docker/.venv/lib/python3.9/site-packages/sphinx/domains/__init__.py

"""Support for domains.

Domains are groupings of description directives
and roles describing e.g. constructs of one programming language.
"""

from __future__ import annotations

import copy
from abc import ABC, abstractmethod
from typing import TYPE_CHECKING, Any, Callable, NamedTuple, Optional, cast

from docutils.nodes import Element, Node, system_message

from sphinx.errors import SphinxError
from sphinx.locale import _

if TYPE_CHECKING:
    from collections.abc import Iterable, Sequence

    from docutils import nodes
    from docutils.parsers.rst import Directive
    from docutils.parsers.rst.states import Inliner

    from sphinx.addnodes import pending_xref
    from sphinx.builders import Builder
    from sphinx.environment import BuildEnvironment
    from sphinx.roles import XRefRole
    from sphinx.util.typing import RoleFunction


class ObjType:
    """
    An ObjType is the description for a type of object that a domain can
    document.  In the object_types attribute of Domain subclasses, object type
    names are mapped to instances of this class.

    Constructor arguments:

    - *lname*: localized name of the type (do not include domain name)
    - *roles*: all the roles that can refer to an object of this type
    - *attrs*: object attributes -- currently only "searchprio" is known,
      which defines the object's priority in the full-text search index,
      see :meth:`Domain.get_objects()`.
    """

    known_attrs = {
        'searchprio': 1,
    }

    def __init__(self, lname: str, *roles: Any, **attrs: Any) -> None:
        self.lname = lname
        self.roles: tuple = roles
        self.attrs: dict = self.known_attrs.copy()
        self.attrs.update(attrs)


class IndexEntry(NamedTuple):
    name: str
    subtype: int
    docname: str
    anchor: str
    extra: str
    qualifier: str
    descr: str


class Index(ABC):
    """
    An Index is the description for a domain-specific index.  To add an index to
    a domain, subclass Index, overriding the three name attributes:

    * `name` is an identifier used for generating file names.
      It is also used for a hyperlink target for the index. Therefore, users can
      refer the index page using ``ref`` role and a string which is combined
      domain name and ``name`` attribute (ex. ``:ref:`py-modindex```).
    * `localname` is the section title for the index.
    * `shortname` is a short name for the index, for use in the relation bar in
      HTML output.  Can be empty to disable entries in the relation bar.

    and providing a :meth:`generate()` method.  Then, add the index class to
    your domain's `indices` list.  Extensions can add indices to existing
    domains using :meth:`~sphinx.application.Sphinx.add_index_to_domain()`.

    .. versionchanged:: 3.0

       Index pages can be referred by domain name and index name via
       :rst:role:`ref` role.
    """

    name: str
    localname: str
    shortname: str | None = None

    def __init__(self, domain: Domain) -> None:
        if not self.name or self.localname is None:
            raise SphinxError('Index subclass %s has no valid name or localname'
                              % self.__class__.__name__)
        self.domain = domain

    @abstractmethod
    def generate(self, docnames: Iterable[str] | None = None,
                 ) -> tuple[list[tuple[str, list[IndexEntry]]], bool]:
        """Get entries for the index.

        If ``docnames`` is given, restrict to entries referring to these
        docnames.

        The return value is a tuple of ``(content, collapse)``:

        ``collapse``
          A boolean that determines if sub-entries should start collapsed (for
          output formats that support collapsing sub-entries).

        ``content``:
          A sequence of ``(letter, entries)`` tuples, where ``letter`` is the
          "heading" for the given ``entries``, usually the starting letter, and
          ``entries`` is a sequence of single entries. Each entry is a sequence
          ``[name, subtype, docname, anchor, extra, qualifier, descr]``. The
          items in this sequence have the following meaning:

          ``name``
            The name of the index entry to be displayed.

          ``subtype``
            The sub-entry related type. One of:

            ``0``
              A normal entry.
            ``1``
              An entry with sub-entries.
            ``2``
              A sub-entry.

          ``docname``
            *docname* where the entry is located.

          ``anchor``
            Anchor for the entry within ``docname``

          ``extra``
            Extra info for the entry.

          ``qualifier``
            Qualifier for the description.

          ``descr``
            Description for the entry.

        Qualifier and description are not rendered for some output formats such
        as LaTeX.
        """
        raise NotImplementedError


TitleGetter = Callable[[Node], Optional[str]]


class Domain:
    """
    A Domain is meant to be a group of "object" description directives for
    objects of a similar nature, and corresponding roles to create references to
    them.  Examples would be Python modules, classes, functions etc., elements
    of a templating language, Sphinx roles and directives, etc.

    Each domain has a separate storage for information about existing objects
    and how to reference them in `self.data`, which must be a dictionary.  It
    also must implement several functions that expose the object information in
    a uniform way to parts of Sphinx that allow the user to reference or search
    for objects in a domain-agnostic way.

    About `self.data`: since all object and cross-referencing information is
    stored on a BuildEnvironment instance, the `domain.data` object is also
    stored in the `env.domaindata` dict under the key `domain.name`.  Before the
    build process starts, every active domain is instantiated and given the
    environment object; the `domaindata` dict must then either be nonexistent or
    a dictionary whose 'version' key is equal to the domain class'
    :attr:`data_version` attribute.  Otherwise, `OSError` is raised and the
    pickled environment is discarded.
    """

    #: domain name: should be short, but unique
    name = ''
    #: domain label: longer, more descriptive (used in messages)
    label = ''
    #: type (usually directive) name -> ObjType instance
    object_types: dict[str, ObjType] = {}
    #: directive name -> directive class
    directives: dict[str, type[Directive]] = {}
    #: role name -> role callable
    roles: dict[str, RoleFunction | XRefRole] = {}
    #: a list of Index subclasses
    indices: list[type[Index]] = []
    #: role name -> a warning message if reference is missing
    dangling_warnings: dict[str, str] = {}
    #: node_class -> (enum_node_type, title_getter)
    enumerable_nodes: dict[type[Node], tuple[str, TitleGetter | None]] = {}
    #: data value for a fresh environment
    initial_data: dict = {}
    #: data value
    data: dict
    #: data version, bump this when the format of `self.data` changes
    data_version = 0

    def __init__(self, env: BuildEnvironment) -> None:
        self.env: BuildEnvironment = env
        self._role_cache: dict[str, Callable] = {}
        self._directive_cache: dict[str, Callable] = {}
        self._role2type: dict[str, list[str]] = {}
        self._type2role: dict[str, str] = {}

        # convert class variables to instance one (to enhance through API)
        self.object_types = dict(self.object_types)
        self.directives = dict(self.directives)
        self.roles = dict(self.roles)
        self.indices = list(self.indices)

        if self.name not in env.domaindata:
            assert isinstance(self.initial_data, dict)
            new_data = copy.deepcopy(self.initial_data)
            new_data['version'] = self.data_version
            self.data = env.domaindata[self.name] = new_data
        else:
            self.data = env.domaindata[self.name]
            if self.data['version'] != self.data_version:
                raise OSError('data of %r domain out of date' % self.label)
        for name, obj in self.object_types.items():
            for rolename in obj.roles:
                self._role2type.setdefault(rolename, []).append(name)
            self._type2role[name] = obj.roles[0] if obj.roles else ''
        self.objtypes_for_role = self._role2type.get
        self.role_for_objtype = self._type2role.get

    def setup(self) -> None:
        """Set up domain object."""
        from sphinx.domains.std import StandardDomain

        # Add special hyperlink target for index pages (ex. py-modindex)
        std = cast(StandardDomain, self.env.get_domain('std'))
        for index in self.indices:
            if index.name and index.localname:
                docname = f"{self.name}-{index.name}"
                std.note_hyperlink_target(docname, docname, '', index.localname)

    def add_object_type(self, name: str, objtype: ObjType) -> None:
        """Add an object type."""
        self.object_types[name] = objtype
        if objtype.roles:
            self._type2role[name] = objtype.roles[0]
        else:
            self._type2role[name] = ''

        for role in objtype.roles:
            self._role2type.setdefault(role, []).append(name)

    def role(self, name: str) -> RoleFunction | None:
        """Return a role adapter function that always gives the registered
        role its full name ('domain:name') as the first argument.
        """
        if name in self._role_cache:
            return self._role_cache[name]
        if name not in self.roles:
            return None
        fullname = f'{self.name}:{name}'

        def role_adapter(typ: str, rawtext: str, text: str, lineno: int,
                         inliner: Inliner, options: dict | None = None,
                         content: Sequence[str] = (),
                         ) -> tuple[list[Node], list[system_message]]:
            return self.roles[name](fullname, rawtext, text, lineno,
                                    inliner, options or {}, content)
        self._role_cache[name] = role_adapter
        return role_adapter

    def directive(self, name: str) -> Callable | None:
        """Return a directive adapter class that always gives the registered
        directive its full name ('domain:name') as ``self.name``.
        """
        if name in self._directive_cache:
            return self._directive_cache[name]
        if name not in self.directives:
            return None
        fullname = f'{self.name}:{name}'
        BaseDirective = self.directives[name]

        class DirectiveAdapter(BaseDirective):  # type: ignore[valid-type,misc]
            def run(self) -> list[Node]:
                self.name = fullname
                return super().run()
        self._directive_cache[name] = DirectiveAdapter
        return DirectiveAdapter

    # methods that should be overwritten

    def clear_doc(self, docname: str) -> None:
        """Remove traces of a document in the domain-specific inventories."""
        pass

    def merge_domaindata(self, docnames: list[str], otherdata: dict[str, Any]) -> None:
        """Merge in data regarding *docnames* from a different domaindata
        inventory (coming from a subprocess in parallel builds).
        """
        raise NotImplementedError('merge_domaindata must be implemented in %s '
                                  'to be able to do parallel builds!' %
                                  self.__class__)

    def process_doc(self, env: BuildEnvironment, docname: str,
                    document: nodes.document) -> None:
        """Process a document after it is read by the environment."""
        pass

    def check_consistency(self) -> None:
        """Do consistency checks (**experimental**)."""
        pass

    def process_field_xref(self, pnode: pending_xref) -> None:
        """Process a pending xref created in a doc field.
        For example, attach information about the current scope.
        """
        pass

    def resolve_xref(self, env: BuildEnvironment, fromdocname: str, builder: Builder,
                     typ: str, target: str, node: pending_xref, contnode: Element,
                     ) -> Element | None:
        """Resolve the pending_xref *node* with the given *typ* and *target*.

        This method should return a new node, to replace the xref node,
        containing the *contnode* which is the markup content of the
        cross-reference.

        If no resolution can be found, None can be returned; the xref node will
        then given to the :event:`missing-reference` event, and if that yields no
        resolution, replaced by *contnode*.

        The method can also raise :exc:`sphinx.environment.NoUri` to suppress
        the :event:`missing-reference` event being emitted.
        """
        pass

    def resolve_any_xref(self, env: BuildEnvironment, fromdocname: str, builder: Builder,
                         target: str, node: pending_xref, contnode: Element,
                         ) -> list[tuple[str, Element]]:
        """Resolve the pending_xref *node* with the given *target*.

        The reference comes from an "any" or similar role, which means that we
        don't know the type.  Otherwise, the arguments are the same as for
        :meth:`resolve_xref`.

        The method must return a list (potentially empty) of tuples
        ``('domain:role', newnode)``, where ``'domain:role'`` is the name of a
        role that could have created the same reference, e.g. ``'py:func'``.
        ``newnode`` is what :meth:`resolve_xref` would return.

        .. versionadded:: 1.3
        """
        raise NotImplementedError

    def get_objects(self) -> Iterable[tuple[str, str, str, str, str, int]]:
        """Return an iterable of "object descriptions".

        Object descriptions are tuples with six items:

        ``name``
          Fully qualified name.

        ``dispname``
          Name to display when searching/linking.

        ``type``
          Object type, a key in ``self.object_types``.

        ``docname``
          The document where it is to be found.

        ``anchor``
          The anchor name for the object.

        ``priority``
          How "important" the object is (determines placement in search
          results). One of:

          ``1``
            Default priority (placed before full-text matches).
          ``0``
            Object is important (placed before default-priority objects).
          ``2``
            Object is unimportant (placed after full-text matches).
          ``-1``
            Object should not show up in search at all.
        """
        return []

    def get_type_name(self, type: ObjType, primary: bool = False) -> str:
        """Return full name for given ObjType."""
        if primary:
            return type.lname
        return _('%s %s') % (self.label, type.lname)

    def get_enumerable_node_type(self, node: Node) -> str | None:
        """Get type of enumerable nodes (experimental)."""
        enum_node_type, _ = self.enumerable_nodes.get(node.__class__, (None, None))
        return enum_node_type

    def get_full_qualified_name(self, node: Element) -> str | None:
        """Return full qualified name for given node."""
        pass
commit 3 8 months ago			`"""Support for domains.`

			`Domains are groupings of description directives`
			`and roles describing e.g. constructs of one programming language.`
			`"""`

			`from __future__ import annotations`

			`import copy`
			`from abc import ABC, abstractmethod`
			`from typing import TYPE_CHECKING, Any, Callable, NamedTuple, Optional, cast`

			`from docutils.nodes import Element, Node, system_message`

			`from sphinx.errors import SphinxError`
			`from sphinx.locale import _`

			`if TYPE_CHECKING:`
			`from collections.abc import Iterable, Sequence`

			`from docutils import nodes`
			`from docutils.parsers.rst import Directive`
			`from docutils.parsers.rst.states import Inliner`

			`from sphinx.addnodes import pending_xref`
			`from sphinx.builders import Builder`
			`from sphinx.environment import BuildEnvironment`
			`from sphinx.roles import XRefRole`
			`from sphinx.util.typing import RoleFunction`


			`class ObjType:`
			`"""`
			`An ObjType is the description for a type of object that a domain can`
			`document. In the object_types attribute of Domain subclasses, object type`
			`names are mapped to instances of this class.`

			`Constructor arguments:`

			`- lname: localized name of the type (do not include domain name)`
			`- roles: all the roles that can refer to an object of this type`
			`- attrs: object attributes -- currently only "searchprio" is known,`
			`which defines the object's priority in the full-text search index,`
			see :meth:`Domain.get_objects()`.
			`"""`

			`known_attrs = {`
			`'searchprio': 1,`
			`}`

			`def __init__(self, lname: str, roles: Any, *attrs: Any) -> None:`
			`self.lname = lname`
			`self.roles: tuple = roles`
			`self.attrs: dict = self.known_attrs.copy()`
			`self.attrs.update(attrs)`


			`class IndexEntry(NamedTuple):`
			`name: str`
			`subtype: int`
			`docname: str`
			`anchor: str`
			`extra: str`
			`qualifier: str`
			`descr: str`


			`class Index(ABC):`
			`"""`
			`An Index is the description for a domain-specific index. To add an index to`
			`a domain, subclass Index, overriding the three name attributes:`

			* `name` is an identifier used for generating file names.
			`It is also used for a hyperlink target for the index. Therefore, users can`
			refer the index page using ``ref`` role and a string which is combined
			domain name and ``name`` attribute (ex. ``:ref:`py-modindex```).
			* `localname` is the section title for the index.
			* `shortname` is a short name for the index, for use in the relation bar in
			`HTML output. Can be empty to disable entries in the relation bar.`

			and providing a :meth:`generate()` method. Then, add the index class to
			your domain's `indices` list. Extensions can add indices to existing
			domains using :meth:`~sphinx.application.Sphinx.add_index_to_domain()`.

			`.. versionchanged:: 3.0`

			`Index pages can be referred by domain name and index name via`
			:rst:role:`ref` role.
			`"""`

			`name: str`
			`localname: str`
			`shortname: str \| None = None`

			`def __init__(self, domain: Domain) -> None:`
			`if not self.name or self.localname is None:`
			`raise SphinxError('Index subclass %s has no valid name or localname'`
			`% self.__class__.__name__)`
			`self.domain = domain`

			`@abstractmethod`
			`def generate(self, docnames: Iterable[str] \| None = None,`
			`) -> tuple[list[tuple[str, list[IndexEntry]]], bool]:`
			`"""Get entries for the index.`

			If ``docnames`` is given, restrict to entries referring to these
			`docnames.`

			The return value is a tuple of ``(content, collapse)``:

			``collapse``
			`A boolean that determines if sub-entries should start collapsed (for`
			`output formats that support collapsing sub-entries).`

			``content``:
			A sequence of ``(letter, entries)`` tuples, where ``letter`` is the
			"heading" for the given ``entries``, usually the starting letter, and
			``entries`` is a sequence of single entries. Each entry is a sequence
			``[name, subtype, docname, anchor, extra, qualifier, descr]``. The
			`items in this sequence have the following meaning:`

			``name``
			`The name of the index entry to be displayed.`

			``subtype``
			`The sub-entry related type. One of:`

			``0``
			`A normal entry.`
			``1``
			`An entry with sub-entries.`
			``2``
			`A sub-entry.`

			``docname``
			`docname where the entry is located.`

			``anchor``
			Anchor for the entry within ``docname``

			``extra``
			`Extra info for the entry.`

			``qualifier``
			`Qualifier for the description.`

			``descr``
			`Description for the entry.`

			`Qualifier and description are not rendered for some output formats such`
			`as LaTeX.`
			`"""`
			`raise NotImplementedError`


			`TitleGetter = Callable[[Node], Optional[str]]`


			`class Domain:`
			`"""`
			`A Domain is meant to be a group of "object" description directives for`
			`objects of a similar nature, and corresponding roles to create references to`
			`them. Examples would be Python modules, classes, functions etc., elements`
			`of a templating language, Sphinx roles and directives, etc.`

			`Each domain has a separate storage for information about existing objects`
			and how to reference them in `self.data`, which must be a dictionary. It
			`also must implement several functions that expose the object information in`
			`a uniform way to parts of Sphinx that allow the user to reference or search`
			`for objects in a domain-agnostic way.`

			About `self.data`: since all object and cross-referencing information is
			stored on a BuildEnvironment instance, the `domain.data` object is also
			stored in the `env.domaindata` dict under the key `domain.name`. Before the
			`build process starts, every active domain is instantiated and given the`
			environment object; the `domaindata` dict must then either be nonexistent or
			`a dictionary whose 'version' key is equal to the domain class'`
			:attr:`data_version` attribute. Otherwise, `OSError` is raised and the
			`pickled environment is discarded.`
			`"""`

			`#: domain name: should be short, but unique`
			`name = ''`
			`#: domain label: longer, more descriptive (used in messages)`
			`label = ''`
			`#: type (usually directive) name -> ObjType instance`
			`object_types: dict[str, ObjType] = {}`
			`#: directive name -> directive class`
			`directives: dict[str, type[Directive]] = {}`
			`#: role name -> role callable`
			`roles: dict[str, RoleFunction \| XRefRole] = {}`
			`#: a list of Index subclasses`
			`indices: list[type[Index]] = []`
			`#: role name -> a warning message if reference is missing`
			`dangling_warnings: dict[str, str] = {}`
			`#: node_class -> (enum_node_type, title_getter)`
			`enumerable_nodes: dict[type[Node], tuple[str, TitleGetter \| None]] = {}`
			`#: data value for a fresh environment`
			`initial_data: dict = {}`
			`#: data value`
			`data: dict`
			#: data version, bump this when the format of `self.data` changes
			`data_version = 0`

			`def __init__(self, env: BuildEnvironment) -> None:`
			`self.env: BuildEnvironment = env`
			`self._role_cache: dict[str, Callable] = {}`
			`self._directive_cache: dict[str, Callable] = {}`
			`self._role2type: dict[str, list[str]] = {}`
			`self._type2role: dict[str, str] = {}`

			`# convert class variables to instance one (to enhance through API)`
			`self.object_types = dict(self.object_types)`
			`self.directives = dict(self.directives)`
			`self.roles = dict(self.roles)`
			`self.indices = list(self.indices)`

			`if self.name not in env.domaindata:`
			`assert isinstance(self.initial_data, dict)`
			`new_data = copy.deepcopy(self.initial_data)`
			`new_data['version'] = self.data_version`
			`self.data = env.domaindata[self.name] = new_data`
			`else:`
			`self.data = env.domaindata[self.name]`
			`if self.data['version'] != self.data_version:`
			`raise OSError('data of %r domain out of date' % self.label)`
			`for name, obj in self.object_types.items():`
			`for rolename in obj.roles:`
			`self._role2type.setdefault(rolename, []).append(name)`
			`self._type2role[name] = obj.roles[0] if obj.roles else ''`
			`self.objtypes_for_role = self._role2type.get`
			`self.role_for_objtype = self._type2role.get`

			`def setup(self) -> None:`
			`"""Set up domain object."""`
			`from sphinx.domains.std import StandardDomain`

			`# Add special hyperlink target for index pages (ex. py-modindex)`
			`std = cast(StandardDomain, self.env.get_domain('std'))`
			`for index in self.indices:`
			`if index.name and index.localname:`
			`docname = f"{self.name}-{index.name}"`
			`std.note_hyperlink_target(docname, docname, '', index.localname)`

			`def add_object_type(self, name: str, objtype: ObjType) -> None:`
			`"""Add an object type."""`
			`self.object_types[name] = objtype`
			`if objtype.roles:`
			`self._type2role[name] = objtype.roles[0]`
			`else:`
			`self._type2role[name] = ''`

			`for role in objtype.roles:`
			`self._role2type.setdefault(role, []).append(name)`

			`def role(self, name: str) -> RoleFunction \| None:`
			`"""Return a role adapter function that always gives the registered`
			`role its full name ('domain:name') as the first argument.`
			`"""`
			`if name in self._role_cache:`
			`return self._role_cache[name]`
			`if name not in self.roles:`
			`return None`
			`fullname = f'{self.name}:{name}'`

			`def role_adapter(typ: str, rawtext: str, text: str, lineno: int,`
			`inliner: Inliner, options: dict \| None = None,`
			`content: Sequence[str] = (),`
			`) -> tuple[list[Node], list[system_message]]:`
			`return self.roles[name](fullname, rawtext, text, lineno,`
			`inliner, options or {}, content)`
			`self._role_cache[name] = role_adapter`
			`return role_adapter`

			`def directive(self, name: str) -> Callable \| None:`
			`"""Return a directive adapter class that always gives the registered`
			directive its full name ('domain:name') as ``self.name``.
			`"""`
			`if name in self._directive_cache:`
			`return self._directive_cache[name]`
			`if name not in self.directives:`
			`return None`
			`fullname = f'{self.name}:{name}'`
			`BaseDirective = self.directives[name]`

			`class DirectiveAdapter(BaseDirective): # type: ignore[valid-type,misc]`
			`def run(self) -> list[Node]:`
			`self.name = fullname`
			`return super().run()`
			`self._directive_cache[name] = DirectiveAdapter`
			`return DirectiveAdapter`

			`# methods that should be overwritten`

			`def clear_doc(self, docname: str) -> None:`
			`"""Remove traces of a document in the domain-specific inventories."""`
			`pass`

			`def merge_domaindata(self, docnames: list[str], otherdata: dict[str, Any]) -> None:`
			`"""Merge in data regarding docnames from a different domaindata`
			`inventory (coming from a subprocess in parallel builds).`
			`"""`
			`raise NotImplementedError('merge_domaindata must be implemented in %s '`
			`'to be able to do parallel builds!' %`
			`self.__class__)`

			`def process_doc(self, env: BuildEnvironment, docname: str,`
			`document: nodes.document) -> None:`
			`"""Process a document after it is read by the environment."""`
			`pass`

			`def check_consistency(self) -> None:`
			`"""Do consistency checks (experimental)."""`
			`pass`

			`def process_field_xref(self, pnode: pending_xref) -> None:`
			`"""Process a pending xref created in a doc field.`
			`For example, attach information about the current scope.`
			`"""`
			`pass`

			`def resolve_xref(self, env: BuildEnvironment, fromdocname: str, builder: Builder,`
			`typ: str, target: str, node: pending_xref, contnode: Element,`
			`) -> Element \| None:`
			`"""Resolve the pending_xref node with the given typ and target.`

			`This method should return a new node, to replace the xref node,`
			`containing the contnode which is the markup content of the`
			`cross-reference.`

			`If no resolution can be found, None can be returned; the xref node will`
			then given to the :event:`missing-reference` event, and if that yields no
			`resolution, replaced by contnode.`

			The method can also raise :exc:`sphinx.environment.NoUri` to suppress
			the :event:`missing-reference` event being emitted.
			`"""`
			`pass`

			`def resolve_any_xref(self, env: BuildEnvironment, fromdocname: str, builder: Builder,`
			`target: str, node: pending_xref, contnode: Element,`
			`) -> list[tuple[str, Element]]:`
			`"""Resolve the pending_xref node with the given target.`

			`The reference comes from an "any" or similar role, which means that we`
			`don't know the type. Otherwise, the arguments are the same as for`
			:meth:`resolve_xref`.

			`The method must return a list (potentially empty) of tuples`
			``('domain:role', newnode)``, where ``'domain:role'`` is the name of a
			role that could have created the same reference, e.g. ``'py:func'``.
			``newnode`` is what :meth:`resolve_xref` would return.

			`.. versionadded:: 1.3`
			`"""`
			`raise NotImplementedError`

			`def get_objects(self) -> Iterable[tuple[str, str, str, str, str, int]]:`
			`"""Return an iterable of "object descriptions".`

			`Object descriptions are tuples with six items:`

			``name``
			`Fully qualified name.`

			``dispname``
			`Name to display when searching/linking.`

			``type``
			Object type, a key in ``self.object_types``.

			``docname``
			`The document where it is to be found.`

			``anchor``
			`The anchor name for the object.`

			``priority``
			`How "important" the object is (determines placement in search`
			`results). One of:`

			``1``
			`Default priority (placed before full-text matches).`
			``0``
			`Object is important (placed before default-priority objects).`
			``2``
			`Object is unimportant (placed after full-text matches).`
			``-1``
			`Object should not show up in search at all.`
			`"""`
			`return []`

			`def get_type_name(self, type: ObjType, primary: bool = False) -> str:`
			`"""Return full name for given ObjType."""`
			`if primary:`
			`return type.lname`
			`return _('%s %s') % (self.label, type.lname)`

			`def get_enumerable_node_type(self, node: Node) -> str \| None:`
			`"""Get type of enumerable nodes (experimental)."""`
			`enum_node_type, _ = self.enumerable_nodes.get(node.__class__, (None, None))`
			`return enum_node_type`

			`def get_full_qualified_name(self, node: Element) -> str \| None:`
			`"""Return full qualified name for given node."""`
			`pass`