depart_paragraph(self, node):
self.body.append('\n')
def visit_problematic(self, node):
self.body.append(self.defs['problematic'][0])
def depart_problematic(self, node):
self.body.append(self.defs['problematic'][1])
def visit_raw(self, node):
if node.get('format') == 'manpage':
self.body.append(node.astext() + "\n")
# Keep non-manpage raw text out of output:
raise nodes.SkipNode
def visit_reference(self, node):
"""E.g. link or email address."""
self.body.append(self.defs['reference'][0])
def depart_reference(self, node):
self.body.append(self.defs['reference'][1])
def visit_revision(self, node):
self.visit_docinfo_item(node, 'revision')
depart_revision = depart_docinfo_item
def visit_row(self, node):
self._active_table.new_row()
def depart_row(self, node):
pass
def visit_section(self, node):
self.section_level += 1
def depart_section(self, node):
self.section_level -= 1
def visit_status(self, node):
self.visit_docinfo_item(node, 'status')
depart_status = depart_docinfo_item
def visit_strong(self, node):
self.body.append(self.defs['strong'][0])
def depart_strong(self, node):
self.body.append(self.defs['strong'][1])
def visit_substitution_definition(self, node):
"""Internal only."""
raise nodes.SkipNode
def visit_substitution_reference(self, node):
self.document.reporter.warning('"substitution_reference" not supported',
base_node=node)
def visit_subtitle(self, node):
if isinstance(node.parent, nodes.sidebar):
self.body.append(self.defs['strong'][0])
elif isinstance(node.parent, nodes.document):
self.visit_docinfo_item(node, 'subtitle')
elif isinstance(node.parent, nodes.section):
self.body.append(self.defs['strong'][0])
def depart_subtitle(self, node):
# document subtitle calls SkipNode
self.body.append(self.defs['strong'][1]+'\n.PP\n')
def visit_system_message(self, node):
# TODO add report_level
#if node['level'] < self.document.reporter['writer'].report_level:
# Level is too low to display:
# raise nodes.SkipNode
attr = {}
if node.hasattr('id'):
attr['name'] = node['id']
if node.hasattr('line'):
line = ', line %s' % node['line']
else:
line = ''
self.body.append('.IP "System Message: %s/%s (%s:%s)"\n'
% (node['type'], node['level'], node['source'], line))
def depart_system_message(self, node):
pass
def visit_table(self, node):
self._active_table = Table()
def depart_table(self, node):
self.ensure_eol()
self.body.extend(self._active_table.as_list())
self._active_table = None
def visit_target(self, node):
# targets are in-document hyper targets, without any use for man-pages.
raise nodes.SkipNode
def visit_tbody(self, node):
pass
def depart_tbody(self, node):
pass
def visit_term(self, node):
self.body.append(self.defs['term'][0])
def depart_term(self, node):
self.body.append(self.defs['term'][1])
def visit_tgroup(self, node):
pass
def depart_tgroup(self, node):
pass
def visit_thead(self, node):
# MAYBE double line '='
pass
def depart_thead(self, node):
# MAYBE double line '='
pass
def visit_tip(self, node):
self.visit_admonition(node, 'tip')
depart_tip = depart_admonition
def visit_title(self, node):
if isinstance(node.parent, nodes.topic):
self.body.append(self.defs['topic-title'][0])
elif isinstance(node.parent, nodes.sidebar):
self.body.append(self.defs['sidebar-title'][0])
elif isinstance(node.parent, nodes.admonition):
self.body.append('.IP "')
elif self.section_level == 0:
self._docinfo['title'] = node.astext()
# document title for .TH
self._docinfo['title_upper'] = node.astext().upper()
raise nodes.SkipNode
elif self.section_level == 1:
self.body.append('.SH ')
for n in node.traverse(nodes.Text):
n.parent.replace(n, nodes.Text(n.astext().upper()))
else:
self.body.append('.SS ')
def depart_title(self, node):
if isinstance(node.parent, nodes.admonition):
self.body.append('"')
self.body.append('\n')
def visit_title_reference(self, node):
"""inline citation reference"""
self.body.append(self.defs['title_reference'][0])
def depart_title_reference(self, node):
self.body.append(self.defs['title_reference'][1])
def visit_topic(self, node):
pass
def depart_topic(self, node):
pass
def visit_sidebar(self, node):
pass
def depart_sidebar(self, node):
pass
def visit_rubric(self, node):
pass
def depart_rubric(self, node):
pass
def visit_transition(self, node):
# .PP Begin a new paragraph and reset prevailing indent.
# .sp N leaves N lines of blank space.
# .ce centers the next line
self.body.append('\n.sp\n.ce\n----\n')
def depart_transition(self, node):
self.body.append('\n.ce 0\n.sp\n')
def visit_version(self, node):
self.visit_docinfo_item(node, 'version')
def visit_warning(self, node):
self.visit_admonition(node, 'warning')
depart_warning = depart_admonition
def unimplemented_visit(self, node):
raise NotImplementedError('visiting unimplemented node type: %s'
% node.__class__.__name__)
# vim: set fileencoding=utf-8 et ts=4 ai :