nghttp2/doc/_exts/sphinxcontrib/rubydomain.py

705 lines
25 KiB
Python

# -*- coding: utf-8 -*-
"""
sphinx.domains.ruby
~~~~~~~~~~~~~~~~~~~
The Ruby domain.
:copyright: Copyright 2010 by SHIBUKAWA Yoshiki
:license: BSD, see LICENSE for details.
"""
import re
from docutils import nodes
from docutils.parsers.rst import directives
from sphinx import addnodes
from sphinx import version_info
from sphinx.roles import XRefRole
from sphinx.locale import l_, _
from sphinx.domains import Domain, ObjType, Index
from sphinx.directives import ObjectDescription
from sphinx.util.nodes import make_refnode
from sphinx.util.compat import Directive
from sphinx.util.docfields import Field, GroupedField, TypedField
# REs for Ruby signatures
rb_sig_re = re.compile(
r'''^ ([\w.]*\.)? # class name(s)
(\$?\w+\??!?) \s* # thing name
(?: \((.*)\) # optional: arguments
(?:\s* -> \s* (.*))? # return annotation
)? $ # and nothing more
''', re.VERBOSE)
rb_paramlist_re = re.compile(r'([\[\],])') # split at '[', ']' and ','
separators = {
'method':'#', 'attr_reader':'#', 'attr_writer':'#', 'attr_accessor':'#',
'function':'.', 'classmethod':'.', 'class':'::', 'module':'::',
'global':'', 'const':'::'}
rb_separator = re.compile(r"(?:\w+)?(?:::)?(?:\.)?(?:#)?")
def _iteritems(d):
for k in d:
yield k, d[k]
def ruby_rsplit(fullname):
items = [item for item in rb_separator.findall(fullname)]
return ''.join(items[:-2]), items[-1]
class RubyObject(ObjectDescription):
"""
Description of a general Ruby object.
"""
option_spec = {
'noindex': directives.flag,
'module': directives.unchanged,
}
doc_field_types = [
TypedField('parameter', label=l_('Parameters'),
names=('param', 'parameter', 'arg', 'argument'),
typerolename='obj', typenames=('paramtype', 'type')),
TypedField('variable', label=l_('Variables'), rolename='obj',
names=('var', 'ivar', 'cvar'),
typerolename='obj', typenames=('vartype',)),
GroupedField('exceptions', label=l_('Raises'), rolename='exc',
names=('raises', 'raise', 'exception', 'except'),
can_collapse=True),
Field('returnvalue', label=l_('Returns'), has_arg=False,
names=('returns', 'return')),
Field('returntype', label=l_('Return type'), has_arg=False,
names=('rtype',)),
]
def get_signature_prefix(self, sig):
"""
May return a prefix to put before the object name in the signature.
"""
return ''
def needs_arglist(self):
"""
May return true if an empty argument list is to be generated even if
the document contains none.
"""
return False
def handle_signature(self, sig, signode):
"""
Transform a Ruby signature into RST nodes.
Returns (fully qualified name of the thing, classname if any).
If inside a class, the current class name is handled intelligently:
* it is stripped from the displayed name if present
* it is added to the full name (return value) if not present
"""
m = rb_sig_re.match(sig)
if m is None:
raise ValueError
name_prefix, name, arglist, retann = m.groups()
if not name_prefix:
name_prefix = ""
# determine module and class name (if applicable), as well as full name
modname = self.options.get(
'module', self.env.temp_data.get('rb:module'))
classname = self.env.temp_data.get('rb:class')
if self.objtype == 'global':
add_module = False
modname = None
classname = None
fullname = name
elif classname:
add_module = False
if name_prefix and name_prefix.startswith(classname):
fullname = name_prefix + name
# class name is given again in the signature
name_prefix = name_prefix[len(classname):].lstrip('.')
else:
separator = separators[self.objtype]
fullname = classname + separator + name_prefix + name
else:
add_module = True
if name_prefix:
classname = name_prefix.rstrip('.')
fullname = name_prefix + name
else:
classname = ''
fullname = name
signode['module'] = modname
signode['class'] = self.class_name = classname
signode['fullname'] = fullname
sig_prefix = self.get_signature_prefix(sig)
if sig_prefix:
signode += addnodes.desc_annotation(sig_prefix, sig_prefix)
if name_prefix:
signode += addnodes.desc_addname(name_prefix, name_prefix)
# exceptions are a special case, since they are documented in the
# 'exceptions' module.
elif add_module and self.env.config.add_module_names:
if self.objtype == 'global':
nodetext = ''
signode += addnodes.desc_addname(nodetext, nodetext)
else:
modname = self.options.get(
'module', self.env.temp_data.get('rb:module'))
if modname and modname != 'exceptions':
nodetext = modname + separators[self.objtype]
signode += addnodes.desc_addname(nodetext, nodetext)
signode += addnodes.desc_name(name, name)
if not arglist:
if self.needs_arglist():
# for callables, add an empty parameter list
signode += addnodes.desc_parameterlist()
if retann:
signode += addnodes.desc_returns(retann, retann)
return fullname, name_prefix
signode += addnodes.desc_parameterlist()
stack = [signode[-1]]
for token in rb_paramlist_re.split(arglist):
if token == '[':
opt = addnodes.desc_optional()
stack[-1] += opt
stack.append(opt)
elif token == ']':
try:
stack.pop()
except IndexError:
raise ValueError
elif not token or token == ',' or token.isspace():
pass
else:
token = token.strip()
stack[-1] += addnodes.desc_parameter(token, token)
if len(stack) != 1:
raise ValueError
if retann:
signode += addnodes.desc_returns(retann, retann)
return fullname, name_prefix
def get_index_text(self, modname, name):
"""
Return the text for the index entry of the object.
"""
raise NotImplementedError('must be implemented in subclasses')
def _is_class_member(self):
return self.objtype.endswith('method') or self.objtype.startswith('attr')
def add_target_and_index(self, name_cls, sig, signode):
if self.objtype == 'global':
modname = ''
else:
modname = self.options.get(
'module', self.env.temp_data.get('rb:module'))
separator = separators[self.objtype]
if self._is_class_member():
if signode['class']:
prefix = modname and modname + '::' or ''
else:
prefix = modname and modname + separator or ''
else:
prefix = modname and modname + separator or ''
fullname = prefix + name_cls[0]
# note target
if fullname not in self.state.document.ids:
signode['names'].append(fullname)
signode['ids'].append(fullname)
signode['first'] = (not self.names)
self.state.document.note_explicit_target(signode)
objects = self.env.domaindata['rb']['objects']
if fullname in objects:
self.env.warn(
self.env.docname,
'duplicate object description of %s, ' % fullname +
'other instance in ' +
self.env.doc2path(objects[fullname][0]),
self.lineno)
objects[fullname] = (self.env.docname, self.objtype)
indextext = self.get_index_text(modname, name_cls)
if indextext:
self.indexnode['entries'].append(
_make_index('single', indextext, fullname, fullname))
def before_content(self):
# needed for automatic qualification of members (reset in subclasses)
self.clsname_set = False
def after_content(self):
if self.clsname_set:
self.env.temp_data['rb:class'] = None
class RubyModulelevel(RubyObject):
"""
Description of an object on module level (functions, data).
"""
def needs_arglist(self):
return self.objtype == 'function'
def get_index_text(self, modname, name_cls):
if self.objtype == 'function':
if not modname:
return _('%s() (global function)') % name_cls[0]
return _('%s() (module function in %s)') % (name_cls[0], modname)
else:
return ''
class RubyGloballevel(RubyObject):
"""
Description of an object on module level (functions, data).
"""
def get_index_text(self, modname, name_cls):
if self.objtype == 'global':
return _('%s (global variable)') % name_cls[0]
else:
return ''
class RubyEverywhere(RubyObject):
"""
Description of a class member (methods, attributes).
"""
def needs_arglist(self):
return self.objtype == 'method'
def get_index_text(self, modname, name_cls):
name, cls = name_cls
add_modules = self.env.config.add_module_names
if self.objtype == 'method':
try:
clsname, methname = ruby_rsplit(name)
except ValueError:
if modname:
return _('%s() (in module %s)') % (name, modname)
else:
return '%s()' % name
if modname and add_modules:
return _('%s() (%s::%s method)') % (methname, modname,
clsname)
else:
return _('%s() (%s method)') % (methname, clsname)
else:
return ''
class RubyClasslike(RubyObject):
"""
Description of a class-like object (classes, exceptions).
"""
def get_signature_prefix(self, sig):
return self.objtype + ' '
def get_index_text(self, modname, name_cls):
if self.objtype == 'class':
if not modname:
return _('%s (class)') % name_cls[0]
return _('%s (class in %s)') % (name_cls[0], modname)
elif self.objtype == 'exception':
return name_cls[0]
else:
return ''
def before_content(self):
RubyObject.before_content(self)
if self.names:
self.env.temp_data['rb:class'] = self.names[0][0]
self.clsname_set = True
class RubyClassmember(RubyObject):
"""
Description of a class member (methods, attributes).
"""
def needs_arglist(self):
return self.objtype.endswith('method')
def get_signature_prefix(self, sig):
if self.objtype == 'classmethod':
return "classmethod %s." % self.class_name
elif self.objtype == 'attr_reader':
return "attribute [R] "
elif self.objtype == 'attr_writer':
return "attribute [W] "
elif self.objtype == 'attr_accessor':
return "attribute [R/W] "
return ''
def get_index_text(self, modname, name_cls):
name, cls = name_cls
add_modules = self.env.config.add_module_names
if self.objtype == 'classmethod':
try:
clsname, methname = ruby_rsplit(name)
except ValueError:
return '%s()' % name
if modname:
return _('%s() (%s.%s class method)') % (methname, modname,
clsname)
else:
return _('%s() (%s class method)') % (methname, clsname)
elif self.objtype.startswith('attr'):
try:
clsname, attrname = ruby_rsplit(name)
except ValueError:
return name
if modname and add_modules:
return _('%s (%s.%s attribute)') % (attrname, modname, clsname)
else:
return _('%s (%s attribute)') % (attrname, clsname)
else:
return ''
def before_content(self):
RubyObject.before_content(self)
lastname = self.names and self.names[-1][1]
if lastname and not self.env.temp_data.get('rb:class'):
self.env.temp_data['rb:class'] = lastname.strip('.')
self.clsname_set = True
class RubyModule(Directive):
"""
Directive to mark description of a new module.
"""
has_content = False
required_arguments = 1
optional_arguments = 0
final_argument_whitespace = False
option_spec = {
'platform': lambda x: x,
'synopsis': lambda x: x,
'noindex': directives.flag,
'deprecated': directives.flag,
}
def run(self):
env = self.state.document.settings.env
modname = self.arguments[0].strip()
noindex = 'noindex' in self.options
env.temp_data['rb:module'] = modname
env.domaindata['rb']['modules'][modname] = \
(env.docname, self.options.get('synopsis', ''),
self.options.get('platform', ''), 'deprecated' in self.options)
targetnode = nodes.target('', '', ids=['module-' + modname], ismod=True)
self.state.document.note_explicit_target(targetnode)
ret = [targetnode]
# XXX this behavior of the module directive is a mess...
if 'platform' in self.options:
platform = self.options['platform']
node = nodes.paragraph()
node += nodes.emphasis('', _('Platforms: '))
node += nodes.Text(platform, platform)
ret.append(node)
# the synopsis isn't printed; in fact, it is only used in the
# modindex currently
if not noindex:
indextext = _('%s (module)') % modname
inode = addnodes.index(entries=[_make_index(
'single', indextext, 'module-' + modname, modname)])
ret.append(inode)
return ret
def _make_index(entrytype, entryname, target, ignored, key=None):
# Sphinx 1.4 introduced backward incompatible changes, it now
# requires 5 tuples. Last one is categorization key. See
# http://www.sphinx-doc.org/en/stable/extdev/nodes.html#sphinx.addnodes.index
if version_info >= (1, 4, 0, '', 0):
return (entrytype, entryname, target, ignored, key)
else:
return (entrytype, entryname, target, ignored)
class RubyCurrentModule(Directive):
"""
This directive is just to tell Sphinx that we're documenting
stuff in module foo, but links to module foo won't lead here.
"""
has_content = False
required_arguments = 1
optional_arguments = 0
final_argument_whitespace = False
option_spec = {}
def run(self):
env = self.state.document.settings.env
modname = self.arguments[0].strip()
if modname == 'None':
env.temp_data['rb:module'] = None
else:
env.temp_data['rb:module'] = modname
return []
class RubyXRefRole(XRefRole):
def process_link(self, env, refnode, has_explicit_title, title, target):
if not has_explicit_title:
title = title.lstrip('.') # only has a meaning for the target
title = title.lstrip('#')
if title.startswith("::"):
title = title[2:]
target = target.lstrip('~') # only has a meaning for the title
# if the first character is a tilde, don't display the module/class
# parts of the contents
if title[0:1] == '~':
m = re.search(r"(?:\.)?(?:#)?(?:::)?(.*)\Z", title)
if m:
title = m.group(1)
if not title.startswith("$"):
refnode['rb:module'] = env.temp_data.get('rb:module')
refnode['rb:class'] = env.temp_data.get('rb:class')
# if the first character is a dot, search more specific namespaces first
# else search builtins first
if target[0:1] == '.':
target = target[1:]
refnode['refspecific'] = True
return title, target
class RubyModuleIndex(Index):
"""
Index subclass to provide the Ruby module index.
"""
name = 'modindex'
localname = l_('Ruby Module Index')
shortname = l_('modules')
def generate(self, docnames=None):
content = {}
# list of prefixes to ignore
ignores = self.domain.env.config['modindex_common_prefix']
ignores = sorted(ignores, key=len, reverse=True)
# list of all modules, sorted by module name
modules = sorted(_iteritems(self.domain.data['modules']),
key=lambda x: x[0].lower())
# sort out collapsable modules
prev_modname = ''
num_toplevels = 0
for modname, (docname, synopsis, platforms, deprecated) in modules:
if docnames and docname not in docnames:
continue
for ignore in ignores:
if modname.startswith(ignore):
modname = modname[len(ignore):]
stripped = ignore
break
else:
stripped = ''
# we stripped the whole module name?
if not modname:
modname, stripped = stripped, ''
entries = content.setdefault(modname[0].lower(), [])
package = modname.split('::')[0]
if package != modname:
# it's a submodule
if prev_modname == package:
# first submodule - make parent a group head
entries[-1][1] = 1
elif not prev_modname.startswith(package):
# submodule without parent in list, add dummy entry
entries.append([stripped + package, 1, '', '', '', '', ''])
subtype = 2
else:
num_toplevels += 1
subtype = 0
qualifier = deprecated and _('Deprecated') or ''
entries.append([stripped + modname, subtype, docname,
'module-' + stripped + modname, platforms,
qualifier, synopsis])
prev_modname = modname
# apply heuristics when to collapse modindex at page load:
# only collapse if number of toplevel modules is larger than
# number of submodules
collapse = len(modules) - num_toplevels < num_toplevels
# sort by first letter
content = sorted(_iteritems(content))
return content, collapse
class RubyDomain(Domain):
"""Ruby language domain."""
name = 'rb'
label = 'Ruby'
object_types = {
'function': ObjType(l_('function'), 'func', 'obj'),
'global': ObjType(l_('global variable'), 'global', 'obj'),
'method': ObjType(l_('method'), 'meth', 'obj'),
'class': ObjType(l_('class'), 'class', 'obj'),
'exception': ObjType(l_('exception'), 'exc', 'obj'),
'classmethod': ObjType(l_('class method'), 'meth', 'obj'),
'attr_reader': ObjType(l_('attribute'), 'attr', 'obj'),
'attr_writer': ObjType(l_('attribute'), 'attr', 'obj'),
'attr_accessor': ObjType(l_('attribute'), 'attr', 'obj'),
'const': ObjType(l_('const'), 'const', 'obj'),
'module': ObjType(l_('module'), 'mod', 'obj'),
}
directives = {
'function': RubyModulelevel,
'global': RubyGloballevel,
'method': RubyEverywhere,
'const': RubyEverywhere,
'class': RubyClasslike,
'exception': RubyClasslike,
'classmethod': RubyClassmember,
'attr_reader': RubyClassmember,
'attr_writer': RubyClassmember,
'attr_accessor': RubyClassmember,
'module': RubyModule,
'currentmodule': RubyCurrentModule,
}
roles = {
'func': RubyXRefRole(fix_parens=False),
'global':RubyXRefRole(),
'class': RubyXRefRole(),
'exc': RubyXRefRole(),
'meth': RubyXRefRole(fix_parens=False),
'attr': RubyXRefRole(),
'const': RubyXRefRole(),
'mod': RubyXRefRole(),
'obj': RubyXRefRole(),
}
initial_data = {
'objects': {}, # fullname -> docname, objtype
'modules': {}, # modname -> docname, synopsis, platform, deprecated
}
indices = [
RubyModuleIndex,
]
def clear_doc(self, docname):
for fullname, (fn, _) in list(self.data['objects'].items()):
if fn == docname:
del self.data['objects'][fullname]
for modname, (fn, _, _, _) in list(self.data['modules'].items()):
if fn == docname:
del self.data['modules'][modname]
def find_obj(self, env, modname, classname, name, type, searchorder=0):
"""
Find a Ruby object for "name", perhaps using the given module and/or
classname.
"""
# skip parens
if name[-2:] == '()':
name = name[:-2]
if not name:
return None, None
objects = self.data['objects']
newname = None
if searchorder == 1:
if modname and classname and \
modname + '::' + classname + '#' + name in objects:
newname = modname + '::' + classname + '#' + name
elif modname and classname and \
modname + '::' + classname + '.' + name in objects:
newname = modname + '::' + classname + '.' + name
elif modname and modname + '::' + name in objects:
newname = modname + '::' + name
elif modname and modname + '#' + name in objects:
newname = modname + '#' + name
elif modname and modname + '.' + name in objects:
newname = modname + '.' + name
elif classname and classname + '.' + name in objects:
newname = classname + '.' + name
elif classname and classname + '#' + name in objects:
newname = classname + '#' + name
elif name in objects:
newname = name
else:
if name in objects:
newname = name
elif classname and classname + '.' + name in objects:
newname = classname + '.' + name
elif classname and classname + '#' + name in objects:
newname = classname + '#' + name
elif modname and modname + '::' + name in objects:
newname = modname + '::' + name
elif modname and modname + '#' + name in objects:
newname = modname + '#' + name
elif modname and modname + '.' + name in objects:
newname = modname + '.' + name
elif modname and classname and \
modname + '::' + classname + '#' + name in objects:
newname = modname + '::' + classname + '#' + name
elif modname and classname and \
modname + '::' + classname + '.' + name in objects:
newname = modname + '::' + classname + '.' + name
# special case: object methods
elif type in ('func', 'meth') and '.' not in name and \
'object.' + name in objects:
newname = 'object.' + name
if newname is None:
return None, None
return newname, objects[newname]
def resolve_xref(self, env, fromdocname, builder,
typ, target, node, contnode):
if (typ == 'mod' or
typ == 'obj' and target in self.data['modules']):
docname, synopsis, platform, deprecated = \
self.data['modules'].get(target, ('','','', ''))
if not docname:
return None
else:
title = '%s%s%s' % ((platform and '(%s) ' % platform),
synopsis,
(deprecated and ' (deprecated)' or ''))
return make_refnode(builder, fromdocname, docname,
'module-' + target, contnode, title)
else:
modname = node.get('rb:module')
clsname = node.get('rb:class')
searchorder = node.hasattr('refspecific') and 1 or 0
name, obj = self.find_obj(env, modname, clsname,
target, typ, searchorder)
if not obj:
return None
else:
return make_refnode(builder, fromdocname, obj[0], name,
contnode, name)
def get_objects(self):
for modname, info in _iteritems(self.data['modules']):
yield (modname, modname, 'module', info[0], 'module-' + modname, 0)
for refname, (docname, type) in _iteritems(self.data['objects']):
yield (refname, refname, type, docname, refname, 1)
def setup(app):
app.add_domain(RubyDomain)