# -*- coding: utf-8 -*- """ sphinx.domains.javascript ~~~~~~~~~~~~~~~~~~~~~~~~~ The JavaScript domain. :copyright: Copyright 2007-2019 by the Sphinx team, see AUTHORS. :license: BSD, see LICENSE for details. """ from docutils import nodes from docutils.parsers.rst import directives from sphinx import addnodes from sphinx.directives import ObjectDescription from sphinx.domains import Domain, ObjType from sphinx.domains.python import _pseudo_parse_arglist from sphinx.locale import _ from sphinx.roles import XRefRole from sphinx.util.docfields import Field, GroupedField, TypedField from sphinx.util.docutils import SphinxDirective from sphinx.util.nodes import make_refnode if False: # For type annotation from typing import Any, Dict, Iterator, List, Tuple # NOQA from docutils import nodes # NOQA from sphinx.application import Sphinx # NOQA from sphinx.builders import Builder # NOQA from sphinx.environment import BuildEnvironment # NOQA class JSObject(ObjectDescription): """ Description of a JavaScript object. """ #: If set to ``True`` this object is callable and a `desc_parameterlist` is #: added has_arguments = False #: what is displayed right before the documentation entry display_prefix = None # type: unicode #: If ``allow_nesting`` is ``True``, the object prefixes will be accumulated #: based on directive nesting allow_nesting = False def handle_signature(self, sig, signode): # type: (unicode, addnodes.desc_signature) -> Tuple[unicode, unicode] """Breaks down construct signatures Parses out prefix and argument list from construct definition. The namespace and class will be determined by the nesting of domain directives. """ sig = sig.strip() if '(' in sig and sig[-1:] == ')': member, arglist = sig.split('(', 1) member = member.strip() arglist = arglist[:-1].strip() else: member = sig arglist = None # If construct is nested, prefix the current prefix prefix = self.env.ref_context.get('js:object', None) mod_name = self.env.ref_context.get('js:module') name = member try: member_prefix, member_name = member.rsplit('.', 1) except ValueError: member_name = name member_prefix = '' finally: name = member_name if prefix and member_prefix: prefix = '.'.join([prefix, member_prefix]) elif prefix is None and member_prefix: prefix = member_prefix fullname = name if prefix: fullname = '.'.join([prefix, name]) signode['module'] = mod_name signode['object'] = prefix signode['fullname'] = fullname if self.display_prefix: signode += addnodes.desc_annotation(self.display_prefix, self.display_prefix) if prefix: signode += addnodes.desc_addname(prefix + '.', prefix + '.') elif mod_name: signode += addnodes.desc_addname(mod_name + '.', mod_name + '.') signode += addnodes.desc_name(name, name) if self.has_arguments: if not arglist: signode += addnodes.desc_parameterlist() else: _pseudo_parse_arglist(signode, arglist) return fullname, prefix def add_target_and_index(self, name_obj, sig, signode): # type: (Tuple[unicode, unicode], unicode, addnodes.desc_signature) -> None mod_name = self.env.ref_context.get('js:module') fullname = (mod_name and mod_name + '.' or '') + name_obj[0] if fullname not in self.state.document.ids: signode['names'].append(fullname) signode['ids'].append(fullname.replace('$', '_S_')) signode['first'] = not self.names self.state.document.note_explicit_target(signode) objects = self.env.domaindata['js']['objects'] if fullname in objects: self.state_machine.reporter.warning( 'duplicate object description of %s, ' % fullname + 'other instance in ' + self.env.doc2path(objects[fullname][0]), line=self.lineno) objects[fullname] = self.env.docname, self.objtype indextext = self.get_index_text(mod_name, name_obj) if indextext: self.indexnode['entries'].append(('single', indextext, fullname.replace('$', '_S_'), '', None)) def get_index_text(self, objectname, name_obj): # type: (unicode, Tuple[unicode, unicode]) -> unicode name, obj = name_obj if self.objtype == 'function': if not obj: return _('%s() (built-in function)') % name return _('%s() (%s method)') % (name, obj) elif self.objtype == 'class': return _('%s() (class)') % name elif self.objtype == 'data': return _('%s (global variable or constant)') % name elif self.objtype == 'attribute': return _('%s (%s attribute)') % (name, obj) return '' def before_content(self): # type: () -> None """Handle object nesting before content :py:class:`JSObject` represents JavaScript language constructs. For constructs that are nestable, this method will build up a stack of the nesting heirarchy so that it can be later de-nested correctly, in :py:meth:`after_content`. For constructs that aren't nestable, the stack is bypassed, and instead only the most recent object is tracked. This object prefix name will be removed with :py:meth:`after_content`. The following keys are used in ``self.env.ref_context``: js:objects Stores the object prefix history. With each nested element, we add the object prefix to this list. When we exit that object's nesting level, :py:meth:`after_content` is triggered and the prefix is removed from the end of the list. js:object Current object prefix. This should generally reflect the last element in the prefix history """ prefix = None if self.names: (obj_name, obj_name_prefix) = self.names.pop() prefix = obj_name_prefix.strip('.') if obj_name_prefix else None if self.allow_nesting: prefix = obj_name if prefix: self.env.ref_context['js:object'] = prefix if self.allow_nesting: objects = self.env.ref_context.setdefault('js:objects', []) objects.append(prefix) def after_content(self): # type: () -> None """Handle object de-nesting after content If this class is a nestable object, removing the last nested class prefix ends further nesting in the object. If this class is not a nestable object, the list of classes should not be altered as we didn't affect the nesting levels in :py:meth:`before_content`. """ objects = self.env.ref_context.setdefault('js:objects', []) if self.allow_nesting: try: objects.pop() except IndexError: pass self.env.ref_context['js:object'] = (objects[-1] if len(objects) > 0 else None) class JSCallable(JSObject): """Description of a JavaScript function, method or constructor.""" has_arguments = True doc_field_types = [ TypedField('arguments', label=_('Arguments'), names=('argument', 'arg', 'parameter', 'param'), typerolename='func', typenames=('paramtype', 'type')), GroupedField('errors', label=_('Throws'), rolename='err', names=('throws', ), can_collapse=True), Field('returnvalue', label=_('Returns'), has_arg=False, names=('returns', 'return')), Field('returntype', label=_('Return type'), has_arg=False, names=('rtype',)), ] class JSConstructor(JSCallable): """Like a callable but with a different prefix.""" display_prefix = 'class ' allow_nesting = True class JSModule(SphinxDirective): """ Directive to mark description of a new JavaScript module. This directive specifies the module name that will be used by objects that follow this directive. Options ------- noindex If the ``noindex`` option is specified, no linkable elements will be created, and the module won't be added to the global module index. This is useful for splitting up the module definition across multiple sections or files. :param mod_name: Module name """ has_content = False required_arguments = 1 optional_arguments = 0 final_argument_whitespace = False option_spec = { 'noindex': directives.flag } def run(self): # type: () -> List[nodes.Node] mod_name = self.arguments[0].strip() self.env.ref_context['js:module'] = mod_name noindex = 'noindex' in self.options ret = [] if not noindex: self.env.domaindata['js']['modules'][mod_name] = self.env.docname # Make a duplicate entry in 'objects' to facilitate searching for # the module in JavaScriptDomain.find_obj() self.env.domaindata['js']['objects'][mod_name] = (self.env.docname, 'module') targetnode = nodes.target('', '', ids=['module-' + mod_name], ismod=True) self.state.document.note_explicit_target(targetnode) ret.append(targetnode) indextext = _('%s (module)') % mod_name inode = addnodes.index(entries=[('single', indextext, 'module-' + mod_name, '', None)]) ret.append(inode) return ret class JSXRefRole(XRefRole): def process_link(self, env, refnode, has_explicit_title, title, target): # type: (BuildEnvironment, nodes.Node, bool, unicode, unicode) -> Tuple[unicode, unicode] # NOQA # basically what sphinx.domains.python.PyXRefRole does refnode['js:object'] = env.ref_context.get('js:object') refnode['js:module'] = env.ref_context.get('js:module') if not has_explicit_title: title = title.lstrip('.') target = target.lstrip('~') if title[0:1] == '~': title = title[1:] dot = title.rfind('.') if dot != -1: title = title[dot + 1:] if target[0:1] == '.': target = target[1:] refnode['refspecific'] = True return title, target class JavaScriptDomain(Domain): """JavaScript language domain.""" name = 'js' label = 'JavaScript' # if you add a new object type make sure to edit JSObject.get_index_string object_types = { 'function': ObjType(_('function'), 'func'), 'method': ObjType(_('method'), 'meth'), 'class': ObjType(_('class'), 'class'), 'data': ObjType(_('data'), 'data'), 'attribute': ObjType(_('attribute'), 'attr'), 'module': ObjType(_('module'), 'mod'), } directives = { 'function': JSCallable, 'method': JSCallable, 'class': JSConstructor, 'data': JSObject, 'attribute': JSObject, 'module': JSModule, } roles = { 'func': JSXRefRole(fix_parens=True), 'meth': JSXRefRole(fix_parens=True), 'class': JSXRefRole(fix_parens=True), 'data': JSXRefRole(), 'attr': JSXRefRole(), 'mod': JSXRefRole(), } initial_data = { 'objects': {}, # fullname -> docname, objtype 'modules': {}, # mod_name -> docname } # type: Dict[unicode, Dict[unicode, Tuple[unicode, unicode]]] def clear_doc(self, docname): # type: (unicode) -> None for fullname, (pkg_docname, _l) in list(self.data['objects'].items()): if pkg_docname == docname: del self.data['objects'][fullname] for mod_name, pkg_docname in list(self.data['modules'].items()): if pkg_docname == docname: del self.data['modules'][mod_name] def merge_domaindata(self, docnames, otherdata): # type: (List[unicode], Dict) -> None # XXX check duplicates for fullname, (fn, objtype) in otherdata['objects'].items(): if fn in docnames: self.data['objects'][fullname] = (fn, objtype) for mod_name, pkg_docname in otherdata['modules'].items(): if pkg_docname in docnames: self.data['modules'][mod_name] = pkg_docname def find_obj(self, env, mod_name, prefix, name, typ, searchorder=0): # type: (BuildEnvironment, unicode, unicode, unicode, unicode, int) -> Tuple[unicode, Tuple[unicode, unicode]] # NOQA if name[-2:] == '()': name = name[:-2] objects = self.data['objects'] searches = [] if mod_name and prefix: searches.append('.'.join([mod_name, prefix, name])) if mod_name: searches.append('.'.join([mod_name, name])) if prefix: searches.append('.'.join([prefix, name])) searches.append(name) if searchorder == 0: searches.reverse() newname = None for search_name in searches: if search_name in objects: newname = search_name return newname, objects.get(newname) def resolve_xref(self, env, fromdocname, builder, typ, target, node, contnode): # type: (BuildEnvironment, unicode, Builder, unicode, unicode, nodes.Node, nodes.Node) -> nodes.Node # NOQA mod_name = node.get('js:module') prefix = node.get('js:object') searchorder = node.hasattr('refspecific') and 1 or 0 name, obj = self.find_obj(env, mod_name, prefix, target, typ, searchorder) if not obj: return None return make_refnode(builder, fromdocname, obj[0], name.replace('$', '_S_'), contnode, name) def resolve_any_xref(self, env, fromdocname, builder, target, node, contnode): # type: (BuildEnvironment, unicode, Builder, unicode, nodes.Node, nodes.Node) -> List[Tuple[unicode, nodes.Node]] # NOQA mod_name = node.get('js:module') prefix = node.get('js:object') name, obj = self.find_obj(env, mod_name, prefix, target, None, 1) if not obj: return [] return [('js:' + self.role_for_objtype(obj[1]), make_refnode(builder, fromdocname, obj[0], name.replace('$', '_S_'), contnode, name))] def get_objects(self): # type: () -> Iterator[Tuple[unicode, unicode, unicode, unicode, unicode, int]] for refname, (docname, type) in list(self.data['objects'].items()): yield refname, refname, type, docname, \ refname.replace('$', '_S_'), 1 def get_full_qualified_name(self, node): # type: (nodes.Node) -> unicode modname = node.get('js:module') prefix = node.get('js:object') target = node.get('reftarget') if target is None: return None else: return '.'.join(filter(None, [modname, prefix, target])) def setup(app): # type: (Sphinx) -> Dict[unicode, Any] app.add_domain(JavaScriptDomain) return { 'version': 'builtin', 'env_version': 1, 'parallel_read_safe': True, 'parallel_write_safe': True, }