acrn-kernel/Documentation/sphinx/cdomain.py

254 lines
7.6 KiB
Python

# -*- coding: utf-8; mode: python -*-
# pylint: disable=W0141,C0113,C0103,C0325
u"""
cdomain
~~~~~~~
Replacement for the sphinx c-domain.
:copyright: Copyright (C) 2016 Markus Heiser
:license: GPL Version 2, June 1991 see Linux/COPYING for details.
List of customizations:
* Moved the *duplicate C object description* warnings for function
declarations in the nitpicky mode. See Sphinx documentation for
the config values for ``nitpick`` and ``nitpick_ignore``.
* Add option 'name' to the "c:function:" directive. With option 'name' the
ref-name of a function can be modified. E.g.::
.. c:function:: int ioctl( int fd, int request )
:name: VIDIOC_LOG_STATUS
The func-name (e.g. ioctl) remains in the output but the ref-name changed
from 'ioctl' to 'VIDIOC_LOG_STATUS'. The function is referenced by::
* :c:func:`VIDIOC_LOG_STATUS` or
* :any:`VIDIOC_LOG_STATUS` (``:any:`` needs sphinx 1.3)
* Handle signatures of function-like macros well. Don't try to deduce
arguments types of function-like macros.
"""
from docutils import nodes
from docutils.parsers.rst import directives
import sphinx
from sphinx import addnodes
from sphinx.domains.c import c_funcptr_sig_re, c_sig_re
from sphinx.domains.c import CObject as Base_CObject
from sphinx.domains.c import CDomain as Base_CDomain
from itertools import chain
import re
__version__ = '1.1'
# Get Sphinx version
major, minor, patch = sphinx.version_info[:3]
# Namespace to be prepended to the full name
namespace = None
#
# Handle trivial newer c domain tags that are part of Sphinx 3.1 c domain tags
# - Store the namespace if ".. c:namespace::" tag is found
#
RE_namespace = re.compile(r'^\s*..\s*c:namespace::\s*(\S+)\s*$')
def markup_namespace(match):
global namespace
namespace = match.group(1)
return ""
#
# Handle c:macro for function-style declaration
#
RE_macro = re.compile(r'^\s*..\s*c:macro::\s*(\S+)\s+(\S.*)\s*$')
def markup_macro(match):
return ".. c:function:: " + match.group(1) + ' ' + match.group(2)
#
# Handle newer c domain tags that are evaluated as .. c:type: for
# backward-compatibility with Sphinx < 3.0
#
RE_ctype = re.compile(r'^\s*..\s*c:(struct|union|enum|enumerator|alias)::\s*(.*)$')
def markup_ctype(match):
return ".. c:type:: " + match.group(2)
#
# Handle newer c domain tags that are evaluated as :c:type: for
# backward-compatibility with Sphinx < 3.0
#
RE_ctype_refs = re.compile(r':c:(var|struct|union|enum|enumerator)::`([^\`]+)`')
def markup_ctype_refs(match):
return ":c:type:`" + match.group(2) + '`'
#
# Simply convert :c:expr: and :c:texpr: into a literal block.
#
RE_expr = re.compile(r':c:(expr|texpr):`([^\`]+)`')
def markup_c_expr(match):
return '\ ``' + match.group(2) + '``\ '
#
# Parse Sphinx 3.x C markups, replacing them by backward-compatible ones
#
def c_markups(app, docname, source):
result = ""
markup_func = {
RE_namespace: markup_namespace,
RE_expr: markup_c_expr,
RE_macro: markup_macro,
RE_ctype: markup_ctype,
RE_ctype_refs: markup_ctype_refs,
}
lines = iter(source[0].splitlines(True))
for n in lines:
match_iterators = [regex.finditer(n) for regex in markup_func]
matches = sorted(chain(*match_iterators), key=lambda m: m.start())
for m in matches:
n = n[:m.start()] + markup_func[m.re](m) + n[m.end():]
result = result + n
source[0] = result
#
# Now implements support for the cdomain namespacing logic
#
def setup(app):
# Handle easy Sphinx 3.1+ simple new tags: :c:expr and .. c:namespace::
app.connect('source-read', c_markups)
if (major == 1 and minor < 8):
app.override_domain(CDomain)
else:
app.add_domain(CDomain, override=True)
return dict(
version = __version__,
parallel_read_safe = True,
parallel_write_safe = True
)
class CObject(Base_CObject):
"""
Description of a C language object.
"""
option_spec = {
"name" : directives.unchanged
}
def handle_func_like_macro(self, sig, signode):
u"""Handles signatures of function-like macros.
If the objtype is 'function' and the the signature ``sig`` is a
function-like macro, the name of the macro is returned. Otherwise
``False`` is returned. """
global namespace
if not self.objtype == 'function':
return False
m = c_funcptr_sig_re.match(sig)
if m is None:
m = c_sig_re.match(sig)
if m is None:
raise ValueError('no match')
rettype, fullname, arglist, _const = m.groups()
arglist = arglist.strip()
if rettype or not arglist:
return False
arglist = arglist.replace('`', '').replace('\\ ', '') # remove markup
arglist = [a.strip() for a in arglist.split(",")]
# has the first argument a type?
if len(arglist[0].split(" ")) > 1:
return False
# This is a function-like macro, it's arguments are typeless!
signode += addnodes.desc_name(fullname, fullname)
paramlist = addnodes.desc_parameterlist()
signode += paramlist
for argname in arglist:
param = addnodes.desc_parameter('', '', noemph=True)
# separate by non-breaking space in the output
param += nodes.emphasis(argname, argname)
paramlist += param
if namespace:
fullname = namespace + "." + fullname
return fullname
def handle_signature(self, sig, signode):
"""Transform a C signature into RST nodes."""
global namespace
fullname = self.handle_func_like_macro(sig, signode)
if not fullname:
fullname = super(CObject, self).handle_signature(sig, signode)
if "name" in self.options:
if self.objtype == 'function':
fullname = self.options["name"]
else:
# FIXME: handle :name: value of other declaration types?
pass
else:
if namespace:
fullname = namespace + "." + fullname
return fullname
def add_target_and_index(self, name, sig, signode):
# for C API items we add a prefix since names are usually not qualified
# by a module name and so easily clash with e.g. section titles
targetname = 'c.' + name
if targetname not in self.state.document.ids:
signode['names'].append(targetname)
signode['ids'].append(targetname)
signode['first'] = (not self.names)
self.state.document.note_explicit_target(signode)
inv = self.env.domaindata['c']['objects']
if (name in inv and self.env.config.nitpicky):
if self.objtype == 'function':
if ('c:func', name) not in self.env.config.nitpick_ignore:
self.state_machine.reporter.warning(
'duplicate C object description of %s, ' % name +
'other instance in ' + self.env.doc2path(inv[name][0]),
line=self.lineno)
inv[name] = (self.env.docname, self.objtype)
indextext = self.get_index_text(name)
if indextext:
self.indexnode['entries'].append(
('single', indextext, targetname, '', None))
class CDomain(Base_CDomain):
"""C language domain."""
name = 'c'
label = 'C'
directives = {
'function': CObject,
'member': CObject,
'macro': CObject,
'type': CObject,
'var': CObject,
}